PlantCtrl/esp32/src/main.cpp

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/** \addtogroup Controller
* @{
*
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* @file main.cpp
* @author Ollo
* @brief PlantControl
* @version 0.1
* @date 2020-05-01
*
* @copyright Copyright (c) 2020
*/
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/******************************************************************************
* INCLUDES
******************************************************************************/
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#include "PlantCtrl.h"
#include "ControllerConfiguration.h"
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#include "HomieConfiguration.h"
#include "DallasTemperature.h"
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#include <Homie.h>
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#include "time.h"
#include "esp_sleep.h"
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#include "RunningMedian.h"
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#include "WakeReason.h"
#include <stdint.h>
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#include <math.h>
#include <OneWire.h>
#include "DS2438.h"
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/******************************************************************************
* DEFINES
******************************************************************************/
#define AMOUNT_SENOR_QUERYS 8
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#define MAX_TANK_DEPTH 1000
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/******************************************************************************
* FUNCTION PROTOTYPES
******************************************************************************/
int determineNextPump();
//void setLastActivationForPump(int pumpId, long time);
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int readTemp();
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/******************************************************************************
* NON VOLATILE VARIABLES in DEEP SLEEP
******************************************************************************/
//only relevant if mode2 did start pumping before
RTC_DATA_ATTR int lastPumpRunning = 0; /**< store last successfully waterd plant */
RTC_DATA_ATTR long lastWaterValue = 0; /**< to calculate the used water per plant */
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RTC_DATA_ATTR int gBootCount = 0;
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/******************************************************************************
* LOCAL VARIABLES
******************************************************************************/
bool volatile mode3Active = false; /**< Controller must not sleep */
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bool volatile mDeepsleep = false;
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int readCounter = 0;
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bool mConfigured = false;
long nextBlink = 0; /**< Time needed in main loop to support expected blink code */
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RunningMedian waterRawSensor = RunningMedian(5);
float mTempLipo = 0.0f;
float mTempWater = 0.0f;
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float mBatteryVoltage = 0.0f;
float mSolarVoltage = 0.0f;
float mChipTemp = 0.0f;
/*************************** Hardware abstraction *****************************/
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OneWire oneWire(SENSOR_ONEWIRE);
DallasTemperature sensors(&oneWire);
DS2438 battery(&oneWire, 0.1f);
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Plant mPlants[MAX_PLANTS] = {
Plant(SENSOR_PLANT0, OUTPUT_PUMP0, 0, &plant0, &mSetting0),
Plant(SENSOR_PLANT1, OUTPUT_PUMP1, 1, &plant1, &mSetting1),
Plant(SENSOR_PLANT2, OUTPUT_PUMP2, 2, &plant2, &mSetting2),
Plant(SENSOR_PLANT3, OUTPUT_PUMP3, 3, &plant3, &mSetting3),
Plant(SENSOR_PLANT4, OUTPUT_PUMP4, 4, &plant4, &mSetting4),
Plant(SENSOR_PLANT5, OUTPUT_PUMP5, 5, &plant5, &mSetting5),
Plant(SENSOR_PLANT6, OUTPUT_PUMP6, 6, &plant6, &mSetting6)};
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/******************************************************************************
* LOCAL FUNCTIONS
******************************************************************************/
long getCurrentTime()
{
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struct timeval tv_now;
gettimeofday(&tv_now, NULL);
return tv_now.tv_sec;
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}
void espDeepSleepFor(long seconds, bool activatePump = false)
{
if (mode3Active)
{
Serial << "abort deepsleep, mode3Active" << endl;
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return;
}
for (int i = 0; i < 10; i++)
{
long cTime = getCurrentTime();
if (cTime < 100000)
{
Serial << "Wait for ntp" << endl;
delay(100);
}
else
{
break;
}
}
esp_sleep_pd_config(ESP_PD_DOMAIN_RTC_PERIPH, ESP_PD_OPTION_OFF);
esp_sleep_pd_config(ESP_PD_DOMAIN_RTC_SLOW_MEM, ESP_PD_OPTION_ON);
esp_sleep_pd_config(ESP_PD_DOMAIN_RTC_FAST_MEM, ESP_PD_OPTION_ON);
if (activatePump)
{
esp_sleep_pd_config(ESP_PD_DOMAIN_XTAL, ESP_PD_OPTION_ON);
gpio_deep_sleep_hold_en();
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gpio_hold_en(GPIO_NUM_13); //pump pwr
}
else
{
