diff --git a/sma/README.md b/sma/README.md index 63ffbd03..bbb61b63 100644 --- a/sma/README.md +++ b/sma/README.md @@ -5,10 +5,15 @@ nymea plug-in for SMA solar equipment. ## Supported Things * Sunny WebBox +* SMA speedwire Meters +* SMA speedwire Inverters + +> Note: the SMA battery equipment is still missing due to testing possibilities. Will be added as soon someone can with the appropriate setup. ## Requirements * The package "nymea-plugin-sma" must be installed. +* The speedwire port `9522` must not be clocked for UDP packages in the network. ## More https://www.sma.de/en/ diff --git a/sma/integrationpluginsma.cpp b/sma/integrationpluginsma.cpp index 6dfa1835..de3c7036 100644 --- a/sma/integrationpluginsma.cpp +++ b/sma/integrationpluginsma.cpp @@ -1,6 +1,6 @@ /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * -* Copyright 2013 - 2020, nymea GmbH +* Copyright 2013 - 2022, nymea GmbH * Contact: contact@nymea.io * * This file is part of nymea. @@ -31,59 +31,182 @@ #include "integrationpluginsma.h" #include "plugininfo.h" -#include "network/networkdevicediscovery.h" +#include +#include "speedwirediscovery.h" IntegrationPluginSma::IntegrationPluginSma() { } +void IntegrationPluginSma::init() +{ + +} + void IntegrationPluginSma::discoverThings(ThingDiscoveryInfo *info) { - if (!hardwareManager()->networkDeviceDiscovery()->available()) { - qCWarning(dcSma()) << "Failed to discover network devices. The network device discovery is not available."; - info->finish(Thing::ThingErrorHardwareNotAvailable, QT_TR_NOOP("Unable to discover devices in your network.")); - return; - } + if (info->thingClassId() == sunnyWebBoxThingClassId) { + if (!hardwareManager()->networkDeviceDiscovery()->available()) { + qCWarning(dcSma()) << "Failed to discover network devices. The network device discovery is not available."; + info->finish(Thing::ThingErrorHardwareNotAvailable, QT_TR_NOOP("Unable to discover devices in your network.")); + return; + } - qCDebug(dcSma()) << "Starting network discovery..."; - NetworkDeviceDiscoveryReply *discoveryReply = hardwareManager()->networkDeviceDiscovery()->discover(); - connect(discoveryReply, &NetworkDeviceDiscoveryReply::finished, this, [=](){ - ThingDescriptors descriptors; - qCDebug(dcSma()) << "Discovery finished. Found" << discoveryReply->networkDeviceInfos().count() << "devices"; - foreach (const NetworkDeviceInfo &networkDeviceInfo, discoveryReply->networkDeviceInfos()) { - // Filter for sma hosts - if (!networkDeviceInfo.hostName().toLower().contains("sma")) - continue; + qCDebug(dcSma()) << "Starting network discovery..."; + NetworkDeviceDiscoveryReply *discoveryReply = hardwareManager()->networkDeviceDiscovery()->discover(); + connect(discoveryReply, &NetworkDeviceDiscoveryReply::finished, this, [=](){ + ThingDescriptors descriptors; + qCDebug(dcSma()) << "Discovery finished. Found" << discoveryReply->networkDeviceInfos().count() << "devices"; + foreach (const NetworkDeviceInfo &networkDeviceInfo, discoveryReply->networkDeviceInfos()) { + // Filter for sma hosts + if (!networkDeviceInfo.hostName().toLower().contains("sma")) + continue; - QString title = networkDeviceInfo.hostName() + " (" + networkDeviceInfo.address().toString() + ")"; - QString description; - if (networkDeviceInfo.macAddressManufacturer().isEmpty()) { - description = networkDeviceInfo.macAddress(); - } else { - description = networkDeviceInfo.macAddress() + " (" + networkDeviceInfo.macAddressManufacturer() + ")"; + QString title = networkDeviceInfo.hostName() + " (" + networkDeviceInfo.address().toString() + ")"; + QString description; + if (networkDeviceInfo.macAddressManufacturer().isEmpty()) { + description = networkDeviceInfo.macAddress(); + } else { + description = networkDeviceInfo.macAddress() + " (" + networkDeviceInfo.macAddressManufacturer() + ")"; + } + + ThingDescriptor descriptor(sunnyWebBoxThingClassId, title, description); + + // Check for reconfiguration + foreach (Thing *existingThing, myThings()) { + if (existingThing->paramValue(sunnyWebBoxThingMacAddressParamTypeId).toString() == networkDeviceInfo.macAddress()) { + descriptor.setThingId(existingThing->id()); + break; + } + } + + ParamList params; + params << Param(sunnyWebBoxThingHostParamTypeId, networkDeviceInfo.address().toString()); + params << Param(sunnyWebBoxThingMacAddressParamTypeId, networkDeviceInfo.macAddress()); + descriptor.setParams(params); + descriptors.append(descriptor); } + info->addThingDescriptors(descriptors); + info->finish(Thing::ThingErrorNoError); + }); + } else if (info->thingClassId() == speedwireMeterThingClassId) { + SpeedwireDiscovery *speedwireDiscovery = new SpeedwireDiscovery(hardwareManager()->networkDeviceDiscovery(), info); + if (!speedwireDiscovery->initialize()) { + qCWarning(dcSma()) << "Could not discovery inverter. The speedwire interface initialization failed."; + info->finish(Thing::ThingErrorHardwareFailure, QT_TR_NOOP("Unable to discover the network.")); + return; + } - ThingDescriptor descriptor(sunnyWebBoxThingClassId, title, description); + connect(speedwireDiscovery, &SpeedwireDiscovery::discoveryFinished, this, [=](){ + qCDebug(dcSma()) << "Speed wire discovery finished."; + speedwireDiscovery->deleteLater(); - // Check for reconfiguration - foreach (Thing *existingThing, myThings()) { - if (existingThing->paramValue(sunnyWebBoxThingMacAddressParamTypeId).toString() == networkDeviceInfo.macAddress()) { - descriptor.setThingId(existingThing->id()); - break; + ThingDescriptors descriptors; + foreach (const SpeedwireDiscovery::SpeedwireDiscoveryResult &result, speedwireDiscovery->discoveryResult()) { + if (result.deviceType == SpeedwireInterface::DeviceTypeMeter) { + if (result.serialNumber == 0) + continue; + + ThingDescriptor descriptor(speedwireMeterThingClassId, "SMA Energy Meter", "Serial: " + QString::number(result.serialNumber) + " - " + result.address.toString()); + // We found an energy meter, let's check if we already added this one + foreach (Thing *existingThing, myThings()) { + if (existingThing->paramValue(speedwireMeterThingSerialNumberParamTypeId).toUInt() == result.serialNumber) { + descriptor.setThingId(existingThing->id()); + break; + } + } + + ParamList params; + params << Param(speedwireMeterThingHostParamTypeId, result.address.toString()); + params << Param(speedwireMeterThingMacAddressParamTypeId, result.networkDeviceInfo.macAddress()); + params << Param(speedwireMeterThingSerialNumberParamTypeId, result.serialNumber); + params << Param(speedwireMeterThingModelIdParamTypeId, result.modelId); + descriptor.setParams(params); + descriptors.append(descriptor); } } - ParamList params; - params << Param(sunnyWebBoxThingHostParamTypeId, networkDeviceInfo.address().toString()); - params << Param(sunnyWebBoxThingMacAddressParamTypeId, networkDeviceInfo.macAddress()); - descriptor.setParams(params); - descriptors.append(descriptor); - } - info->addThingDescriptors(descriptors); - info->finish(Thing::ThingErrorNoError); - }); + info->addThingDescriptors(descriptors); + info->finish(Thing::ThingErrorNoError); + }); + speedwireDiscovery->startDiscovery(); + } else if (info->thingClassId() == speedwireInverterThingClassId) { + SpeedwireDiscovery *speedwireDiscovery = new SpeedwireDiscovery(hardwareManager()->networkDeviceDiscovery(), info); + if (!speedwireDiscovery->initialize()) { + qCWarning(dcSma()) << "Could not discovery inverter. The speedwire interface initialization failed."; + info->finish(Thing::ThingErrorHardwareFailure, QT_TR_NOOP("Unable to discover the network.")); + return; + } + + connect(speedwireDiscovery, &SpeedwireDiscovery::discoveryFinished, this, [=](){ + qCDebug(dcSma()) << "Speed wire discovery finished."; + speedwireDiscovery->deleteLater(); + + ThingDescriptors descriptors; + foreach (const SpeedwireDiscovery::SpeedwireDiscoveryResult &result, speedwireDiscovery->discoveryResult()) { + if (result.deviceType == SpeedwireInterface::DeviceTypeInverter) { + if (result.serialNumber == 0) + continue; + + ThingDescriptor descriptor(speedwireInverterThingClassId, "SMA Inverter", "Serial: " + QString::number(result.serialNumber) + " - " + result.address.toString()); + // We found an energy meter, let's check if we already added this one + foreach (Thing *existingThing, myThings()) { + if (existingThing->paramValue(speedwireInverterThingSerialNumberParamTypeId).toUInt() == result.serialNumber) { + descriptor.setThingId(existingThing->id()); + break; + } + } + + ParamList params; + params << Param(speedwireInverterThingHostParamTypeId, result.address.toString()); + params << Param(speedwireInverterThingMacAddressParamTypeId, result.networkDeviceInfo.macAddress()); + params << Param(speedwireInverterThingSerialNumberParamTypeId, result.serialNumber); + params << Param(speedwireInverterThingModelIdParamTypeId, result.modelId); + descriptor.setParams(params); + descriptors.append(descriptor); + } + } + + info->addThingDescriptors(descriptors); + info->finish(Thing::ThingErrorNoError); + }); + + speedwireDiscovery->startDiscovery(); + } +} + +void IntegrationPluginSma::startPairing(ThingPairingInfo *info) +{ + info->finish(Thing::ThingErrorNoError, QT_TR_NOOP("Please enter the password of your inverter. If no password has been explicitly set, leave it empty to use the default password for SMA inverters.")); +} + +void IntegrationPluginSma::confirmPairing(ThingPairingInfo *info, const QString &username, const QString &secret) +{ + Q_UNUSED(username) + + // On speedwire the password length has a maximum of 12 characters + if (secret.count() > 12) { + info->finish(Thing::ThingErrorInvalidParameter, QT_TR_NOOP("The password can not be longer than 12 characters.")); + return; + } + + // Init with the default password + QString password = "0000"; + if (!secret.isEmpty()) { + qCDebug(dcSma()) << "Pairing: Using password" << secret; + password = secret; + } else { + qCDebug(dcSma()) << "Pairing: The given password is empty. Using default password" << password; + } + + // Just store details, we'll test the login in setupDevice + pluginStorage()->beginGroup(info->thingId().toString()); + pluginStorage()->setValue("password", password); + pluginStorage()->endGroup(); + + info->finish(Thing::ThingErrorNoError); } void IntegrationPluginSma::setupThing(ThingSetupInfo *info) @@ -121,13 +244,129 @@ void IntegrationPluginSma::setupThing(ThingSetupInfo *info) connect(sunnyWebBox, &SunnyWebBox::connectedChanged, this, &IntegrationPluginSma::onConnectedChanged); connect(sunnyWebBox, &SunnyWebBox::plantOverviewReceived, this, &IntegrationPluginSma::onPlantOverviewReceived); m_sunnyWebBoxes.insert(info->thing(), sunnyWebBox); - - if (!m_refreshTimer) { - qCDebug(dcSma()) << "Starting refresh timer"; - m_refreshTimer = hardwareManager()->pluginTimerManager()->registerTimer(1); - connect(m_refreshTimer, &PluginTimer::timeout, this, &IntegrationPluginSma::onRefreshTimer); - } }); + + } else if (thing->thingClassId() == speedwireMeterThingClassId) { + + QHostAddress address = QHostAddress(thing->paramValue(speedwireMeterThingHostParamTypeId).toString()); + quint32 serialNumber = static_cast(thing->paramValue(speedwireMeterThingSerialNumberParamTypeId).toUInt()); + quint16 modelId = static_cast(thing->paramValue(speedwireMeterThingModelIdParamTypeId).toUInt()); + + if (m_speedwireMeters.contains(thing)) { + m_speedwireMeters.take(thing)->deleteLater(); + } + + SpeedwireMeter *meter = new SpeedwireMeter(address, modelId, serialNumber, this); + if (!meter->initialize()) { + qCWarning(dcSma()) << "Setup failed. Could not initialize meter interface."; + info->finish(Thing::ThingErrorHardwareFailure); + return; + } + + connect(meter, &SpeedwireMeter::reachableChanged, thing, [=](bool reachable){ + thing->setStateValue(speedwireMeterConnectedStateTypeId, reachable); + }); + + connect(meter, &SpeedwireMeter::valuesUpdated, thing, [=](){ + thing->setStateValue(speedwireMeterConnectedStateTypeId, true); + thing->setStateValue(speedwireMeterCurrentPowerStateTypeId, meter->currentPower()); + thing->setStateValue(speedwireMeterCurrentPowerPhaseAStateTypeId, meter->currentPowerPhaseA()); + thing->setStateValue(speedwireMeterCurrentPowerPhaseBStateTypeId, meter->currentPowerPhaseB()); + thing->setStateValue(speedwireMeterCurrentPowerPhaseCStateTypeId, meter->currentPowerPhaseC()); + thing->setStateValue(speedwireMeterVoltagePhaseAStateTypeId, meter->voltagePhaseA()); + thing->setStateValue(speedwireMeterVoltagePhaseBStateTypeId, meter->voltagePhaseB()); + thing->setStateValue(speedwireMeterVoltagePhaseCStateTypeId, meter->voltagePhaseC()); + thing->setStateValue(speedwireMeterTotalEnergyConsumedStateTypeId, meter->totalEnergyConsumed()); + thing->setStateValue(speedwireMeterTotalEnergyProducedStateTypeId, meter->totalEnergyProduced()); + thing->setStateValue(speedwireMeterEnergyConsumedPhaseAStateTypeId, meter->energyConsumedPhaseA()); + thing->setStateValue(speedwireMeterEnergyConsumedPhaseBStateTypeId, meter->energyConsumedPhaseB()); + thing->setStateValue(speedwireMeterEnergyConsumedPhaseCStateTypeId, meter->energyConsumedPhaseC()); + thing->setStateValue(speedwireMeterEnergyProducedPhaseAStateTypeId, meter->energyProducedPhaseA()); + thing->setStateValue(speedwireMeterEnergyProducedPhaseBStateTypeId, meter->energyProducedPhaseB()); + thing->setStateValue(speedwireMeterEnergyProducedPhaseCStateTypeId, meter->energyProducedPhaseC()); + thing->setStateValue(speedwireMeterCurrentPhaseAStateTypeId, meter->amperePhaseA()); + thing->setStateValue(speedwireMeterCurrentPhaseBStateTypeId, meter->amperePhaseB()); + thing->setStateValue(speedwireMeterCurrentPhaseCStateTypeId, meter->amperePhaseC()); + thing->setStateValue(speedwireMeterFirmwareVersionStateTypeId, meter->softwareVersion()); + }); + + m_speedwireMeters.insert(thing, meter); + info->finish(Thing::ThingErrorNoError); + + } else if (thing->thingClassId() == speedwireInverterThingClassId) { + + QHostAddress address = QHostAddress(thing->paramValue(speedwireInverterThingHostParamTypeId).toString()); + quint32 serialNumber = static_cast(thing->paramValue(speedwireInverterThingSerialNumberParamTypeId).toUInt()); + quint16 modelId = static_cast(thing->paramValue(speedwireInverterThingModelIdParamTypeId).toUInt()); + + if (m_speedwireInverters.contains(thing)) { + m_speedwireInverters.take(thing)->deleteLater(); + } + + SpeedwireInverter *inverter = new SpeedwireInverter(address, modelId, serialNumber, this); + if (!inverter->initialize()) { + qCWarning(dcSma()) << "Setup failed. Could not initialize inverter interface."; + info->finish(Thing::ThingErrorHardwareFailure); + return; + } + + qCDebug(dcSma()) << "Inverter: Interface initialized successfully."; + + QString password; + pluginStorage()->beginGroup(info->thing()->id().toString()); + password = pluginStorage()->value("password", "0000").toString(); + pluginStorage()->endGroup(); + + // Connection exists only as long info exists + connect(inverter, &SpeedwireInverter::loginFinished, info, [=](bool success){ + if (!success) { + qCWarning(dcSma()) << "Failed to set up inverter. Wrong password."; + + // Remove invalid password from settings + pluginStorage()->beginGroup(info->thing()->id().toString()); + pluginStorage()->remove(""); + pluginStorage()->endGroup(); + + delete inverter; + info->finish(Thing::ThingErrorAuthenticationFailure, QT_TR_NOOP("Failed to log in with the given password. Please try again.")); + return; + } + + qCDebug(dcSma()) << "Inverter set up successfully."; + m_speedwireInverters.insert(thing, inverter); + info->finish(Thing::ThingErrorNoError); + // Note: the data is already refreshing here + }); + + // Make sure an aborted setup will clean up the object + connect(info, &ThingSetupInfo::aborted, inverter, &SpeedwireInverter::deleteLater); + + // Runtime connections + connect(inverter, &SpeedwireInverter::reachableChanged, thing, [=](bool reachable){ + thing->setStateValue(speedwireInverterConnectedStateTypeId, reachable); + }); + + connect(inverter, &SpeedwireInverter::valuesUpdated, thing, [=](){ + thing->setStateValue(speedwireInverterTotalEnergyProducedStateTypeId, inverter->totalEnergyProduced()); + thing->setStateValue(speedwireInverterEnergyProducedTodayStateTypeId, inverter->todayEnergyProduced()); + thing->setStateValue(speedwireInverterCurrentPowerStateTypeId, -inverter->totalAcPower()); + thing->setStateValue(speedwireInverterFrequencyStateTypeId, inverter->gridFrequency()); + + thing->setStateValue(speedwireInverterVoltagePhaseAStateTypeId, inverter->voltageAcPhase1()); + thing->setStateValue(speedwireInverterVoltagePhaseBStateTypeId, inverter->voltageAcPhase2()); + thing->setStateValue(speedwireInverterVoltagePhaseCStateTypeId, inverter->voltageAcPhase3()); + + thing->setStateValue(speedwireInverterCurrentPhaseAStateTypeId, inverter->currentAcPhase1()); + thing->setStateValue(speedwireInverterCurrentPhaseBStateTypeId, inverter->currentAcPhase2()); + thing->setStateValue(speedwireInverterCurrentPhaseCStateTypeId, inverter->currentAcPhase3()); + + thing->setStateValue(speedwireInverterCurrentPowerMpp1StateTypeId, inverter->powerDcMpp1()); + thing->setStateValue(speedwireInverterCurrentPowerMpp2StateTypeId, inverter->powerDcMpp2()); + }); + + qCDebug(dcSma()) << "Inverter: Start connecting using password" << password; + inverter->startConnecting(password); + } else { Q_ASSERT_X(false, "setupThing", QString("Unhandled thingClassId: %1").arg(thing->thingClassId().toString()).toUtf8()); } @@ -140,8 +379,19 @@ void IntegrationPluginSma::postSetupThing(Thing *thing) SunnyWebBox *sunnyWebBox = m_sunnyWebBoxes.value(thing); if (!sunnyWebBox) return; + + setupRefreshTimer(); sunnyWebBox->getPlantOverview(); thing->setStateValue(sunnyWebBoxConnectedStateTypeId, true); + } else if (thing->thingClassId() == speedwireInverterThingClassId) { + SpeedwireInverter *inverter = m_speedwireInverters.value(thing); + if (inverter) { + thing->setStateValue(speedwireInverterConnectedStateTypeId, inverter->reachable()); + } else { + thing->setStateValue(speedwireInverterConnectedStateTypeId, false); + } + + setupRefreshTimer(); } } @@ -151,6 +401,14 @@ void IntegrationPluginSma::thingRemoved(Thing *thing) m_sunnyWebBoxes.take(thing)->deleteLater(); } + if (thing->thingClassId() == speedwireMeterThingClassId && m_speedwireMeters.contains(thing)) { + m_speedwireMeters.take(thing)->deleteLater(); + } + + if (thing->thingClassId() == speedwireInverterThingClassId && m_speedwireInverters.contains(thing)) { + m_speedwireInverters.take(thing)->deleteLater(); + } + if (myThings().isEmpty()) { qCDebug(dcSma()) << "Stopping