wifi-tally_Oostendam/nodemcu-firmware/app/dht/dht.c

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2021-09-27 19:52:27 +00:00
//
// FILE: dht.cpp
// AUTHOR: Rob Tillaart
// VERSION: 0.1.14
// PURPOSE: DHT Temperature & Humidity Sensor library for Arduino
// URL: http://arduino.cc/playground/Main/DHTLib
//
// HISTORY:
// 0.1.14 replace digital read with faster (~3x) code => more robust low MHz machines.
// 0.1.13 fix negative dht_temperature
// 0.1.12 support DHT33 and DHT44 initial version
// 0.1.11 renamed DHTLIB_TIMEOUT
// 0.1.10 optimized faster WAKEUP + TIMEOUT
// 0.1.09 optimize size: timeout check + use of mask
// 0.1.08 added formula for timeout based upon clockspeed
// 0.1.07 added support for DHT21
// 0.1.06 minimize footprint (2012-12-27)
// 0.1.05 fixed negative dht_temperature bug (thanks to Roseman)
// 0.1.04 improved readability of code using DHTLIB_OK in code
// 0.1.03 added error values for temp and dht_humidity when read failed
// 0.1.02 added error codes
// 0.1.01 added support for Arduino 1.0, fixed typos (31/12/2011)
// 0.1.00 by Rob Tillaart (01/04/2011)
//
// inspired by DHT11 library
//
// Released to the public domain
//
#include "user_interface.h"
#include "platform.h"
#include <stdio.h>
#include "dht.h"
#ifndef LOW
#define LOW 0
#endif /* ifndef LOW */
#ifndef HIGH
#define HIGH 1
#endif /* ifndef HIGH */
static double dht_humidity;
static double dht_temperature;
static uint8_t dht_bytes[5]; // buffer to receive data
typedef enum {
Humidity = 0,
Temperature,
Humidity8,
Temperature8
} dht_Signal;
static int dht_readSensor(uint8_t pin, uint8_t wakeupDelay);
static double getValue(dht_Signal s);
static bool verifyChecksum();
/////////////////////////////////////////////////////
//
// PUBLIC
//
// return values:
// Humidity
double dht_getHumidity(void)
{
return dht_humidity;
}
// return values:
// Temperature
double dht_getTemperature(void)
{
return dht_temperature;
}
// return values:
// DHTLIB_OK
// DHTLIB_ERROR_CHECKSUM
// DHTLIB_ERROR_TIMEOUT
int dht_read_universal(uint8_t pin)
{
// READ VALUES
int rv = dht_readSensor(pin, DHTLIB_DHT_UNI_WAKEUP);
if (rv != DHTLIB_OK)
{
dht_humidity = DHTLIB_INVALID_VALUE; // invalid value, or is NaN prefered?
dht_temperature = DHTLIB_INVALID_VALUE; // invalid value
return rv; // propagate error value
}
#if defined(DHT_DEBUG_BYTES)
int i;
for (i = 0; i < 5; i++)
{
DHT_DEBUG("%02X\n", dht_bytes[i]);
}
#endif // defined(DHT_DEBUG_BYTES)
// Assume it is DHT11
// If it is DHT11, both temp and humidity's decimal
if ((dht_bytes[1] == 0) && (dht_bytes[3] == 0))
{
// It may DHT11
// CONVERT AND STORE
DHT_DEBUG("DHT11 method\n");
dht_humidity = getValue(Humidity8);
dht_temperature = getValue(Temperature8);
// TEST CHECKSUM
if (!verifyChecksum())
{
// It may not DHT11
dht_humidity = DHTLIB_INVALID_VALUE; // invalid value, or is NaN prefered?
dht_temperature = DHTLIB_INVALID_VALUE; // invalid value
// Do nothing
}
else
{
return DHTLIB_OK;
}
}
// Assume it is not DHT11
// CONVERT AND STORE
DHT_DEBUG("DHTxx method\n");
dht_humidity = getValue(Humidity);
dht_temperature = getValue(Temperature);
// TEST CHECKSUM
if (!verifyChecksum())
{
return DHTLIB_ERROR_CHECKSUM;
}
return DHTLIB_OK;
}
// return values:
// DHTLIB_OK
// DHTLIB_ERROR_CHECKSUM
// DHTLIB_ERROR_TIMEOUT
int dht_read11(uint8_t pin)
{
// READ VALUES
int rv = dht_readSensor(pin, DHTLIB_DHT11_WAKEUP);
if (rv != DHTLIB_OK)
{
dht_humidity = DHTLIB_INVALID_VALUE; // invalid value, or is NaN prefered?
dht_temperature = DHTLIB_INVALID_VALUE; // invalid value
return rv;
}
// CONVERT AND STORE
dht_humidity = getValue(Humidity8);
dht_temperature = getValue(Temperature8);
// TEST CHECKSUM
if (!verifyChecksum()) return DHTLIB_ERROR_CHECKSUM;
return DHTLIB_OK;
}
// return values:
// DHTLIB_OK
// DHTLIB_ERROR_CHECKSUM
// DHTLIB_ERROR_TIMEOUT
int dht_read(uint8_t pin)
{
// READ VALUES
int rv = dht_readSensor(pin, DHTLIB_DHT_WAKEUP);
if (rv != DHTLIB_OK)
{
dht_humidity = DHTLIB_INVALID_VALUE; // invalid value, or is NaN prefered?
