博客围绕 LoRa 无线电驱动程序展开,介绍了 LoRaRadio 这一纯虚类,它定义了 LoRa 无线电驱动程序的 API,其实现会传递给 Arm Mbed LoRaWAN 栈,还提及了类参考、示例及 LoRa 架构等相关内容。
LoRa 无线电驱动程序
LoRaRadio 是一个纯虚类,它定义了 LoRa 无线电驱动程序的 API。
该类的实现被传递给 Arm Mbed LoRaWAN 栈。有关更多信息,请参阅现有的 Mbed OS 支持的驱动程序。
LoRaRadio 类参考
| 公共成员函数 | |
| virtual void | init_radio (radio_events_t *events)=0 |
| virtual void | radio_reset ()=0 |
| virtual void | sleep (void)=0 |
| virtual void | standby (void)=0 |
| virtual void | set_rx_config (radio_modems_t modem, uint32_t bandwidth, uint32_t datarate, uint8_t coderate, uint32_t bandwidth_afc, uint16_t preamble_len, uint16_t symb_timeout, bool fix_len, uint8_t payload_len, bool crc_on, bool freq_hop_on, uint8_t hop_period, bool iq_inverted, bool rx_continuous)=0 |
| virtual void | set_tx_config (radio_modems_t modem, int8_t power, uint32_t fdev, uint32_t bandwidth, uint32_t datarate, uint8_t coderate, uint16_t preamble_len, bool fix_len, bool crc_on, bool freq_hop_on, uint8_t hop_period, bool iq_inverted, uint32_t timeout)=0 |
| virtual void | send (uint8_t *buffer, uint8_t size)=0 |
| virtual void | receive (void)=0 |
| virtual void | set_channel (uint32_t freq)=0 |
| virtual uint32_t | random (void)=0 |
| virtual uint8_t | get_status (void)=0 |
| virtual void | set_max_payload_length (radio_modems_t modem, uint8_t max)=0 |
| virtual void | set_public_network (bool enable)=0 |
| virtual uint32_t | time_on_air (radio_modems_t modem, uint8_t pkt_len)=0 |
| virtual bool | perform_carrier_sense (radio_modems_t modem, uint32_t freq, int16_t rssi_threshold, uint32_t max_carrier_sense_time)=0 |
| virtual void | start_cad (void)=0 |
| virtual bool | check_rf_frequency (uint32_t frequency)=0 |
| virtual void | set_tx_continuous_wave (uint32_t freq, int8_t power, uint16_t time)=0 |
| virtual void | lock (void)=0 |
| virtual void | unlock (void)=0 |
LoRaRadio 示例
/**
* Copyright (c) 2017, Arm Limited and affiliates.
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <stdio.h>
#include "lorawan/LoRaWANInterface.h"
#include "lorawan/system/lorawan_data_structures.h"
#include "events/EventQueue.h"
// Application helpers
#include "DummySensor.h"
#include "trace_helper.h"
#include "lora_radio_helper.h"
using namespace events;
uint8_t tx_buffer[LORAMAC_PHY_MAXPAYLOAD];
uint8_t rx_buffer[LORAMAC_PHY_MAXPAYLOAD];
/*
* Sets up an application dependent transmission timer in ms. Used only when Duty Cycling is off for testing
*/
#define TX_TIMER 10000
/**
* Maximum number of events for the event queue.
* 16 is the safe number for the stack events, however, if application
* also uses the queue for whatever purposes, this number should be increased.
*/
#define MAX_NUMBER_OF_EVENTS 16
/**
* Maximum number of retries for CONFIRMED messages before giving up
*/
#define CONFIRMED_MSG_RETRY_COUNTER 3
/**
* Dummy pin for dummy sensor
*/
#define PC_9 0
/**
* Dummy sensor class object
*/
DS1820 ds1820(PC_9);
/**
* This event queue is the global event queue for both the
* application and stack. To conserve memory, the stack is designed to run
* in the same thread as the application and the application is responsible for
* providing an event queue to the stack that will be used for ISR deferment as
* well as application information event queuing.
*/
static EventQueue ev_queue(MAX_NUMBER_OF_EVENTS * EVENTS_EVENT_SIZE);
/**
* Event handler.
*
* This will be passed to the LoRaWAN stack to queue events for the
* application which in turn drive the application.
*/
static void lora_event_handler(lorawan_event_t event);
/**
* Constructing Mbed LoRaWANInterface and passing it down the radio object.
