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RIOT/examples/lorawan/main.c
Marian Buschsieweke 4b6ad3b99f
examples/lorawan: drop crazy STM32 hack 
We cannot just decrement the reference counter of power modes without
any coordination. First, this will trigger an `assert()`ion on non
STM32 MCUs that have power modes that are not used (the ref count would
be decremented below zero). Second, there hopefully is a reason a
certain power mode is blocked, e.g. because a periph driver needs a
certain clock to function.

Likely the `periph_uart` driver on STM32 boards keeps power modes
blocked after TX is completed even when no RX callback is present, which
is the waste of power this hack tries to address. But that should be
addressed there.
2024-10-01 15:44:39 +02:00

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/*
* Copyright (C) 2018 Inria
*
* This file is subject to the terms and conditions of the GNU Lesser
* General Public License v2.1. See the file LICENSE in the top level
* directory for more details.
*/
/**
* @ingroup examples
* @{
*
* @file
* @brief Example demonstrating the use of LoRaWAN with RIOT
*
* @author Alexandre Abadie <alexandre.abadie@inria.fr>
*
* @}
*/
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <time.h>
#include "msg.h"
#include "thread.h"
#include "fmt.h"
#include "periph/pm.h"
#if IS_USED(MODULE_PERIPH_RTC)
#include "periph/rtc.h"
#else
#include "timex.h"
#include "ztimer.h"
#endif
#include "net/loramac.h"
#include "semtech_loramac.h"
/* By default, messages are sent every 20s to respect the duty cycle
on each channel */
#ifndef SEND_PERIOD_S
#define SEND_PERIOD_S (20U)
#endif
/* Low-power mode level */
#define PM_LOCK_LEVEL (1)
#define SENDER_PRIO (THREAD_PRIORITY_MAIN - 1)
static kernel_pid_t sender_pid;
static char sender_stack[THREAD_STACKSIZE_MAIN / 2];
extern semtech_loramac_t loramac;
#if !IS_USED(MODULE_PERIPH_RTC)
static ztimer_t timer;
#endif
static const char *message = "This is RIOT!";
#ifdef USE_OTAA
static uint8_t deveui[LORAMAC_DEVEUI_LEN];
static uint8_t appeui[LORAMAC_APPEUI_LEN];
static uint8_t appkey[LORAMAC_APPKEY_LEN];
#endif
#ifdef USE_ABP
static uint8_t devaddr[LORAMAC_DEVADDR_LEN];
static uint8_t nwkskey[LORAMAC_NWKSKEY_LEN];
static uint8_t appskey[LORAMAC_APPSKEY_LEN];
#endif
static void _alarm_cb(void *arg)
{
(void)arg;
msg_t msg;
msg_send(&msg, sender_pid);
}
static void _prepare_next_alarm(void)
{
#if IS_USED(MODULE_PERIPH_RTC)
struct tm time;
rtc_get_time(&time);
/* set initial alarm */
time.tm_sec += SEND_PERIOD_S;
mktime(&time);
rtc_set_alarm(&time, _alarm_cb, NULL);
#else
timer.callback = _alarm_cb;
ztimer_set(ZTIMER_MSEC, &timer, SEND_PERIOD_S * MS_PER_SEC);
#endif
}
static void _send_message(void)
{
printf("Sending: %s\n", message);
/* Try to send the message */
uint8_t ret = semtech_loramac_send(&loramac,
(uint8_t *)message, strlen(message));
if (ret != SEMTECH_LORAMAC_TX_DONE) {
printf("Cannot send message '%s', ret code: %d\n", message, ret);
return;
}
}
static void *sender(void *arg)
{
(void)arg;
msg_t msg;
msg_t msg_queue[8];
msg_init_queue(msg_queue, 8);
while (1) {
msg_receive(&msg);
/* Trigger the message send */
_send_message();
/* Schedule the next wake-up alarm */
_prepare_next_alarm();
}
/* this should never be reached */
return NULL;
}
int main(void)
{
puts("LoRaWAN Class A low-power application");
puts("=====================================");
#ifdef USE_OTAA /* OTAA activation mode */
/* Convert identifiers and keys strings to byte arrays */
fmt_hex_bytes(deveui, CONFIG_LORAMAC_DEV_EUI_DEFAULT);
fmt_hex_bytes(appeui, CONFIG_LORAMAC_APP_EUI_DEFAULT);
fmt_hex_bytes(appkey, CONFIG_LORAMAC_APP_KEY_DEFAULT);
semtech_loramac_set_deveui(&loramac, deveui);
semtech_loramac_set_appeui(&loramac, appeui);
semtech_loramac_set_appkey(&loramac, appkey);
/* Use a fast datarate, e.g. BW125/SF7 in EU868 */
semtech_loramac_set_dr(&loramac, LORAMAC_DR_5);
/* Join the network if not already joined */
if (!semtech_loramac_is_mac_joined(&loramac)) {
/* Start the Over-The-Air Activation (OTAA) procedure to retrieve the
* generated device address and to get the network and application session
* keys.
*/
puts("Starting join procedure");
if (semtech_loramac_join(&loramac, LORAMAC_JOIN_OTAA) != SEMTECH_LORAMAC_JOIN_SUCCEEDED) {
puts("Join procedure failed");
return 1;
}
#ifdef MODULE_PERIPH_EEPROM
/* Save current MAC state to EEPROM */
semtech_loramac_save_config(&loramac);
#endif
}
#endif
#ifdef USE_ABP /* ABP activation mode */
/* Convert identifiers and keys strings to byte arrays */
fmt_hex_bytes(devaddr, CONFIG_LORAMAC_DEV_ADDR_DEFAULT);
fmt_hex_bytes(nwkskey, CONFIG_LORAMAC_NWK_SKEY_DEFAULT);
fmt_hex_bytes(appskey, CONFIG_LORAMAC_APP_SKEY_DEFAULT);
semtech_loramac_set_devaddr(&loramac, devaddr);
semtech_loramac_set_nwkskey(&loramac, nwkskey);
semtech_loramac_set_appskey(&loramac, appskey);
/* Configure RX2 parameters */
semtech_loramac_set_rx2_freq(&loramac, CONFIG_LORAMAC_DEFAULT_RX2_FREQ);
semtech_loramac_set_rx2_dr(&loramac, CONFIG_LORAMAC_DEFAULT_RX2_DR);
#ifdef MODULE_PERIPH_EEPROM
/* Store ABP parameters to EEPROM */
semtech_loramac_save_config(&loramac);
#endif
/* Use a fast datarate, e.g. BW125/SF7 in EU868 */
semtech_loramac_set_dr(&loramac, LORAMAC_DR_5);
/* ABP join procedure always succeeds */
semtech_loramac_join(&loramac, LORAMAC_JOIN_ABP);
#endif
puts("Join procedure succeeded");
/* start the sender thread */
sender_pid = thread_create(sender_stack, sizeof(sender_stack),
SENDER_PRIO, 0, sender, NULL, "sender");
/* trigger the first send */
msg_t msg;
msg_send(&msg, sender_pid);
return 0;
}
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