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Copy pathlora32u4-sketch.ino
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271 lines (242 loc) · 8.4 KB
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/*******************************************************************************
* Copyright (c) 2015 Thomas Telkamp and Matthijs Kooijman
*
* Permission is hereby granted, free of charge, to anyone
* obtaining a copy of this document and accompanying files,
* to do whatever they want with them without any restriction,
* including, but not limited to, copying, modification and redistribution.
* NO WARRANTY OF ANY KIND IS PROVIDED.
*
* This example will send Temperature and Humidity
* using frequency and encryption settings matching those of
* the The Things Network. Application will 'sleep' 7x8 seconds (56 seconds)
*
* This uses OTAA (Over-the-air activation), where where a DevEUI and
* application key is configured, which are used in an over-the-air
* activation procedure where a DevAddr and session keys are
* assigned/generated for use with all further communication.
*
* Note: LoRaWAN per sub-band duty-cycle limitation is enforced (1% in
* g1, 0.1% in g2), but not the TTN fair usage policy (which is probably
* violated by this sketch when left running for longer)!
* To use this sketch, first register your application and device with
* the things network, to set or generate an AppEUI, DevEUI and AppKey.
* Multiple devices can use the same AppEUI, but each device has its own
* DevEUI and AppKey.
*
* Do not forget to define the radio type correctly in config.h.
*
*******************************************************************************/
#include <avr/sleep.h>
#include <avr/wdt.h>
#include <lmic.h>
#include <hal/hal.h>
#include <SPI.h>
#include "LowPower.h"
#include <Arduino.h>
// DIO Pin mapping is hardware specific.
// The unversioned board needs a wire bridge from pin DIO1 (at the end of the large connector) to D6 (on the smaller connector).
// The v1.2 board needs the solder bridges connected, especially the DIO1 1 bridge.
// Only docs for the unversioned board are available currently.
// See: https://docs.bsfrance.fr/documentation/11355_LORA32U4II/Datasheet_LoRa32u4II_1.1.pdf
//
// Uncomment the define line below if you have a LoRa32u4II without a version number (v1.x)
//#define LoRa32u4II_VERSION LoRa32u4II_1_1
// Uncomment the define line below if you have a LoRa32u4II with version number (v1.2)
//#define LoRa32u4II_VERSION LoRa32u4II_1_2
#define LoRa32u4II_1_1 11
#define LoRa32u4II_1_2 12
#if LoRa32u4II_VERSION == LoRa32u4II_1_1
#define DIO0 7
#define DIO1 6
#define DIO2 LMIC_UNUSED_PIN
#define RESET_PIN 1
#elif LoRa32u4II_VERSION == LoRa32u4II_1_2
#define DIO0 7
#define DIO1 1
#define DIO2 LMIC_UNUSED_PIN
#define RESET_PIN 4
#else
#define DIO0 0
#define DIO1 0
#define DIO2 0
#define RESET_PIN 0
#error "Please specify which LoRa32u4 II version you have by commenting out the specific define line at the top of the ino file that starts with #define LoRa32u4II_VERSION"
#endif
int sleepcycles = 7; // every sleepcycle will last 8 secs, total sleeptime will be sleepcycles * 8 sec
bool joined = false;
bool sleeping = false;
#define LedPin 22 // pin 13 LED is not used, because it is connected to the SPI port
// This EUI must be in little-endian format, so least-significant-byte
// first. When copying an EUI from ttnctl output, this means to reverse
// the bytes. For TTN issued EUIs the last bytes should be 0xD5, 0xB3,
// 0x70.
static const u1_t DEVEUI[8] = { 0x76, 0xA0, 0xA6, 0x01, 0xAC, 0xC2, 0x8B, 0x00 };
static const u1_t APPEUI[8] = { 0xBD, 0x7C, 0x00, 0xD0, 0x7E, 0xD5, 0xB3, 0x70 };
// This key should be in big endian format (or, since it is not really a
// number but a block of memory, endianness does not really apply). In
// practice, a key taken from ttnctl can be copied as-is.
// The key shown here is the semtech default key.
