WLED/usermods/DHT/usermod_dht.h

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#pragma once
#include "wled.h"
#include <dht_nonblocking.h>
// USERMOD_DHT_DHTTYPE:
// 11 // DHT 11
// 21 // DHT 21
// 22 // DHT 22 (AM2302), AM2321 *** default
#ifndef USERMOD_DHT_DHTTYPE
#define USERMOD_DHT_DHTTYPE 22
#endif
#if USERMOD_DHT_DHTTYPE == 11
#define DHTTYPE DHT_TYPE_11
#elif USERMOD_DHT_DHTTYPE == 21
#define DHTTYPE DHT_TYPE_21
#elif USERMOD_DHT_DHTTYPE == 22
#define DHTTYPE DHT_TYPE_22
#endif
// Connect pin 1 (on the left) of the sensor to +5V
// NOTE: If using a board with 3.3V logic like an Arduino Due connect pin 1
// to 3.3V instead of 5V!
// Connect pin 2 of the sensor to whatever your DHTPIN is
// NOTE: Pin defaults below are for QuinLed Dig-Uno's Q2 on the board
// Connect pin 4 (on the right) of the sensor to GROUND
// NOTE: If using a bare sensor (AM*), Connect a 10K resistor from pin 2
// (data) to pin 1 (power) of the sensor. DHT* boards have the pullup already
#ifdef USERMOD_DHT_PIN
#define DHTPIN USERMOD_DHT_PIN
#else
#ifdef ARDUINO_ARCH_ESP32
#define DHTPIN 21
#else //ESP8266 boards
#define DHTPIN 4
#endif
#endif
// the frequency to check sensor, 1 minute
#ifndef USERMOD_DHT_MEASUREMENT_INTERVAL
#define USERMOD_DHT_MEASUREMENT_INTERVAL 60000
#endif
// how many seconds after boot to take first measurement, 90 seconds
// 90 gives enough time to OTA update firmware if this crashses
#ifndef USERMOD_DHT_FIRST_MEASUREMENT_AT
#define USERMOD_DHT_FIRST_MEASUREMENT_AT 90000
#endif
// from COOLDOWN_TIME in dht_nonblocking.cpp
#define DHT_TIMEOUT_TIME 10000
DHT_nonblocking dht_sensor(DHTPIN, DHTTYPE);
class UsermodDHT : public Usermod {
private:
unsigned long nextReadTime = 0;
unsigned long lastReadTime = 0;
float humidity, temperature = 0;
bool initializing = true;
bool disabled = false;
#ifdef USERMOD_DHT_STATS
unsigned long nextResetStatsTime = 0;
uint16_t updates = 0;
uint16_t clean_updates = 0;
uint16_t errors = 0;
unsigned long maxDelay = 0;
unsigned long currentIteration = 0;
unsigned long maxIteration = 0;
#endif
public:
void setup() {
nextReadTime = millis() + USERMOD_DHT_FIRST_MEASUREMENT_AT;
lastReadTime = millis();
#ifdef USERMOD_DHT_STATS
nextResetStatsTime = millis() + 60*60*1000;
#endif
}
void loop() {
if (disabled) {
return;
}
if (millis() < nextReadTime) {
return;
}
#ifdef USERMOD_DHT_STATS
if (millis() >= nextResetStatsTime) {
nextResetStatsTime += 60*60*1000;
errors = 0;
updates = 0;
clean_updates = 0;
}
unsigned long dcalc = millis();
if (currentIteration == 0) {
currentIteration = millis();
}
#endif
float tempC;
if (dht_sensor.measure(&tempC, &humidity)) {
#ifdef USERMOD_DHT_CELSIUS
temperature = tempC;
#else
temperature = tempC * 9 / 5 + 32;
#endif
nextReadTime = millis() + USERMOD_DHT_MEASUREMENT_INTERVAL;
lastReadTime = millis();
initializing = false;
#ifdef USERMOD_DHT_STATS
unsigned long icalc = millis() - currentIteration;
if (icalc > maxIteration) {
maxIteration = icalc;
}
if (icalc > DHT_TIMEOUT_TIME) {
errors += icalc/DHT_TIMEOUT_TIME;
} else {
clean_updates += 1;
}
updates += 1;
currentIteration = 0;
#endif
}
#ifdef USERMOD_DHT_STATS
dcalc = millis() - dcalc;
if (dcalc > maxDelay) {
maxDelay = dcalc;
}
#endif
if (((millis() - lastReadTime) > 10*USERMOD_DHT_MEASUREMENT_INTERVAL)) {
disabled = true;
}
}
void addToJsonInfo(JsonObject& root) {
if (disabled) {
return;
}
JsonObject user = root["u"];
if (user.isNull()) user = root.createNestedObject("u");
JsonArray temp = user.createNestedArray("Temperature");
JsonArray hum = user.createNestedArray("Humidity");
#ifdef USERMOD_DHT_STATS
JsonArray next = user.createNestedArray("next");
if (nextReadTime >= millis()) {
next.add((nextReadTime - millis()) / 1000);
next.add(" sec until read");
} else {
next.add((millis() - nextReadTime) / 1000);
next.add(" sec active reading");
}
JsonArray last = user.createNestedArray("last");
last.add((millis() - lastReadTime) / 60000);
last.add(" min since read");
JsonArray err = user.createNestedArray("errors");
err.add(errors);
err.add(" Errors");
JsonArray upd = user.createNestedArray("updates");
upd.add(updates);
upd.add(" Updates");
JsonArray cupd = user.createNestedArray("cleanUpdates");
cupd.add(clean_updates);
cupd.add(" Updates");
JsonArray iter = user.createNestedArray("maxIter");
iter.add(maxIteration);
iter.add(" ms");
JsonArray delay = user.createNestedArray("maxDelay");
delay.add(maxDelay);
delay.add(" ms");
#endif
if (initializing) {
// if we haven't read the sensor yet, let the user know
// that we are still waiting for the first measurement
temp.add((nextReadTime - millis()) / 1000);
temp.add(" sec until read");
hum.add((nextReadTime - millis()) / 1000);
hum.add(" sec until read");
return;
}
hum.add(humidity);
hum.add("%");
temp.add(temperature);
#ifdef USERMOD_DHT_CELSIUS
temp.add("°C");
#else
temp.add("°F");
#endif
}
uint16_t getId()
{
return USERMOD_ID_DHT;
}
};