250 lines
10 KiB
C++
250 lines
10 KiB
C++
// SPDX-License-Identifier: GPL-2.0-or-later
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/*
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* Copyright (C) 2022-2024 Thomas Basler and others
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*/
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#include "MqttHandleInverter.h"
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#include "MessageOutput.h"
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#include "MqttSettings.h"
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#include <ctime>
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#define TOPIC_SUB_LIMIT_PERSISTENT_RELATIVE "limit_persistent_relative"
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#define TOPIC_SUB_LIMIT_PERSISTENT_ABSOLUTE "limit_persistent_absolute"
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#define TOPIC_SUB_LIMIT_NONPERSISTENT_RELATIVE "limit_nonpersistent_relative"
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#define TOPIC_SUB_LIMIT_NONPERSISTENT_ABSOLUTE "limit_nonpersistent_absolute"
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#define TOPIC_SUB_POWER "power"
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#define TOPIC_SUB_RESTART "restart"
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#define PUBLISH_MAX_INTERVAL 60000
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MqttHandleInverterClass MqttHandleInverter;
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void MqttHandleInverterClass::init(Scheduler& scheduler)
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{
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using std::placeholders::_1;
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using std::placeholders::_2;
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using std::placeholders::_3;
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using std::placeholders::_4;
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using std::placeholders::_5;
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using std::placeholders::_6;
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const String topic = MqttSettings.getPrefix();
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MqttSettings.subscribe(String(topic + "+/cmd/" + TOPIC_SUB_LIMIT_PERSISTENT_RELATIVE), 0, std::bind(&MqttHandleInverterClass::onMqttMessage, this, _1, _2, _3, _4, _5, _6));
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MqttSettings.subscribe(String(topic + "+/cmd/" + TOPIC_SUB_LIMIT_PERSISTENT_ABSOLUTE), 0, std::bind(&MqttHandleInverterClass::onMqttMessage, this, _1, _2, _3, _4, _5, _6));
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MqttSettings.subscribe(String(topic + "+/cmd/" + TOPIC_SUB_LIMIT_NONPERSISTENT_RELATIVE), 0, std::bind(&MqttHandleInverterClass::onMqttMessage, this, _1, _2, _3, _4, _5, _6));
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MqttSettings.subscribe(String(topic + "+/cmd/" + TOPIC_SUB_LIMIT_NONPERSISTENT_ABSOLUTE), 0, std::bind(&MqttHandleInverterClass::onMqttMessage, this, _1, _2, _3, _4, _5, _6));
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MqttSettings.subscribe(String(topic + "+/cmd/" + TOPIC_SUB_POWER), 0, std::bind(&MqttHandleInverterClass::onMqttMessage, this, _1, _2, _3, _4, _5, _6));
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MqttSettings.subscribe(String(topic + "+/cmd/" + TOPIC_SUB_RESTART), 0, std::bind(&MqttHandleInverterClass::onMqttMessage, this, _1, _2, _3, _4, _5, _6));
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scheduler.addTask(_loopTask);
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_loopTask.setCallback(std::bind(&MqttHandleInverterClass::loop, this));
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_loopTask.setIterations(TASK_FOREVER);
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_loopTask.setInterval(Configuration.get().Mqtt.PublishInterval * TASK_SECOND);
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_loopTask.enable();
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}
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void MqttHandleInverterClass::loop()
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{
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_loopTask.setInterval(Configuration.get().Mqtt.PublishInterval * TASK_SECOND);
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if (!MqttSettings.getConnected() || !Hoymiles.isAllRadioIdle()) {
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_loopTask.forceNextIteration();
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return;
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}
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// Loop all inverters
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for (uint8_t i = 0; i < Hoymiles.getNumInverters(); i++) {
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auto inv = Hoymiles.getInverterByPos(i);
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const String subtopic = inv->serialString();
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// Name
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MqttSettings.publish(subtopic + "/name", inv->name());
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if (inv->DevInfo()->getLastUpdate() > 0) {
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// Bootloader Version
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MqttSettings.publish(subtopic + "/device/bootloaderversion", String(inv->DevInfo()->getFwBootloaderVersion()));
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// Firmware Version
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MqttSettings.publish(subtopic + "/device/fwbuildversion", String(inv->DevInfo()->getFwBuildVersion()));
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// Firmware Build DateTime
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char timebuffer[32];
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const time_t t = inv->DevInfo()->getFwBuildDateTime();
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std::strftime(timebuffer, sizeof(timebuffer), "%Y-%m-%d %H:%M:%S", gmtime(&t));
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MqttSettings.publish(subtopic + "/device/fwbuilddatetime", String(timebuffer));
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// Hardware part number
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MqttSettings.publish(subtopic + "/device/hwpartnumber", String(inv->DevInfo()->getHwPartNumber()));
