Interrupt and sleep

gohan

No, I tried to move it around but it doesn't change the behavior in this case.

JoergP

ahhhhhhhhhhhh - I created a door/window sensor some weeks ago - but I couldn't make it run to fire an interrupt on pin change (INT0 and INT1 are used to connect external magnetic sensors) - today I decided to work on this issue again and found this topic at the forum - so I downgraded my arduino IDE by downloading v1.6.8 from arduino.cc today - compiled my code again - falshed it - and voilà - it works
That is really frustrating by wasting that many hours of time only by inconsistancy with compiler/board definitions.
Is there any need to update to newer arduino-IDE - otherwise I would recommend to general stick to one version ...

gohan

@JoergP
Would you mind posting board version you are using and also your code? Did some test but I couldn't figure out anything on my mega so probably there is also something about that kind of board, so I didn't spend too much time on it and wait for the other minis I ordered

JoergP

I checked the used versions - as I already wrote the used arduino-IDE is 1.6.8. But due to the case that I used 1.8.0 before and downgraded the board definition by "Board manager" the board definition is 1.6.11 (if you down/upgrade by BoardManager you can find the files in dir "C:\Users...\AppData\Local\Arduino15\packages\arduino\hardware\avr\1.6.11"
I added my own definitions to board.txt (because I use 2AA Battery node -> https://www.openhardware.io/view/10/My-Slim-2AA-Battery-Node)

here my quick and dirty source - have to clean up if it works as expected:

// ---------------------------------------------------------
// based on 2AA Battery Node
// ATMEGA328P (@ internal OSC 1MHz)
// device ID = 0x07D5 (2005d )
// ---------------------------------------------------------
// 0  - Input 0 -> S_DOOR / V_TRIPPED
// 1  - Input 1 -> S_DOOR / V_TRIPPED
// 2  - temperature (HTU)
// 3  - humidity (HTU)
// ---------------------------------------------------------


// ---------------------------------------------------------
// includes
// ---------------------------------------------------------
#include <Wire.h>
#include "Adafruit_HTU21DF.h"

#include <Vcc.h>
#include <avr/wdt.h>

// ---------------------------------------------------------
// MySensors
// ---------------------------------------------------------
#define MY_RADIO_NRF24
#define MY_RF24_PA_LEVEL RF24_PA_MAX
#include <MySensors.h>
#include <SPI.h>

// ---------------------------------------------------------
// MySensor
// ---------------------------------------------------------
#define SN "AA - Windows / Temperature"
#define SV "1.1"
#define ms_input_0      0
#define ms_input_1      1
#define ms_temperature  2
#define ms_humidity     3

// ---------------------------------------------------------
// used PINs
// ---------------------------------------------------------
#define PIN_INPUT_0     2
#define PIN_INPUT_1     3

// ---------------------------------------------------------
// Sleep
// ---------------------------------------------------------
#define SLEEP_TIME 300000   // ms => 5 min
#define VALUE_MIN_COUNT 12  // send min every 12th measurement one value (once per hour)

// ---------------------------------------------------------
// Vcc
// ---------------------------------------------------------
#define VCC_MIN 1.9
#define VCC_MAX 3.3
#define BATTERY_COUNT 288   // 288 * 5 min = 1 day

// ---------------------------------------------------------
// global vars
// ---------------------------------------------------------
MyMessage msg(0,0);

Adafruit_HTU21DF htu = Adafruit_HTU21DF();
boolean htu_available = false;
float htu_temperature = 1000;
float htu_humidity = 1000;
int batteryCnt = 0;
int temperatureCnt = 0;
int humidityCnt = 0;;

Vcc vcc;


// #########################################################
// setup
// #########################################################
void setup() {
  // ---------
  // PINs
  // ---------  
  pinMode(PIN_INPUT_0, INPUT_PULLUP);
  pinMode(PIN_INPUT_1, INPUT_PULLUP);
  
  // ---------
  // HTU21
  // ---------
  if (htu.begin())
    htu_available = true;
}

