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STM32duinoLoraWan new example going to sleep and sending packet
Modifying the basic.ino to add sleeping period After LoraWan is connected, it periodically goes to sleep and send a packet on device wakeUp Signed-off-by: Francois Ramu <[email protected]>
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| /** | ||
| * This is an example that demonstrates how to configure the | ||
| * library, join the network, send regular packets and print any | ||
| * downlink packets received when the lowpower mode is enabled. | ||
| * This example is using the RTC in MIX (binary and BCD) mode | ||
| * and the lowPower mode to set an Alarm (ALARM_A) before going to sleep | ||
| * When alarm Wakes up the system, it send a packet over the LoraWan | ||
| * | ||
| * Revised BSD License - https://spdx.org/licenses/BSD-3-Clause.html | ||
| */ | ||
| #include <STM32LoRaWAN.h> | ||
| #include <STM32LowPower.h> | ||
| #include <STM32RTC.h> | ||
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| STM32LoRaWAN modem; | ||
| extern STM32RTC rtc; | ||
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| char payload[27]; /* packet to be sent */ | ||
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| bool connected = false; /* LoraWan connection ready */ | ||
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| /* Change this value to set alarm match offset in millisecond */ | ||
| static uint32_t atime = 4000; | ||
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| // Declare it volatile since it's incremented inside an interrupt | ||
| volatile int alarmMatch_counter = 0; | ||
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| void setup() { | ||
| pinMode(LED_BUILTIN, OUTPUT); | ||
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| Serial.begin(115200); | ||
| Serial.println("Start"); | ||
| modem.begin(EU868); | ||
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| /* rtc is already init'd in MIX mode by the LoraWan */ | ||
| rtc.setTime(21, 51, 20); | ||
| rtc.setDate(2, 3, 4, 5); | ||
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| // Configure join method by (un)commenting the right method | ||
| // call, and fill in credentials in that method call. | ||
| connected = modem.joinOTAA(/* AppEui */ "0000000000000000", /* AppKey */ "00000000000000000000000000000000", /* DevEui */ "0000000000000000"); | ||
| //connected = modem.joinABP(/* DevAddr */ "00000000", /* NwkSKey */ "00000000000000000000000000000000", /* AppSKey */ "00000000000000000000000000000000"); | ||
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| if (connected) { | ||
| Serial.println("Joined"); | ||
| } else { | ||
| Serial.println("Join failed"); | ||
| while (true) /* infinite loop */; | ||
| } | ||
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| // Configure low power | ||
| LowPower.begin(); | ||
| LowPower.enableWakeupFrom(&rtc, alarmMatch, &atime); | ||
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| // Configure first alarm in 6 second then it will be done in the rtc callback | ||
| rtc.setAlarmEpoch(rtc.getEpoch() + 6); | ||
| } | ||
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| void loop() { | ||
| Serial.print("Alarm Match: "); | ||
| Serial.print(alarmMatch_counter); | ||
| Serial.println(" times."); | ||
| Serial.flush(); | ||
| digitalWrite(LED_BUILTIN, HIGH); | ||
| LowPower.deepSleep(); | ||
| digitalWrite(LED_BUILTIN, LOW); | ||
| LowPower.deepSleep(); | ||
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| /* Alarm has matched 2 times before reching this point */ | ||
| if (connected) { | ||
| send_packet(); | ||
| } else { | ||
| Serial.printf("Alarm at %02d:%02d:%02d\r\n", | ||
| rtc.getHours(), rtc.getMinutes(), rtc.getSeconds()); | ||
| } | ||
| } | ||
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| void send_packet() | ||
| { | ||
| /* prepare the Tx packet : get date and format string */ | ||
| sprintf((char *)payload, "%02d/%02d/%04d - %02d:%02d:%02d", | ||
| rtc.getMonth(), rtc.getDay(), 2000 + rtc.getYear(), | ||
| rtc.getHours(), rtc.getMinutes(), rtc.getSeconds()); | ||
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| modem.setPort(10); | ||
| modem.beginPacket(); | ||
| modem.write(payload, sizeof(payload)); | ||
| if (modem.endPacket() == sizeof(payload)) { | ||
| Serial.println("Sent packet"); | ||
| } else { | ||
| Serial.println("Failed to send packet"); | ||
| } | ||
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| if (modem.available()) { | ||
| Serial.print("Received packet on port "); | ||
| Serial.print(modem.getDownlinkPort()); | ||
| Serial.print(":"); | ||
| while (modem.available()) { | ||
| uint8_t b = modem.read(); | ||
| Serial.print(" "); | ||
| Serial.print(b >> 4, HEX); | ||
| Serial.print(b & 0xF, HEX); | ||
| } | ||
| Serial.println(); | ||
| } | ||
| } | ||
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| void alarmMatch(void* data) | ||
| { | ||
| // This function will be called once on device wakeup | ||
| // You can do some little operations here (like changing variables which will be used in the loop) | ||
| // Remember to avoid calling delay() and long running functions since this functions executes in interrupt context | ||
| uint32_t epoc; | ||
| uint32_t epoc_ms; | ||
| uint32_t sec = 0; | ||
| uint32_t _millis = 1000; | ||
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| if (data != NULL) { | ||
| _millis = *(uint32_t*)data; | ||
| } | ||
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| sec = _millis / 1000; | ||
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| _millis = _millis % 1000; | ||
| epoc = rtc.getEpoch(&epoc_ms); | ||
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| //Update epoch_ms - might need to add a second to epoch | ||
| epoc_ms += _millis; | ||
| if (epoc_ms >= 1000) { | ||
| sec ++; | ||
| epoc_ms -= 1000; | ||
| } | ||
| alarmMatch_counter++; | ||
| // set the alarm again | ||
| rtc.setAlarmEpoch(epoc + sec, STM32RTC::MATCH_SS, epoc_ms); | ||
| } |