timer"; hardwareManager()->pluginTimerManager()->unregisterTimer(m_refreshTimer); @@ -158,19 +416,12 @@ void IntegrationPluginSma::thingRemoved(Thing *thing) } } -void IntegrationPluginSma::onRefreshTimer() -{ - Q_FOREACH(Thing *thing, myThings().filterByThingClassId(sunnyWebBoxThingClassId)) { - SunnyWebBox *sunnyWebBox = m_sunnyWebBoxes.value(thing); - sunnyWebBox->getPlantOverview(); - } -} - void IntegrationPluginSma::onConnectedChanged(bool connected) { Thing *thing = m_sunnyWebBoxes.key(static_cast(sender())); if (!thing) return; + thing->setStateValue(sunnyWebBoxConnectedStateTypeId, connected); } @@ -192,3 +443,25 @@ void IntegrationPluginSma::onPlantOverviewReceived(const QString &messageId, Sun thing->setStateValue(sunnyWebBoxErrorStateTypeId, overview.error); } } + +void IntegrationPluginSma::setupRefreshTimer() +{ + // If already set up... + if (m_refreshTimer) + return; + + m_refreshTimer = hardwareManager()->pluginTimerManager()->registerTimer(2); + connect(m_refreshTimer, &PluginTimer::timeout, this, [=](){ + foreach (Thing *thing, myThings().filterByThingClassId(sunnyWebBoxThingClassId)) { + SunnyWebBox *sunnyWebBox = m_sunnyWebBoxes.value(thing); + sunnyWebBox->getPlantOverview(); + } + + foreach (SpeedwireInverter *inverter, m_speedwireInverters) { + // Note: refresh will not be triggered if there is already a refresh process running + inverter->refresh(); + } + }); + + m_refreshTimer->start(); +} diff --git a/sma/integrationpluginsma.h b/sma/integrationpluginsma.h index 3c20919f..fc509d0b 100644 --- a/sma/integrationpluginsma.h +++ b/sma/integrationpluginsma.h @@ -1,6 +1,6 @@ /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * -* Copyright 2013 - 2020, nymea GmbH +* Copyright 2013 - 2022, nymea GmbH * Contact: contact@nymea.io * * This file is part of nymea. @@ -31,11 +31,12 @@ #ifndef INTEGRATIONPLUGINSMA_H #define INTEGRATIONPLUGINSMA_H -#include "integrations/integrationplugin.h" -#include "plugintimer.h" -#include "sunnywebbox.h" +#include +#include -#include +#include "sunnywebbox.h" +#include "speedwiremeter.h" +#include "speedwireinverter.h" class IntegrationPluginSma: public IntegrationPlugin { Q_OBJECT @@ -45,20 +46,28 @@ class IntegrationPluginSma: public IntegrationPlugin { public: explicit IntegrationPluginSma(); + void init() override; void discoverThings(ThingDiscoveryInfo *info) override; + + void startPairing(ThingPairingInfo *info) override; + void confirmPairing(ThingPairingInfo *info, const QString &username, const QString &secret) override; + void setupThing(ThingSetupInfo *info) override; void postSetupThing(Thing *thing) override; void thingRemoved(Thing *thing) override; private slots: - void onRefreshTimer(); - void onConnectedChanged(bool connected); void onPlantOverviewReceived(const QString &messageId, SunnyWebBox::Overview overview); + void setupRefreshTimer(); + private: PluginTimer *m_refreshTimer = nullptr; + QHash m_sunnyWebBoxes; + QHash m_speedwireMeters; + QHash m_speedwireInverters; }; #endif // INTEGRATIONPLUGINSMA_H diff --git a/sma/integrationpluginsma.json b/sma/integrationpluginsma.json index 0a542fe4..e268d48a 100644 --- a/sma/integrationpluginsma.json +++ b/sma/integrationpluginsma.json @@ -6,14 +6,14 @@ { "id": "16d5a4a3-36d5-46c0-b7dd-df166ddf5981", "name": "Sma", - "displayName": "SMA", + "displayName": "SMA Solar Technology AG", "thingClasses": [ { "id": "49304127-ce9b-45dd-8511-05030a4ac003", "name": "sunnyWebBox", "displayName": "Sunny WebBox", - "createMethods": ["user", "discovery"], - "interfaces": ["smartmeterproducer"], + "createMethods": ["discovery", "user"], + "interfaces": ["solarinverter"], "paramTypes": [ { "id": "864d4162-e3ce-48b8-b8ac-c1b971b52d42", @@ -26,7 +26,7 @@ { "id": "03f32361-4e13-4597-a346-af8d16a986b3", "name": "macAddress", - "displayName": "hardware address", + "displayName": "MAC address", "type": "QString", "inputType": "TextLine", "readOnly": true @@ -85,6 +85,401 @@ "defaultValue": "None" } ] + }, + { + "id": "0c5097af-e136-4430-9fb4-0ccbb30c3e1c", + "name": "speedwireMeter", + "displayName": "SMA Energy Meter", + "createMethods": ["discovery", "user"], + "interfaces": [ "energymeter" ], + "paramTypes": [ + { + "id": "d90193e6-a996-4e49-bf6d-564d596d7e74", + "name": "host", + "displayName": "Host address", + "type": "QString", + "inputType": "IPv4Address", + "defaultValue": "192.168.0.168" + }, + { + "id": "2780eab7-1f1c-4cc7-a789-a8790329ca9e", + "name": "macAddress", + "displayName": "MAC address", + "type": "QString", + "inputType": "TextLine", + "readOnly": true, + "defaultValue": "" + }, + { + "id": "7c81a0c5-9bc6-43bb-a01a-4de5fe656bba", + "name": "serialNumber", + "displayName": "Serial number", + "type": "QString", + "inputType": "TextLine", + "readOnly": true, + "defaultValue": "" + }, + { + "id": "abdc114d-1fac-4454-8b82-871ed5cdf28c", + "name": "modelId", + "displayName": "Model ID", + "type": "uint", + "inputType": "TextLine", + "readOnly": true, + "defaultValue": "" + } + ], + "stateTypes": [ + { + "id": "35733d27-4fe0-439a-be71-7c1597481659", + "name": "connected", + "displayName": "Connected", + "displayNameEvent": "Connected changed", + "type": "bool", + "defaultValue": false + }, + { + "id": "44ee2491-8376-41cd-a21d-185c736152ec", + "name": "voltagePhaseA", + "displayName": "Voltage phase A", + "displayNameEvent": "Voltage phase A changed", + "type": "double", + "unit": "Volt", + "defaultValue": 0 + }, + { + "id": "56ae3555-f874-4c2d-8833-17573dce477a", + "name": "voltagePhaseB", + "displayName": "Voltage phase B", + "displayNameEvent": "Voltage phase B changed", + "type": "double", + "unit": "Volt", + "defaultValue": 0 + }, + { + "id": "51cbb29b-29f0-480a-9d7d-b8f4e6a205ae", + "name": "voltagePhaseC", + "displayName": "Voltage phase C", + "displayNameEvent": "Voltage phase C changed", + "type": "double", + "unit": "Volt", + "defaultValue": 0 + }, + { + "id": "45bbdbef-1832-4870-bff5-299e580fb4da", + "name": "currentPhaseA", + "displayName": "Current phase A", + "displayNameEvent": "Current phase A changed", + "type": "double", + "unit": "Ampere", + "defaultValue": 0 + }, + { + "id": "b3a4fdd2-b6b8-4c58-9da3-2084ad414022", + "name": "currentPhaseB", + "displayName": "Current phase B", + "displayNameEvent": "Current phase B changed", + "type": "double", + "unit": "Ampere", + "defaultValue": 0 + }, + { + "id": "b3655188-3854-4336-ae3c-61d3bda6fc4d", + "name": "currentPhaseC", + "displayName": "Current phase C", + "displayNameEvent": "Current phase C changed", + "type": "double", + "unit": "Ampere", + "defaultValue": 0 + }, + { + "id": "d4ac7f37-e30a-44e4-93cb-ad16df18b8f1", + "name": "currentPower", + "displayName": "Current power", + "displayNameEvent": "Current power changed", + "type": "double", + "unit": "Watt", + "defaultValue": 0 + }, + { + "id": "c5d09c63-7461-4fb8-a6fe-bc7aa919be30", + "name": "currentPowerPhaseA", + "displayName": "Current power phase A", + "displayNameEvent": "Current power phase A changed", + "type": "double", + "unit": "Watt", + "defaultValue": 0 + }, + { + "id": "c52d4422-b521-4804-a7a7-c4398e91e760", + "name": "currentPowerPhaseB", + "displayName": "Current power phase B", + "displayNameEvent": "Current power phase B changed", + "type": "double", + "unit": "Watt", + "defaultValue": 0 + }, + { + "id": "555e892c-3ca7-4100-9832-6ac13b87eb04", + "name": "currentPowerPhaseC", + "displayName": "Current power phase C", + "displayNameEvent": "Current power phase C changed", + "type": "double", + "unit": "Watt", + "defaultValue": 0 + }, + { + "id": "4fb0a4c1-18ed-4d02-b6d0-c07e9b96a56d", + "name": "totalEnergyConsumed", + "displayName": "Total energy consumed", + "displayNameEvent": "Total energy consumed changed", + "type": "double", + "unit": "KiloWattHour", + "defaultValue": 0.00 + }, + { + "id": "76ca68d8-6781-4d2a-8663-440aec40b4de", + "name": "totalEnergyProduced", + "displayName": "Total energy produced", + "displayNameEvent": "Total energy produced changed", + "type": "double", + "unit": "KiloWattHour", + "defaultValue": 0.00 + }, + { + "id": "b4ff2c71-f81d-4904-bbac-0c0c6e8a5a33", + "name": "energyConsumedPhaseA", + "displayName": "Energy consumed phase A", + "displayNameEvent": "Energy consumed phase A changed", + "type": "double", + "unit": "KiloWattHour", + "defaultValue": 0.00 + }, + { + "id": "c4e5f569-ac5d-4761-a898-888880bfd59f", + "name": "energyConsumedPhaseB", + "displayName": "Energy consumed phase B", + "displayNameEvent": "Energy consumed phase B changed", + "type": "double", + "unit": "KiloWattHour", + "defaultValue": 0.00 + }, + { + "id": "aabc02d7-8dc3-4637-8bf2-dc2e0e737ad3", + "name": "energyConsumedPhaseC", + "displayName": "Energy consumed phase C", + "displayNameEvent": "Energy consumed phase C changed", + "type": "double", + "unit": "KiloWattHour", + "defaultValue": 0.00 + }, + { + "id": "754c3b67-768a-47f7-99d8-f66c198f0835", + "name": "energyProducedPhaseA", + "displayName": "Energy produced phase A", + "displayNameEvent": "Energy produced phase A changed", + "type": "double", + "unit": "KiloWattHour", + "defaultValue": 0.00 + }, + { + "id": "7eb08c45-24cf-40ce-be28-f3564f087672", + "name": "energyProducedPhaseB", + "displayName": "Energy produced phase B", + "displayNameEvent": "Energy produced phase B changed", + "type": "double", + "unit": "KiloWattHour", + "defaultValue": 0.00 + }, + { + "id": "1eb2bf01-5ec6-42e5-b348-ac1e95199d14", + "name": "energyProducedPhaseC", + "displayName": "Energy produced phase C", + "displayNameEvent": "Energy produced phase C changed", + "type": "double", + "unit": "KiloWattHour", + "defaultValue": 0.00 + }, + { + "id": "a685393c-8b7e-42c5-bb41-f9907c074626", + "name": "firmwareVersion", + "displayName": "Firmware version", + "displayNameEvent": "Firmware version changed", + "type": "QString", + "defaultValue": "" + } + ] + }, + { + "id": "b63a0669-f2ac-4769-abea-e14cafb2309a", + "name": "speedwireInverter", + "displayName": "SMA Inverter", + "createMethods": ["discovery", "user"], + "setupMethod": "EnterPin", + "interfaces": [ "solarinverter" ], + "paramTypes": [ + { + "id": "c8098d53-69eb-4d0b-9f07-e43c4a0ea9a9", + "name": "host", + "displayName": "Host address", + "type": "QString", + "inputType": "IPv4Address", + "defaultValue": "192.168.0.168" + }, + { + "id": "7df0ab60-0f11-4495-8e0d-508ba2b6d858", + "name": "macAddress", + "displayName": "MAC address", + "type": "QString", + "inputType": "TextLine", + "readOnly": true, + "defaultValue": "" + }, + { + "id": "e42242b4-2811-47f9-b42b-b150ed233217", + "name": "serialNumber", + "displayName": "Serial number", + "type": "QString", + "inputType": "TextLine", + "readOnly": true, + "defaultValue": "" + }, + { + "id": "d9892f74-5b93-4c98-8da2-72aca033273a", + "name": "modelId", + "displayName": "Model ID", + "type": "uint", + "inputType": "TextLine", + "readOnly": true, + "defaultValue": 0 + } + ], + "stateTypes": [ + { + "id": "aaff72c3-c70a-4a2f-bed1-89f38cebe442", + "name": "connected", + "displayName": "Connected", + "displayNameEvent": "Connected changed", + "type": "bool", + "defaultValue": false + }, + { + "id": "6ef4eb16-a3d6-4bc9-972d-5e7cb81173a5", + "name": "voltagePhaseA", + "displayName": "Voltage phase A", + "displayNameEvent": "Voltage phase A changed", + "type": "double", + "unit": "Volt", + "defaultValue": 0 + }, + { + "id": "d9a5768b-1bf5-4933-810d-84dd7a688f71", + "name": "voltagePhaseB", + "displayName": "Voltage phase B", + "displayNameEvent": "Voltage phase B changed", + "type": "double", + "unit": "Volt", + "defaultValue": 0 + }, + { + "id": "fc168dc6-eecf-40b4-b214-3e28da0dbb12", + "name": "voltagePhaseC", + "displayName": "Voltage phase C", + "displayNameEvent": "Voltage phase C changed", + "type": "double", + "unit": "Volt", + "defaultValue": 0 + }, + { + "id": "2a6c59ca-853a-47d6-96fb-0c85edf32f52", + "name": "currentPhaseA", + "displayName": "Current phase A", + "displayNameEvent": "Current phase A changed", + "type": "double", + "unit": "Ampere", + "defaultValue": 0 + }, + { + "id": "4db96fec-737c-4c4b-bf07-5ef2fd62508a", + "name": "currentPhaseB", + "displayName": "Current phase B", + "displayNameEvent": "Current phase B changed", + "type": "double", + "unit": "Ampere", + "defaultValue": 0 + }, + { + "id": "0f23fb0e-a440-4ac2-9aff-896bc65feb2c", + "name": "currentPhaseC", + "displayName": "Current phase C", + "displayNameEvent": "Current phase C changed", + "type": "double", + "unit": "Ampere", + "defaultValue": 0 + }, + { + "id": "d7ceb482-5df8-4c0c-82bd-62ce7ba22c43", + "name": "currentPower", + "displayName": "Current power", + "displayNameEvent": "Current power changed", + "type": "double", + "unit": "Watt", + "defaultValue": 0 + }, + { + "id": "b366f680-6134-488b-8362-b1b824a8daca", + "name": "currentPowerMpp1", + "displayName": "DC power MPP1", + "displayNameEvent": "DC power MPP1 changed", + "type": "double", + "unit": "Watt", + "defaultValue": 0 + }, + { + "id": "87d9b654-5558-47a3-9db9-ffd7c23b4774", + "name": "currentPowerMpp2", + "displayName": "DC power MPP2", + "displayNameEvent": "DC power MPP2 changed", + "type": "double", + "unit": "Watt", + "defaultValue": 0 + }, + { + "id": "51cadd66-2cf1-485a-a2a9-191d11abfbd1", + "name": "totalEnergyProduced", + "displayName": "Total energy produced", + "displayNameEvent": "Total energy produced changed", + "type": "double", + "unit": "KiloWattHour", + "defaultValue": 0.00 + }, + { + "id": "e8bc8f81-e5c5-4900-b429-93fcaa262fcb", + "name": "energyProducedToday", + "displayName": "Energy produced today", + "displayNameEvent": "Energy produced today changed", + "type": "double", + "unit": "KiloWattHour", + "defaultValue": 0.00 + }, + { + "id": "fdccf5de-7413-4480-9ca0-1151665dede8", + "name": "frequency", + "displayName": "Frequency", + "displayNameEvent": "Frequency changed", + "type": "double", + "unit": "Hertz", + "defaultValue": 0.00 + }, + { + "id": "6d76cc7b-9e00-4561-be7b-4e2a6b8f7b66", + "name": "firmwareVersion", + "displayName": "Firmware version", + "displayNameEvent": "Firmware version changed", + "type": "QString", + "defaultValue": "" + } + ] } ] } diff --git a/sma/meta.json b/sma/meta.json index b2bee247..be875944 100644 --- a/sma/meta.json +++ b/sma/meta.json @@ -8,6 +8,6 @@ "network" ], "categories": [ - + "energy" ] } diff --git a/sma/sma.pro b/sma/sma.pro index 5e124771..e663b33a 100644 --- a/sma/sma.pro +++ b/sma/sma.pro @@ -4,8 +4,21 @@ QT += network SOURCES += \ integrationpluginsma.cpp \ + speedwirediscovery.cpp \ + speedwireinterface.cpp \ + speedwireinverter.cpp \ + speedwireinverterreply.cpp \ + speedwireinverterrequest.cpp \ + speedwiremeter.cpp \ sunnywebbox.cpp HEADERS += \ integrationpluginsma.h \ + speedwire.h \ + speedwirediscovery.h \ + speedwireinterface.h \ + speedwireinverter.h \ + speedwireinverterreply.h \ + speedwireinverterrequest.h \ + speedwiremeter.h \ sunnywebbox.h diff --git a/sma/speedwire.h b/sma/speedwire.h new file mode 100644 index 00000000..df92f5c5 --- /dev/null +++ b/sma/speedwire.h @@ -0,0 +1,301 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2022, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#ifndef SPEEDWIRE_H +#define SPEEDWIRE_H + +#include +#include +#include +#include +#include + +class Speedwire +{ + Q_GADGET +public: + enum Command { + CommandIdentify = 0x00000201, + CommandQueryStatus = 0x51800200, + CommandQueryAc = 0x51000200, + CommandQueryDc = 0x53800200, + CommandQueryEnergy = 0x54000200, + CommandQueryDevice = 0x58000200, + CommandQueryDeviceResponse = 58000201, + CommandLogin = 0xfffd040c, + CommandLogout = 0xfffd010e, + CommandLoginResponse = 0x0ffdf40d + }; + Q_ENUM(Command) + + enum ProtocolId { + ProtocolIdUnknown = 0x0000, + ProtocolIdMeter = 0x6069, + ProtocolIdInverter = 0x6065, + ProtocolIdDiscoveryResponse = 0x0001, + ProtocolIdDiscovery = 0xffff + }; + Q_ENUM(ProtocolId) + + enum DeviceClass { + DeviceClassUnknown = 0x0000, + DeviceClassAllDevices = 0x1f40, + DeviceClassSolarInverter = 0x1f41, + DeviceClassWindTurbine = 0x1f42, + DeviceClassBatteryInverter = 0x1f47, + DeviceClassConsumer = 0x1f61, + DeviceClassSensorSystem = 0x1f80, + DeviceClassElectricityMeter = 0x1f81, + DeviceClassCommunicationProduct = 0x1fc0 + }; + Q_ENUM(DeviceClass) + + class Header + { + public: + Header() = default; + quint32 smaSignature = 0; + quint16 headerLength = 0; + quint16 tagType = 0; + quint16 tagVersion = 0; + quint16 group = 0; + quint16 payloadLength = 0; + quint16 smaNet2Version = 0; + ProtocolId protocolId = ProtocolIdUnknown; + + inline bool isValid() const { + return smaSignature == Speedwire::smaSignature() && protocolId != ProtocolIdUnknown; + } + }; + + typedef struct InverterPacket { + quint8 wordCount = 0; + quint8 control = 0; + quint16 destinationModelId = 0; + quint32 destinationSerialNumber = 0; + quint16 destinationControl = 0; + quint16 sourceModelId = 0; + quint32 sourceSerialNumber = 0; + quint16 sourceControl = 0; + quint16 errorCode = 0; + quint16 fragmentId = 0; + quint16 packetId = 0; + quint32 command = 0; + } InverterPacket; + + Speedwire() = default; + + //static QHash deviceTypes = { {0x0000, "Unknwon"} }; + + static quint16 port() { return 9522; } + static QHostAddress multicastAddress() { return QHostAddress("239.12.255.254"); } + static quint32 smaSignature() { return 0x534d4100; } + static quint16 tag0() { return 0x02a0; } + static quint16 tagVersion() { return 0; } + static quint16 smaNet2Version() { return 0x0010; } + + static QString getModelName(quint16 modelIdentifier) { + switch (modelIdentifier) { + case 9015: return "SB 700"; + case 9016: return "SB 700U"; + case 9017: return "SB 1100"; + case 9018: return "SB 1100U"; + case 9019: return "SB 1100LV"; + case 9020: return "SB 1700"; + case 9021: return "SB 1900TLJ"; + case 9022: return "SB 2100TL"; + case 9023: return "SB 2500"; + case 9024: return "SB 2800"; + case 9025: return "SB 2800i"; + case 9026: return "SB 3000"; + case 9027: return "SB 3000US"; + case 9028: return "SB 3300"; + case 9029: return "SB 3300U"; + case 9030: return "SB 3300TL"; + case 9031: return "SB 3300TL HC"; + case 9032: return "SB 3800"; + case 9033: return "SB 3800U"; + case 9034: return "SB 4000US"; + case 9035: return "SB 4200TL"; + case 9036: return "SB 4200TL HC"; + case 9037: return "SB 5000TL"; + case 9038: return "SB 5000TLW"; + case 9039: return "SB 5000TL HC"; + case 9066: return "SB 1200"; + case 9067: return "STP 10000TL-10"; + case 9068: return "STP 12000TL-10"; + case 9069: return "STP 15000TL-10"; + case 9070: return "STP 17000TL-10"; + case 9084: return "WB 3600TL-20"; + case 9085: return "WB 5000TL-20"; + case 9086: return "SB 3800US-10"; + case 