*/
static LoRaWANInterface lorawan(radio);
/**
* Application specific callbacks
*/
static lorawan_app_callbacks_t callbacks;
/**
* Entry point for application
*/
int main (void)
{
// setup tracing
setup_trace();
// stores the status of a call to LoRaWAN protocol
lorawan_status_t retcode;
// Initialize LoRaWAN stack
if (lorawan.initialize(&ev_queue) != LORAWAN_STATUS_OK) {
printf("\r\n LoRa initialization failed! \r\n");
return -1;
}
printf("\r\n Mbed LoRaWANStack initialized \r\n");
// prepare application callbacks
callbacks.events = mbed::callback(lora_event_handler);
lorawan.add_app_callbacks(&callbacks);
// Set number of retries in case of CONFIRMED messages
if (lorawan.set_confirmed_msg_retries(CONFIRMED_MSG_RETRY_COUNTER)
!= LORAWAN_STATUS_OK) {
printf("\r\n set_confirmed_msg_retries failed! \r\n\r\n");
return -1;
}
printf("\r\n CONFIRMED message retries : %d \r\n",
CONFIRMED_MSG_RETRY_COUNTER);
// Enable adaptive data rate
if (lorawan.enable_adaptive_datarate() != LORAWAN_STATUS_OK) {
printf("\r\n enable_adaptive_datarate failed! \r\n");
return -1;
}
printf("\r\n Adaptive data rate (ADR) - Enabled \r\n");
retcode = lorawan.connect();
if (retcode == LORAWAN_STATUS_OK ||
retcode == LORAWAN_STATUS_CONNECT_IN_PROGRESS) {
} else {
printf("\r\n Connection error, code = %d \r\n", retcode);
return -1;
}
printf("\r\n Connection - In Progress ...\r\n");
// make your event queue dispatching events forever
ev_queue.dispatch_forever();
}
/**
* Sends a message to the Network Server
*/
static void send_message()
{
uint16_t packet_len;
int16_t retcode;
float sensor_value;
if (ds1820.begin()) {
ds1820.startConversion();
sensor_value = ds1820.read();
printf("\r\n Dummy Sensor Value = %3.1f \r\n", sensor_value);
ds1820.startConversion();
} else {
printf("\r\n No sensor found \r\n");
return;
}
packet_len = sprintf((char*) tx_buffer, "Dummy Sensor Value is %3.1f",
sensor_value);
retcode = lorawan.send(MBED_CONF_LORA_APP_PORT, tx_buffer, packet_len,
MSG_CONFIRMED_FLAG);
if (retcode < 0) {
retcode == LORAWAN_STATUS_WOULD_BLOCK ? printf("send - WOULD BLOCK\r\n")
: printf("\r\n send() - Error code %d \r\n", retcode);
return;
}
printf("\r\n %d bytes scheduled for transmission \r\n", retcode);
memset(tx_buffer, 0, LORAMAC_PHY_MAXPAYLOAD);
}
/**
* Receive a message from the Network Server
*/
static void receive_message()
{
int16_t retcode;
retcode = lorawan.receive(MBED_CONF_LORA_APP_PORT, rx_buffer,
LORAMAC_PHY_MAXPAYLOAD,
MSG_CONFIRMED_FLAG|MSG_UNCONFIRMED_FLAG);
if (retcode < 0) {
printf("\r\n receive() - Error code %d \r\n", retcode);
return;
}
printf(" Data:");
for (uint8_t i = 0; i < retcode; i++) {
printf("%x", rx_buffer[i]);
}
printf("\r\n Data Length: %d\r\n", retcode);
memset(rx_buffer, 0, LORAMAC_PHY_MAXPAYLOAD);
}
/**
* Event handler
*/
static void lora_event_handler(lorawan_event_t event)
{
switch (event) {
case CONNECTED:
printf("\r\n Connection - Successful \r\n");
if (MBED_CONF_LORA_DUTY_CYCLE_ON) {
send_message();
} else {
ev_queue.call_every(TX_TIMER, send_message);
}
break;
case DISCONNECTED:
ev_queue.break_dispatch();
printf("\r\n Disconnected Successfully \r\n");
break;
case TX_DONE:
printf("\r\n Message Sent to Network Server \r\n");
if (MBED_CONF_LORA_DUTY_CYCLE_ON) {
send_message();
}
break;
case TX_TIMEOUT:
case TX_ERROR:
case TX_CRYPTO_ERROR:
case TX_SCHEDULING_ERROR:
printf("\r\n Transmission Error - EventCode = %d \r\n", event);
// try again
if (MBED_CONF_LORA_DUTY_CYCLE_ON) {
send_message();
}
break;
case RX_DONE:
printf("\r\n Received message from Network Server \r\n");
receive_message();
break;
case RX_TIMEOUT:
case RX_ERROR:
printf("\r\n Error in reception - Code = %d \r\n", event);
break;
case JOIN_FAILURE:
printf("\r\n OTAA Failed - Check Keys \r\n");
break;
default:
MBED_ASSERT("Unknown Event");
}
}
// EOF
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