PlantCtrl/esp32test/Esp32DeepSleepTest/src/main.cpp

174 lines
5.5 KiB
C++

#include <Arduino.h>
#include "esp_sleep.h"
#include "DallasTemperature.h"
#include "DS2438.h"
#define uS_TO_S_FACTOR 1000000 /* Conversion factor for micro seconds to seconds */
#define TIME_TO_SLEEP 5 /* Time ESP32 will go to sleep (in seconds) */
#define SENSOR_DS18B20 2 /**< GPIO 2 */
#define OUTPUT_PUMP0 17 /**< GPIO 23 */
#define OUTPUT_PUMP1 05 /**< GPIO 22 */
#define OUTPUT_PUMP2 18 /**< GPIO 21 */
#define OUTPUT_PUMP3 19 /**< GPIO 19 */
#define OUTPUT_PUMP4 21 /**< GPIO 18 */
#define OUTPUT_PUMP5 15 /**< GPIO 5 */
#define OUTPUT_PUMP6 23 /**< GPIO 15 */
#define OUTPUT_SENSOR 16 /**< GPIO 16 - Enable Sensors */
#define OUTPUT_PUMP 13 /**< GPIO 13 - Enable Pumps */
#define SENSOR_PLANT0 32 /**< GPIO 32 (ADC1) */
#define ADC_TO_VOLT(adc) ((adc) * 3.3 ) / 4095)
#define ADC_TO_VOLT_WITH_MULTI(adc, multi) (((adc) * 3.3 * (multi)) / 4095)
#define SOLAR_VOLT(adc) ADC_TO_VOLT_WITH_MULTI(adc, 4.0306) /**< 100k and 33k voltage dividor */
#define ADC_5V_TO_3V3(adc) ADC_TO_VOLT_WITH_MULTI(adc, 1.7) /**< 33k and 47k8 voltage dividor */
RTC_DATA_ATTR int bootCount = 0;
RTC_DATA_ATTR int pumpActive = 0;
int secondBootCount = 0;
OneWire oneWire(SENSOR_DS18B20);
DallasTemperature temp(&oneWire);
DS2438 battery(&oneWire,0.1f);
void print_wakeup_reason(){
esp_sleep_wakeup_cause_t wakeup_reason;
wakeup_reason = esp_sleep_get_wakeup_cause();
switch(wakeup_reason){
case ESP_SLEEP_WAKEUP_EXT0 : Serial.println("Wakeup caused by external signal using RTC_IO"); break;
case ESP_SLEEP_WAKEUP_EXT1 : Serial.println("Wakeup caused by external signal using RTC_CNTL"); break;
case ESP_SLEEP_WAKEUP_TIMER : Serial.println("Wakeup caused by timer"); break;
case ESP_SLEEP_WAKEUP_TOUCHPAD : Serial.println("Wakeup caused by touchpad"); break;
case ESP_SLEEP_WAKEUP_ULP : Serial.println("Wakeup caused by ULP program"); break;
default : Serial.printf("Wakeup was not caused by deep sleep: %d\r\n",wakeup_reason); break;
}
}
bool whatever = true;
void setAll2to(int state) {
Serial.println("Set GPIO" + String(OUTPUT_PUMP0) + "=" + String(state));
digitalWrite(OUTPUT_PUMP0, state);
Serial.println("Set GPIO" + String(OUTPUT_PUMP1) + "=" + String(state));
digitalWrite(OUTPUT_PUMP1, state);
Serial.println("Set GPIO" + String(OUTPUT_PUMP2) + "=" + String(state));
digitalWrite(OUTPUT_PUMP2, state);
Serial.println("Set GPIO" + String(OUTPUT_PUMP3) + "=" + String(state));
digitalWrite(OUTPUT_PUMP3, state);
Serial.println("Set GPIO" + String(OUTPUT_PUMP4) + "=" + String(state));
digitalWrite(OUTPUT_PUMP4, state);
Serial.println("Set GPIO" + String(OUTPUT_PUMP5) + "=" + String(state));
digitalWrite(OUTPUT_PUMP5, state);
Serial.println("Set GPIO" + String(OUTPUT_PUMP6) + "=" + String(state));
digitalWrite(OUTPUT_PUMP6, state);
Serial.println("Set GPIO" + String(OUTPUT_SENSOR) + "=" + String(state));
digitalWrite(OUTPUT_SENSOR, state);
}
void setup() {
Serial.begin(115200);
pinMode(OUTPUT_PUMP0, OUTPUT);
pinMode(OUTPUT_PUMP1, OUTPUT);
pinMode(OUTPUT_PUMP2, OUTPUT);
pinMode(OUTPUT_PUMP3, OUTPUT);
pinMode(OUTPUT_PUMP4, OUTPUT);
pinMode(OUTPUT_PUMP5, OUTPUT);
pinMode(OUTPUT_PUMP6, OUTPUT);
pinMode(OUTPUT_SENSOR, OUTPUT);
pinMode(OUTPUT_PUMP, OUTPUT);
pinMode(SENSOR_PLANT0, ANALOG);
//Increment boot number and print it every reboot
++bootCount;
++secondBootCount;
Serial.println("Boot number: " + String(bootCount) + " " + String(secondBootCount));
//Print the wakeup reason for ESP32
print_wakeup_reason();
Serial.println("------- build from " + String(__DATE__) + "=" + String(__TIME__) + " @ " + String(millis()) + "ms");
Serial.println("Set GPIO" + String(OUTPUT_PUMP) + "=" + String(LOW));
digitalWrite(OUTPUT_PUMP, LOW);
setAll2to(HIGH);
delay(1000);
Serial.println("--------------------------" + String(" @ ") + String(millis()) + "ms");
setAll2to(LOW);
delay(1000);
Serial.println("--------------------------" + String(" @ ") + String(millis()) + "ms");
/* activate power pump and pump 0 */
digitalWrite(OUTPUT_SENSOR, HIGH);
delay(1);
temp.begin();
battery.begin();
Serial.print("Battery");
Serial.print("\t");
Serial.print("Solar");
Serial.print("\t");
Serial.print("Bat I");
Serial.print("\t");
Serial.println("Temp/10");
}
void loop() {
static int loop=1;
DeviceAddress t;
for(int i=0; i < sizeof(t); i++) {
t[i] = loop + i*2;
}
char buf[sizeof(DeviceAddress)*2];
snprintf(buf, sizeof(buf), "%.2X%.2X%.2X%.2X%.2X%.2X%.2X%.2X", t[0], t[1], t[2], t[3], t[4], t[5], t[6], t[7]);
/*
%X -> linksbündige hexzahl
%2X -> 2Stellige hexzahl ... dynamisch erweitert
%0.2X -> 2stellige hexzahl mit führerder "0"
*/
printf("Print: %s\n", buf);
loop++;
delay(500);
return;
whatever = !whatever;
digitalWrite(OUTPUT_PUMP, HIGH);
delay(500);
digitalWrite(OUTPUT_PUMP6, HIGH);
for(int j=0; j < 5 && temp.getDeviceCount() == 0; j++) {
delay(10);
// Serial.println("Reset 1wire temp");
temp.begin();
}
for(int j=0; j < 5 && (0 == battery.isFound()); j++) {
delay(10);
Serial.println("Reset 1wire bat");
battery.begin();
battery.update();
}
battery.update();
Serial.print(battery.getVoltage(0)); //use define here, solar
Serial.print("\t");
Serial.print(battery.getVoltage(1)); //use define here, battery
Serial.print("\t");
Serial.print(battery.getCurrent());
Serial.print("\t");
Serial.println(battery.getTemperature()/10);
}