9098: return "STP 5000TL-20"; + case 9099: return "STP 6000TL-20"; + case 9100: return "STP 7000TL-20"; + case 9101: return "STP 8000TL-10"; + case 9102: return "STPcase 9000TL-20"; + case 9103: return "STP 8000TL-20"; + case 9104: return "SB 3000TL-JP-21"; + case 9105: return "SB 3500TL-JP-21"; + case 9106: return "SB 4000TL-JP-21"; + case 9107: return "SB 4500TL-JP-21"; + case 9108: return "SCSMC"; + case 9109: return "SB 1600TL-10"; + case 9131: return "STP 20000TL-10"; + case 9139: return "STP 20000TLHE-10"; + case 9140: return "STP 15000TLHE-10"; + case 9157: return "Sunny Island 2012"; + case 9158: return "Sunny Island 2224"; + case 9159: return "Sunny Island 5048"; + case 9160: return "SB 3600TL-20"; + case 9168: return "SC630HE-11"; + case 9169: return "SC500HE-11"; + case 9170: return "SC400HE-11"; + case 9171: return "WB 3000TL-21"; + case 9172: return "WB 3600TL-21"; + case 9173: return "WB 4000TL-21"; + case 9174: return "WB 5000TL-21"; + case 9175: return "SC 250"; + case 9176: return "SMA Meteo Station"; + case 9177: return "SB 240-10"; + case 9179: return "Multigate-10"; + case 9180: return "Multigate-US-10"; + case 9181: return "STP 20000TLEE-10"; + case 9182: return "STP 15000TLEE-10"; + case 9183: return "SB 2000TLST-21"; + case 9184: return "SB 2500TLST-21"; + case 9185: return "SB 3000TLST-21"; + case 9186: return "WB 2000TLST-21"; + case 9187: return "WB 2500TLST-21"; + case 9188: return "WB 3000TLST-21"; + case 9189: return "WTP 5000TL-20"; + case 9190: return "WTP 6000TL-20"; + case 9191: return "WTP 7000TL-20"; + case 9192: return "WTP 8000TL-20"; + case 9193: return "WTPcase 9000TL-20"; + case 9254: return "Sunny Island 3324"; + case 9255: return "Sunny Island 4.0M"; + case 9256: return "Sunny Island 4248"; + case 9257: return "Sunny Island 4248U"; + case 9258: return "Sunny Island 4500"; + case 9259: return "Sunny Island 4548U"; + case 9260: return "Sunny Island 5.4M"; + case 9261: return "Sunny Island 5048U"; + case 9262: return "Sunny Island 6048U"; + case 9278: return "Sunny Island 3.0M"; + case 9279: return "Sunny Island 4.4M"; + case 9281: return "STP 10000TL-20"; + case 9282: return "STP 11000TL-20"; + case 9283: return "STP 12000TL-20"; + case 9284: return "STP 20000TL-30"; + case 9285: return "STP 25000TL-30"; + case 9301: return "SB1.5-1VL-40"; + case 9302: return "SB2.5-1VL-40"; + case 9303: return "SB2.0-1VL-40"; + case 9304: return "SB5.0-1SP-US-40"; + case 9305: return "SB6.0-1SP-US-40"; + case 9306: return "SB8.0-1SP-US-40"; + case 9307: return "Energy Meter"; + default: return "Unknown"; + } + }; + + // Multicast device discovery request packet, according to SMA documentation. + // However, this does not seem to be supported anymore with version 3.x devices + // 0x53, 0x4d, 0x41, 0x00, 0x00, 0x04, 0x02, 0xa0, // sma signature, tag0 + // 0xff, 0xff, 0xff, 0xff, 0x00, 0x00, 0x00, 0x20, // 0xffffffff group, 0x0000 length, 0x0020 "SMA Net ?", Version ? + // 0x00, 0x00, 0x00, 0x00 // 0x0000 protocol, 0x00 #long words, 0x00 ctrl + + // Unicast device discovery request packet, according to SMA documentation + // 0x53, 0x4d, 0x41, 0x00, 0x00, 0x04, 0x02, 0xa0, // sma signature, tag0 + // 0x00, 0x00, 0x00, 0x01, 0x00, 0x26, 0x00, 0x10, // 0x26 length, 0x0010 "SMA Net 2", Version 0 + // 0x60, 0x65, 0x09, 0xa0, 0xff, 0xff, 0xff, 0xff, // 0x6065 protocol, 0x09 #long words, 0xa0 ctrl, 0xffff dst susyID any, 0xffffffff dst serial any + // 0xff, 0xff, 0x00, 0x00, 0x7d, 0x00, 0x52, 0xbe, // 0x0000 dst cntrl, 0x007d src susy id, 0x3a28be52 src serial + // 0x28, 0x3a, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 0x0000 src cntrl, 0x0000 error code, 0x0000 fragment ID + // 0x01, 0x80, 0x00, 0x02, 0x00, 0x00, 0x00, 0x00, // 0x8001 packet ID + // 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + // 0x00, 0x00 + + static QByteArray discoveryDatagramMulticast() { return QByteArray::fromHex("534d4100000402a0ffffffff0000002000000000"); } + static QByteArray discoveryResponseDatagram() { return QByteArray::fromHex("534d4100000402A000000001000200000001"); } + static QByteArray discoveryDatagramUnicast() { return QByteArray::fromHex("534d4100000402a00000000100260010606509a0ffffffffffff00007d0052be283a000000000000018000020000000000000000000000000000"); } + + static Speedwire::Header parseHeader(QDataStream &stream) { + stream.setByteOrder(QDataStream::BigEndian); + Header header; + quint16 protocolId; + stream >> header.smaSignature >> header.headerLength; + stream >> header.tagType >> header.tagVersion >> header.group; + stream >> header.payloadLength >> header.smaNet2Version; + stream >> protocolId; + header.protocolId = static_cast(protocolId); + return header; + }; + + static Speedwire::InverterPacket parseInverterPacket(QDataStream &stream) { + // Make sure the data stream is little endian + stream.setByteOrder(QDataStream::LittleEndian); + InverterPacket packet; + stream >> packet.wordCount; + stream >> packet.control; + stream >> packet.destinationModelId; + stream >> packet.destinationSerialNumber; + stream >> packet.destinationControl; + stream >> packet.sourceModelId; + stream >> packet.sourceSerialNumber; + stream >> packet.sourceControl; + stream >> packet.errorCode; + stream >> packet.fragmentId; + stream >> packet.packetId; + stream >> packet.command; + return packet; + }; +}; + +inline QDebug operator<<(QDebug debug, const Speedwire::Header &header) +{ + debug.nospace() << "SpeedwireHeader(" << header.protocolId << ", payload size: " << header.payloadLength << ", group: " << header.payloadLength << ")"; + return debug.maybeSpace(); +} + +inline QDebug operator<<(QDebug debug, const Speedwire::InverterPacket &packet) +{ + debug.nospace() << "InverterPacket(" << packet.sourceSerialNumber; + debug.nospace() << ", Model ID: " << packet.sourceModelId; + debug.nospace() << ", command: " << packet.command; + debug.nospace() << ", error: " << packet.errorCode; + debug.nospace() << ", fragment: " << packet.fragmentId; + debug.nospace() << ", packet ID: " << packet.fragmentId; + debug.nospace() << ")"; + return debug.maybeSpace(); +} + + +#endif // SPEEDWIRE_H diff --git a/sma/speedwirediscovery.cpp b/sma/speedwirediscovery.cpp new file mode 100644 index 00000000..4fde8409 --- /dev/null +++ b/sma/speedwirediscovery.cpp @@ -0,0 +1,348 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2022, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#include "speedwirediscovery.h" +#include "extern-plugininfo.h" + +#include +#include + +SpeedwireDiscovery::SpeedwireDiscovery(NetworkDeviceDiscovery *networkDeviceDiscovery, QObject *parent) : + QObject(parent), + m_networkDeviceDiscovery(networkDeviceDiscovery) +{ + // More details: https://github.com/RalfOGit/libspeedwire/ + + + + // // Request: 534d4100000402a00000000100260010 606509a0 ffffffffffff0000 7d0052be283a0000 000000000180 00020000 00000000 00000000 00000000 => command = 0x00000200, first = 0x00000000; last = 0x00000000; trailer = 0x00000000 + // // Response 534d4100000402a000000001004e0010 606513a0 7d0052be283a00c0 7a01842a71b30000 000000000180 01020000 00000000 00000000 00030000 00ff0000 00000000 01007a01 842a71b3 00000a00 0c000000 00000000 00000000 01010000 00000000 + + // qCDebug(dcSma()) << "SpeedwireDiscovery: Create speed wire interface for multicast" << m_multicastAddress.toString() << "on port" << m_port; + // QByteArray exampleData = QByteArray::fromHex("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"); + // processDatagram(QHostAddress("127.0.0.1"), m_port, exampleData); + + m_multicastSocket = new QUdpSocket(this); + connect(m_multicastSocket, &QUdpSocket::readyRead, this, &SpeedwireDiscovery::readPendingDatagramsMulticast); + connect(m_multicastSocket, &QUdpSocket::stateChanged, this, &SpeedwireDiscovery::onSocketStateChanged); + connect(m_multicastSocket, SIGNAL(error(QAbstractSocket::SocketError)),this, SLOT(onSocketError(QAbstractSocket::SocketError))); + + m_unicastSocket = new QUdpSocket(this); + connect(m_unicastSocket, &QUdpSocket::readyRead, this, &SpeedwireDiscovery::readPendingDatagramsUnicast); + connect(m_unicastSocket, &QUdpSocket::stateChanged, this, &SpeedwireDiscovery::onSocketStateChanged); + connect(m_unicastSocket, SIGNAL(error(QAbstractSocket::SocketError)),this, SLOT(onSocketError(QAbstractSocket::SocketError))); + + m_discoveryTimer.setInterval(1000); + m_discoveryTimer.setSingleShot(false); + connect(&m_discoveryTimer, &QTimer::timeout, this, &SpeedwireDiscovery::sendDiscoveryRequest); +} + +SpeedwireDiscovery::~SpeedwireDiscovery() +{ + if (m_initialized) { + if (!m_multicastSocket->leaveMulticastGroup(m_multicastAddress)) { + qCWarning(dcSma()) << "SpeedwireDiscovery: Failed to leave multicast group" << m_multicastAddress.toString(); + } + + m_multicastSocket->close(); + } +} + +bool SpeedwireDiscovery::initialize() +{ + m_multicastSocket->close(); + m_initialized = false; + + // Setup multicast socket + if (!m_multicastSocket->bind(QHostAddress::AnyIPv4, m_port, QAbstractSocket::ShareAddress | QAbstractSocket::ReuseAddressHint)) { + qCWarning(dcSma()) << "SpeedwireDiscovery: Initialization failed. Could not bind multicast socket to port" << m_port << m_multicastSocket->errorString(); + return false; + } + + if (!m_multicastSocket->joinMulticastGroup(m_multicastAddress)) { + qCWarning(dcSma()) << "SpeedwireDiscovery: Initialization failed. Could not join multicast group" << m_multicastAddress.toString() << m_multicastSocket->errorString(); + return false; + } + + // Setup unicast socket + if (!m_unicastSocket->bind(QHostAddress::AnyIPv4, m_port, QAbstractSocket::ShareAddress | QAbstractSocket::ReuseAddressHint)) { + qCWarning(dcSma()) << "SpeedwireDiscovery: Initialization failed. Could not bind to port" << m_port << m_multicastSocket->errorString(); + return false; + } + + qCDebug(dcSma()) << "SpeedwireDiscovery: Interface initialized successfully."; + m_initialized = true; + return m_initialized; +} + +bool SpeedwireDiscovery::initialized() const +{ + return m_initialized; +} + +bool SpeedwireDiscovery::startDiscovery() +{ + // 1. Discover all network devices + // 2. Send upd multicast and unicast messages to verify if it is a SMA speedwire device + + if (m_discoveryRunning) + return true; + + if (!m_initialized) { + qCDebug(dcSma()) << "SpeedwireDiscovery: Failed to start discovery because the socket has not been initialized successfully."; + return false; + } + + // CLean up + m_results.clear(); + m_networkDeviceInfos.clear(); + + qCDebug(dcSma()) << "SpeedwireDiscovery: Start discovering network..."; + NetworkDeviceDiscoveryReply *discoveryReply = m_networkDeviceDiscovery->discover(); + connect(discoveryReply, &NetworkDeviceDiscoveryReply::finished, this, [=](){ + qCDebug(dcSma()) << "Discovery finished. Found" << discoveryReply->networkDeviceInfos().count() << "devices"; + m_networkDeviceInfos = discoveryReply->networkDeviceInfos(); + + foreach (const NetworkDeviceInfo &networkDeviceInfo, discoveryReply->networkDeviceInfos()) { + // 2. Send unicast to all results and start requesting on multicast address + sendUnicastDiscoveryRequest(networkDeviceInfo.address()); + } + + startMulticastDiscovery(); + }); + + return true; +} + +bool SpeedwireDiscovery::discoveryRunning() const +{ + return m_discoveryRunning; +} + +QList SpeedwireDiscovery::discoveryResult() const +{ + return m_results.values(); +} + +void SpeedwireDiscovery::startMulticastDiscovery() +{ + // Start sending multicast messages + sendDiscoveryRequest(); + + m_discoveryRunning = true; + QTimer::singleShot(5000, this, &SpeedwireDiscovery::onDiscoveryProcessFinished); + + m_discoveryTimer.start(); +} + +void SpeedwireDiscovery::sendUnicastDiscoveryRequest(const QHostAddress &targetHostAddress) +{ + if (m_unicastSocket->writeDatagram(Speedwire::discoveryDatagramUnicast(), targetHostAddress, m_port) < 0) { + qCWarning(dcSma()) << "SpeedwireDiscovery: Failed to send unicast discovery datagram to address" << targetHostAddress.toString(); + return; + } + + qCDebug(dcSma()) << "SpeedwireDiscovery: Sent successfully the discovery request to unicast address" << targetHostAddress.toString(); +} + +void SpeedwireDiscovery::readPendingDatagramsMulticast() +{ + QUdpSocket *socket = qobject_cast(sender()); + + QByteArray datagram; + QHostAddress senderAddress; + quint16 senderPort; + + while (socket->hasPendingDatagrams()) { + datagram.resize(socket->pendingDatagramSize()); + socket->readDatagram(datagram.data(), datagram.size(), &senderAddress, &senderPort); + qCDebug(dcSma()) << "SpeedwireDiscovery: Received multicast data from" << QString("%1:%2").arg(senderAddress.toString()).arg(senderPort); + //qCDebug(dcSma()) << "SpeedwireDiscovery: " << datagram.toHex(); + processDatagram(senderAddress, senderPort, datagram); + } +} + +void SpeedwireDiscovery::readPendingDatagramsUnicast() +{ + QUdpSocket *socket = qobject_cast(sender()); + + QByteArray datagram; + QHostAddress senderAddress; + quint16 senderPort; + + while (socket->hasPendingDatagrams()) { + datagram.resize(socket->pendingDatagramSize()); + socket->readDatagram(datagram.data(), datagram.size(), &senderAddress, &senderPort); + qCDebug(dcSma()) << "SpeedwireDiscovery: Received unicast data from" << QString("%1:%2").arg(senderAddress.toString()).arg(senderPort); + //qCDebug(dcSma()) << "SpeedwireDiscovery: " << datagram.toHex(); + processDatagram(senderAddress, senderPort, datagram); + } +} + + +void SpeedwireDiscovery::onSocketError(QAbstractSocket::SocketError error) +{ + qCDebug(dcSma()) << "SpeedwireDiscovery: Socket error" << error; +} + +void SpeedwireDiscovery::onSocketStateChanged(QAbstractSocket::SocketState socketState) +{ + qCDebug(dcSma()) << "SpeedwireDiscovery: Socket state changed" << socketState; +} + +void SpeedwireDiscovery::processDatagram(const QHostAddress &senderAddress, quint16 senderPort, const QByteArray &datagram) +{ + // Check min size of SMA datagrams + if (datagram.size() < 18) { + qCDebug(dcSma()) << "SpeedwireDiscovery: Received datagram is to short to be a SMA speedwire message. Ignoring data..."; + return; + } + + // Ignore discovery requests + if (datagram == Speedwire::discoveryDatagramMulticast() || datagram == Speedwire::discoveryDatagramUnicast()) + return; + + QDataStream stream(datagram); + Speedwire::Header header = Speedwire::parseHeader(stream); + if (!header.isValid()) { + qCWarning(dcSma()) << "SpeedwireDiscovery: Datagram header is not valid. Ignoring data..."; + return; + } + + qCDebug(dcSma()) << "SpeedwireDiscovery:" << header; + + if (header.protocolId == Speedwire::ProtocolIdDiscoveryResponse) { + qCDebug(dcSma()) << "SpeedwireDiscovery: Received discovery response from" << QString("%1:%2").arg(senderAddress.toString()).arg(senderPort); + + // "534d4100 0004 02a0 0000 0001 0002 0000 0001 0004 0010 0001 0003 0004 0020 0000 0001 0004 0030 c0a8 b219 0004 0040 0000 0000 0002 0070 ef0c 00000000" + // "534d4100 0004 02a0 0000 0001 0002 0000 0001 0004 0010 0001 0001 0004 0020 0000 0001 0004 0030 c0a8 b216 0004 0040 0000 0001 00000000" + + if (!datagram.startsWith(Speedwire::discoveryResponseDatagram())) { + qCWarning(dcSma()) << "SpeedwireDiscovery: Received discovery reply but the message start does not match the required schema. Ignoring data..."; + return; + } + + if (!m_results.contains(senderAddress)) { + qCDebug(dcSma()) << "SpeedwireDiscovery: --> Found SMA device on" << senderAddress.toString(); + if (!m_networkDeviceInfos.hasHostAddress(senderAddress)) { + qCWarning(dcSma()) << "SpeedwireDiscovery: Found SMA using UDP discovery but the host is not in the network discovery result list. Not adding to results" << senderAddress.toString(); + return; + } + + SpeedwireDiscoveryResult result; + result.address = senderAddress; + if (m_networkDeviceInfos.hasHostAddress(senderAddress)) { + result.networkDeviceInfo = m_networkDeviceInfos.get(senderAddress); + } + result.deviceType = SpeedwireInterface::DeviceTypeUnknown; + m_results.insert(senderAddress, result); + } else { + if (m_networkDeviceInfos.hasHostAddress(senderAddress)) { + m_results[senderAddress].networkDeviceInfo = m_networkDeviceInfos.get(senderAddress); + } + } + return; + } + + // We received SMA data, let's parse depending on the protocol id + + if (header.protocolId == Speedwire::ProtocolIdMeter) { + // Example: 010e 714369ae + quint16 modelId; + quint32 serialNumber; + stream >> modelId >> serialNumber; + qCDebug(dcSma()) << "SpeedwireDiscovery: Meter identifier: Model ID:" << modelId << "Serial number:" << serialNumber; + + if (!m_results.contains(senderAddress)) { + SpeedwireDiscoveryResult result; + result.address = senderAddress; + result.deviceType = SpeedwireInterface::DeviceTypeMeter; + m_results.insert(senderAddress, result); + } + + if (m_networkDeviceInfos.hasHostAddress(senderAddress)) { + m_results[senderAddress].networkDeviceInfo = m_networkDeviceInfos.get(senderAddress); + } + + m_results[senderAddress].modelId = modelId; + m_results[senderAddress].serialNumber = serialNumber; + } else if (header.protocolId == Speedwire::ProtocolIdInverter) { + Speedwire::InverterPacket inverterPacket = Speedwire::parseInverterPacket(stream); + // Response from inverter 534d4100 0004 02a0 0000 0001 004e 0010 6065 1390 7d00 52be283a 0000 b500 c2c12e12 0000 0000 00000 1800102000000000000000000000003000000ff0000ecd5ff1f0100b500c2c12e1200000a000c00000000000000030000000101000000000000 + qCDebug(dcSma()) << "SpeedwireDiscovery:" << inverterPacket; + + if (!m_results.contains(senderAddress)) { + SpeedwireDiscoveryResult result; + result.address = senderAddress; + result.deviceType = SpeedwireInterface::DeviceTypeInverter; + m_results.insert(senderAddress, result); + } + + if (m_networkDeviceInfos.hasHostAddress(senderAddress)) { + m_results[senderAddress].networkDeviceInfo = m_networkDeviceInfos.get(senderAddress); + } + + m_results[senderAddress].modelId = inverterPacket.sourceModelId; + m_results[senderAddress].serialNumber = inverterPacket.sourceSerialNumber; + } else { + qCWarning(dcSma()) << "SpeedwireDiscovery: Unhandled data received" << datagram.toHex(); + return; + } +} + +void SpeedwireDiscovery::sendDiscoveryRequest() +{ + if (m_multicastSocket->writeDatagram(Speedwire::discoveryDatagramMulticast(), m_multicastAddress, m_port) < 0) { + qCWarning(dcSma()) << "SpeedwireDiscovery: Failed to send discovery datagram to multicast address" << m_multicastAddress.toString(); + return; + } + + qCDebug(dcSma()) << "SpeedwireDiscovery: Sent successfully the discovery request to multicast address" << m_multicastAddress.toString(); +} + +void SpeedwireDiscovery::onDiscoveryProcessFinished() +{ + qCDebug(dcSma()) << "SpeedwireDiscovery: Discovey finished. Found" << m_results.count() << "SMA devices in the network"; + m_discoveryTimer.stop(); + m_discoveryRunning = false; + + foreach (const SpeedwireDiscoveryResult &result, m_results) { + qCDebug(dcSma()) << "SpeedwireDiscovery: ============================================"; + qCDebug(dcSma()) << "SpeedwireDiscovery: Device type:" << result.deviceType; + qCDebug(dcSma()) << "SpeedwireDiscovery: Address:" << result.address.toString(); + qCDebug(dcSma()) << "SpeedwireDiscovery: Hostname:" << result.networkDeviceInfo.hostName(); + qCDebug(dcSma()) << "SpeedwireDiscovery: MAC:" << result.networkDeviceInfo.macAddress(); + qCDebug(dcSma()) << "SpeedwireDiscovery: MAC manufacturer:" << result.networkDeviceInfo.macAddressManufacturer(); + qCDebug(dcSma()) << "SpeedwireDiscovery: Model ID:" << result.modelId; + qCDebug(dcSma()) << "SpeedwireDiscovery: Serial number:" << result.serialNumber; + } + + emit discoveryFinished(); +} diff --git a/sma/speedwirediscovery.h b/sma/speedwirediscovery.h new file mode 100644 index 00000000..0c181ddf --- /dev/null +++ b/sma/speedwirediscovery.h @@ -0,0 +1,100 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2022, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#ifndef SPEEDWIREDISCOVERY_H +#define SPEEDWIREDISCOVERY_H + +#include +#include +#include + +#include + +#include "speedwire.h" +#include "speedwireinterface.h" + +class SpeedwireDiscovery : public QObject +{ + Q_OBJECT +public: + typedef struct SpeedwireDiscoveryResult { + QHostAddress address; + NetworkDeviceInfo networkDeviceInfo; + SpeedwireInterface::DeviceType deviceType = SpeedwireInterface::DeviceTypeUnknown; + quint16 modelId = 0; + quint32 serialNumber = 0; + } SpeedwireDiscoveryResult; + + explicit SpeedwireDiscovery(NetworkDeviceDiscovery *networkDeviceDiscovery, QObject *parent = nullptr); + ~SpeedwireDiscovery(); + + bool initialize(); + bool initialized() const; + + bool startDiscovery(); + bool discoveryRunning() const; + + QList discoveryResult() const; + +signals: + void discoveryFinished(); + +private: + NetworkDeviceDiscovery *m_networkDeviceDiscovery = nullptr; + QUdpSocket *m_multicastSocket = nullptr; + QUdpSocket *m_unicastSocket = nullptr; + QHostAddress m_multicastAddress = Speedwire::multicastAddress(); + quint16 m_port = Speedwire::port(); + bool m_initialized = false; + + // Discovery + QTimer m_discoveryTimer; + bool m_discoveryRunning = false; + NetworkDeviceInfos m_networkDeviceInfos; + QHash m_results; + + void startMulticastDiscovery(); + void sendUnicastDiscoveryRequest(const QHostAddress &targetHostAddress); + +private slots: + void readPendingDatagramsMulticast(); + void readPendingDatagramsUnicast(); + void onSocketError(QAbstractSocket::SocketError error); + void onSocketStateChanged(QAbstractSocket::SocketState socketState); + + void processDatagram(const QHostAddress &senderAddress, quint16 senderPort, const QByteArray &datagram); + + void sendDiscoveryRequest(); + + void onDiscoveryProcessFinished(); + +}; + +#endif // SPEEDWIREDISCOVERY_H diff --git a/sma/speedwireinterface.cpp b/sma/speedwireinterface.cpp new file mode 100644 index 00000000..a5fa1d77 --- /dev/null +++ b/sma/speedwireinterface.cpp @@ -0,0 +1,134 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2022, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#include "speedwireinterface.h" +#include "extern-plugininfo.h" + +SpeedwireInterface::SpeedwireInterface(const QHostAddress &address, bool multicast, QObject *parent) : + QObject(parent), + m_address(address), + m_multicast(multicast) +{ + + qCDebug(dcSma()) << "SpeedwireInterface: Create interface for" << address.toString() << (multicast ? "multicast" : "unicast"); + m_socket = new QUdpSocket(this); + connect(m_socket, &QUdpSocket::readyRead, this, &SpeedwireInterface::readPendingDatagrams); + connect(m_socket, &QUdpSocket::stateChanged, this, &SpeedwireInterface::onSocketStateChanged); + connect(m_socket, SIGNAL(error(QAbstractSocket::SocketError)),this, SLOT(onSocketError(QAbstractSocket::SocketError))); +} + +SpeedwireInterface::~SpeedwireInterface() +{ + deinitialize(); +} + +bool SpeedwireInterface::initialize() +{ + if (!m_socket->bind(QHostAddress::AnyIPv4, m_port, QAbstractSocket::ShareAddress | QAbstractSocket::ReuseAddressHint)) { + qCWarning(dcSma()) << "SpeedwireInterface: Initialization failed. Could not bind to port" << m_port; + return false; + } + + if (m_multicast && !m_socket->joinMulticastGroup(m_multicastAddress)) { + qCWarning(dcSma()) << "SpeedwireInterface: Initialization failed. Could not join multicast group" << m_multicastAddress.toString() << m_socket->errorString(); + return false; + } + + qCDebug(dcSma()) << "SpeedwireInterface: Interface initialized successfully."; + m_initialized = true; + return m_initialized; +} + +void SpeedwireInterface::deinitialize() +{ + if (m_initialized) { + if (m_multicast) { + if (!m_socket->leaveMulticastGroup(m_multicastAddress)) { + qCWarning(dcSma()) << "SpeedwireInterface: Failed to leave multicast group" << m_multicastAddress.toString(); + } + } + + m_socket->close(); + m_initialized = false; + } +} + +bool SpeedwireInterface::initialized() const +{ + return m_initialized; +} + +quint16 SpeedwireInterface::sourceModelId() const +{ + return m_sourceModelId; +} + +quint32 SpeedwireInterface::sourceSerialNumber() const +{ + return m_sourceSerialNumber; +} + +void SpeedwireInterface::sendData(const QByteArray &data) +{ + qCDebug(dcSma()) << "SpeedwireInterface: -->" << m_address.toString() << m_port << data.toHex(); + if (m_socket->writeDatagram(data, m_address, m_port) < 0) { + qCWarning(dcSma()) << "SpeedwireInterface: failed to send data" << m_socket->errorString(); + } +} + +void SpeedwireInterface::readPendingDatagrams() +{ + QByteArray datagram; + QHostAddress senderAddress; + quint16 senderPort; + + while (m_socket->hasPendingDatagrams()) { + datagram.resize(m_socket->pendingDatagramSize()); + m_socket->readDatagram(datagram.data(), datagram.size(), &senderAddress, &senderPort); + + // Process only data coming from our target address + if (senderAddress != m_address) + continue; + + qCDebug(dcSma()) << "SpeedwireInterface: Received data from" << QString("%1:%2").arg(senderAddress.toString()).arg(senderPort); + //qCDebug(dcSma()) << "SpeedwireInterface: " << datagram.toHex(); + emit dataReceived(datagram); + } +} + +void SpeedwireInterface::onSocketError(QAbstractSocket::SocketError error) +{ + qCDebug(dcSma()) << "SpeedwireInterface: Socket error" << error; +} + +void SpeedwireInterface::onSocketStateChanged(QAbstractSocket::SocketState socketState) +{ + qCDebug(dcSma()) << "SpeedwireInterface: Socket state changed" << socketState; +} diff --git a/sma/speedwireinterface.h b/sma/speedwireinterface.h new file mode 100644 index 00000000..fa242873 --- /dev/null +++ b/sma/speedwireinterface.h @@ -0,0 +1,88 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2022, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#ifndef SPEEDWIREINTERFACE_H +#define SPEEDWIREINTERFACE_H + +#include +#include +#include + +#include "speedwire.h" + +class SpeedwireInterface : public QObject +{ + Q_OBJECT +public: + enum DeviceType { + DeviceTypeUnknown, + DeviceTypeMeter, + DeviceTypeInverter + }; + Q_ENUM(DeviceType) + + explicit SpeedwireInterface(const QHostAddress &address, bool multicast, QObject *parent = nullptr); + ~SpeedwireInterface(); + + bool initialize(); + void deinitialize(); + + bool initialized() const; + + quint16 sourceModelId() const; + quint32 sourceSerialNumber() const; + +public slots: + void sendData(const QByteArray &data); + +signals: + void dataReceived(const QByteArray &data); + +private: + QUdpSocket *m_socket = nullptr; + QHostAddress m_address; + quint16 m_port = Speedwire::port(); + QHostAddress m_multicastAddress = Speedwire::multicastAddress(); + bool m_multicast = false; + bool m_initialized = false; + + // Requester + quint16 m_sourceModelId = 0x007d; + quint32 m_sourceSerialNumber = 0x3a28be52; + +private slots: + void readPendingDatagrams(); + void onSocketError(QAbstractSocket::SocketError error); + void onSocketStateChanged(QAbstractSocket::SocketState socketState); + +}; + + +#endif // SPEEDWIREINTERFACE_H diff --git a/sma/speedwireinverter.cpp b/sma/speedwireinverter.cpp new file mode 100644 index 00000000..39329c97 --- /dev/null +++ b/sma/speedwireinverter.cpp @@ -0,0 +1,1273 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2022, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#include "speedwireinverter.h" +#include "extern-plugininfo.h" + +#include + +SpeedwireInverter::SpeedwireInverter(const QHostAddress &address, quint16 modelId, quint32 serialNumber, QObject *parent) : + QObject(parent), + m_address(address), + m_modelId(modelId), + m_serialNumber(serialNumber) +{ + qCDebug(dcSma()) << "Inverter: setup interface on" << m_address.toString(); + m_interface = new SpeedwireInterface(m_address, false, this); + connect(m_interface, &SpeedwireInterface::dataReceived, this, &SpeedwireInverter::processData); +} + +bool SpeedwireInverter::initialize() +{ + return m_interface->initialize(); +} + +bool SpeedwireInverter::initialized() const +{ + return m_interface->initialized(); +} + +SpeedwireInverter::State SpeedwireInverter::state() const +{ + return m_state; +} + +bool SpeedwireInverter::reachable() const +{ + return m_reachable; +} + +QString SpeedwireInverter::modelName() const +{ + return m_modelName; +} + +double SpeedwireInverter::totalAcPower() const +{ + return m_totalAcPower; +} + +double SpeedwireInverter::gridFrequency() const +{ + return m_gridFrequency; +} + +double SpeedwireInverter::totalEnergyProduced() const +{ + return m_totalEnergyProduced; +} + +double SpeedwireInverter::todayEnergyProduced() const +{ + return m_todayEnergyProduced; +} + +double SpeedwireInverter::voltageAcPhase1() const +{ + return m_voltageAcPhase1; +} + +double SpeedwireInverter::voltageAcPhase2() const +{ + return m_voltageAcPhase2; +} + +double SpeedwireInverter::voltageAcPhase3() const +{ + return m_voltageAcPhase3; +} + +double SpeedwireInverter::currentAcPhase1() const +{ + return m_currentAcPhase1; +} + +double SpeedwireInverter::currentAcPhase2() const +{ + return m_currentAcPhase2; +} + +double SpeedwireInverter::currentAcPhase3() const +{ + return m_currentAcPhase3; +} + +double SpeedwireInverter::powerAcPhase1() const +{ + return m_powerAcPhase1; +} + +double SpeedwireInverter::powerAcPhase2() const +{ + return m_powerAcPhase2; +} + +double SpeedwireInverter::powerAcPhase3() const +{ + return m_powerAcPhase3; +} + +double SpeedwireInverter::powerDcMpp1() const +{ + return m_powerDcMpp1; +} + +double SpeedwireInverter::powerDcMpp2() const +{ + return m_powerDcMpp2; +} + +SpeedwireInverterReply *SpeedwireInverter::sendIdentifyRequest() +{ + // Request 534d4100000402a000000001002600106065 09 a0 ffff ffffffff 0000 7d00 52be283a 0000 0000 0000 0180 00020000 000000000000000000000000 + // Response 534d4100000402a000000001004e00106065 13 90 7d00 52be283a 0000 b500 c2c12e12 0000 0000 0000 0180 01020000 00000000000000000003000000ff0000ecd5ff1f0100b500c2c12e1200000a000c00000000000000030000000101000000000000 + + qCDebug(dcSma()) << "Inverter: Sending identify request to" << m_address.toString(); + SpeedwireInverterRequest request; + request.setPacketId(0x8001); + request.setCommand(Speedwire::CommandIdentify); + request.setRequestData(Speedwire::discoveryDatagramUnicast()); + return createReply(request); +} + +SpeedwireInverterReply *SpeedwireInverter::sendLoginRequest(const QString &password, bool loginAsUser) +{ + qCDebug(dcSma()) << "Inverter: Sending login request as" << (loginAsUser ? "user" : "installer") << "using password" << password; + + // Request: 534d4100000402a000000001003a001060650ea0 b500 c2c12e12 0001 7d00 52be283a 0001 0000 0000 0180 0c04fdff0 7000000 84030000 3408b261 00000000 b8b8b8b8888888888888888800000000 // Login request + + // Response: 534d4100000402a000000001003a001060650ed0 7d00 52be283a 0001 b500 c2c12e12 0001 0000000001800 d04fdff0 7000000 84030000 3408b261 00000000 b8b8b8b8888888888888888800000000 // Login OK + // Response: 534d4100000402a000000001003a001060650ed0 7d00 52be283a 0001 b500 c2c12e12 0001 0001000001800 d04fdff0 7000000 84030000 b709b261 00000000 b8b8b8b9888888888888888800000000 // Login FAILED, error 1 + + // Build the header + QByteArray datagram; + QDataStream stream(&datagram, QIODevice::WriteOnly); + buildDefaultHeader(stream, 58, 0xa0); + + // Reset the packet id counter, otherwise there will be no response + //m_packetId = 0; + quint16 packetId = m_packetId++ | 0x8000; + Speedwire::Command command = Speedwire::CommandLogin; + + // The payload is little endian encoded + buildPacket(stream, command, packetId); + + // User type: 7 = user, a = installer + stream << (loginAsUser ? static_cast(0x00000007) : static_cast(0x0000000a)); + // Timeout + stream << static_cast(900); // 900 ms + // Current time + stream << static_cast(QDateTime::currentMSecsSinceEpoch() / 1000.0); + // Zeros + stream << static_cast(0); + + // Encode password + QByteArray passwordData = password.toUtf8(); + QByteArray encodedPassword(12, loginAsUser ? 0x88 : 0xBB); + for (int i = 0; i < password.count(); i++) { + encodedPassword[i] = (passwordData.at(i) + (loginAsUser ? 0x88 : 0xBB) % 0xff); + } + + // Add encoded password + for (int i = 0; i < encodedPassword.count(); i++) { + stream << static_cast(encodedPassword.at(i)); + } + + // End of data + stream << static_cast(0); + + // Final datagram + SpeedwireInverterRequest request; + request.setPacketId(packetId); + request.setCommand(command); + request.setRequestData(datagram); + return createReply(request); +} + +SpeedwireInverterReply *SpeedwireInverter::sendLogoutRequest() +{ + // Request 534d4100000402a000000001 0022 0010 6065 08a0 ffffffffffff0003 7d0052be283a0003 00000000 0280 0e01fdff ffffffff 00000000 => logoff command = 0xfffd01e0 + + // 534d4100000402a000000001 0022 0010 6065 08a0 ffffffffffff0003 7d0052be283a0003 00000000 0480 0e01fdff ffffffff 00000000 + + // Request 534d4100000402a000000001 0022 0010 6065 08a0 ffffffffffff0003 7d0040be283a0003 000000000380 e001fdff ffffffff 00000000 + // Request 534d4100000402a000000001 0022 0010 6065 08a0 ffffffffffff0003 7d0042be283a0003 000000000180 e001fdff ffffffff 00000000 + // 534d4100000402a000000001 0022 0010 6065 08a0 ffffffffffff0003 7d0052be283a0003 000000000080 0e01fdff ffffffff 00000000 + + // Build the header + QByteArray datagram; + QDataStream stream(&datagram, QIODevice::WriteOnly); + buildDefaultHeader(stream, 34); + + // Reset the packet id counter, otherwise there will be no response + quint16 packetId = m_packetId++ | 0x8000; + Speedwire::Command command = Speedwire::CommandLogout; + + // The payload is little endian encoded + stream.setByteOrder(QDataStream::LittleEndian); + + // Target + // stream << static_cast(m_modelId); + // stream << static_cast(m_serialNumber); + stream << static_cast(0xffff); + stream << static_cast(0xffffffff); + stream << static_cast(0x0300); + + // Source + stream << m_interface->sourceModelId(); + stream << m_interface->sourceSerialNumber(); + stream << static_cast(0x0300); + + stream << static_cast(0); + stream << static_cast(0); + stream << packetId; + + stream << command; + // Only first word + stream << static_cast(0xffffffff); + stream << static_cast(0); + + SpeedwireInverterRequest request; + request.setPacketId(packetId); + request.setCommand(command); + request.setRequestData(datagram); + request.setRetries(0); + return createReply(request); +} + +SpeedwireInverterReply *SpeedwireInverter::sendSoftwareVersionRequest() +{ + qCDebug(dcSma()) << "Inverter: Sending software version request to" << m_address.toString(); + + // Request 534d4100000402a00000000100260010 6065 09a0 7a01 842a71b3 0001 7d00 42be283a 0001 000000000380 00020058 00348200 ff348200 00000000 => query software version + // Response 534d4100000402a000000001004e0010 6065 13a0 7d00 42be283a 00a1 7a01 842a71b3 0001 000000000380 01020058 0a000000 0a000000 01348200 2ae5e65f 00000000 00000000 feffffff feffffff 040a1003 040a1003 00000000 00000000 00000000 code = 0x00823401 3 (BCD).10 (BCD).10 (BIN) Typ R (Enum) + + // Build the header + QByteArray datagram; + QDataStream stream(&datagram, QIODevice::WriteOnly); + buildDefaultHeader(stream, 38, 0xa0); + + // Reset the packet id counter, otherwise there will be no response + quint16 packetId = m_packetId++ | 0x8000; + Speedwire::Command command = Speedwire::CommandQueryDevice; + + // The payload is little endian encoded + buildPacket(stream, command, packetId); + + // First and last word + stream << static_cast(0x00823400); + stream << static_cast(0x008234ff); + + // End of data + stream << static_cast(0); + + // Final datagram + SpeedwireInverterRequest request; + request.setPacketId(packetId); + request.setCommand(command); + request.setRequestData(datagram); + return createReply(request); +} + +SpeedwireInverterReply *SpeedwireInverter::sendDeviceTypeRequest() +{ + qCDebug(dcSma()) << "Inverter: Sending software version request to" << m_address.toString(); + // Build the header + QByteArray datagram; + QDataStream stream(&datagram, QIODevice::WriteOnly); + buildDefaultHeader(stream, 38, 0xa0); + + // Reset the packet id counter, otherwise there will be no response + quint16 packetId = m_packetId++ | 0x8000; + Speedwire::Command command = Speedwire::CommandQueryDevice; + + // The payload is little endian encoded + buildPacket(stream, command, packetId); + + // 2 words + stream << static_cast(0x00821e00); + stream << static_cast(0x008220ff); + + // End of data + stream << static_cast(0); + + // Final datagram + SpeedwireInverterRequest request; + request.setPacketId(packetId); + request.setCommand(command); + request.setRequestData(datagram); + return createReply(request); +} + +void SpeedwireInverter::startConnecting(const QString &password) +{ + m_password = password; + refresh(); +} + +void SpeedwireInverter::refresh() +{ + // Only refresh if not already busy... + if (m_state != StateIdle && m_state != StateDisconnected) + return; + + // Run the state machine + setState(StateInitializing); +} + +void SpeedwireInverter::sendNextReply() +{ + // Pending reply + if (m_currentReply) + return; + + // No reply left + if (m_replyQueue.isEmpty()) + return; + + // Pick the next reply and send request + m_currentReply = m_replyQueue.dequeue(); + qCDebug(dcSma()) << "Inverter: --> Sending" << m_currentReply->request().command() << "packet