static const u1_t APPKEY[16] = { 0xAE, 0x6A, 0xFA, 0xA3, 0x30, 0x9C, 0xEF, 0xE4, 0xAE, 0x69, 0x2F, 0x63, 0xC3, 0x34, 0x96, 0xF6 };
static void initfunc (osjob_t*);
// provide APPEUI (8 bytes, LSBF)
void os_getArtEui (u1_t* buf) {
memcpy(buf, APPEUI, 8);
}
// provide DEVEUI (8 bytes, LSBF)
void os_getDevEui (u1_t* buf) {
memcpy(buf, DEVEUI, 8);
}
// provide APPKEY key (16 bytes)
void os_getDevKey (u1_t* buf) {
memcpy(buf, APPKEY, 16);
}
static osjob_t sendjob;
static osjob_t initjob;
const lmic_pinmap lmic_pins = {
.nss = 8,
.rxtx = LMIC_UNUSED_PIN,
.rst = RESET_PIN, // Needed on RFM92/RFM95? (probably not) D0/GPIO16 on v1.1
.dio = {DIO0, DIO1, DIO2}, // Specify pin numbers for DIO0, DIO1, DIO2
};
void onEvent (ev_t ev) {
int i,j;
switch (ev) {
case EV_SCAN_TIMEOUT:
Serial.println(F("EV_SCAN_TIMEOUT"));
break;
case EV_BEACON_FOUND:
Serial.println(F("EV_BEACON_FOUND"));
break;
case EV_BEACON_MISSED:
Serial.println(F("EV_BEACON_MISSED"));
break;
case EV_BEACON_TRACKED:
Serial.println(F("EV_BEACON_TRACKED"));
break;
case EV_JOINING:
Serial.println(F("EV_JOINING"));
break;
case EV_JOINED:
Serial.println(F("EV_JOINED"));
// Disable link check validation (automatically enabled
// during join, but not supported by TTN at this time).
LMIC_setLinkCheckMode(0);
digitalWrite(LedPin,LOW);
// after Joining a job with the values will be sent.
joined = true;
break;
case EV_RFU1:
Serial.println(F("EV_RFU1"));
break;
case EV_JOIN_FAILED:
Serial.println(F("EV_JOIN_FAILED"));
break;
case EV_REJOIN_FAILED:
Serial.println(F("EV_REJOIN_FAILED"));
// Re-init
os_setCallback(&initjob, initfunc);
break;
case EV_TXCOMPLETE:
sleeping = true;
if (LMIC.dataLen) {
// data received in rx slot after tx
// if any data received, a LED will blink
// this number of times, with a maximum of 10
Serial.print(F("Data Received: "));
Serial.println(LMIC.frame[LMIC.dataBeg],HEX);
i=(LMIC.frame[LMIC.dataBeg]);
// i (0..255) can be used as data for any other application
// like controlling a relay, showing a display message etc.
if (i>10){
i=10; // maximum number of BLINKs
}
for(j=0;j<i;j++)
{
digitalWrite(LedPin,HIGH);
delay(200);
digitalWrite(LedPin,LOW);
delay(400);
}
}
Serial.println(F("EV_TXCOMPLETE (includes waiting for RX windows)"));
delay(50); // delay to complete Serial Output before Sleeping
// Schedule next transmission
// next transmission will take place after next wake-up cycle in main loop
break;
case EV_LOST_TSYNC:
Serial.println(F("EV_LOST_TSYNC"));
break;
case EV_RESET:
Serial.println(F("EV_RESET"));
break;
case EV_RXCOMPLETE:
// data received in ping slot
Serial.println(F("EV_RXCOMPLETE"));
break;
case EV_LINK_DEAD:
Serial.println(F("EV_LINK_DEAD"));
break;
case EV_LINK_ALIVE:
Serial.println(F("EV_LINK_ALIVE"));
break;
default:
Serial.println(F("Unknown event"));
break;
}
}
void do_send(osjob_t* j) {
byte buffer[22];
// It is a bad idea to send ASCII for real, only use this when developing!!
buffer[0]='H';
buffer[1]='i';
if (LMIC.opmode & OP_TXRXPEND) {
Serial.println(F("OP_TXRXPEND, not sending"));
} else {
// Prepare upstream data transmission at the next possible time.
LMIC_setTxData2(1, (uint8_t*) buffer, 2 , 0);
Serial.println(F("Sending: "));
}
}
// initial job
static void initfunc (osjob_t* j) {
// reset MAC state
LMIC_reset();
LMIC_setClockError(MAX_CLOCK_ERROR * 1 / 100);
// start joining
LMIC_startJoining();
// init done - onEvent() callback will be invoked...
}
void setup()
{
delay(10000);
Serial.begin(9600);
Serial.println(F("Starting"));
delay(10000);
os_init();
// Reset the MAC state. Session and pending data transfers will be discarded.
os_setCallback(&initjob, initfunc);
LMIC_reset();
}
void loop()
{
// start OTAA JOIN
if (joined==false)
{
os_runloop_once();
}
else
{
do_send(&sendjob); // Sent sensor values
while(sleeping == false)
{
os_runloop_once();
}
sleeping = false;
for (int i=0;i<sleepcycles;i++)
{
LowPower.powerDown(SLEEP_8S, ADC_OFF, BOD_OFF); //sleep 8 seconds
}
}
digitalWrite(LedPin,((millis()/100) % 2) && (joined==false)); // only blinking when joining and not sleeping
}