esp_sleep_pd_config(ESP_PD_DOMAIN_RTC_FAST_MEM, ESP_PD_OPTION_OFF);
gpio_hold_dis(GPIO_NUM_13); //pump pwr
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gpio_deep_sleep_hold_dis();
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digitalWrite(OUTPUT_ENABLE_PUMP, LOW);
digitalWrite(OUTPUT_ENABLE_SENSOR, LOW);
for (int i = 0; i < MAX_PLANTS; i++)
{
mPlants[i].deactivatePump();
}
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}
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//gpio_hold_en(GPIO_NUM_23); //p0
//FIXME fix for outher outputs
Serial.print("Trying to sleep for ");
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Serial.print(seconds);
Serial.println(" seconds");
esp_sleep_enable_timer_wakeup((seconds * 1000U * 1000U));
mDeepsleep = true;
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}
void mode2MQTT()
{
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digitalWrite(OUTPUT_ENABLE_PUMP, LOW);
for (int i = 0; i < MAX_PLANTS; i++)
{
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mPlants[i].deactivatePump();
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}
if (lastPumpRunning != -1)
{
//long waterDiff = waterRawSensor.getAverage() - lastWaterValue;
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//TODO attribute used water in ml to plantid
}
for (int i = 0; i < MAX_PLANTS; i++)
{
long raw = mPlants[i].getCurrentMoisture();
long pct = 100 - map(raw, MOIST_SENSOR_MIN_ADC, MOIST_SENSOR_MAX_ADC, 0, 100);
if (raw == MISSING_SENSOR)
{
pct = 0;
}
if (pct < 0)
{
pct = 0;
}
if (pct > 100)
{
pct = 100;
}
mPlants[i].setProperty("moist").send(String(pct));
mPlants[i].setProperty("moistraw").send(String(raw));
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}
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sensorWater.setProperty("remaining").send(String(waterLevelMax.get() - waterRawSensor.getAverage()));
Serial << "W : " << waterRawSensor.getAverage() << " cm (" << String(waterLevelMax.get() - waterRawSensor.getAverage()) << "%)" << endl;
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lastWaterValue = waterRawSensor.getAverage();
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sensorLipo.setProperty("percent").send(String(100 * mBatteryVoltage / VOLT_MAX_BATT));
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sensorLipo.setProperty("volt").send(String(mBatteryVoltage));
sensorLipo.setProperty("current").send(String(battery.getCurrent()));
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sensorLipo.setProperty("Ah").send(String(battery.getAh()));
sensorLipo.setProperty("ICA").send(String(battery.getICA()));
sensorLipo.setProperty("DCA").send(String(battery.getDCA()));
sensorLipo.setProperty("CCA").send(String(battery.getCCA()));
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sensorSolar.setProperty("volt").send(String(mSolarVoltage));
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sensorTemp.setProperty(TEMPERATUR_SENSOR_LIPO).send(String(mTempLipo));
Serial << "Lipo Temperatur " << mTempLipo << " °C " << endl;
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sensorTemp.setProperty(TEMPERATUR_SENSOR_WATER).send(String(mTempWater));
Serial << "Water Temperatur " << mTempWater << " °C " << endl;
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sensorTemp.setProperty(TEMPERATUR_SENSOR_CHIP).send(String(mChipTemp));
Serial << "Chip Temperatur " << mChipTemp << " °C " << endl;
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bool hasWater = true; //FIXMEmWaterGone > waterLevelMin.get();
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//FIXME no water warning message
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lastPumpRunning = determineNextPump();
if (lastPumpRunning != -1 && !hasWater)
{
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Serial.println("Want to pump but no water");
}
if (lastPumpRunning != -1 && hasWater)
{
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if (mode3Active)
{
Serial.println("Mode 3 active, ignoring pump request");
}
else
{
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digitalWrite(OUTPUT_ENABLE_PUMP, HIGH);
//TODO setLastActivationForPump(lastPumpRunning, getCurrentTime());
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mPlants[lastPumpRunning].activatePump();
}
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}
if (lastPumpRunning == -1 || !hasWater)
{
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if (mSolarVoltage < SOLAR_CHARGE_MIN_VOLTAGE)
{
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Serial.print(mSolarVoltage);
Serial.println("V! No pumps to activate and low light, deepSleepNight");
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espDeepSleepFor(deepSleepNightTime.get());
}
else
{
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Serial.println("No pumps to activate, deepSleep");
espDeepSleepFor(deepSleepTime.get());
}
}
else
{
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Serial.println("Running pump, watering deepsleep");
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espDeepSleepFor(wateringDeepSleep.get(), true);
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}
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}
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/**
* @brief Read ultra sensor JSN-SR04T-2.0
* Read the distance of the water level.