ID:" << m_currentReply->request().packetId(); + m_interface->sendData(m_currentReply->request().requestData()); + m_currentReply->startWaiting(); +} + +SpeedwireInverterReply *SpeedwireInverter::createReply(const SpeedwireInverterRequest &request) +{ + SpeedwireInverterReply *reply = new SpeedwireInverterReply(request, this); + connect(reply, &SpeedwireInverterReply::timeout, this, &SpeedwireInverter::onReplyTimeout); + connect(reply, &SpeedwireInverterReply::finished, this, &SpeedwireInverter::onReplyFinished); + // Make sure the reply gets deleted once finished + connect(reply, &SpeedwireInverterReply::finished, reply, &SpeedwireInverterReply::deleteLater); + + // Schedule request + m_replyQueue.enqueue(reply); + sendNextReply(); + + return reply; +} + +void SpeedwireInverter::buildDefaultHeader(QDataStream &stream, quint16 payloadSize, quint8 control) +{ + // Header (big endian) + // 534d4100000402a00000000100260010606509a0 + + // 534d4100 : SMA\0 signature + // 0004 : header length + // 02a0 : Tag0 type + // 0000 : Tag version + // 0001 : Group + // 0026 : payload length + // 0010 : SMA Net 2 version + // 6065 : inverter protocol id + // 09 : length of long words = (payload length - 2) / 4 + // a0 : control ? + + stream.setByteOrder(QDataStream::BigEndian); + stream << Speedwire::smaSignature(); + stream << static_cast(4); // Header length + stream << Speedwire::tag0(); + stream << Speedwire::tagVersion(); + stream << static_cast(1); // Group 1 = default + stream << payloadSize; + stream << Speedwire::smaNet2Version(); + stream << static_cast(Speedwire::ProtocolIdInverter); + stream << static_cast((payloadSize - 2) / 4); // wordCount + stream << control; +} + +void SpeedwireInverter::buildPacket(QDataStream &stream, quint32 command, quint16 packetId) +{ + // ========= packet header (little endian) + // == 7a01842a71b30001 + + // 7a01 : destination model id + // 842a71b3 : destination serial number + // 0001 : destination control field + + // == 7d0042be283a0001 + + // 7d00 : source model id + // 42be283a: source serial number + // 0001 : source control field + + // == 0000 0000 0380 00020058 + + // 0000 : error code + // 0000 : fragment id + // 0380 : packet id + // 00020058 : command id = CommandQueryDevice + + stream.setByteOrder(QDataStream::LittleEndian); + // Destination + stream << m_modelId << m_serialNumber; + // Destination Ctrl + stream << static_cast(0x0100); + // Source + stream << m_interface->sourceModelId() << m_interface->sourceSerialNumber(); + // Destination Ctrl + stream << static_cast(0x0100); + + // Packet information + quint16 errorCode = 0; + quint16 fragmentId = 0; + stream << errorCode << fragmentId << packetId; + + // Command + stream << static_cast(command); +} + +SpeedwireInverterReply *SpeedwireInverter::sendQueryRequest(Speedwire::Command command, quint32 firstWord, quint32 secondWord) +{ + qCDebug(dcSma()) << "Inverter: Sending query request to" << m_address.toString(); + + // Request 534d4100000402a00000000100260010 606509a0 7a01842a71b30001 7d0042be283a0001 000000000380 00020058 00348200 ff348200 00000000 => query software version + // Response 534d4100000402a000000001004e0010 606513a0 7d0042be283a00a1 7a01842a71b30001 000000000380 01020058 0a000000 0a000000 01348200 2ae5e65f 00000000 00000000 feffffff feffffff 040a1003 040a1003 00000000 00000000 00000000 code = 0x00823401 3 (BCD).10 (BCD).10 (BIN) Typ R (Enum) + // Request 534d4100000402a00000000100260010 606509a0 7a01842a71b30001 7d0042be283a0001 000000000480 00020058 001e8200 ff208200 00000000 => query device type + // Response 534d4100000402a000000001009e0010 606527a0 7d0042be283a00a1 7a01842a71b30001 000000000480 01020058 01000000 03000000 011e8210 6f89e95f 534e3a20 33303130 35333831 31360000 00000000 00000000 00000000 00000000 + // 011f8208 6f89e95f 411f0001 feffff00 00000000 00000000 00000000 00000000 00000000 00000000 => 1f41 solar inverter + // 01208208 6f89e95f 96240000 80240000 81240001 82240000 feffff00 00000000 00000000 00000000 00000000 + // Request 534d4100000402a00000000100260010 606509a0 7a01842a71b30001 7d0042be283a0001 000000000480 00028053 001e2500 ff1e2500 00000000 => query spot dc power + // Response 534d4100000402a000000001005e0010 606517a0 7d0042be283a00a1 7a01842a71b30001 000000000480 01028053 00000000 01000000 011e2540 61a7e95f 57000000 57000000 57000000 57000000 01000000 + // 021e2540 61a7e95f 5e000000 5e000000 5e000000 5e000000 01000000 00000000 + // Request 534d4100000402a00000000100260010 606509a0 7a01842a71b30001 7d0042be283a0001 000000000580 00028053 001f4500 ff214500 00000000 => query spot dc voltage/current + // Response 534d4100000402a00000000100960010 606525a0 7d0042be283a00a1 7a01842a71b30001 000000000580 01028053 02000000 05000000 011f4540 61a7e95f 05610000 05610000 05610000 05610000 01000000 + // 021f4540 61a7e95f 505b0000 505b0000 505b0000 505b0000 01000000 + // 01214540 61a7e95f 60010000 60010000 60010000 60010000 01000000 + // 02214540 61a7e95f 95010000 95010000 95010000 95010000 01000000 00000000 + // Request 534d4100000402a00000000100260010 606509a0 7a01842a71b30001 7d0042be283a0001 000000000680 00020051 00404600 ff424600 00000000 => query spot ac power + // Response 534d4100000402a000000001007a0010 60651ea0 7d0042be283a00a1 7a01842a71b30001 000000000680 01020051 09000000 0b000000 01404640 61a7e95f 38000000 38000000 38000000 38000000 01000000 + // 01414640 61a7e95f 37000000 37000000 37000000 37000000 01000000 + // 01424640 61a7e95f 39000000 39000000 39000000 39000000 01000000 00000000 + // Request 534d4100000402a00000000100260010 606509a0 7a01842a71b30001 7d0042be283a0001 000000000780 00020051 00484600 ff554600 00000000 => query spot ac voltage/current + // Response 534d4100000402a000000001013e0010 60654fa0 7d0042be283a00a1 7a01842a71b30001 000000000780 01020051 0c000000 15000000 01484600 61a7e95f 5a590000 5a590000 5a590000 5a590000 01000000 + // 01494600 61a7e95f cf590000 cf590000 cf590000 cf590000 01000000 + // 014a4600 61a7e95f 7a590000 7a590000 7a590000 7a590000 01000000 + // 014b4600 61a7e95f f19a0000 f19a0000 f19a0000 f19a0000 01000000 + // 014c4600 61a7e95f 3c9b0000 3c9b0000 3c9b0000 3c9b0000 01000000 + // 014d4600 61a7e95f 189b0000 189b0000 189b0000 189b0000 01000000 + // 014e4600 51a7e95f 1d000000 1d000000 1d000000 1d000000 01000000 + // 01534640 61a7e95f 24010000 24010000 24010000 24010000 01000000 + // 01544640 61a7e95f 1e010000 1e010000 1e010000 1e010000 01000000 + // 01554640 61a7e95f 23010000 23010000 23010000 23010000 01000000 00000000 + // Request 534d4100000402a00000000100260010 606509a0 7a01842a71b30001 7d0042be283a0001 000000000980 00028051 00482100 ff482100 00000000 => query device status + // Response 534d4100000402a000000001004e0010 606513a0 7d0042be283a00a1 7a01842a71b30001 000000000980 01028051 00000000 00000000 01482108 59c5e95f 33010001 feffff00 00000000 00000000 00000000 00000000 00000000 00000000 00000000 + // Request 534d4100000402a00000000100260010 606509a0 7a01842a71b30001 7d0042be283a0001 000000000a80 00028051 00644100 ff644100 00000000 => query grid relay status + // Response 534d4100000402a000000001004e0010 606513a0 7d0042be283a00a1 7a01842a71b30001 000000000a80 01028051 07000000 07000000 01644108 59c5e95f 33000001 37010000 fdffff00 feffff00 00000000 00000000 00000000 00000000 00000000 + + + // Build the header + QByteArray datagram; + QDataStream stream(&datagram, QIODevice::WriteOnly); + buildDefaultHeader(stream); + + // Reset the packet id counter, otherwise there will be no response + quint16 packetId = m_packetId++ | 0x8000; + + // The payload is little endian encoded + buildPacket(stream, command, packetId); + + // First and second word + stream << firstWord; + stream << secondWord; + + // End of data + stream << static_cast(0); + + // Final datagram + SpeedwireInverterRequest request; + request.setPacketId(packetId); + request.setCommand(command); + request.setRequestData(datagram); + return createReply(request); +} + +void SpeedwireInverter::processSoftwareVersionResponse(const QByteArray &response) +{ + // 07000000 07000000 01348200 2ff5b261 00000000 00000000 feffffff feffffff 00055302 00055302 00000000 00000000 00000000 + qCDebug(dcSma()) << "Inverter: Process software version request response" << response.toHex(); + // TODO: +// QDataStream stream(response); +// stream.setByteOrder(QDataStream::LittleEndian); + +// // First +// quint32 firstWord; +// quint32 secondWord; +// stream >> firstWord >> secondWord; +// quint8 byte1, byte2, byte3, byte4; +// stream >> byte1 >> byte2 >> byte3 >> byte4; + + // BCD + // 00 82 34 01 ?? +// QString softwareVersion = QString("%1.%2.%3.%4").arg(byte1).arg(byte2).arg(byte3).arg(byte4); +// qCDebug(dcSma()) << "Inverter: Software version" << softwareVersion; + +} + +void SpeedwireInverter::processDeviceTypeResponse(const QByteArray &response) +{ + // Request 534d4100000402a00000000100260010 606509a0 b500 c2c12e12 0001 7d00 43be283a 0001 0000 0000 0280 0002 0058 001e8200 ff208200 00000000 + // Response 534d4100000402a00000000100c60010 60653190 7d00 43be283a 00a1 b500 c2c12e12 0001 0000 0000 0280 0102 0058 00000000 03000000 + // 011e8210 85f2b661 534e3a20333035303534313436000000 feffff00 00000000 00000000 00000000 // SN: 305054146 + // 011f8208 85f2b661 411f 0001 421f 0000 feff ff00 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 // 411f -> 1f41 -> device type soar inverter + // 01208208 85f2b661 8a23 0000 8b23 0000 8c23 0001 8e23 0000 8f23 0000 e523 0000 e623 0000 e723 0000 // 238c -> 0001 -> STP 7000TL-20 + // 01208208 85f2b661 e923 0000 e823 0000 4124 0000 4224 0000 4324 0000 feff ff00 0000 0000 0000 0000 + // 00000000 + + // Response data: 00000000 03000000 -> first, last, then data + // 011e8210 3799b961 534e3a20 33303530 35343134 36000000 feffff00 00000000 00000000 00000000 // serialnumber as text + // 011f8208 3799b961 411f 0001 421f 0000 feff ff00 0000000000000000000000000000000000000000 // device class + // 01208208 3799b961 8a23 0000 8b23 0000 8c23 0001 8e23 0000 8f23 0000 e523 0000 e623 0000 e723 0000 // device model + // 01208208 3799b961 e923 0000 e823 0000 4124 0000 4224 0000 4324 0000 feff ff00 0000000000000000 // device model + // 00000000 // End of data + + + qCDebug(dcSma()) << "Inverter: Process device type response" << response.toHex(); + // TODO: + +} + +void SpeedwireInverter::processAcPowerResponse(const QByteArray &response) +{ + // Request 534d4100000402a00000000100260010606509a0 b500 c2c12e12 0001 7d00 52be283a 0001 0000 0000 0180 00020051 00404600 ff424600 00000000 + + // Response 534d4100000402a0000000010026001060650990 7d00 52be283a 00e1 b500 c2c12e12 0001 ffff 0000 0180 01020051 00404600 ff424600 00000000 // Error: login required + + // Response 534d4100000402a000000001007a001060651e90 7d00 52be283a 00a1 b500 c2c12e12 0001 0000 0000 0580 01020051 + // No sun + // 07000000 09000000 + // 01 4046 40 7503ba61 00000080 00000080 00000080 00000080 01000000 + // 01 4146 40 7503ba61 00000080 00000080 00000080 00000080 01000000 + // 01 4246 40 7503ba61 00000080 00000080 00000080 00000080 01000000 00000000 + + // Sun + // 07000000 09000000 + // 01 4046 40 77fbba61 23000000 23000000 23000000 23000000 01000000 + // 01 4146 40 77fbba61 23000000 23000000 23000000 23000000 01000000 + // 01 4246 40 77fbba61 23000000 23000000 23000000 23000000 01000000 + // 00000000 + + // 40464001 + qCDebug(dcSma()) << "Inverter: Process AC power query response"; // << response.toHex(); + QDataStream stream(response); + stream.setByteOrder(QDataStream::LittleEndian); + quint32 firstWord, secondWord; + stream >> firstWord >> secondWord; + + // Each line has 7 words + quint32 measurementId; + quint32 measurementType; // ? + + while (!stream.atEnd()) { + // First row + stream >> measurementId; + + // End of data, we are done + if (measurementId == 0) + return; + + // Unknown + stream >> measurementType; + + quint8 measurmentNumber = static_cast(measurementId & 0xff); + measurementId = measurementId & 0x00ffff00; + + // Read measurent lines + if (measurementId == 0x464000 && measurmentNumber == 0x01) { + quint32 powerAcPhase1; + stream >> powerAcPhase1; + m_powerAcPhase1 = readValue(powerAcPhase1, 1000.0); + qCDebug(dcSma()) << "Inverter: Power AC phase 1" << m_powerAcPhase1 << "W"; + readUntilEndOfMeasurement(stream); + } else if (measurementId == 0x464100 && measurmentNumber == 0x01) { + quint32 powerAcPhase2; + stream >> powerAcPhase2; + m_powerAcPhase2 = readValue(powerAcPhase2, 1000.0); + qCDebug(dcSma()) << "Inverter: Power AC phase 2" << m_powerAcPhase2 << "W"; + readUntilEndOfMeasurement(stream); + } else if (measurementId == 0x464200 && measurmentNumber == 0x01) { + quint32 powerAcPhase3; + stream >> powerAcPhase3; + m_powerAcPhase3 = readValue(powerAcPhase3, 1000.0); + qCDebug(dcSma()) << "Inverter: Power AC phase 3" << m_powerAcPhase3 << "W"; + readUntilEndOfMeasurement(stream); + } + } +} + + +void SpeedwireInverter::processAcVoltageCurrentResponse(const QByteArray &response) +{ + // No sun + // 0a000000 0f000000 + // 01 4846 00 7503ba61 ffffffff ffffffff ffffffff ffffffff 01000000 + // 01 4946 00 7503ba61 ffffffff ffffffff ffffffff ffffffff 01000000 + // 01 4a46 00 7503ba61 ffffffff ffffffff ffffffff ffffffff 01000000 + // 01 5046 00 7503ba61 ffffffff ffffffff ffffffff ffffffff 01000000 + // 01 5146 00 7503ba61 ffffffff ffffffff ffffffff ffffffff 01000000 + // 01 5246 00 7503ba61 ffffffff ffffffff ffffffff ffffffff 01000000 + // 00000000 + + // Sun + // 0a000000 0f000000 + // 01484600 c1f0ba61 f9580000 f9580000 f9580000 f9580000 01000000 + // 01494600 c1f0ba61 ff580000 ff580000 ff580000 ff580000 01000000 + // 014a4600 c1f0ba61 02590000 02590000 02590000 02590000 01000000 + // 01504600 c1f0ba61 00000000 00000000 00000000 00000000 01000000 + // 01514600 c1f0ba61 00000000 00000000 00000000 00000000 01000000 + // 01524600 c1f0ba61 00000000 00000000 00000000 00000000 01000000 + // 00000000 + + qCDebug(dcSma()) << "Inverter: Process AC voltage/current query response"; // << response.toHex(); + QDataStream stream(response); + stream.setByteOrder(QDataStream::LittleEndian); + quint32 firstWord, secondWord; + stream >> firstWord >> secondWord; + + // Each line has 7 words + quint32 measurementId; + quint32 measurementType; // ? + + while (!stream.atEnd()) { + // First row + stream >> measurementId; + + // End of data, we are done + if (measurementId == 0) + return; + + // Unknown + stream >> measurementType; + + quint8 measurmentNumber = static_cast(measurementId & 0xff); + measurementId = measurementId & 0x00ffff00; + + // Read measurent lines + if (measurementId == 0x464800 && measurmentNumber == 0x01) { + quint32 voltageAcPhase1; + stream >> voltageAcPhase1; + m_voltageAcPhase1 = readValue(voltageAcPhase1, 100.0); + qCDebug(dcSma()) << "Inverter: Voltage AC phase 1" << m_voltageAcPhase1 << "V"; + readUntilEndOfMeasurement(stream); + } else if (measurementId == 0x464900 && measurmentNumber == 0x01) { + quint32 voltageAcPhase2; + stream >> voltageAcPhase2; + m_voltageAcPhase2 = readValue(voltageAcPhase2, 100.0); + qCDebug(dcSma()) << "Inverter: Voltage AC phase 2" << m_voltageAcPhase2 << "V"; + readUntilEndOfMeasurement(stream); + } else if (measurementId == 0x464a00 && measurmentNumber == 0x01) { + quint32 voltageAcPhase3; + stream >> voltageAcPhase3; + m_voltageAcPhase3 = readValue(voltageAcPhase3, 100.0); + qCDebug(dcSma()) << "Inverter: Voltage AC phase 3" << m_voltageAcPhase3 << "V"; + readUntilEndOfMeasurement(stream); + } else if (measurementId == 0x465000 && measurmentNumber == 0x01) { + quint32 currentAcPhase1; + stream >> currentAcPhase1; + m_currentAcPhase1 = readValue(currentAcPhase1, 1000.0); + qCDebug(dcSma()) << "Inverter: Current AC phase 1" << m_currentAcPhase1 << "A"; + readUntilEndOfMeasurement(stream); + } else if (measurementId == 0x465100 && measurmentNumber == 0x01) { + quint32 currentAcPhase2; + stream >> currentAcPhase2; + m_currentAcPhase2 = readValue(currentAcPhase2, 1000.0); + qCDebug(dcSma()) << "Inverter: Current AC phase 2" << m_currentAcPhase2 << "A"; + readUntilEndOfMeasurement(stream); + } else if (measurementId == 0x465200 && measurmentNumber == 0x01) { + quint32 currentAcPhase3; + stream >> currentAcPhase3; + m_currentAcPhase3 = readValue(currentAcPhase3, 1000.0); + qCDebug(dcSma()) << "Inverter: Current AC phase 3" << m_currentAcPhase3 << "A"; + readUntilEndOfMeasurement(stream); + } + } +} + +void SpeedwireInverter::processAcTotalPowerResponse(const QByteArray &response) +{ + // 00000000 00000000 + // 013f2640 8606bb61 16010000 16010000 16010000 16010000 01000000 + // 00000000 + qCDebug(dcSma()) << "Inverter: Process AC total power query response"; // << response.toHex(); + QDataStream stream(response); + stream.setByteOrder(QDataStream::LittleEndian); + quint32 firstWord, secondWord; + stream >> firstWord >> secondWord; + + // Each line has 7 words + quint32 measurementId; + quint32 measurementType; // ? + + while (!stream.atEnd()) { + // First row + stream >> measurementId; + + // End of data, we are done + if (measurementId == 0) + return; + + // Unknown + stream >> measurementType; + + quint8 measurmentNumber = static_cast(measurementId & 0xff); + measurementId = measurementId & 0x00ffff00; + + // Read measurent lines + if (measurementId == 0x263f00 && measurmentNumber == 0x01) { + quint32 totalAcPower; + stream >> totalAcPower; + m_totalAcPower = readValue(totalAcPower); + qCDebug(dcSma()) << "Inverter: Total AC power" << m_totalAcPower << "W"; + readUntilEndOfMeasurement(stream); + } + } +} + + +void SpeedwireInverter::processDcPowerResponse(const QByteArray &response) +{ + // No sun + // 00000000 01000000 + // 011e2540 7503ba61 00000080 00000080 00000080 00000080 01000000 + // 021e2540 7503ba61 00000080 00000080 00000080 00000080 01000000 + // 00000000 + + // Sun + // 00000000 01000000 + // 011e2540 7b0dbb61 8a000000 8a000000 8a000000 8a000000 01000000 + // 021e2540 7b0dbb61 8f000000 8f000000 8f000000 8f000000 01000000 + // 00000000 + qCDebug(dcSma()) << "Inverter: Process DC power query response"; // << response.toHex(); + QDataStream stream(response); + stream.setByteOrder(QDataStream::LittleEndian); + quint32 firstWord, secondWord; + stream >> firstWord >> secondWord; + + // Each line has 7 words + quint32 measurementId; + quint32 measurementType; // ? + + while (!stream.atEnd()) { + // First row + stream >> measurementId; + + // End of data, we are done + if (measurementId == 0) + return; + + // Unknown + stream >> measurementType; + + quint8 measurmentNumber = static_cast(measurementId & 0xff); + measurementId = measurementId & 0x00ffff00; + + // Read measurent lines + if (measurementId == 0x251e00 && measurmentNumber == 0x01) { + quint32 powerMpp1; + stream >> powerMpp1; + m_powerDcMpp1 = readValue(powerMpp1); + qCDebug(dcSma()) << "Inverter: DC power MPP1" << m_powerDcMpp1 << "W"; + readUntilEndOfMeasurement(stream); + } else if (measurementId == 0x251e00 && measurmentNumber == 0x02) { + quint32 powerMpp2; + stream >> powerMpp2; + m_powerDcMpp2 = readValue(powerMpp2); + qCDebug(dcSma()) << "Inverter: DC power MPP2" << m_powerDcMpp2 << "W"; + readUntilEndOfMeasurement(stream); + } + } +} + +void SpeedwireInverter::processDcVoltageCurrentResponse(const QByteArray &response) +{ + // 02000000 05000000 + // 011f4540 7503ba61 00000080 00000080 00000080 00000080 01000000 + // 021f4540 7503ba61 00000080 00000080 00000080 00000080 01000000 + // 01214540 7503ba61 00000080 00000080 00000080 00000080 01000000 + // 02214540 7503ba61 00000080 00000080 00000080 00000080 01000000 + // 00000000 + + // 02000000 05000000 + // 011f4540 160ebb61 009a0000 009a0000 009a0000 009a0000 01000000 + // 021f4540 160ebb61 02a00000 02a00000 02a00000 02a00000 01000000 + // 01214540 160ebb61 76010000 76010000 76010000 76010000 01000000 + // 02214540 160ebb61 77010000 77010000 77010000 77010000 01000000 + // 00000000 + + qCDebug(dcSma()) << "Inverter: Process DC voltage/current response"; // << response.toHex(); + QDataStream stream(response); + stream.setByteOrder(QDataStream::LittleEndian); + quint32 firstWord, secondWord; + stream >> firstWord >> secondWord; + + // Each line has 7 words + quint32 measurementId; + quint32 measurementType; // ? + + while (!stream.atEnd()) { + // First row + stream >> measurementId; + + // End of data, we are done + if (measurementId == 0) + return; + + // Unknown + stream >> measurementType; + + quint8 measurmentNumber = static_cast(measurementId & 0xff); + measurementId = measurementId & 0x00ffff00; + + // Read measurent lines + if (measurementId == 0x451f00 && measurmentNumber == 0x01) { + quint32 voltageMpp1; + stream >> voltageMpp1; + m_voltageDcMpp1 = readValue(voltageMpp1, 100.0); + qCDebug(dcSma()) << "Inverter: DC voltage MPP1" << m_voltageDcMpp1 << "V"; + readUntilEndOfMeasurement(stream); + } else if (measurementId == 0x451e00 && measurmentNumber == 0x02) { + quint32 voltageMpp2; + stream >> voltageMpp2; + m_voltageDcMpp2 = readValue(voltageMpp2, 100.0); + qCDebug(dcSma()) << "Inverter: DC voltage MPP2" << m_voltageDcMpp2 << "V"; + readUntilEndOfMeasurement(stream); + } else if (measurementId == 0x452100 && measurmentNumber == 0x01) { + quint32 currentMpp1; + stream >> currentMpp1; + m_currentDcMpp1 = readValue(currentMpp1, 1000.0); + qCDebug(dcSma()) << "Inverter: DC current MPP1" << m_currentDcMpp1 << "A"; + readUntilEndOfMeasurement(stream); + } else if (measurementId == 0x452100 && measurmentNumber == 0x02) { + quint32 currentMpp2; + stream >> currentMpp2; + m_currentDcMpp2 = readValue(currentMpp2, 1000.0); + qCDebug(dcSma()) << "Inverter: DC current MPP2" << m_currentDcMpp2 << "A"; + readUntilEndOfMeasurement(stream); + } + } +} + +void SpeedwireInverter::processEnergyProductionResponse(const QByteArray &response) +{ + // 00000000 01000000 + // 01012600 6f03ba61 4d147402 0000000 00122260 01523ba6 17c05000 00000000 + // 000000000 + + qCDebug(dcSma()) << "Inverter: Process energy production response";// << response.toHex(); + QDataStream stream(response); + stream.setByteOrder(QDataStream::LittleEndian); + quint32 firstWord, secondWord; + stream >> firstWord >> secondWord; + quint32 dataId, dataType; + stream >> dataId >> dataType; + + quint32 unknwonWord; + quint32 totalEnergy, todayEnergy; + stream >> totalEnergy >> unknwonWord >> unknwonWord >> unknwonWord >> todayEnergy; + + m_todayEnergyProduced = readValue(todayEnergy, 1000.0); + m_totalEnergyProduced = readValue(totalEnergy, 1000.0); + qCDebug(dcSma()) << "Inverter: Energy total:" << m_totalEnergyProduced << "kWh"; + qCDebug(dcSma()) << "Inverter: Energy today:" << m_todayEnergyProduced << "kWh"; +} + +void SpeedwireInverter::processGridFrequencyResponse(const QByteArray &response) +{ + // 10000000 10000000 + // 01574600 c20cbb61 89130000 89130000 89130000 89130000 010000000 + // 0000000 + qCDebug(dcSma()) << "Inverter: Process grid frequency response"; // << response.toHex(); + QDataStream stream(response); + stream.setByteOrder(QDataStream::LittleEndian); + quint32 firstWord, secondWord; + stream >> firstWord >> secondWord; + + // Each line has 7 words + quint32 measurementId; + quint32 measurementType; // ? + + while (!stream.atEnd()) { + // First row + stream >> measurementId; + + // End of data, we are done + if (measurementId == 0) + return; + + // Unknown + stream >> measurementType; + + quint8 measurmentNumber = static_cast(measurementId & 0xff); + measurementId = measurementId & 0x00ffff00; + + // Read measurent lines + if (measurementId == 0x465700 && measurmentNumber == 0x01) { + quint32 frequency; + stream >> frequency; + m_gridFrequency = readValue(frequency, 100.0); + qCDebug(dcSma()) << "Inverter: Grid frequency" << m_gridFrequency << "Hz"; + readUntilEndOfMeasurement(stream); + } + } +} + +void SpeedwireInverter::processInverterStatusResponse(const QByteArray &response) +{ + // 00000000 00000000 + // 01482108 b527bb61 23000000 2f010000 33010001 c7010000 feffff00 00000000 00000000 00000000 + // 00000000 + qCDebug(dcSma()) << "Inverter: Process inverter status response" << response.toHex(); + // TODO: +} + +void SpeedwireInverter::readUntilEndOfMeasurement(QDataStream &stream) +{ + // Read until end of line (0x01000000) + quint32 word; + while (!stream.atEnd()) { + stream >> word; + if (word == 1) { + return; + } + } +} + +double SpeedwireInverter::readValue(quint32 value, double divisor) +{ + if (value == 0x80000000 || value == 0xffffffff) + return 0; + + return value / divisor; +} + +void SpeedwireInverter::setReachable(bool reachable) +{ + if (m_reachable == reachable) + return; + + m_reachable = reachable; + emit reachableChanged(m_reachable); +} + +void SpeedwireInverter::processData(const QByteArray &data) +{ + if (data.size() < 18) { + qCDebug(dcSma()) << "Inverter: The received datagram is to short to be a SMA speedwire message. Ignoring data..."; + return; + } + + QDataStream stream(data); + Speedwire::Header header = Speedwire::parseHeader(stream); + if (!header.isValid()) { + qCWarning(dcSma()) << "Inverter: Datagram header is not valid. Ignoring data..."; + return; + } + + if (header.protocolId != Speedwire::ProtocolIdInverter) { + qCWarning(dcSma()) << "Inverter: Received datagram from different protocol" << header.protocolId << "Ignoring data..."; + return; + } + + Speedwire::InverterPacket packet = Speedwire::parseInverterPacket(stream); + if (packet.sourceModelId != m_modelId || packet.sourceSerialNumber != m_serialNumber) { + qCWarning(dcSma()) << "Inverter: Received datagram from different inverter" << packet.sourceSerialNumber << "Ignoring data..."; + return; + } + + qCDebug(dcSma()) << "Inverter: <-- Received" << static_cast(packet.command) << "Packet ID:" << packet.packetId; + //qCDebug(dcSma()) << "Inverter:" << data.toHex(); + if (m_currentReply && m_currentReply->request().packetId() == packet.packetId) { + qCDebug(dcSma()) << "Inverter: Received response for current reply" << static_cast(m_currentReply->request().command()) << "Packet ID:" << m_currentReply->request().packetId(); + m_currentReply->m_responseData = data; + m_currentReply->m_responseHeader = header; + m_currentReply->m_responsePacket = packet; + // Set the payload + while (!stream.atEnd()) { + quint8 byte; + stream >> byte; + m_currentReply->m_responsePayload.append(byte); + } + + if (packet.errorCode != 0) { + m_currentReply->finishReply(SpeedwireInverterReply::ErrorInverterError); + } else { + m_currentReply->finishReply(SpeedwireInverterReply::ErrorNoError); + } + } else { + if (m_currentReply) { + qCWarning(dcSma()) << "Inverter: Received unexpected data: waiting for" << static_cast(m_currentReply->request().command()) << "Packet ID:" << m_currentReply->request().packetId(); + } else { + qCWarning(dcSma()) << "Inverter: Received unexpected data: not waiting for any response."; + } + qCWarning(dcSma()) << "Inverter:" << header; + qCWarning(dcSma()) << "Inverter:" << packet; + qCWarning(dcSma()) << "Inverter:" << data.toHex(); + } +} + +void SpeedwireInverter::onReplyTimeout() +{ + SpeedwireInverterReply *reply = qobject_cast(sender()); + qCDebug(dcSma()) << "Inverter: Reply timeout" << reply->request().packetId() << reply->request().command(); + reply->m_retries += 1; + if (reply->m_retries <= reply->m_maxRetries) { + qCDebug(dcSma()) << "Inverter: Resend request" << reply->m_retries << "/" << reply->m_maxRetries; + m_replyQueue.prepend(reply); + m_currentReply = nullptr; + sendNextReply(); + } else { + if (reply->m_maxRetries == 0) { + qCWarning(dcSma()) << "Inverter: No response received for request. Finish reply with" << SpeedwireInverterReply::ErrorTimeout; + } else { + qCWarning(dcSma()) << "Inverter: No response received for request after" << reply->m_maxRetries << "attempts. Finish reply with" << SpeedwireInverterReply::ErrorTimeout; + } + // Finish with timeout error + reply->finishReply(SpeedwireInverterReply::ErrorTimeout); + } +} + +void SpeedwireInverter::onReplyFinished() +{ + SpeedwireInverterReply *reply = qobject_cast(sender()); + if (m_currentReply == reply) { + // Note: the reply is self deleting on finished + m_currentReply = nullptr; + sendNextReply(); + } +} + +void SpeedwireInverter::setState(State state) +{ + if (m_state == state) + return; + + qCDebug(dcSma()) << "Inverter: State changed" << state; + m_state = state; + emit stateChanged(m_state); + + switch (m_state) { + case StateIdle: + break; + case StateDisconnected: + setReachable(false); + break; + case StateInitializing: { + // Try to fetch ac power + qCDebug(dcSma()) << "Inverter: Request AC power..."; + SpeedwireInverterReply *reply = sendQueryRequest(Speedwire::CommandQueryAc, 0x00464000, 0x004642ff); + connect(reply, &SpeedwireInverterReply::finished, this, [=](){ + if (reply->error() != SpeedwireInverterReply::ErrorNoError) { + if (reply->error() == SpeedwireInverterReply::ErrorTimeout) { + qCWarning(dcSma()) << "Inverter: Failed to query data from inverter:" << reply->request().command() << reply->error(); + + // TODO: try to send identify request and retry 3 times before giving up, + // still need to figure out why the inverter stops responding sometimes and how we can + // make it communicative again, a reconfugre always fixes this issue...somehow... + + setState(StateDisconnected); + return; + } + + // Reachable, but received an inverter error, probably not logged + if (reply->error() == SpeedwireInverterReply::ErrorInverterError) { + qCDebug(dcSma()) << "Inverter: Query data request finished with inverter error. Try to login..."; + setState(StateLogin); + return; + } + } + + // We where able to read data...emit the signal for the setup just incase + emit loginFinished(true); + + qCDebug(dcSma()) << "Inverter: Query request finished successfully" << reply->request().command(); + processAcPowerResponse(reply->responseData()); + + + if (m_deviceInformationFetched) { + setState(StateQueryData); + } else { + setState(StateGetInformation); + } + }); + break; + } + case StateLogin: { + SpeedwireInverterReply *loginReply = sendLoginRequest(m_password); + connect(loginReply, &SpeedwireInverterReply::finished, this, [=](){ + if (loginReply->error() != SpeedwireInverterReply::ErrorNoError) { + qCWarning(dcSma()) << "Inverter: Failed to login to inverter:" << loginReply->error(); + emit loginFinished(false); + setState(StateDisconnected); + return; + } + + qCDebug(dcSma()) << "Inverter: Login request finished successfully."; + emit loginFinished(true); + setReachable(true); + + // Logged in successfully, reinit the data fetch process + setState(StateInitializing); + }); + break; + } + case StateGetInformation: { + SpeedwireInverterReply *softwareVersionReply = sendSoftwareVersionRequest(); + connect(softwareVersionReply, &SpeedwireInverterReply::finished, this, [=](){ + if (softwareVersionReply->error() != SpeedwireInverterReply::ErrorNoError) { + qCWarning(dcSma()) << "Inverter: Failed to get software version from inverter:" << softwareVersionReply->error(); + setState(StateDisconnected); + return; + } + + qCDebug(dcSma()) << "Inverter: Software version request finished successfully."; + processSoftwareVersionResponse(softwareVersionReply->responsePayload()); + + SpeedwireInverterReply *deviceTypeReply = sendDeviceTypeRequest(); + connect(deviceTypeReply, &SpeedwireInverterReply::finished, this, [=](){ + if (deviceTypeReply->error() != SpeedwireInverterReply::ErrorNoError) { + qCWarning(dcSma()) << "Inverter: Failed to get device information from inverter:" << deviceTypeReply->error(); + setState(StateDisconnected); + return; + } + + qCDebug(dcSma()) << "Inverter: Get device information finished successfully."; + processDeviceTypeResponse(deviceTypeReply->responsePayload()); + m_deviceInformationFetched = true; + setState(StateQueryData); + }); + }); + break; + } + case StateQueryData: { + // Query inverter status + qCDebug(dcSma()) << "Inverter: Request inverter status..."; + SpeedwireInverterReply *reply = sendQueryRequest(Speedwire::CommandQueryStatus, 0x00214800, 0x002148FF); + connect(reply, &SpeedwireInverterReply::finished, this, [=](){ + if (reply->error() != SpeedwireInverterReply::ErrorNoError) { + qCWarning(dcSma()) << "Inverter: Failed to get status from inverter:" << reply->request().command() << reply->error(); + setState(StateDisconnected); + return; + } + + qCDebug(dcSma()) << "Inverter: Get inverter status request finished successfully" << reply->request().command(); + processInverterStatusResponse(reply->responsePayload()); + + // Query AC voltage / current + qCDebug(dcSma()) << "Inverter: Request AC voltage and current..."; + SpeedwireInverterReply *reply = sendQueryRequest(Speedwire::CommandQueryAc, 0x00464800, 0x004655ff); + connect(reply, &SpeedwireInverterReply::finished, this, [=](){ + if (reply->error() != SpeedwireInverterReply::ErrorNoError) { + qCWarning(dcSma()) << "Inverter: Failed to query data from inverter:" << reply->request().command() << reply->error(); + setState(StateDisconnected); + return; + } + + qCDebug(dcSma()) << "Inverter: Query request finished successfully" << reply->request().command(); + processAcVoltageCurrentResponse(reply->responsePayload()); + + // Query DC power + qCDebug(dcSma()) << "Inverter: Request DC power..."; + SpeedwireInverterReply *reply = sendQueryRequest(Speedwire::CommandQueryDc, 0x00251e00, 0x00251eff); + connect(reply, &SpeedwireInverterReply::finished, this, [=](){ + if (reply->error() != SpeedwireInverterReply::ErrorNoError) { + qCWarning(dcSma()) << "Inverter: Failed to query data from inverter:" << reply->request().command() << reply->error(); + setState(StateDisconnected); + return; + } + + qCDebug(dcSma()) << "Inverter: Query request finished successfully" << reply->request().command(); + processDcPowerResponse(reply->responsePayload()); + + // Query DC voltage/current + qCDebug(dcSma()) << "Inverter: Request DC voltage and current..."; + SpeedwireInverterReply *reply = sendQueryRequest(Speedwire::CommandQueryDc, 0x00451f00, 0x004521ff); + connect(reply, &SpeedwireInverterReply::finished, this, [=](){ + if (reply->error() != SpeedwireInverterReply::ErrorNoError) { + qCWarning(dcSma()) << "Inverter: Failed to query data from inverter:" << reply->request().command() << reply->error(); + setState(StateDisconnected); + return; + } + + qCDebug(dcSma()) << "Inverter: Query request finished successfully" << reply->request().command(); + processDcVoltageCurrentResponse(reply->responsePayload()); + + // Query energy production + qCDebug(dcSma()) << "Inverter: Request energy production..."; + SpeedwireInverterReply *reply = sendQueryRequest(Speedwire::CommandQueryEnergy, 0x00260100, 0x002622ff); + connect(reply, &SpeedwireInverterReply::finished, this, [=](){ + if (reply->error() != SpeedwireInverterReply::ErrorNoError) { + qCWarning(dcSma()) << "Inverter: Failed to query data from inverter:" << reply->request().command() << reply->error(); + setState(StateDisconnected); + return; + } + + qCDebug(dcSma()) << "Inverter: Query request finished successfully" << reply->request().command(); + processEnergyProductionResponse(reply->responsePayload()); + + // Query total AC power + qCDebug(dcSma()) << "Inverter: Request total AC power..."; + SpeedwireInverterReply *reply = sendQueryRequest(Speedwire::CommandQueryAc, 0x00263f00, 0x00263fff); + connect(reply, &SpeedwireInverterReply::finished, this, [=](){ + if (reply->error() != SpeedwireInverterReply::ErrorNoError) { + qCWarning(dcSma()) << "Inverter: Failed to query data from inverter:" << reply->request().command() << reply->error(); + setState(StateDisconnected); + return; + } + + qCDebug(dcSma()) << "Inverter: Query request finished successfully" << reply->request().command(); + processAcTotalPowerResponse(reply->responsePayload()); + + // Query grid frequency + qCDebug(dcSma()) << "Inverter: Request grid frequency..."; + SpeedwireInverterReply *reply = sendQueryRequest(Speedwire::CommandQueryAc, 0x00465700, 0x004657ff); + connect(reply, &SpeedwireInverterReply::finished, this, [=](){ + if (reply->error() != SpeedwireInverterReply::ErrorNoError) { + qCWarning(dcSma()) << "Inverter: Failed to query data from inverter:" << reply->request().command() << reply->error(); + setState(StateDisconnected); + return; + } + + qCDebug(dcSma()) << "Inverter: Query request finished successfully" << reply->request().command(); + processGridFrequencyResponse(reply->responsePayload()); + + setReachable(true); + emit valuesUpdated(); + setState(StateIdle); + }); + }); + }); + }); + }); + }); + }); + break; + } + } +} diff --git a/sma/speedwireinverter.h b/sma/speedwireinverter.h new file mode 100644 index 00000000..ce2d34e5 --- /dev/null +++ b/sma/speedwireinverter.h @@ -0,0 +1,202 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2022, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#ifndef SPEEDWIREINVERTER_H +#define SPEEDWIREINVERTER_H + +#include +#include + +#include "speedwire.h" +#include "speedwireinterface.h" +#include "speedwireinverterreply.h" +#include "speedwireinverterrequest.h" + +class SpeedwireInverter : public QObject +{ + Q_OBJECT +public: + enum State { + StateIdle, + StateDisconnected, + StateInitializing, + StateLogin, + StateGetInformation, + StateQueryData + }; + Q_ENUM(State) + + explicit SpeedwireInverter(const QHostAddress &address, quint16 