ardupilot/libraries/AP_WindVane/Tools/Bluetooth NMEA receiver/Bluetooth NMEA receiver.ino

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#include <bluefruit.h>
// This code uses the bluefruit libary52 from Adafruit
// Documentation here: https://learn.adafruit.com/bluefruit-nrf52-feather-learning-guide/bluefruit-nrf52-api
// Should work with any nrf52 Bluetooth Arduino, tested with Seeed XIAO nRF52840 Sense
// Wind vane address, found with mobile app
#define WIND_VANE_ADDRESS 0xDDB7BEB45638
// Define services and charicteristics to moniter
BLEClientService env_sense(0x181A); // Environmental Sensing
BLEClientCharacteristic wind_speed(0x2A72); // Apparent Wind Speed
BLEClientCharacteristic wind_dir(0x2A73); // Apparent Wind Direcetion
BLEClientService bat_sense(0x180F); // Battery Sensing
BLEClientCharacteristic bat_level(0x2A19); // Battery level
ble_gap_addr_t addr;
float speed;
float direction;
uint8_t battery_level;
bool speed_new;
bool direction_new;
bool battery_new;
uint32_t last_connect_attempt;
#define RECONNECT_TIME_MS 1000
#define NMEA_BAUD 57600
#define LOW_BAT_BLINK_MS 200
void setup()
{
// Disconected
digitalWrite(LED_RED, LOW);
uint64_t address = WIND_VANE_ADDRESS;
memcpy(addr.addr, &address, BLE_GAP_ADDR_LEN);
addr.addr_type = BLE_GAP_ADDR_TYPE_RANDOM_STATIC;
// Extra info and debugging on USB, NMEA on serial 1
Serial.begin(115200);
Serial1.begin(NMEA_BAUD);
Serial.println("ArduPilot Bluetooth windvane to NMEA translator");
Bluefruit.begin(0, 1);
Bluefruit.setName("ArduPilot Bluetooth");
// Initialize services client
env_sense.begin();
bat_sense.begin();
// Set notify callbacks
wind_speed.setNotifyCallback(speed_notify_callback);
wind_dir.setNotifyCallback(direction_notify_callback);
bat_level.setNotifyCallback(bat_notify_callback);
// Initalize Caricterstics
wind_speed.begin(&env_sense);
wind_dir.begin(&env_sense);
bat_level.begin(&bat_sense);
// Turn of LEDs, we do our own
Bluefruit.autoConnLed(false);
// Callbacks for Central
Bluefruit.Central.setDisconnectCallback(disconnect_callback);
Bluefruit.Central.setConnectCallback(connect_callback);
// Connect to known address
Bluefruit.Central.connect(&addr);
last_connect_attempt = millis();
}
bool low_battery;
uint32_t last_low_battery_blink;
char NMEA_buffer[50];
void loop()
{
if (!Bluefruit.connected(0)) {
// Disconected
digitalWrite(LED_RED, LOW);
digitalWrite(LED_GREEN, HIGH);
const uint32_t now = millis();
if (now - last_connect_attempt > RECONNECT_TIME_MS) {
// try and re-connect
Bluefruit.Central.connect(&addr);
last_connect_attempt = now;
}
return;
}
// Connected, show green LED
digitalWrite(LED_GREEN, LOW);
// flash red LED for low battery
if (low_battery) {
const uint32_t now = millis();
if (now - last_low_battery_blink > LOW_BAT_BLINK_MS) {
digitalWrite(LED_RED, !digitalRead(LED_RED));
last_low_battery_blink = now;
}
} else {
digitalWrite(LED_RED, HIGH);
}
if (speed_new && direction_new) {
speed_new = false;
direction_new = false;
Serial.printf("Wind Speed: %0.2f (m/s), Direction: %0.2f (deg), Battery: %u%%\n", speed, direction, battery_level);
sprintf(NMEA_buffer, "APMWV,%0.2f,R,%0.2f,M,A", direction, speed);
Serial1.printf("$%s*%02X\n",NMEA_buffer, NMEA_checksum(NMEA_buffer));
}
if (battery_new) {
battery_new = false;
sprintf(NMEA_buffer, "APXDR,G,%u,%%,BT", battery_level);
Serial1.printf("$%s*%02X\n",NMEA_buffer, NMEA_checksum(NMEA_buffer));
if (battery_level < 25) {
// Windvane enters low power mode at less than 20% battery
low_battery = true;
} else if (battery_level > 30) {
low_battery = false;
}
}
}
uint8_t NMEA_checksum(const char* NMEA_string)
{
uint8_t checksum = 0;
for (uint8_t i = 0; i < strlen(NMEA_string); i++) {
checksum ^= NMEA_string[i];
}
return checksum;
}
void connect_callback(uint16_t conn_handle)
{
Serial.println("Connected");
Serial.print("Discovering Environmental characteristics ... ");
if (!env_sense.discover(conn_handle) || !wind_speed.discover() || !wind_dir.discover()) {
Serial.println("Failed");
Bluefruit.disconnect(conn_handle);
return;
}
Serial.println("Found");
Serial.print("Discovering Battery characteristics ... ");
if (!bat_sense.discover(conn_handle) || !bat_level.discover()) {
Serial.println("failed");
Bluefruit.disconnect(conn_handle);
return;
}
Serial.println("Found");
if (wind_speed.enableNotify() && wind_dir.enableNotify() && bat_level.enableNotify()) {
Serial.println("Ready to receive");
} else {
Serial.println("Couldn't enable notify. Increase DEBUG LEVEL for troubleshooting");
}
}
void disconnect_callback(uint16_t conn_handle, uint8_t reason)
{
(void) conn_handle;
speed_new = false;
direction_new = false;
battery_new = false;
Serial.print("Disconnected, reason = 0x"); Serial.println(reason, HEX);
}
void speed_notify_callback(BLEClientCharacteristic* chr, uint8_t* data, uint16_t len)
{
if (len == 2) {
uint16_t value;
memcpy(&value, data, 2);
speed = value * 0.01;
speed_new = true;
}
}
void direction_notify_callback(BLEClientCharacteristic* chr, uint8_t* data, uint16_t len)
{
if (len == 2) {
uint16_t value;
memcpy(&value, data, 2);
direction = value * 0.01;
direction_new = true;
}
}
void bat_notify_callback(BLEClientCharacteristic* chr, uint8_t* data, uint16_t len)
{
if (len == 1) {
battery_level = data[0];
battery_new = true;
}
}