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// Hardware version
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MqttSettings.publish(subtopic + "/device/hwversion", inv->DevInfo()->getHwVersion());
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}
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if (inv->SystemConfigPara()->getLastUpdate() > 0) {
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// Limit
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MqttSettings.publish(subtopic + "/status/limit_relative", String(inv->SystemConfigPara()->getLimitPercent()));
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uint16_t maxpower = inv->DevInfo()->getMaxPower();
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if (maxpower > 0) {
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MqttSettings.publish(subtopic + "/status/limit_absolute", String(inv->SystemConfigPara()->getLimitPercent() * maxpower / 100));
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}
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}
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MqttSettings.publish(subtopic + "/status/reachable", String(inv->isReachable()));
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MqttSettings.publish(subtopic + "/status/producing", String(inv->isProducing()));
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if (inv->Statistics()->getLastUpdate() > 0) {
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MqttSettings.publish(subtopic + "/status/last_update", String(std::time(0) - (millis() - inv->Statistics()->getLastUpdate()) / 1000));
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} else {
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MqttSettings.publish(subtopic + "/status/last_update", String(0));
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}
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const uint32_t lastUpdateInternal = inv->Statistics()->getLastUpdateFromInternal();
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if (inv->Statistics()->getLastUpdate() > 0 && (lastUpdateInternal != _lastPublishStats[i])) {
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_lastPublishStats[i] = lastUpdateInternal;
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// Loop all channels
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for (auto& t : inv->Statistics()->getChannelTypes()) {
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for (auto& c : inv->Statistics()->getChannelsByType(t)) {
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if (t == TYPE_DC) {
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INVERTER_CONFIG_T* inv_cfg = Configuration.getInverterConfig(inv->serial());
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if (inv_cfg != nullptr) {
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// TODO(tbnobody)
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MqttSettings.publish(inv->serialString() + "/" + String(static_cast<uint8_t>(c) + 1) + "/name", inv_cfg->channel[c].Name);
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}
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}
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for (uint8_t f = 0; f < sizeof(_publishFields) / sizeof(FieldId_t); f++) {
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publishField(inv, t, c, _publishFields[f]);
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}
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}
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}
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}
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yield();
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}
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}
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void MqttHandleInverterClass::publishField(std::shared_ptr<InverterAbstract> inv, const ChannelType_t type, const ChannelNum_t channel, const FieldId_t fieldId)
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{
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const String topic = getTopic(inv, type, channel, fieldId);
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if (topic == "") {
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return;
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}
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MqttSettings.publish(topic, inv->Statistics()->getChannelFieldValueString(type, channel, fieldId));
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}
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String MqttHandleInverterClass::getTopic(std::shared_ptr<InverterAbstract> inv, const ChannelType_t type, const ChannelNum_t channel, const FieldId_t fieldId)
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{
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if (!inv->Statistics()->hasChannelFieldValue(type, channel, fieldId)) {
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return "";
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}
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String chanName;
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if (type == TYPE_AC && fieldId == FLD_PDC) {
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chanName = "powerdc";
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} else {
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chanName = inv->Statistics()->getChannelFieldName(type, channel, fieldId);
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chanName.toLowerCase();
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}
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String chanNum;
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if (type == TYPE_DC) {
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// TODO(tbnobody)
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chanNum = static_cast<uint8_t>(channel) + 1;
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} else {
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chanNum = channel;
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}
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return inv->serialString() + "/" + chanNum + "/" + chanName;
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}
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void MqttHandleInverterClass::onMqttMessage(const espMqttClientTypes::MessageProperties& properties, const char* topic, const uint8_t* payload, const size_t len, const size_t index, const size_t total)