modelId, quint32 serialNumber, QObject *parent = nullptr); + + bool initialize(); + bool initialized() const; + + State state() const; + + bool reachable() const; + + Speedwire::DeviceClass deviceClass() const; + QString modelName() const; + + double totalAcPower() const; + + double gridFrequency() const; + + double totalEnergyProduced() const; + double todayEnergyProduced() const; + + double voltageAcPhase1() const; + double voltageAcPhase2() const; + double voltageAcPhase3() const; + + double currentAcPhase1() const; + double currentAcPhase2() const; + double currentAcPhase3() const; + + double powerAcPhase1() const; + double powerAcPhase2() const; + double powerAcPhase3() const; + + double powerDcMpp1() const; + double powerDcMpp2() const; + + double voltageDcMpp1() const; + double voltageDcMpp2() const; + + double currentDcMpp1() const; + double currentDcMpp2() const; + + // Query methods + SpeedwireInverterReply *sendIdentifyRequest(); + SpeedwireInverterReply *sendLoginRequest(const QString &password = "0000", bool loginAsUser = true); + SpeedwireInverterReply *sendLogoutRequest(); + SpeedwireInverterReply *sendSoftwareVersionRequest(); + SpeedwireInverterReply *sendDeviceTypeRequest(); + + // Start connecting + void startConnecting(const QString &password = "0000"); + +public slots: + void refresh(); + +signals: + void reachableChanged(bool reachable); + void loginFinished(bool success); + void stateChanged(State state); + void valuesUpdated(); + +private: + SpeedwireInterface *m_interface = nullptr; + QHostAddress m_address; + QString m_password; + + bool m_initialized = false; + quint16 m_modelId = 0; + quint32 m_serialNumber = 0; + + bool m_reachable = false; + State m_state = StateDisconnected; + quint16 m_packetId = 1; + + bool m_deviceInformationFetched = false; + + SpeedwireInverterReply *m_currentReply = nullptr; + QQueue m_replyQueue; + + // Properties + Speedwire::DeviceClass m_deviceClass = Speedwire::DeviceClassUnknown; + QString m_modelName; + QString m_softwareVersion; + + double m_totalAcPower = 0; + double m_totalEnergyProduced = 0; + double m_todayEnergyProduced = 0; + + double m_gridFrequency = 0; + + double m_voltageAcPhase1 = 0; + double m_voltageAcPhase2 = 0; + double m_voltageAcPhase3 = 0; + + double m_currentAcPhase1 = 0; + double m_currentAcPhase2 = 0; + double m_currentAcPhase3 = 0; + + double m_powerAcPhase1 = 0; + double m_powerAcPhase2 = 0; + double m_powerAcPhase3 = 0; + + double m_powerDcMpp1 = 0; + double m_powerDcMpp2 = 0; + + double m_voltageDcMpp1 = 0; + double m_voltageDcMpp2 = 0; + + double m_currentDcMpp1 = 0; + double m_currentDcMpp2 = 0; + + void setState(State state); + + void sendNextReply(); + SpeedwireInverterReply *createReply(const SpeedwireInverterRequest &request); + + // Request builder function + void buildDefaultHeader(QDataStream &stream, quint16 payloadSize = 38, quint8 control = 0xa0); + void buildPacket(QDataStream &stream, quint32 command, quint16 packetId); + + // Send generic request for internal use + SpeedwireInverterReply *sendQueryRequest(Speedwire::Command command, quint32 firstWord, quint32 secondWord); + + // Response process methods + void processSoftwareVersionResponse(const QByteArray &response); + void processDeviceTypeResponse(const QByteArray &response); + void processAcPowerResponse(const QByteArray &response); + void processAcVoltageCurrentResponse(const QByteArray &response); + void processAcTotalPowerResponse(const QByteArray &response); + void processDcPowerResponse(const QByteArray &response); + void processDcVoltageCurrentResponse(const QByteArray &response); + void processEnergyProductionResponse(const QByteArray &response); + void processGridFrequencyResponse(const QByteArray &response); + void processInverterStatusResponse(const QByteArray &response); + + void readUntilEndOfMeasurement(QDataStream &stream); + double readValue(quint32 value, double divisor = 1.0); + + void setReachable(bool reachable); + +private slots: + void processData(const QByteArray &data); + + void onReplyTimeout(); + void onReplyFinished(); + +}; + +#endif // SPEEDWIREINVERTER_H diff --git a/sma/speedwireinverterreply.cpp b/sma/speedwireinverterreply.cpp new file mode 100644 index 00000000..b7b2941a --- /dev/null +++ b/sma/speedwireinverterreply.cpp @@ -0,0 +1,85 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2022, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#include "speedwireinverterreply.h" +#include "extern-plugininfo.h" + +SpeedwireInverterReply::SpeedwireInverterReply(const SpeedwireInverterRequest &request, QObject *parent) : + QObject(parent), + m_request(request) +{ + m_maxRetries = m_request.retries(); + + m_timer.setInterval(m_timeout); + m_timer.setSingleShot(true); + connect(&m_timer, &QTimer::timeout, this, &SpeedwireInverterReply::timeout); +} + +SpeedwireInverterRequest SpeedwireInverterReply::request() const +{ + return m_request; +} + +SpeedwireInverterReply::Error SpeedwireInverterReply::error() const +{ + return m_error; +} + +QByteArray SpeedwireInverterReply::responseData() const +{ + return m_responseData; +} + +Speedwire::Header SpeedwireInverterReply::responseHeader() const +{ + return m_responseHeader; +} + +Speedwire::InverterPacket SpeedwireInverterReply::responsePacket() const +{ + return m_responsePacket; +} + +QByteArray SpeedwireInverterReply::responsePayload() const +{ + return m_responsePayload; +} + +void SpeedwireInverterReply::startWaiting() +{ + m_timer.start(); +} + +void SpeedwireInverterReply::finishReply(Error error) +{ + m_timer.stop(); + m_error = error; + emit finished(); +} diff --git a/sma/speedwireinverterreply.h b/sma/speedwireinverterreply.h new file mode 100644 index 00000000..3f6a3a16 --- /dev/null +++ b/sma/speedwireinverterreply.h @@ -0,0 +1,89 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2022, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#ifndef SPEEDWIREINVERTERREPLY_H +#define SPEEDWIREINVERTERREPLY_H + +#include +#include + +#include "speedwireinverterrequest.h" + +class SpeedwireInverterReply : public QObject +{ + Q_OBJECT + + friend class SpeedwireInverter; + +public: + enum Error { + ErrorNoError, // Response on, no error + ErrorInverterError, // Inverter returned error + ErrorTimeout // Request timeouted + }; + Q_ENUM(Error) + + // Request + SpeedwireInverterRequest request() const; + + Error error() const; + + // Response + QByteArray responseData() const; + Speedwire::Header responseHeader() const; + Speedwire::InverterPacket responsePacket() const; + QByteArray responsePayload() const; + +signals: + void finished(); + void timeout(); + +private: + explicit SpeedwireInverterReply(const SpeedwireInverterRequest &request, QObject *parent = nullptr); + + QTimer m_timer; + Error m_error = ErrorNoError; + SpeedwireInverterRequest m_request; + quint8 m_retries = 0; + quint8 m_maxRetries = 3; + int m_timeout = 3000; + + QByteArray m_responseData; + Speedwire::Header m_responseHeader; + Speedwire::InverterPacket m_responsePacket; + QByteArray m_responsePayload; + + + void finishReply(Error error); + void startWaiting(); + +}; + +#endif // SPEEDWIREINVERTERREPLY_H diff --git a/sma/speedwireinverterrequest.cpp b/sma/speedwireinverterrequest.cpp new file mode 100644 index 00000000..6797c719 --- /dev/null +++ b/sma/speedwireinverterrequest.cpp @@ -0,0 +1,76 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2022, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#include "speedwireinverterrequest.h" + +SpeedwireInverterRequest::SpeedwireInverterRequest() +{ + +} + +Speedwire::Command SpeedwireInverterRequest::command() const +{ + return m_command; +} + +void SpeedwireInverterRequest::setCommand(Speedwire::Command command) +{ + m_command = command; +} + +quint16 SpeedwireInverterRequest::packetId() const +{ + return m_packetId; +} + +void SpeedwireInverterRequest::setPacketId(quint16 packetId) +{ + m_packetId = packetId; +} + +QByteArray SpeedwireInverterRequest::requestData() const +{ + return m_requestData; +} + +void SpeedwireInverterRequest::setRequestData(const QByteArray &requestData) +{ + m_requestData = requestData; +} + +quint8 SpeedwireInverterRequest::retries() const +{ + return m_retries; +} + +void SpeedwireInverterRequest::setRetries(quint8 retries) +{ + m_retries = retries; +} diff --git a/sma/speedwireinverterrequest.h b/sma/speedwireinverterrequest.h new file mode 100644 index 00000000..be0b7216 --- /dev/null +++ b/sma/speedwireinverterrequest.h @@ -0,0 +1,62 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2022, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#ifndef SPEEDWIREINVERTERREQUEST_H +#define SPEEDWIREINVERTERREQUEST_H + +#include + +#include "speedwire.h" + +class SpeedwireInverterRequest +{ +public: + explicit SpeedwireInverterRequest(); + + Speedwire::Command command() const; + void setCommand(Speedwire::Command command); + + quint16 packetId() const; + void setPacketId(quint16 packetId); + + QByteArray requestData() const; + void setRequestData(const QByteArray &requestData); + + quint8 retries() const; + void setRetries(quint8 retries); + +private: + Speedwire::Command m_command; + quint16 m_packetId = 0; + QByteArray m_requestData; + quint8 m_retries = 2; // Default try 2 times before timeout +}; + +#endif // SPEEDWIREINVERTERREQUEST_H diff --git a/sma/speedwiremeter.cpp b/sma/speedwiremeter.cpp new file mode 100644 index 00000000..152ae871 --- /dev/null +++ b/sma/speedwiremeter.cpp @@ -0,0 +1,344 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2021, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#include "speedwiremeter.h" +#include "extern-plugininfo.h" + +SpeedwireMeter::SpeedwireMeter(const QHostAddress &address, quint16 modelId, quint32 serialNumber, QObject *parent) : + QObject(parent), + m_address(address), + m_modelId(modelId), + m_serialNumber(serialNumber) +{ + m_interface = new SpeedwireInterface(m_address, true, this); + connect(m_interface, &SpeedwireInterface::dataReceived, this, &SpeedwireMeter::processData); + + // Reachable timestamp + m_timer.setInterval(5000); + m_timer.setSingleShot(false); + connect(&m_timer, &QTimer::timeout, this, &SpeedwireMeter::evaluateReachable); +} + +bool SpeedwireMeter::initialize() +{ + bool initSuccess = m_interface->initialize(); + if (initSuccess) + m_timer.start(); + + return initSuccess; +} + +bool SpeedwireMeter::initialized() const +{ + return m_interface->initialized(); +} + +bool SpeedwireMeter::reachable() const +{ + return m_reachable; +} + +double SpeedwireMeter::currentPower() const +{ + return m_currentPower; +} + +double SpeedwireMeter::totalEnergyProduced() const +{ + return m_totalEnergyProduced; +} + +double SpeedwireMeter::totalEnergyConsumed() const +{ + return m_totalEnergyConsumed; +} + +double SpeedwireMeter::energyConsumedPhaseA() const +{ + return m_energyConsumedPhaseA; +} + +double SpeedwireMeter::energyConsumedPhaseB() const +{ + return m_energyConsumedPhaseB; +} + +double SpeedwireMeter::energyConsumedPhaseC() const +{ + return m_energyConsumedPhaseC; +} + +double SpeedwireMeter::energyProducedPhaseA() const +{ + return m_energyProducedPhaseA; +} + +double SpeedwireMeter::energyProducedPhaseB() const +{ + return m_energyProducedPhaseB; +} + +double SpeedwireMeter::energyProducedPhaseC() const +{ + return m_energyProducedPhaseC; +} + +double SpeedwireMeter::currentPowerPhaseA() const +{ + return m_currentPowerPhaseA; +} + +double SpeedwireMeter::currentPowerPhaseB() const +{ + return m_currentPowerPhaseB; +} + +double SpeedwireMeter::currentPowerPhaseC() const +{ + return m_currentPowerPhaseC; +} + +double SpeedwireMeter::voltagePhaseA() const +{ + return m_voltagePhaseA; +} + +double SpeedwireMeter::voltagePhaseB() const +{ + return m_voltagePhaseB; +} + +double SpeedwireMeter::voltagePhaseC() const +{ + return m_voltagePhaseC; +} + +double SpeedwireMeter::amperePhaseA() const +{ + return m_amperePhaseA; +} + +double SpeedwireMeter::amperePhaseB() const +{ + return m_amperePhaseB; +} + +double SpeedwireMeter::amperePhaseC() const +{ + return m_amperePhaseC; +} + +QString SpeedwireMeter::softwareVersion() const +{ + return m_softwareVersion; +} + +void SpeedwireMeter::evaluateReachable() +{ + // Note: the meter sends every second the data on the multicast + qint64 currentTimestamp = QDateTime::currentDateTime().toMSecsSinceEpoch() / 1000; + // If the meter has not sent data within the last 5 seconds it seems not to be reachable + bool reachable = false; + if (currentTimestamp - m_lastSeenTimestamp < 10) { + reachable = true; + } + + if (m_reachable != reachable) { + qCDebug(dcSma()) << "Meter: reachable changed to" << reachable; + m_reachable = reachable; + emit reachableChanged(m_reachable); + } + + // Restart the timer + if (m_reachable) { + m_timer.start(); + } else { + // Reachable will be triggered automatically once data arrives + // No need to run the timer all the time + m_timer.stop(); + } +} + +void SpeedwireMeter::processData(const QByteArray &data) +{ + qCDebug(dcSma()) << "Meter: data received" << data.toHex(); + QDataStream stream(data); + stream.setByteOrder(QDataStream::BigEndian); + + Speedwire::Header header = Speedwire::parseHeader(stream); + if (!header.isValid()) { + qCDebug(dcSma()) << "Meter: Datagram header is not valid. Ignoring data..."; + return; + } + + if (header.protocolId != Speedwire::ProtocolIdMeter) { + qCDebug(dcSma()) << "Meter: received header protocol which is not from the meter protocol. Ignoring data..."; + return; + } + + quint16 modelId; + quint32 serialNumber; + stream >> modelId >> serialNumber; + if (m_modelId != modelId && serialNumber != m_serialNumber) { + qCDebug(dcSma()) << "Meter: received meter data from an other meter. Ignoring data..."; + } + + qCDebug(dcSma()) << "Meter: Model ID:" << modelId; + qCDebug(dcSma()) << "Meter: Serial number:" << serialNumber; + + // Parse the packet data + // Timestamp e618a416 + qCDebug(dcSma()) << "Meter: ======================= Meter measurements"; + quint32 timestamp; + stream >> timestamp; + qCDebug(dcSma()) << "Meter: Timestamp:" << timestamp; + + // Obis data + //00 01 04 00 00000000 00 01 08 00 0000002139122910 00 02 04 00 00004415 00 02 08 00 0000001575a137d8 00 03 04 00 00000000 00 03 08 00 00000003debed0e8 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 01020852 00000000 + while (!stream.atEnd()) { + quint8 measurementChannel; + quint8 measurementIndex; + quint8 measurmentType; + quint8 measurmentTariff; + + stream >> measurementChannel >> measurementIndex >> measurmentType >> measurmentTariff; + + if (measurmentType == 4) { + qint32 measurement; + stream >> measurement; + + if (measurementIndex == 1 && measurement != 0) { + m_currentPower = measurement / 10.0; + qCDebug(dcSma()) << "Meter: Current power" << m_currentPower << "W"; + } else if (measurementIndex == 2 && measurement != 0) { + m_currentPower = -measurement / 10.0; + qCDebug(dcSma()) << "Meter: Current power" << m_currentPower << "W"; + } else if (measurementIndex == 21 && measurement != 0) { + m_currentPowerPhaseA = measurement / 10.0; + qCDebug(dcSma()) << "Meter: Current power phase A" << m_currentPowerPhaseA << "W"; + } else if (measurementIndex == 22 && measurement != 0) { + m_currentPowerPhaseA = -measurement / 10.0; + qCDebug(dcSma()) << "Meter: Current power phase A" << m_currentPowerPhaseA << "W"; + } else if (measurementIndex == 41 && measurement != 0) { + m_currentPowerPhaseB = measurement / 10.0; + qCDebug(dcSma()) << "Meter: Current power phase B" << m_currentPowerPhaseB << "W"; + } else if (measurementIndex == 42 && measurement != 0) { + m_currentPowerPhaseB = -measurement / 10.0; + qCDebug(dcSma()) << "Meter: Current power phase B" << m_currentPowerPhaseB << "W"; + } else if (measurementIndex == 61 && measurement != 0) { + m_currentPowerPhaseC = measurement / 10.0; + qCDebug(dcSma()) << "Meter: Current power phase C" << m_currentPowerPhaseC << "W"; + } else if (measurementIndex == 62 && measurement != 0) { + m_currentPowerPhaseC = -measurement / 10.0; + qCDebug(dcSma()) << "Meter: Current power phase C" << m_currentPowerPhaseC << "W"; + } else if (measurementIndex == 31) { + m_amperePhaseA = measurement / 1000.0; + qCDebug(dcSma()) << "Meter: Ampere phase A" << m_amperePhaseA << "A"; + } else if (measurementIndex == 51) { + m_amperePhaseB = measurement / 1000.0; + qCDebug(dcSma()) << "Meter: Ampere phase B" << m_amperePhaseB << "A"; + } else if (measurementIndex == 71) { + m_amperePhaseC = measurement / 1000.0; + qCDebug(dcSma()) << "Meter: Ampere phase C" << m_amperePhaseC << "A"; + } else if (measurementIndex == 32) { + m_voltagePhaseA = measurement / 1000.0; + qCDebug(dcSma()) << "Meter: Voltage phase A" << m_voltagePhaseA << "V"; + } else if (measurementIndex == 52) { + m_voltagePhaseB = measurement / 1000.0; + qCDebug(dcSma()) << "Meter: Voltage phase B" << m_voltagePhaseB << "V"; + } else if (measurementIndex == 72) { + m_voltagePhaseC = measurement / 1000.0; + qCDebug(dcSma()) << "Meter: Voltage phase C" << m_voltagePhaseC << "V"; + } else { +// qCDebug(dcSma()) << "Meter: --> Channel:" << measurementChannel << "Index:" << measurementIndex << "Type:" << measurmentType << "Rate:" << measurmentTariff; +// qCDebug(dcSma()) << "Meter: Value:" << measurement; + } + + + } else if (measurmentType == 8) { + qint64 measurement; + stream >> measurement; + + if (measurementIndex == 1 && measurement != 0) { + m_totalEnergyConsumed = measurement / 3600000.0; + qCDebug(dcSma()) << "Meter: Total energy consumed" << m_totalEnergyConsumed << "kWh"; + } else if (measurementIndex == 2 && measurement != 0) { + m_totalEnergyProduced = measurement / 3600000.0; + qCDebug(dcSma()) << "Meter: Total energy produced" << m_totalEnergyProduced << "kWh"; + } else if (measurementIndex == 21 && measurement != 0) { + m_energyConsumedPhaseA = measurement / 3600000.0; + qCDebug(dcSma()) << "Meter: Energy consumed phase A" << m_energyConsumedPhaseA << "kWh"; + } else if (measurementIndex == 41 && measurement != 0) { + m_energyConsumedPhaseB = measurement / 3600000.0; + qCDebug(dcSma()) << "Meter: Energy consumed phase B" << m_energyConsumedPhaseB << "kWh"; + } else if (measurementIndex == 61 && measurement != 0) { + m_energyConsumedPhaseC = measurement / 3600000.0; + qCDebug(dcSma()) << "Meter: Energy consumed phase C" << m_energyConsumedPhaseC << "kWh"; + } else if (measurementIndex == 22 && measurement != 0) { + m_energyProducedPhaseA = measurement / 3600000.0; + qCDebug(dcSma()) << "Meter: Energy produced phase A" << m_energyProducedPhaseA << "kWh"; + } else if (measurementIndex == 42 && measurement != 0) { + m_energyProducedPhaseB = measurement / 3600000.0; + qCDebug(dcSma()) << "Meter: Energy produced phase B" << m_energyProducedPhaseB << "kWh"; + } else if (measurementIndex == 62 && measurement != 0) { + m_energyProducedPhaseC = measurement / 3600000.0; + qCDebug(dcSma()) << "Meter: Energy produced phase C" << m_energyProducedPhaseC << "kWh"; + } else { +// qCDebug(dcSma()) << "Meter: --> Channel:" << measurementChannel << "Index:" << measurementIndex << "Type:" << measurmentType << "Rate:" << measurmentTariff; +// qCDebug(dcSma()) << "Meter: Value:" << measurement; + } + + } if (measurementChannel == 144 && measurementIndex == 0 && measurmentType == 0 && measurmentTariff == 0) { + // Software version + // 90000000 01 02 08 52 + quint8 major, minor, build, revision; + stream >> major >> minor >> build >> revision; + // Revision types: + // S: Special version + // A: Alpha version + // B: Beta version + // R: Release version + // E: Experimental version + // N: No revision + m_softwareVersion = QString("%1.