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examples/class_a_otaa_esp_deepsleep/class_a_otaa_esp_deepsleep.ino
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/** | ||
* Example of OTAA device with ESP8266 or ESP32 using deep sleep wihtout losing LoRaWAN settings. | ||
* A minimum number of pin is also used in this example. For slighly faster processing, | ||
* DIO0 and DIO1 should be used. | ||
*/ | ||
#include <Arduino.h> | ||
#include <lorawan.h> | ||
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// OTAA credentials | ||
const char *devEui = "0000000000000000"; | ||
const char *appEui = "0000000000000000"; | ||
const char *appKey = "00000000000000000000000000000000"; | ||
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unsigned int counter = 0; // message counter | ||
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char myStr[50]; | ||
char outStr[255]; | ||
byte recvStatus = 0; | ||
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const sRFM_pins RFM_pins = { | ||
.CS = 15, | ||
.RST = 2, //Could be connected to the reset ESP pin of ESP8266, if so put -1 | ||
.DIO0 = 0, | ||
.DIO1 = 4, | ||
.DIO2 = -1, | ||
.DIO5 = -1, | ||
}; | ||
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struct RTCRAM | ||
{ | ||
unsigned char DevEUI[8]; | ||
unsigned char AppEUI[8]; | ||
unsigned char AppKey[16]; | ||
unsigned char DevNonce[2]; | ||
unsigned char AppNonce[3]; | ||
unsigned char NetID[3]; | ||
unsigned char Address_Tx[4]; | ||
unsigned char NwkSKey[16]; | ||
unsigned char AppSKey[16]; | ||
unsigned int Frame_Counter_Tx; | ||
sSettings LoRa_Settings; | ||
unsigned int counter; | ||
}; | ||
#if defined(ESP32) | ||
RTC_DATA_ATTR RTCRAM rtcRAM; | ||
#else | ||
RTCRAM rtcRAM; | ||
#endif | ||
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void deepsleep(uint64_t us) | ||
{ | ||
Serial.println("We go to deep sleep"); | ||
delay(10); | ||
lora.sleep(); | ||
#if defined(ESP8266) | ||
ESP.deepSleep(us, WAKE_RF_DISABLED); | ||
#elif defined(ESP32) | ||
esp_sleep_enable_timer_wakeup(us); | ||
esp_deep_sleep_start(); | ||
#else | ||
Serial.print("Deep sleep not supported by this example"); | ||
#endif | ||
} | ||
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void saveVariableRTC() | ||
{ | ||
memcpy(rtcRAM.DevEUI, lora.DevEUI, sizeof(rtcRAM.DevEUI)); | ||
memcpy(rtcRAM.AppEUI, lora.AppEUI, sizeof(rtcRAM.AppEUI)); | ||
memcpy(rtcRAM.AppKey, lora.AppKey, sizeof(rtcRAM.AppKey)); | ||
memcpy(rtcRAM.DevNonce, lora.DevNonce, sizeof(rtcRAM.DevNonce)); | ||
memcpy(rtcRAM.AppNonce, lora.AppNonce, sizeof(rtcRAM.AppNonce)); | ||
memcpy(rtcRAM.NetID, lora.NetID, sizeof(rtcRAM.NetID)); | ||
memcpy(rtcRAM.Address_Tx, lora.Address_Tx, sizeof(rtcRAM.Address_Tx)); | ||
memcpy(rtcRAM.NwkSKey, lora.NwkSKey, sizeof(rtcRAM.NwkSKey)); | ||
memcpy(rtcRAM.AppSKey, lora.AppSKey, sizeof(rtcRAM.AppSKey)); | ||
memcpy(&rtcRAM.Frame_Counter_Tx, &lora.Frame_Counter_Tx, sizeof(rtcRAM.Frame_Counter_Tx)); | ||
memcpy(&rtcRAM.LoRa_Settings, &lora.LoRa_Settings, sizeof(rtcRAM.LoRa_Settings)); | ||
memcpy(&rtcRAM.counter, &counter, sizeof(rtcRAM.counter)); | ||
#if defined(ESP8266) | ||
ESP.rtcUserMemoryWrite(32, (uint32_t *)&rtcRAM, sizeof(rtcRAM)); | ||
#endif | ||
} | ||
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void loadVariableRTC() | ||
{ | ||
#if defined(ESP8266) | ||
ESP.rtcUserMemoryRead(32, (uint32_t *)&rtcRAM, sizeof(rtcRAM)); | ||
#endif | ||
memcpy(lora.DevEUI, rtcRAM.DevEUI, sizeof(rtcRAM.DevEUI)); | ||
memcpy(lora.AppEUI, rtcRAM.AppEUI, sizeof(rtcRAM.AppEUI)); | ||
memcpy(lora.AppKey, rtcRAM.AppKey, sizeof(rtcRAM.AppKey)); | ||
memcpy(lora.DevNonce, rtcRAM.DevNonce, sizeof(rtcRAM.DevNonce)); | ||
