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HB-UNI-Sen-TEMP-DS18B20.ino
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HB-UNI-Sen-TEMP-DS18B20.ino
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//- -----------------------------------------------------------------------------------------------------------------------
// AskSin++
// 2016-10-31 papa Creative Commons - http://creativecommons.org/licenses/by-nc-sa/3.0/de/
//- -----------------------------------------------------------------------------------------------------------------------
// define this to read the device id, serial and device type from bootloader section
// #define USE_OTA_BOOTLOADER
#define EI_NOTEXTERNAL
#include <EnableInterrupt.h>
#include <AskSinPP.h>
#include <LowPower.h>
#include <Register.h>
#include <MultiChannelDevice.h>
#include <OneWire.h>
#include <sensors/Ds18b20.h>
#define MAX_SENSORS 8
// Arduino Pro mini 8 Mhz
// Arduino pin for the config button
#define CONFIG_BUTTON_PIN 8
// number of available peers per channel
#define PEERS_PER_CHANNEL 6
//DS18B20 Sensors connected to pin
OneWire oneWire(3);
// all library classes are placed in the namespace 'as'
using namespace as;
// define all device properties
const struct DeviceInfo PROGMEM devinfo = {
{0xf3, 0x01, 0x01}, // Device ID
"UNITEMP001", // Device Serial
{0xF3, 0x01}, // Device Model
0x10, // Firmware Version
as::DeviceType::THSensor, // Device Type
{0x01, 0x01} // Info Bytes
};
/**
Configure the used hardware
*/
typedef AvrSPI<10, 11, 12, 13> SPIType;
typedef Radio<SPIType, 2> RadioType;
typedef StatusLed<4> LedType;
typedef AskSin<LedType, BatterySensor, RadioType> BaseHal;
class Hal : public BaseHal {
public:
void init (const HMID& id) {
BaseHal::init(id);
battery.init(seconds2ticks(60UL * 60), sysclock); //battery measure once an hour
battery.low(22);
battery.critical(18);
}
bool runready () {
return sysclock.runready() || BaseHal::runready();
}
} hal;
DEFREGISTER(UReg0, MASTERID_REGS, DREG_BURSTRX, DREG_LOWBATLIMIT, 0x21, 0x22)
class UList0 : public RegList0<UReg0> {
public:
UList0 (uint16_t addr) : RegList0<UReg0>(addr) {}
bool Sendeintervall (uint16_t value) const {
return this->writeRegister(0x21, (value >> 8) & 0xff) && this->writeRegister(0x22, value & 0xff);
}
uint16_t Sendeintervall () const {
return (this->readRegister(0x21, 0) << 8) + this->readRegister(0x22, 0);
}
void defaults () {
clear();
burstRx(false);
lowBatLimit(22);
Sendeintervall(180);
}
};
class WeatherEventMsg : public Message {
public:
void init(uint8_t msgcnt, Ds18b20* sensors, bool batlow, uint8_t channelFieldOffset) {
Message::init(0x16, msgcnt, 0x53, BCAST , batlow ? 0x80 : 0x00, 0x41 + channelFieldOffset);
pload[0] = (sensors[0 + channelFieldOffset].temperature() >> 8) & 0xff;
pload[1] = (sensors[0 + channelFieldOffset].temperature()) & 0xff;
pload[2] = 0x42 + channelFieldOffset;
pload[3] = (sensors[1 + channelFieldOffset].temperature() >> 8) & 0xff;
pload[4] = (sensors[1 + channelFieldOffset].temperature()) & 0xff;
pload[5] = 0x43 + channelFieldOffset;
pload[6] = (sensors[2 + channelFieldOffset].temperature() >> 8) & 0xff;
pload[7] = (sensors[2 + channelFieldOffset].temperature()) & 0xff;
pload[8] = 0x44 + channelFieldOffset;
pload[9] = (sensors[3 + channelFieldOffset].temperature() >> 8) & 0xff;
pload[10] = (sensors[3 + channelFieldOffset].temperature()) & 0xff;
}
};
class WeatherChannel : public Channel<Hal, List1, EmptyList, List4, PEERS_PER_CHANNEL, UList0> {
public:
WeatherChannel () : Channel() {}
virtual ~WeatherChannel () {}
void configChanged() {
//DPRINTLN("Config changed List1");
}
uint8_t status () const {
return 0;
}
uint8_t flags () const {
return 0;
}
};
class UType : public MultiChannelDevice<Hal, WeatherChannel, MAX_SENSORS, UList0> {
class SensorArray : public Alarm {
UType& dev;
public:
uint8_t sensorcount;
Ds18b20 sensors[MAX_SENSORS];
SensorArray (UType& d) : Alarm(0), dev(d) {}
virtual void trigger (__attribute__ ((unused)) AlarmClock& clock) {
tick = delay();
sysclock.add(*this);
Ds18b20::measure(sensors, sensorcount);
DPRINT(F("Temperaturen: | "));
for (int i = 0; i < MAX_SENSORS; i++) {
DDEC(sensors[i].temperature()); DPRINT(" | ");
}
DPRINTLN("");
WeatherEventMsg& msg = (WeatherEventMsg&)dev.message();
//Aufteilung in 2 Messages, da sonst die max. BidCos Message Size (0x1a)? überschritten wird
msg.init(dev.nextcount(), sensors, dev.battery().low(), 0);
dev.send(msg, dev.getMasterID());
_delay_ms(200);
msg.init(dev.nextcount(), sensors, dev.battery().low(), 4);
dev.send(msg, dev.getMasterID());
}
uint32_t delay () {
uint16_t _txMindelay = 180;
_txMindelay = dev.getList0().Sendeintervall();
if (_txMindelay == 0) _txMindelay = 180;
return seconds2ticks(_txMindelay);
}
} sensarray;
public:
typedef MultiChannelDevice<Hal, WeatherChannel, MAX_SENSORS, UList0> TSDevice;
UType(const DeviceInfo& info, uint16_t addr) : TSDevice(info, addr), sensarray(*this) {}
virtual ~UType () {}
virtual void configChanged () {
TSDevice::configChanged();
DPRINTLN("Config Changed List0");
DPRINT("LOW BAT Limit: ");
DDECLN(this->getList0().lowBatLimit());
DPRINT("Wake-On-Radio: ");
DDECLN(this->getList0().burstRx());
this->battery().low(this->getList0().lowBatLimit());
DPRINT("Sendeintervall: "); DDECLN(this->getList0().Sendeintervall());
}
bool init (Hal& hal) {
TSDevice::init(hal);
sensarray.sensorcount = Ds18b20::init(oneWire, sensarray.sensors, MAX_SENSORS);
DPRINT("Found "); DDEC(sensarray.sensorcount); DPRINTLN(" DS18B20 Sensors");
sensarray.set(seconds2ticks(5));
sysclock.add(sensarray);
}
};
UType sdev(devinfo, 0x20);
ConfigButton<UType> cfgBtn(sdev);
void setup () {
DINIT(57600, ASKSIN_PLUS_PLUS_IDENTIFIER);
sdev.init(hal);
buttonISR(cfgBtn, CONFIG_BUTTON_PIN);
sdev.initDone();
}
void loop() {
bool worked = hal.runready();
bool poll = sdev.pollRadio();
if ( worked == false && poll == false ) {
if ( hal.battery.critical() ) {
hal.activity.sleepForever(hal);
}
hal.activity.savePower<Sleep<>>(hal);
}
}