%2.%3-%4").arg(major).arg(minor).arg(build).arg(QChar(revision)); + + qCDebug(dcSma()) << "Meter: Software version" << m_softwareVersion; + } else if (measurementChannel == 0 && measurementIndex == 0 && measurmentType == 0 && measurmentTariff == 0) { + // 00 00 00 00 + //qCDebug(dcSma()) << "Meter: End of data reached."; + } + } + + // Save the current timestamp for reachable evaluation + m_lastSeenTimestamp = QDateTime::currentDateTime().toMSecsSinceEpoch() / 1000; + evaluateReachable(); + + emit valuesUpdated(); +} diff --git a/sma/speedwiremeter.h b/sma/speedwiremeter.h new file mode 100644 index 00000000..0599cf3b --- /dev/null +++ b/sma/speedwiremeter.h @@ -0,0 +1,126 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * +* +* Copyright 2013 - 2021, nymea GmbH +* Contact: contact@nymea.io +* +* This file is part of nymea. +* This project including source code and documentation is protected by +* copyright law, and remains the property of nymea GmbH. All rights, including +* reproduction, publication, editing and translation, are reserved. The use of +* this project is subject to the terms of a license agreement to be concluded +* with nymea GmbH in accordance with the terms of use of nymea GmbH, available +* under https://nymea.io/license +* +* GNU Lesser General Public License Usage +* Alternatively, this project may be redistributed and/or modified under the +* terms of the GNU Lesser General Public License as published by the Free +* Software Foundation; version 3. This project 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 +* Lesser General Public License for more details. +* +* You should have received a copy of the GNU Lesser General Public License +* along with this project. If not, see . +* +* For any further details and any questions please contact us under +* contact@nymea.io or see our FAQ/Licensing Information on +* https://nymea.io/license/faq +* +* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +#ifndef SPEEDWIREMETER_H +#define SPEEDWIREMETER_H + +#include +#include +#include + +#include "speedwireinterface.h" + +class SpeedwireMeter : public QObject +{ + Q_OBJECT +public: + explicit SpeedwireMeter(const QHostAddress &address, quint16 modelId, quint32 serialNumber, QObject *parent = nullptr); + + bool initialize(); + bool initialized() const; + + bool reachable() const; + + double currentPower() const; + double totalEnergyProduced() const; + double totalEnergyConsumed() const; + + double energyConsumedPhaseA() const; + double energyConsumedPhaseB() const; + double energyConsumedPhaseC() const; + + double energyProducedPhaseA() const; + double energyProducedPhaseB() const; + double energyProducedPhaseC() const; + + double currentPowerPhaseA() const; + double currentPowerPhaseB() const; + double currentPowerPhaseC() const; + + double voltagePhaseA() const; + double voltagePhaseB() const; + double voltagePhaseC() const; + + double amperePhaseA() const; + double amperePhaseB() const; + double amperePhaseC() const; + + QString softwareVersion() const; + + +signals: + void reachableChanged(bool reachable); + void valuesUpdated(); + +private: + SpeedwireInterface *m_interface = nullptr; + QHostAddress m_address; + bool m_initialized = false; + quint16 m_modelId = 0; + quint32 m_serialNumber = 0; + + QTimer m_timer; + bool m_reachable = false; + qint64 m_lastSeenTimestamp = 0; + + double m_currentPower = 0; + double m_totalEnergyProduced = 0; + double m_totalEnergyConsumed = 0; + + double m_energyConsumedPhaseA = 0; + double m_energyConsumedPhaseB = 0; + double m_energyConsumedPhaseC = 0; + + double m_energyProducedPhaseA = 0; + double m_energyProducedPhaseB = 0; + double m_energyProducedPhaseC = 0; + + double m_currentPowerPhaseA = 0; + double m_currentPowerPhaseB = 0; + double m_currentPowerPhaseC = 0; + + double m_voltagePhaseA = 0; + double m_voltagePhaseB = 0; + double m_voltagePhaseC = 0; + + double m_amperePhaseA = 0; + double m_amperePhaseB = 0; + double m_amperePhaseC = 0; + + QString m_softwareVersion; + + +private slots: + void evaluateReachable(); + void processData(const QByteArray &data); + +}; + +#endif // SPEEDWIREMETER_H diff --git a/sma/sunnywebbox.cpp b/sma/sunnywebbox.cpp index f2b2c56a..dd1a6e07 100644 --- a/sma/sunnywebbox.cpp +++ b/sma/sunnywebbox.cpp @@ -69,7 +69,7 @@ QString SunnyWebBox::getProcessData(const QStringList &deviceKeys) { QJsonObject paramsObj; QJsonArray devicesArray; - Q_FOREACH(QString key, deviceKeys) { + foreach (const QString &key, deviceKeys) { QJsonObject deviceObj; deviceObj["key"] = key; devicesArray.append(deviceObj); @@ -93,7 +93,7 @@ QString SunnyWebBox::getParameters(const QStringList &deviceKeys) { QJsonObject paramsObj; QJsonArray devicesArray; - Q_FOREACH(QString key, deviceKeys) { + foreach (const QString &key, deviceKeys) { QJsonObject deviceObj; deviceObj["key"] = key; devicesArray.append(deviceObj); @@ -109,7 +109,7 @@ QString SunnyWebBox::setParameters(const QString &deviceKey, const QHash devices; QVariantList deviceList = result.value("devices").toList(); qCDebug(dcSma()) << "SunnyWebBox: GetDevices" << result.value("totalDevicesReturned").toInt(); - Q_FOREACH(QVariant value, deviceList) { + foreach (const QVariant &value, deviceList) { Device device; QVariantMap map = value.toMap(); device.name = map["name"].toString(); @@ -185,7 +185,7 @@ void SunnyWebBox::parseMessage(const QString &messageId, const QString &messageT device.key = map["key"].toString(); qCDebug(dcSma()) << "SunnyWebBox: - Key" << device.key; QVariantList childrenList = map["children"].toList(); - Q_FOREACH(QVariant childValue, childrenList) { + foreach (const QVariant &childValue, childrenList) { Device child; QVariantMap childMap = childValue.toMap(); device.name = childMap["name"].toString(); @@ -194,44 +194,43 @@ void SunnyWebBox::parseMessage(const QString &messageId, const QString &messageT } devices.append(device); } - if (!devices.isEmpty()) + if (!devices.isEmpty()) { emit devicesReceived(messageId, devices); + } } else if (messageType == "GetProcessDataChannels" || messageType == "GetProDataChannels") { - Q_FOREACH(QString deviceKey, result.keys()) { + foreach (const QString &deviceKey, result.keys()) { QStringList processDataChannels = result.value(deviceKey).toStringList(); if (!processDataChannels.isEmpty()) emit processDataChannelsReceived(messageId, deviceKey, processDataChannels); } } else if (messageType == "GetProcessData") { - QList devices; QVariantList devicesList = result.value("devices").toList(); qCDebug(dcSma()) << "SunnyWebBox: GetProcessData response received"; - Q_FOREACH(QVariant value, devicesList) { + foreach (const QVariant &value, devicesList) { QString key = value.toMap().value("key").toString(); QVariantList channelsList = value.toMap().value("channels").toList(); QHash channels; - Q_FOREACH(QVariant channel, channelsList) { + foreach (const QVariant &channel, channelsList) { channels.insert(channel.toMap().value("meta").toString(), channel.toMap().value("value")); } emit processDataReceived(messageId, key, channels); } } else if (messageType == "GetParameterChannels") { - Q_FOREACH(QString deviceKey, result.keys()) { + foreach (const QString &deviceKey, result.keys()) { QStringList parameterChannels = result.value(deviceKey).toStringList(); if (!parameterChannels.isEmpty()) emit parameterChannelsReceived(messageId, deviceKey, parameterChannels); } } else if (messageType == "GetParameter"|| messageType == "SetParameter") { - QList devices; QVariantList devicesList = result.value("devices").toList(); - Q_FOREACH(QVariant value, devicesList) { + foreach (const QVariant &value, devicesList) { QString key = value.toMap().value("key").toString(); QVariantList channelsList = value.toMap().value("channels").toList(); QList parameters; - Q_FOREACH(QVariant channel, channelsList) { + foreach (const QVariant &channel, channelsList) { Parameter parameter; parameter.meta = channel.toMap().value("meta").toString(); parameter.name = channel.toMap().value("name").toString(); diff --git a/sma/translations/b8442bbf-9d3f-4aa2-9443-b3a31ae09bac-en_US.ts b/sma/translations/b8442bbf-9d3f-4aa2-9443-b3a31ae09bac-en_US.ts index 6d411ddd..861aab46 100644 --- a/sma/translations/b8442bbf-9d3f-4aa2-9443-b3a31ae09bac-en_US.ts +++ b/sma/translations/b8442bbf-9d3f-4aa2-9443-b3a31ae09bac-en_US.ts @@ -4,128 +4,305 @@ IntegrationPluginSma - + Unable to discover devices in your network. + + + + Unable to discover the network. + + + + + Please enter the password of your inverter. If no password has been explicitly set, leave it empty to use the default password for SMA inverters. + + + + + The password can not be longer than 12 characters. + + + + + Failed to log in with the given password. Please try again. + + sma - - + + + Connected - The name of the ParamType (ThingClass: sunnyWebBox, EventType: connected, ID: {c05e6a1a-252c-4f2b-8b31-09cf113d01c1}) + The name of the StateType ({aaff72c3-c70a-4a2f-bed1-89f38cebe442}) of ThingClass speedwireInverter +---------- +The name of the StateType ({35733d27-4fe0-439a-be71-7c1597481659}) of ThingClass speedwireMeter ---------- The name of the StateType ({c05e6a1a-252c-4f2b-8b31-09cf113d01c1}) of ThingClass sunnyWebBox - - Connected changed - The name of the EventType ({c05e6a1a-252c-4f2b-8b31-09cf113d01c1}) of ThingClass sunnyWebBox + + + Current phase A + The name of the StateType ({2a6c59ca-853a-47d6-96fb-0c85edf32f52}) of ThingClass speedwireInverter +---------- +The name of the StateType ({45bbdbef-1832-4870-bff5-299e580fb4da}) of ThingClass speedwireMeter - - + + + Current phase B + The name of the StateType ({4db96fec-737c-4c4b-bf07-5ef2fd62508a}) of ThingClass speedwireInverter +---------- +The name of the StateType ({b3a4fdd2-b6b8-4c58-9da3-2084ad414022}) of ThingClass speedwireMeter + + + + + + Current phase C + The name of the StateType ({0f23fb0e-a440-4ac2-9aff-896bc65feb2c}) of ThingClass speedwireInverter +---------- +The name of the StateType ({b3655188-3854-4336-ae3c-61d3bda6fc4d}) of ThingClass speedwireMeter + + + + + + Current power - The name of the ParamType (ThingClass: sunnyWebBox, EventType: currentPower, ID: {ff4ff872-2f0f-4ca4-9fe2-220eeaf16cc2}) + The name of the StateType ({d7ceb482-5df8-4c0c-82bd-62ce7ba22c43}) of ThingClass speedwireInverter +---------- +The name of the StateType ({d4ac7f37-e30a-44e4-93cb-ad16df18b8f1}) of ThingClass speedwireMeter ---------- The name of the StateType ({ff4ff872-2f0f-4ca4-9fe2-220eeaf16cc2}) of ThingClass sunnyWebBox - - Current power changed - The name of the EventType ({ff4ff872-2f0f-4ca4-9fe2-220eeaf16cc2}) of ThingClass sunnyWebBox + + Current power phase A + The name of the StateType ({c5d09c63-7461-4fb8-a6fe-bc7aa919be30}) of ThingClass speedwireMeter - - + + Current power phase B + The name of the StateType ({c52d4422-b521-4804-a7a7-c4398e91e760}) of ThingClass speedwireMeter + + + + + Current power phase C + The name of the StateType ({555e892c-3ca7-4100-9832-6ac13b87eb04}) of ThingClass speedwireMeter + + + + + DC power MPP1 + The name of the StateType ({b366f680-6134-488b-8362-b1b824a8daca}) of ThingClass speedwireInverter + + + + + DC power MPP2 + The name of the StateType ({87d9b654-5558-47a3-9db9-ffd7c23b4774}) of ThingClass speedwireInverter + + + + Day energy produced - The name of the ParamType (ThingClass: sunnyWebBox, EventType: dayEnergyProduced, ID: {16f34c5c-8dbb-4dcc-9faa-4b782d57226c}) ----------- -The name of the StateType ({16f34c5c-8dbb-4dcc-9faa-4b782d57226c}) of ThingClass sunnyWebBox + The name of the StateType ({16f34c5c-8dbb-4dcc-9faa-4b782d57226c}) of ThingClass sunnyWebBox - - Day energy produced changed - The name of the EventType ({16f34c5c-8dbb-4dcc-9faa-4b782d57226c}) of ThingClass sunnyWebBox + + Energy consumed phase A + The name of the StateType ({b4ff2c71-f81d-4904-bbac-0c0c6e8a5a33}) of ThingClass speedwireMeter - - + + Energy consumed phase B + The name of the StateType ({c4e5f569-ac5d-4761-a898-888880bfd59f}) of ThingClass speedwireMeter + + + + + Energy consumed phase C + The name of the StateType ({aabc02d7-8dc3-4637-8bf2-dc2e0e737ad3}) of ThingClass speedwireMeter + + + + + Energy produced phase A + The name of the StateType ({754c3b67-768a-47f7-99d8-f66c198f0835}) of ThingClass speedwireMeter + + + + + Energy produced phase B + The name of the StateType ({7eb08c45-24cf-40ce-be28-f3564f087672}) of ThingClass speedwireMeter + + + + + Energy produced phase C + The name of the StateType ({1eb2bf01-5ec6-42e5-b348-ac1e95199d14}) of ThingClass speedwireMeter + + + + + Energy produced today + The name of the StateType ({e8bc8f81-e5c5-4900-b429-93fcaa262fcb}) of ThingClass speedwireInverter + + + + Error - The name of the ParamType (ThingClass: sunnyWebBox, EventType: error, ID: {4e64f9ca-7e5a-4897-8035-6f2ae88fde89}) + The name of the StateType ({4e64f9ca-7e5a-4897-8035-6f2ae88fde89}) of ThingClass sunnyWebBox + + + + + + Firmware version + The name of the StateType ({6d76cc7b-9e00-4561-be7b-4e2a6b8f7b66}) of ThingClass speedwireInverter ---------- -The name of the StateType ({4e64f9ca-7e5a-4897-8035-6f2ae88fde89}) of ThingClass sunnyWebBox +The name of the StateType ({a685393c-8b7e-42c5-bb41-f9907c074626}) of ThingClass speedwireMeter - - Error changed - The name of the EventType ({4e64f9ca-7e5a-4897-8035-6f2ae88fde89}) of ThingClass sunnyWebBox + + Frequency + The name of the StateType ({fdccf5de-7413-4480-9ca0-1151665dede8}) of ThingClass speedwireInverter - + + + Host address - The name of the ParamType (ThingClass: sunnyWebBox, Type: thing, ID: {864d4162-e3ce-48b8-b8ac-c1b971b52d42}) + The name of the ParamType (ThingClass: speedwireInverter, Type: thing, ID: {c8098d53-69eb-4d0b-9f07-e43c4a0ea9a9}) +---------- +The name of the ParamType (ThingClass: speedwireMeter, Type: thing, ID: {d90193e6-a996-4e49-bf6d-564d596d7e74}) +---------- +The name of the ParamType (ThingClass: sunnyWebBox, Type: thing, ID: {864d4162-e3ce-48b8-b8ac-c1b971b52d42}) - - + + + + MAC address + The name of the ParamType (ThingClass: speedwireInverter, Type: thing, ID: {7df0ab60-0f11-4495-8e0d-508ba2b6d858}) +---------- +The name of the ParamType (ThingClass: speedwireMeter, Type: thing, ID: {2780eab7-1f1c-4cc7-a789-a8790329ca9e}) +---------- +The name of the ParamType (ThingClass: sunnyWebBox, Type: thing, ID: {03f32361-4e13-4597-a346-af8d16a986b3}) + + + + Mode - The name of the ParamType (ThingClass: sunnyWebBox, EventType: mode, ID: {1974550b-6059-4b0e-83f4-70177e20dac3}) + The name of the StateType ({1974550b-6059-4b0e-83f4-70177e20dac3}) of ThingClass sunnyWebBox + + + + + + Model ID + The name of the ParamType (ThingClass: speedwireInverter, Type: thing, ID: {d9892f74-5b93-4c98-8da2-72aca033273a}) ---------- -The name of the StateType ({1974550b-6059-4b0e-83f4-70177e20dac3}) of ThingClass sunnyWebBox +The name of the ParamType (ThingClass: speedwireMeter, Type: thing, ID: {abdc114d-1fac-4454-8b82-871ed5cdf28c}) - - Mode changed - The name of the EventType ({1974550b-6059-4b0e-83f4-70177e20dac3}) of ThingClass sunnyWebBox - - - - - + SMA - The name of the vendor ({16d5a4a3-36d5-46c0-b7dd-df166ddf5981}) + The name of the plugin sma ({b8442bbf-9d3f-4aa2-9443-b3a31ae09bac}) + + + + + SMA Energy Meter + The name of the ThingClass ({0c5097af-e136-4430-9fb4-0ccbb30c3e1c}) + + + + + SMA Inverter + The name of the ThingClass ({b63a0669-f2ac-4769-abea-e14cafb2309a}) + + + + + SMA Solar Technology AG + The name of the vendor ({16d5a4a3-36d5-46c0-b7dd-df166ddf5981}) + + + + + + Serial number + The name of the ParamType (ThingClass: speedwireInverter, Type: thing, ID: {e42242b4-2811-47f9-b42b-b150ed233217}) ---------- -The name of the plugin sma ({b8442bbf-9d3f-4aa2-9443-b3a31ae09bac}) +The name of the ParamType (ThingClass: speedwireMeter, Type: thing, ID: {7c81a0c5-9bc6-43bb-a01a-4de5fe656bba}) - - - Total energy produced - The name of the ParamType (ThingClass: sunnyWebBox, EventType: totalEnergyProduced, ID: {0bb4e227-7e38-49ca-9b32-ce4621c9305b}) ----------- -The name of the StateType ({0bb4e227-7e38-49ca-9b32-ce4621c9305b}) of ThingClass sunnyWebBox - - - - - Total energy produced changed - The name of the EventType ({0bb4e227-7e38-49ca-9b32-ce4621c9305b}) of ThingClass sunnyWebBox - - - - + Sunny WebBox The name of the ThingClass ({49304127-ce9b-45dd-8511-05030a4ac003}) - - hardware address - The name of the ParamType (ThingClass: sunnyWebBox, Type: thing, ID: {03f32361-4e13-4597-a346-af8d16a986b3}) + + Total energy consumed + The name of the StateType ({4fb0a4c1-18ed-4d02-b6d0-c07e9b96a56d}) of ThingClass speedwireMeter + + + + + + + Total energy produced + The name of the StateType ({51cadd66-2cf1-485a-a2a9-191d11abfbd1}) of ThingClass speedwireInverter +---------- +The name of the StateType ({76ca68d8-6781-4d2a-8663-440aec40b4de}) of ThingClass speedwireMeter +---------- +The name of the StateType ({0bb4e227-7e38-49ca-9b32-ce4621c9305b}) of ThingClass sunnyWebBox + + + + + + Voltage phase A + The name of the StateType ({6ef4eb16-a3d6-4bc9-972d-5e7cb81173a5}) of ThingClass speedwireInverter +---------- +The name of the StateType ({44ee2491-8376-41cd-a21d-185c736152ec}) of ThingClass speedwireMeter + + + + + + Voltage phase B + The name of the StateType ({d9a5768b-1bf5-4933-810d-84dd7a688f71}) of ThingClass speedwireInverter +---------- +The name of the StateType ({56ae3555-f874-4c2d-8833-17573dce477a}) of ThingClass speedwireMeter + + + + + + Voltage phase C + The name of the StateType ({fc168dc6-eecf-40b4-b214-3e28da0dbb12}) of ThingClass speedwireInverter +---------- +The name of the StateType ({51cbb29b-29f0-480a-9d7d-b8f4e6a205ae}) of ThingClass speedwireMeter