*/
void readDistance()
{
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for (int i = 0; i < AMOUNT_SENOR_QUERYS; i++)
{
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unsigned long duration = 0;
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digitalWrite(SENSOR_TANK_TRG, HIGH);
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delayMicroseconds(20);
cli();
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digitalWrite(SENSOR_TANK_TRG, LOW);
duration = pulseIn(SENSOR_TANK_ECHO, HIGH);
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sei();
int mmDis = duration * 0.3432 / 2;
if(mmDis > MAX_TANK_DEPTH){
waterRawSensor.add(0);
} else {
waterRawSensor.add(mmDis);
}
}
}
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/**
* @brief Sensors, that are connected to GPIOs, mandatory for WIFI.
* These sensors (ADC2) can only be read when no Wifi is used.
*/
void readSensors()
{
Serial << "Read Sensors" << endl;
/* activate all sensors */
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digitalWrite(OUTPUT_ENABLE_SENSOR, HIGH);
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/* wait before reading something */
delay(20);
int timeoutTemp = millis() + TEMPERATUR_TIMEOUT;
int sensorCount = 0;
/* Required to read the temperature at least once */
while ((sensorCount == 0 || !battery.isFound()) && millis() < timeoutTemp)
{
sensors.begin();
battery.begin();
sensorCount = sensors.getDS18Count();
delay(50);
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}
Serial << "One wire count: " << sensorCount << " found in " << (millis() - timeoutTemp) << "ms" << endl;
/* Measure temperature */
if (sensorCount > 0)
{
sensors.requestTemperatures();
}
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for (int i = 0; i < sensorCount; i++) {
float temp = sensors.getTempCByIndex(i);
Serial << "OneWire sensor " << i << " has value " << temp << endl;
/** FIXME: handle via address */
}
// Update battery chip data
battery.update();
mSolarVoltage = battery.getVoltage(BATTSENSOR_INDEX_SOLAR) * SOLAR_VOLT_FACTOR;
mBatteryVoltage = battery.getVoltage(BATTSENSOR_INDEX_BATTERY);
mChipTemp = battery.getTemperature();
// if(mBatteryVoltage < MINIMUM_LIPO_VOLT){
// Serial.println("Low lipo voltage, abort high level processing");
// }
for (int readCnt = 0; readCnt < AMOUNT_SENOR_QUERYS; readCnt++)
{
for (int i = 0; i < MAX_PLANTS; i++)
{
mPlants[i].addSenseValue();
}
delay(10);
}
/* Read the distance and give the temperature sensors some time */
readDistance();
Serial << "Distance sensor " << waterRawSensor.getAverage() << " cm" << endl;
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/* deactivate the sensors */
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digitalWrite(OUTPUT_ENABLE_SENSOR, LOW);
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}
void onHomieEvent(const HomieEvent &event)
{
switch (event.type)
{
case HomieEventType::SENDING_STATISTICS:
Homie.getLogger() << "My statistics" << endl;
break;
case HomieEventType::MQTT_READY:
Serial.printf("NTP Setup with server %s\r\n", ntpServer.get());
configTime(0, 0, ntpServer.get());
Serial << "Setup plants" << endl;
for (int i = 0; i < MAX_PLANTS; i++)
{
mPlants[i].postMQTTconnection();
}
mode2MQTT();
break;
case HomieEventType::OTA_STARTED:
Homie.getLogger() << "OTA started" << endl;
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digitalWrite(OUTPUT_ENABLE_SENSOR, HIGH);
digitalWrite(OUTPUT_ENABLE_PUMP, HIGH);
gpio_hold_dis(GPIO_NUM_13); //pump pwr
gpio_deep_sleep_hold_dis();
for (int i = 0; i < MAX_PLANTS; i++)
{
mPlants[i].deactivatePump();
}
mode3Active = true;
break;
case HomieEventType::OTA_SUCCESSFUL:
Homie.getLogger() << "OTA successfull" << endl;
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digitalWrite(OUTPUT_ENABLE_SENSOR, LOW);
digitalWrite(OUTPUT_ENABLE_PUMP, LOW);
ESP.restart();
break;
default:
break;
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}
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}
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int determineNextPump()
{
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bool isLowLight = (mSolarVoltage > SOLAR_CHARGE_MIN_VOLTAGE || mSolarVoltage < SOLAR_CHARGE_MAX_VOLTAGE);
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//FIXME instead of for, use sorted by last activation index to ensure equal runtime?