dht_temperature = DHTLIB_INVALID_VALUE; // invalid value
return rv; // propagate error value
}
// CONVERT AND STORE
dht_humidity = getValue(Humidity);
dht_temperature = getValue(Temperature);
// TEST CHECKSUM
if (!verifyChecksum())
{
return DHTLIB_ERROR_CHECKSUM;
}
return DHTLIB_OK;
}
// return values:
// DHTLIB_OK
// DHTLIB_ERROR_CHECKSUM
// DHTLIB_ERROR_TIMEOUT
int dht_read21(uint8_t pin) __attribute__((alias("dht_read")));
// return values:
// DHTLIB_OK
// DHTLIB_ERROR_CHECKSUM
// DHTLIB_ERROR_TIMEOUT
int dht_read22(uint8_t pin) __attribute__((alias("dht_read")));
// return values:
// DHTLIB_OK
// DHTLIB_ERROR_CHECKSUM
// DHTLIB_ERROR_TIMEOUT
int dht_read33(uint8_t pin) __attribute__((alias("dht_read")));
// return values:
// DHTLIB_OK
// DHTLIB_ERROR_CHECKSUM
// DHTLIB_ERROR_TIMEOUT
int dht_read44(uint8_t pin) __attribute__((alias("dht_read")));
/////////////////////////////////////////////////////
//
// PRIVATE
//
// return values:
// DHTLIB_OK
// DHTLIB_ERROR_TIMEOUT
int dht_readSensor(uint8_t pin, uint8_t wakeupDelay)
{
// INIT BUFFERVAR TO RECEIVE DATA
uint8_t mask = 128;
uint8_t idx = 0;
uint8_t i = 0;
// replace digitalRead() with Direct Port Reads.
// reduces footprint ~100 bytes => portability issue?
// direct port read is about 3x faster
// uint8_t bit = digitalPinToBitMask(pin);
// uint8_t port = digitalPinToPort(pin);
// volatile uint8_t *PIR = portInputRegister(port);
// EMPTY BUFFER
memset(dht_bytes, sizeof(uint8_t)*5, 0);
// REQUEST SAMPLE
// pinMode(pin, OUTPUT);
platform_gpio_mode(pin, PLATFORM_GPIO_OUTPUT, PLATFORM_GPIO_PULLUP);
DIRECT_MODE_OUTPUT(pin);
// digitalWrite(pin, LOW); // T-be
DIRECT_WRITE_LOW(pin);
// delay(wakeupDelay);
for (i = 0; i < wakeupDelay; i++) os_delay_us(1000);
// Disable interrupts
ets_intr_lock();
// digitalWrite(pin, HIGH); // T-go
DIRECT_WRITE_HIGH(pin);
os_delay_us(40);
// pinMode(pin, INPUT);
DIRECT_MODE_INPUT(pin);
// GET ACKNOWLEDGE or TIMEOUT
uint16_t loopCntLOW = DHTLIB_TIMEOUT;
while (DIRECT_READ(pin) == LOW ) // T-rel
{
os_delay_us(1);
if (--loopCntLOW == 0) return DHTLIB_ERROR_TIMEOUT;
}
uint16_t loopCntHIGH = DHTLIB_TIMEOUT;
while (DIRECT_READ(pin) != LOW ) // T-reh
{
os_delay_us(1);
if (--loopCntHIGH == 0) return DHTLIB_ERROR_TIMEOUT;
}
// READ THE OUTPUT - 40 BITS => 5 BYTES
for (i = 40; i != 0; i--)
{
loopCntLOW = DHTLIB_TIMEOUT;
while (DIRECT_READ(pin) == LOW )
{
os_delay_us(1);
if (--loopCntLOW == 0) return DHTLIB_ERROR_TIMEOUT;
}
uint32_t t = system_get_time();
loopCntHIGH = DHTLIB_TIMEOUT;
while (DIRECT_READ(pin) != LOW )
{
os_delay_us(1);
if (--loopCntHIGH == 0) return DHTLIB_ERROR_TIMEOUT;
}
if ((system_get_time() - t) > 40)
{
dht_bytes[idx] |= mask;
}
mask >>= 1;
if (mask == 0) // next byte?
{
mask = 128;
idx++;
}
}
// Enable interrupts
ets_intr_unlock();
// pinMode(pin, OUTPUT);
DIRECT_MODE_OUTPUT(pin);
// digitalWrite(pin, HIGH);
DIRECT_WRITE_HIGH(pin);
return DHTLIB_OK;
}
// Assembles the high and low byte in a signed 16bit value
static double getValue(dht_Signal s)
{
uint8_t high=0, low=0;
// the '8' variants leave the low byte set to 0
switch(s){
case Humidity:
low = dht_bytes[1];
case Humidity8:
high = dht_bytes[0];
break;
case Temperature:
low = dht_bytes[3];
case Temperature8:
high = dht_bytes[2];
break;
}
return ((high << 8) | low) * 0.1;
}
static bool verifyChecksum(){
uint8_t sum = dht_bytes[0] + dht_bytes[1] + dht_bytes[2] + dht_bytes[3];
return (dht_bytes[4] == sum);
}
//
// END OF FILE
//