patrick/OpenDTU-old
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
2f7e1f3f70
OpenDTU-old/src/MqttHandlePowerLimiterHass.cpp

205 lines
6.3 KiB
C++
Raw Blame History

// SPDX-License-Identifier: GPL-2.0-or-later
/*
* Copyright (C) 2022 Thomas Basler and others
*/
#include "MqttHandlePowerLimiterHass.h"
#include "Configuration.h"
#include "MqttSettings.h"
#include "NetworkSettings.h"
#include "MessageOutput.h"
#include "Utils.h"
MqttHandlePowerLimiterHassClass MqttHandlePowerLimiterHass;
void MqttHandlePowerLimiterHassClass::init(Scheduler& scheduler)
{
scheduler.addTask(_loopTask);
_loopTask.setCallback(std::bind(&MqttHandlePowerLimiterHassClass::loop, this));
_loopTask.setIterations(TASK_FOREVER);
_loopTask.enable();
}
void MqttHandlePowerLimiterHassClass::loop()
{
if (!Configuration.get().PowerLimiter.Enabled) {
return;
}
if (_updateForced) {
publishConfig();
_updateForced = false;
}
if (MqttSettings.getConnected() && !_wasConnected) {
// Connection established
_wasConnected = true;
publishConfig();
} else if (!MqttSettings.getConnected() && _wasConnected) {
// Connection lost
_wasConnected = false;
}
}
void MqttHandlePowerLimiterHassClass::forceUpdate()
{
_updateForced = true;
}
void MqttHandlePowerLimiterHassClass::publishConfig()
{
auto const& config = Configuration.get();
if (!config.Mqtt.Hass.Enabled) {
return;
}
if (!MqttSettings.getConnected()) {
return;
}
if (!config.PowerLimiter.Enabled) {
return;
}
publishSelect("DPL Mode", "mdi:gauge", "config", "mode", "mode");
if (config.PowerLimiter.IsInverterSolarPowered) {
return;
}
// as this project revolves around Hoymiles inverters, 16 - 60 V is a reasonable voltage range
publishNumber("DPL battery voltage start threshold", "mdi:battery-charging",
"config", "threshold/voltage/start", "threshold/voltage/start", "V", 16, 60);
publishNumber("DPL battery voltage stop threshold", "mdi:battery-charging",
"config", "threshold/voltage/stop", "threshold/voltage/stop", "V", 16, 60);
if (config.Vedirect.Enabled) {
publishNumber("DPL full solar passthrough start voltage",
"mdi:transmission-tower-import", "config",
"threshold/voltage/full_solar_passthrough_start",
"threshold/voltage/full_solar_passthrough_start", "V", 16, 60);
publishNumber("DPL full solar passthrough stop voltage",
"mdi:transmission-tower-import", "config",
"threshold/voltage/full_solar_passthrough_stop",
"threshold/voltage/full_solar_passthrough_stop", "V", 16, 60);
}
if (config.Battery.Enabled && !config.PowerLimiter.IgnoreSoc) {
publishNumber("DPL battery SoC start threshold", "mdi:battery-charging",
"config", "threshold/soc/start", "threshold/soc/start", "%", 0, 100);
publishNumber("DPL battery SoC stop threshold", "mdi:battery-charging",
"config", "threshold/soc/stop", "threshold/soc/stop", "%", 0, 100);
if (config.Vedirect.Enabled) {
publishNumber("DPL full solar passthrough SoC",
"mdi:transmission-tower-import", "config",
"threshold/soc/full_solar_passthrough",
"threshold/soc/full_solar_passthrough", "%", 0, 100);
}
}
}
void MqttHandlePowerLimiterHassClass::publishSelect(
const char* caption, const char* icon, const char* category,
const char* commandTopic, const char* stateTopic)
{
String selectId = caption;
selectId.replace(" ", "_");
selectId.toLowerCase();
const String configTopic = "select/powerlimiter/" + selectId + "/config";
const String cmdTopic = MqttSettings.getPrefix() + "powerlimiter/cmd/" + commandTopic;
const String statTopic = MqttSettings.getPrefix() + "powerlimiter/status/" + stateTopic;
JsonDocument root;
root["name"] = caption;
root["uniq_id"] = selectId;
if (strcmp(icon, "")) {
root["ic"] = icon;
}
root["ent_cat"] = category;
root["cmd_t"] = cmdTopic;
root["stat_t"] = statTopic;
JsonArray options = root["options"].to<JsonArray>();
options.add("0");
options.add("1");
options.add("2");
JsonObject deviceObj = root["dev"].to<JsonObject>();
createDeviceInfo(deviceObj);
if (!Utils::checkJsonAlloc(root, __FUNCTION__, __LINE__)) {
return;
}
String buffer;
serializeJson(root, buffer);
publish(configTopic, buffer);
}
void MqttHandlePowerLimiterHassClass::publishNumber(
const char* caption, const char* icon, const char* category,
const char* commandTopic, const char* stateTopic, const char* unitOfMeasure,
const int16_t min, const int16_t max)
{
String numberId = caption;
numberId.replace(" ", "_");
numberId.toLowerCase();
const String configTopic = "number/powerlimiter/" + numberId + "/config";
const String cmdTopic = MqttSettings.getPrefix() + "powerlimiter/cmd/" + commandTopic;
const String statTopic = MqttSettings.getPrefix() + "powerlimiter/status/" + stateTopic;
JsonDocument root;
root["name"] = caption;
root["uniq_id"] = numberId;
if (strcmp(icon, "")) {
root["ic"] = icon;
}
root["ent_cat"] = category;
root["cmd_t"] = cmdTopic;
root["stat_t"] = statTopic;
root["unit_of_meas"] = unitOfMeasure;
root["min"] = min;
root["max"] = max;
root["mode"] = "box";
auto const& config = Configuration.get();
if (config.Mqtt.Hass.Expire) {
root["exp_aft"] = config.Mqtt.PublishInterval * 3;
}
JsonObject deviceObj = root["dev"].to<JsonObject>();
createDeviceInfo(deviceObj);
if (!Utils::checkJsonAlloc(root, __FUNCTION__, __LINE__)) {
return;
}
String buffer;
serializeJson(root, buffer);
publish(configTopic, buffer);
}
void MqttHandlePowerLimiterHassClass::createDeviceInfo(JsonObject& object)
{
object["name"] = "Dynamic Power Limiter";
object["ids"] = "0002";
object["cu"] = String("http://") + NetworkSettings.localIP().toString();
object["mf"] = "OpenDTU";
object["mdl"] = "Dynamic Power Limiter";
object["sw"] = AUTO_GIT_HASH;
}
void MqttHandlePowerLimiterHassClass::publish(const String& subtopic, const String& payload)
{
String topic = Configuration.get().Mqtt.Hass.Topic;
topic += subtopic;
MqttSettings.publishGeneric(topic.c_str(), payload.c_str(), Configuration.get().Mqtt.Hass.Retain);
}
Reference in New Issue View Git Blame Copy Permalink