int pumpToUse = -1;
for (int i = 0; i < MAX_PLANTS; i++)
{
Plant plant = mPlants[i];
//TODO skip pump last used here!
//if (plant.isInCooldown(sinceLastActivation))
//{
// Serial.printf("%d Skipping due to cooldown %ld / %ld \r\n", i, sinceLastActivation, plant.getCooldownInSeconds());
//continue;
//}
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//skip as it is not low light
if (!isLowLight && plant.isAllowedOnlyAtLowLight())
{
Serial.printf("%d No pump required: due to light\r\n", i);
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continue;
}
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if (plant.getCurrentMoisture() == MISSING_SENSOR && plant.isPumpTriggerActive())
{
Serial.printf("%d No pump possible: missing sensor \r\n", i);
continue;
}
if (plant.isPumpRequired())
{
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Serial.printf("%d Requested pumping\r\n", i);
pumpToUse = i;
}
else if (plant.isPumpTriggerActive())
{
Serial.printf("%d No pump required: moisture acceptable %f / %ld\r\n", i, plant.getCurrentMoisture(), plant.getSettingsMoisture());
}
else
{
Serial.printf("%d No pump required: disabled pump trigger \r\n", i);
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}
}
return pumpToUse;
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}
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/**
* @brief Handle Mqtt commands to keep controller alive
*
* @param range multiple transmitted values (not used for this function)
* @param value single value
* @return true when the command was parsed and executed succuessfully
* @return false on errors when parsing the request
*/
bool aliveHandler(const HomieRange &range, const String &value)
{
if (range.isRange)
return false; // only one controller is present
if (value.equals("ON") || value.equals("On") || value.equals("1"))
{
mode3Active = true;
}
else
{
mode3Active = false;
}
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return true;
}
void homieLoop()
{
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}
void systemInit()
{
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WiFi.mode(WIFI_STA);
Homie_setFirmware("PlantControl", FIRMWARE_VERSION);
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// Set default values
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//in seconds
deepSleepTime.setDefaultValue(600).setValidator([] (long candidate) {
return (candidate > 0) && (candidate < (60 * 60 * 2) /** 2h max sleep */ );
});
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deepSleepNightTime.setDefaultValue(600);
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wateringDeepSleep.setDefaultValue(5);
ntpServer.setDefaultValue("pool.ntp.org");
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/* waterLevelMax 1000 */ /* 100cm in mm */
waterLevelMin.setDefaultValue(50); /* 5cm in mm */
waterLevelWarn.setDefaultValue(500); /* 50cm in mm */
waterLevelVol.setDefaultValue(5000); /* 5l in ml */
lipoSensorAddr.setDefaultValue("");
waterSensorAddr.setDefaultValue("");
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Homie.setLoopFunction(homieLoop);
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Homie.onEvent(onHomieEvent);
//Homie.disableLogging();
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Homie.setup();
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mConfigured = Homie.isConfigured();
if (mConfigured)
{
for (int i = 0; i < MAX_PLANTS; i++)
{
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mPlants[i].advertise();
}
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sensorTemp.advertise(TEMPERATUR_SENSOR_LIPO)
.setName(TEMPERATURE_NAME)
.setDatatype(NUMBER_TYPE)
.setUnit(TEMPERATURE_UNIT);
sensorTemp.advertise(TEMPERATUR_SENSOR_WATER)
.setName(TEMPERATURE_NAME)
.setDatatype(NUMBER_TYPE)
.setUnit(TEMPERATURE_UNIT);
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sensorTemp.advertise(TEMPERATUR_SENSOR_CHIP)
.setName(TEMPERATURE_NAME)
.setDatatype(NUMBER_TYPE)
.setUnit(TEMPERATURE_UNIT);
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sensorLipo.advertise("percent")
.setName("Percent")
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.setDatatype(NUMBER_TYPE)
.setUnit("%");