// #########################################################
// presentation
// #########################################################
void presentation()
{
  // Send the sketch version information to the gateway and Controller
  sendSketchInfo(SN, SV);
  
  // Send sensor information
  present(ms_input_0, S_DOOR);
  present(ms_input_1, S_DOOR);

  if(htu_available) {
    present(ms_temperature, S_TEMP);
    present(ms_humidity, S_HUM);
  }
}

// #########################################################
// loop
// #########################################################
void loop() {
  // enable watchdog
  wdt_enable(WDTO_8S);

  // -------------
  // inputs
  // -------------
  sendInput0();
  sendInput1();

  // -------------
  // check battery
  // -------------
  if(batteryCnt == 0)
    sendBatteryReport();

  batteryCnt++;
  if(batteryCnt > BATTERY_COUNT)
    batteryCnt = 0;
  
  // -------------
  // temperature
  // -------------
  if(htu_available) {
    sendTemperature();
    sendHumidity();
  }
  
  // -------------
  // sleep
  // -------------
  delay(500);
  wdt_disable();
  sleep(digitalPinToInterrupt(PIN_INPUT_0), CHANGE, digitalPinToInterrupt(PIN_INPUT_1), CHANGE, SLEEP_TIME);
}


// #########################################################
// helper functions
// #########################################################
float rfloat(float val, unsigned int num) {
  if(num) {
    float f = 10.0 * num;
    return round(val*f)/f;
  }
  else
    return round(val);
}

void sendTemperature() {
  wdt_reset();
  float tmp = htu.readTemperature();
  if(tmp < 900){ // check errors
    tmp = rfloat(tmp, 1);
    if((tmp != htu_temperature) || (temperatureCnt >= VALUE_MIN_COUNT)){
      htu_temperature = tmp;
      send(msg.setSensor(ms_temperature).setType(V_TEMP).set(htu_temperature,1));
      temperatureCnt = 0;
    }
    else
      temperatureCnt++;
  }
}

void sendHumidity() {
  wdt_reset();
  float tmp = htu.readHumidity();
  if(tmp < 900){ // check errors
    tmp = rfloat(tmp, 0);
    if((tmp != htu_humidity) || (humidityCnt >= VALUE_MIN_COUNT)){
      htu_humidity = tmp;
      send(msg.setSensor(ms_humidity).setType(V_HUM).set(htu_humidity,0));
      humidityCnt = 0;
    }
    else
      humidityCnt++;
  }  
}

void sendBatteryReport() {
  wdt_reset();
  delay(500);
  float p = vcc.Read_Perc(VCC_MIN, VCC_MAX, true);
  int batteryPcnt = static_cast<int>(p);
  sendBatteryLevel(batteryPcnt);
}

void sendInput0() {
  wdt_reset();
  if(digitalRead(PIN_INPUT_0) == HIGH)
    send(msg.setSensor(ms_input_0).setType(V_TRIPPED).set(0));
  else
    send(msg.setSensor(ms_input_0).setType(V_TRIPPED).set(1));
}

void sendInput1() {
  wdt_reset();
  if(digitalRead(PIN_INPUT_1) == HIGH)
    send(msg.setSensor(ms_input_1).setType(V_TRIPPED).set(0));
  else
    send(msg.setSensor(ms_input_1).setType(V_TRIPPED).set(1));
}```

gohan

What does this do?
wdt_enable(WDTO_8S);

gohan

Tests so far are just as the same as before even with the changes you suggested, so I believe I'll just wait for the other new arduinos and use the mega for other purposes

JoergP

That's bad - if you like you can send me your source and I can try to compile it on my environment.
I use the watchdog in general - in the past I had the issue that some nodes stopped working without any reason - watchdog helped to solve this

gohan

Look at my first post, that's the code. It's a draft so it's not really cleaned up

Efflon

@JoergP ans others, I have tried versions 1.6.8 and the board definitions 1.6.11 and interrupt seems to work but in the case of using a PIR the sensor somehow seems to be triggered when going out of sleep due to time...