memcpy(lora.AppNonce, rtcRAM.AppNonce, sizeof(rtcRAM.AppNonce)); | ||
memcpy(lora.NetID, rtcRAM.NetID, sizeof(rtcRAM.NetID)); | ||
memcpy(lora.Address_Tx, rtcRAM.Address_Tx, sizeof(rtcRAM.Address_Tx)); | ||
memcpy(lora.NwkSKey, rtcRAM.NwkSKey, sizeof(rtcRAM.NwkSKey)); | ||
memcpy(lora.AppSKey, rtcRAM.AppSKey, sizeof(rtcRAM.AppSKey)); | ||
memcpy(&lora.Frame_Counter_Tx, &rtcRAM.Frame_Counter_Tx, sizeof(rtcRAM.Frame_Counter_Tx)); | ||
memcpy(&lora.LoRa_Settings, &rtcRAM.LoRa_Settings, sizeof(rtcRAM.LoRa_Settings)); | ||
memcpy(&counter, &rtcRAM.counter, sizeof(rtcRAM.counter)); | ||
} | ||
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#if defined(ESP8266) | ||
uint32_t magicBytes; // if previous data save on rtc, this equal 'magi' (183510009) | ||
void loadMagicByte() | ||
{ | ||
ESP.rtcUserMemoryRead(127, &magicBytes, sizeof(magicBytes)); | ||
} | ||
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void saveMagicByte() | ||
{ | ||
magicBytes = 183510009; | ||
ESP.rtcUserMemoryWrite(127, &magicBytes, 4); | ||
} | ||
#endif | ||
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void setup() | ||
{ | ||
// Setup loraid access | ||
Serial.begin(9600); | ||
while (!Serial) | ||
; | ||
if (!lora.init()) | ||
{ | ||
Serial.println("RFM95 not detected"); | ||
delay(5000); | ||
deepsleep(10000000); | ||
} | ||
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// Join procedure | ||
bool isJoined = true; | ||
#if defined(ESP8266) | ||
loadMagicByte(); | ||
if (magicBytes != 183510009) | ||
#else | ||
if (rtcRAM.counter == 0) | ||
#endif | ||
{ | ||
Serial.println("Cold boot Join procedure needs to be performed"); | ||
isJoined = false; | ||
} | ||
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if (!isJoined) | ||
{ | ||
// Set LoRaWAN Class change CLASS_A or CLASS_C | ||
lora.setDeviceClass(CLASS_A); | ||
// Set Data Rate | ||
lora.setDataRate(SF9BW125); | ||
// set channel to random | ||
lora.setChannel(MULTI); | ||
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// Put OTAA Key and DevAddress here | ||
lora.setDevEUI(devEui); | ||
lora.setAppEUI(appEui); | ||
lora.setAppKey(appKey); | ||
while (!isJoined) | ||
{ | ||
Serial.println("Joining..."); | ||
isJoined = lora.join(); | ||
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// wait for 10s to try again if not join | ||
if (!isJoined) | ||
delay(10000); | ||
} | ||
Serial.println("Joined to network!\nWe now save LoRaWAN information"); | ||
delay(100); // Necessary for ESP32 in order to properly save data on RTC ram | ||
saveVariableRTC(); | ||
#if defined(ESP8266) | ||
saveMagicByte(); | ||
#endif | ||
} | ||
else | ||
{ | ||
Serial.println("Previously joined network, we applied the save parameters"); | ||
loadVariableRTC(); | ||
} | ||
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// Send a upling | ||
sprintf(myStr, "Counter-%d", counter); | ||
Serial.print("Sending: "); | ||
Serial.println(myStr); | ||
lora.sendUplink(myStr, strlen(myStr), 0, 1); | ||
counter++; | ||
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// cycle over send and receive data with LoRa update | ||
lora.update(); | ||
recvStatus = lora.readData(outStr); | ||
if (recvStatus) | ||
{ | ||
Serial.println(outStr); | ||
} | ||
delay(100); // Necessary for ESP32 in order to properly save data on RTC ram | ||
// Save pertinent information on RTC ram | ||
saveVariableRTC(); | ||
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// Deep sleep for 10 s | ||
deepsleep(10000000); | ||
} | ||
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void loop() | ||
{ | ||
// We never get here | ||
Serial.print("Oups, you use this example without an ESP device"); | ||
delay(10000); | ||
} |
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