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sensorLipo.advertise("volt")
.setName("Volt")
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.setDatatype(NUMBER_TYPE)
.setUnit("V");
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sensorSolar.advertise("percent")
.setName("Percent")
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.setDatatype(NUMBER_TYPE)
.setUnit("%");
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sensorSolar.advertise("volt")
.setName("Volt")
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.setDatatype(NUMBER_TYPE)
.setUnit("V");
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sensorWater.advertise("remaining").setDatatype(NUMBER_TYPE).setUnit("%");
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}
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stayAlive.advertise("alive").setName("Alive").setDatatype(NUMBER_TYPE).settable(aliveHandler);
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}
void mode2()
{
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Serial.println("==== Mode 2 ====");
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systemInit();
/* Jump into Mode 3, if not configured */
if (!mConfigured)
{
Serial.println("==== Mode 3 ====");
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mode3Active = true;
}
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}
/**
* @brief Startup function
* Is called once, the controller is started
*/
void setup()
{
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Serial.begin(115200);
Serial << endl
<< endl;
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/* Intialize Plant */
for (int i = 0; i < MAX_PLANTS; i++)
{
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mPlants[i].init();
}
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// read button
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pinMode(BUTTON, INPUT);
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// Power pins
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pinMode(OUTPUT_ENABLE_PUMP, OUTPUT);
pinMode(OUTPUT_ENABLE_SENSOR, OUTPUT);
// Individual Pump pins
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/* Disable Wifi and bluetooth */
WiFi.mode(WIFI_OFF);
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if (HomieInternals::MAX_CONFIG_SETTING_SIZE < MAX_CONFIG_SETTING_ITEMS)
{
//increase the config settings to 50 and the json to 3000
Serial << "Limits.hpp" << endl;
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}
readSensors();
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// Big TODO use here the settings in RTC_Memory
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//Panik mode, the Lipo is empty, sleep a long long time:
// if ((mBatteryVoltage < MINIMUM_LIPO_VOLT) &&
// (mBatteryVoltage > NO_LIPO_VOLT))
// {
// Serial << PANIK_MODE_DEEPSLEEP << " s lipo " << mBatteryVoltage << "V" << endl;
// esp_sleep_enable_timer_wakeup(PANIK_MODE_DEEPSLEEP_US);
// esp_sleep_pd_config(ESP_PD_DOMAIN_RTC_PERIPH, ESP_PD_OPTION_OFF);
// esp_sleep_pd_config(ESP_PD_DOMAIN_RTC_FAST_MEM, ESP_PD_OPTION_OFF);
// esp_sleep_pd_config(ESP_PD_DOMAIN_XTAL, ESP_PD_OPTION_ON);
// esp_sleep_pd_config(ESP_PD_DOMAIN_RTC_SLOW_MEM, ESP_PD_OPTION_OFF);
// esp_deep_sleep_start();
// }
mode2();
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}
/**
* @brief Cyclic call
* Executs the Homie base functionallity or triggers sleeping, if requested.
*/
void loop()
{
/* Toggel Senor LED to visualize mode 3 */
if (mode3Active)
{
if (nextBlink < millis())
{
nextBlink = millis() + 500;
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digitalWrite(OUTPUT_ENABLE_SENSOR, !digitalRead(OUTPUT_ENABLE_SENSOR));
}
}
else if (!mDeepsleep)
{
Homie.loop();
}
else
{
Serial << "Bye" << endl;
Serial.flush();
esp_deep_sleep_start();
}
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if (millis() > 30000 && !mode3Active)
{
Serial << (millis() / 1000) << "not terminated watchdog reset" << endl;
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Serial.flush();
esp_restart();
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}
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}
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/** @}*/