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{
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const CONFIG_T& config = Configuration.get();
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char token_topic[MQTT_MAX_TOPIC_STRLEN + 40]; // respect all subtopics
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strncpy(token_topic, topic, MQTT_MAX_TOPIC_STRLEN + 40); // convert const char* to char*
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char* serial_str;
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char* subtopic;
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char* setting;
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char* rest = &token_topic[strlen(config.Mqtt.Topic)];
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serial_str = strtok_r(rest, "/", &rest);
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subtopic = strtok_r(rest, "/", &rest);
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setting = strtok_r(rest, "/", &rest);
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if (serial_str == NULL || subtopic == NULL || setting == NULL) {
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return;
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}
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const uint64_t serial = strtoull(serial_str, 0, 16);
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auto inv = Hoymiles.getInverterBySerial(serial);
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if (inv == nullptr) {
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MessageOutput.println("Inverter not found");
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return;
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}
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// check if subtopic is unequal cmd
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if (strcmp(subtopic, "cmd")) {
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return;
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}
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char* strlimit = new char[len + 1];
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memcpy(strlimit, payload, len);
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strlimit[len] = '\0';
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const int32_t payload_val = strtol(strlimit, NULL, 10);
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delete[] strlimit;
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if (payload_val < 0) {
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MessageOutput.printf("MQTT payload < 0 received --> ignoring\r\n");
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return;
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}
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if (!strcmp(setting, TOPIC_SUB_LIMIT_PERSISTENT_RELATIVE)) {
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// Set inverter limit relative persistent
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MessageOutput.printf("Limit Persistent: %d %%\r\n", payload_val);
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inv->sendActivePowerControlRequest(payload_val, PowerLimitControlType::RelativPersistent);
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} else if (!strcmp(setting, TOPIC_SUB_LIMIT_PERSISTENT_ABSOLUTE)) {
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// Set inverter limit absolute persistent
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MessageOutput.printf("Limit Persistent: %d W\r\n", payload_val);
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inv->sendActivePowerControlRequest(payload_val, PowerLimitControlType::AbsolutPersistent);
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} else if (!strcmp(setting, TOPIC_SUB_LIMIT_NONPERSISTENT_RELATIVE)) {
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// Set inverter limit relative non persistent
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MessageOutput.printf("Limit Non-Persistent: %d %%\r\n", payload_val);
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if (!properties.retain) {
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inv->sendActivePowerControlRequest(payload_val, PowerLimitControlType::RelativNonPersistent);
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} else {
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MessageOutput.println("Ignored because retained");
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}
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} else if (!strcmp(setting, TOPIC_SUB_LIMIT_NONPERSISTENT_ABSOLUTE)) {
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// Set inverter limit absolute non persistent
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MessageOutput.printf("Limit Non-Persistent: %d W\r\n", payload_val);
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if (!properties.retain) {
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inv->sendActivePowerControlRequest(payload_val, PowerLimitControlType::AbsolutNonPersistent);
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} else {
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MessageOutput.println("Ignored because retained");
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}
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} else if (!strcmp(setting, TOPIC_SUB_POWER)) {
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// Turn inverter on or off
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MessageOutput.printf("Set inverter power to: %d\r\n", payload_val);
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inv->sendPowerControlRequest(payload_val > 0);
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} else if (!strcmp(setting, TOPIC_SUB_RESTART)) {
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// Restart inverter
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MessageOutput.printf("Restart inverter\r\n");
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if (!properties.retain && payload_val == 1) {
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inv->sendRestartControlRequest();
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} else {
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MessageOutput.println("Ignored because retained");
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}
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}
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}
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