#include "wiringPi.h"
#include "stdio.h"
#include "stdlib.h"
#include "stdint.h"
#define MAX_TIME 85
#define DHT11PIN 2
#define ATTEMPTS 5 //retry 5 times when no response
int dht11_val[5]={0,0,0,0,0};
int dht11_read_val(){
uint8_t lststate=HIGH; //last state
uint8_t counter=0;
uint8_t j=0,i;
for(i=0;i<5;i++)
dht11_val[i]=0;
//host send start signal
pinMode(DHT11PIN,OUTPUT); //set pin to output
digitalWrite(DHT11PIN,LOW); //set to low at least 18ms
delay(18);
digitalWrite(DHT11PIN,HIGH); //set to high 20-40us
delayMicroseconds(40);
//start recieve dht response
pinMode(DHT11PIN,INPUT); //set pin to input
for(i=0;i<MAX_TIME;i++)
{
counter=0;
while(digitalRead(DHT11PIN)==lststate){ //read pin state to see if dht responsed. if dht always high for 255 + 1 times, break this while circle
counter++;
delayMicroseconds(1);
if(counter==255)
break;
}
lststate=digitalRead(DHT11PIN); //read current state and store as last state.
if(counter==255) //if dht always high for 255 + 1 times, break this for circle
break;
// top 3 transistions are ignored, maybe aim to wait for dht finish response signal
if((i>=4)&&(i%2==0)){
dht11_val[j/8]<<=1; //write 1 bit to 0 by moving left (auto add 0)
if(counter>16) //long mean 1
dht11_val[j/8]|=1; //write 1 bit to 1
j++;
}
}
// verify checksum and print the verified data
if((j>=40)&&(dht11_val[4]==((dht11_val[0]+dht11_val[1]+dht11_val[2]+dht11_val[3])& 0xFF))){
// printf("RH:%d,iEMP:%d\n",dht11_val[0],dht11_val[2]);
return 1;
}
else
return 0;
}
int main(void){
if(wiringPiSetup()==-1)exit(1);
while(1){
int success = dht11_read_val();
if(success){
printf("RH:%d,TEMP:%d\n",dht11_val[0],dht11_val[2]);
}else{
dht11_read_val();
}
}
return 0;
}
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