JoergP

@Efflon I'm not sure what exactly you mean - do you refer to my code? In that case this is a quick and dirty try - I'll send at every pin change and at timeout the input values ...

gohan

My mega goes to sleep for the time specified, but it doesn't wake up when pir is triggered

Efflon

@JoergP Sorry, what I meant was regarding the versions you were using to get your sensor to work. I've been fighting to get interrupts to work for a day and your suggestion helped.
Now it's just that going out of sleep triggers the PIR, then it goes for sleep and wakes up immediately and then finally goes to sleep ... gahh

Tripped: 0
13207 MCO:SLP:MS=30000,SMS=0,I1=1,M1=3,I2=255,M2=255
13213 MCO:SLP:TPD
13217 MCO:SLP:WUP=-1
interrupt: -1
Tripped: 0
Tripped: 1
Tripped: 1
Tripped: 1
Tripped: 1
interrupt: -1
Tripped: 1
Tripped: 0
Tripped: 0
Tripped: 0
Tripped: 0
14024 MCO:SLP:MS=30000,SMS=0,I1=1,M1=3,I2=255,M2=255
14032 MCO:SLP:TPD
14034 MCO:SLP:WUP=1
interrupt: 1
Tripped: 0
Tripped: 0
Tripped: 0
Tripped: 0
Tripped: 0
14440 MCO:SLP:MS=30000,SMS=0,I1=1,M1=3,I2=255,M2=255
14446 MCO:SLP:TPD```

JoergP

hmmmm .... I'm not so familiar with the arduino build process - I guess that Interrupt Request registers are not reset correctly, but never did that manual with Arduino

I use following board setting

AAnode1.name=AA sensor node (1MHz int)

AAnode1.upload.tool=avrdude
AAnode1.upload.protocol=arduino
AAnode1.upload.maximum_size=32256
AAnode1.upload.speed=9600
AAnode1.bootloader.tool=avrdude
AAnode1.bootloader.low_fuses=0x62
AAnode1.bootloader.high_fuses=0xde
AAnode1.bootloader.extended_fuses=0x07
AAnode1.bootloader.path=optiboot_v50
AAnode1.bootloader.unlock_bits=0x3F
AAnode1.bootloader.lock_bits=0x2F
AAnode1.build.mcu=atmega328p
AAnode1.build.f_cpu=1000000L
AAnode1.build.core=arduino
AAnode1.build.variant=standard
AAnode1.build.board=AVR_AANODE_1MHz

I guess the xxx.build.xxx settings are of interest - do you use the same or do you have different?

Efflon

@JoergP Don't know. I just select "mini pro" from within Arduino IDE.
I'll create a new trouble shooting topic with my problem since this is going out of topic.

giovaFr

my 2 cents :

Why are you doing a sleep into setup method?
why not using wait method instead?

I understand that you'd like switch in sleep mode after a loop, but this doesnt sounds natural to do this during "initializing" step.

if you remove sleep from setup, do you still have your issues?

moreover, i've read somewhere that smartsleep methode gives messages time to be sent before sleeping (i'm not absolutly sure about this, i cannot find anymore the place where i've read that).

bool smartSleep(uint8_t interrupt, uint8_t mode, unsigned long ms=0)
@params:
• interrupt: Pin that should trigger the wakeup
• mode: RISING, FALLING, CHANGE
• ms: Number of milliseconds to sleep or 0 to sleep forever
@return: True if wake up was triggered by pin change and false means timer woke it up.

at last : you can wait for an aknownledge, it'll be slower but you'll be sure that message is sent before going to the next line of code...

i did not test it yet, but it would be something like this :

bool ack = true;
send(myMsg.set(avalue), ack );
if(!wait(2000,V_TEMP , mymsg.getType());)
     Serial.println("timeout after 2 secs");

gohan

@giovaFr
if you are referring to

sleep(dht.getMinimumSamplingPeriod());

that was straight from the example of the DHT11 sensor.