mirror of https://github.com/ArduPilot/ardupilot
339 lines
13 KiB
C++
339 lines
13 KiB
C++
/*
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* AP_Beacon_Marvelmind.cpp
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*
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* Created on: 21.03.2017
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*/
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#include <AP_HAL/AP_HAL.h>
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#include "AP_Beacon_Marvelmind.h"
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extern const AP_HAL::HAL& hal;
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AP_Beacon_Marvelmind::AP_Beacon_Marvelmind(AP_Beacon &frontend, AP_SerialManager &serial_manager) :
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AP_Beacon_Backend(frontend)
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{
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uart = serial_manager.find_serial(AP_SerialManager::SerialProtocol_Beacon, 0);
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if (uart != nullptr) {
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uart->begin(serial_manager.find_baudrate(AP_SerialManager::SerialProtocol_Beacon, 0));
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hedge = new MarvelmindHedge();
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if (hedge) {
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create_marvelmind_hedge();
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parse_state = RECV_HDR; // current state of receive data
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num_bytes_in_block_received = 0; // bytes received
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data_id = 0;
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start_marvelmind_hedge();
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} else {
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// initialising beacon failed
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}
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}
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}
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bool AP_Beacon_Marvelmind::get_or_alloc_beacon(struct StationaryBeaconPosition &b, uint8_t address)
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{
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const uint8_t n_used = hedge->positions_beacons.num_beacons;
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if (n_used != 0) {
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for (uint8_t i = 0; i < n_used; i++) {
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if (hedge->positions_beacons.beacons[i].address == address) {
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b = hedge->positions_beacons.beacons[i];
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return true;
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}
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}
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}
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if (n_used >= (AP_BEACON_MARVELMIND_MAX_STATIONARY_BEACONS - 1)) {
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return false;
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}
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hedge->positions_beacons.num_beacons = (n_used + 1);
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b = hedge->positions_beacons.beacons[n_used];
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return true;
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}
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void AP_Beacon_Marvelmind::process_beacons_positions_datagram(struct StationaryBeaconPosition &b)
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{
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const uint8_t n = input_buffer[5]; // number of beacons in packet
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if ((1 + n * 8) != input_buffer[4]) {
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return; // incorrect size
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}
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for (uint8_t i = 0; i < n; i++) {
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const uint8_t ofs = 6 + i * 8;
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const uint8_t address = input_buffer[ofs];
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const int16_t x = input_buffer[ofs + 1]
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| (((uint16_t) input_buffer[ofs + 2]) << 8);
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const int16_t y = input_buffer[ofs + 3]
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| (((uint16_t) input_buffer[ofs + 4]) << 8);
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const int16_t z = input_buffer[ofs + 5]
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| (((uint16_t) input_buffer[ofs + 6]) << 8);
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if (get_or_alloc_beacon(b, address)) {
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b.address = address;
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b.x = x * 10; // millimeters
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b.y = y * 10; // millimeters
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b.z = z * 10; // millimeters
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b.high_resolution = false;
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hedge->positions_beacons.updated = true;
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}
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}
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}
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void AP_Beacon_Marvelmind::process_beacons_positions_highres_datagram(struct StationaryBeaconPosition &b)
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{
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const uint8_t n = input_buffer[5]; // number of beacons in packet
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if ((1 + n * 14) != input_buffer[4]) {
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return; // incorrect size
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}
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for (uint8_t i = 0; i < n; i++) {
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const uint8_t ofs = 6 + i * 14;
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const uint8_t address = input_buffer[ofs];
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const int32_t x = input_buffer[ofs + 1]
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| (((uint32_t) input_buffer[ofs + 2]) << 8)
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| (((uint32_t) input_buffer[ofs + 3]) << 16)
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| (((uint32_t) input_buffer[ofs + 4]) << 24);
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const int32_t y = input_buffer[ofs + 5]
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| (((uint32_t) input_buffer[ofs + 6]) << 8)
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| (((uint32_t) input_buffer[ofs + 7]) << 16)
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| (((uint32_t) input_buffer[ofs + 8]) << 24);
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const int32_t z = input_buffer[ofs + 9]
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| (((uint32_t) input_buffer[ofs + 10]) << 8)
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| (((uint32_t) input_buffer[ofs + 11]) << 16)
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| (((uint32_t) input_buffer[ofs + 12]) << 24);
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if (get_or_alloc_beacon(b, address)) {
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b.address = address;
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b.x = x;
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b.y = y;
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b.z = z;
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b.high_resolution = true;
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hedge->positions_beacons.updated = true;
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}
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}
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}
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uint8_t AP_Beacon_Marvelmind::mark_position_ready()
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{
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uint8_t ind = hedge->_last_values_next;
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const uint8_t ind_cur = ind;
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hedge->position_buffer[ind].ready = true;
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hedge->position_buffer[ind].processed = false;
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ind++;
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if (ind >= hedge->max_buffered_positions) {
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ind = 0;
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}
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if (hedge->_last_values_count < hedge->max_buffered_positions) {
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hedge->_last_values_count++;
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}
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hedge->_have_new_values = true;
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hedge->_last_values_next = ind;
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return ind_cur;
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}
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void AP_Beacon_Marvelmind::process_position_datagram(struct PositionValue &p)
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{
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uint8_t ind = hedge->_last_values_next;
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hedge->position_buffer[ind].address = input_buffer[16];
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hedge->position_buffer[ind].timestamp = input_buffer[5]
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| (((uint32_t) input_buffer[6]) << 8)
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| (((uint32_t) input_buffer[7]) << 16)
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| (((uint32_t) input_buffer[8]) << 24);
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const int16_t vx = input_buffer[9] | (((uint16_t) input_buffer[10]) << 8);
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hedge->position_buffer[ind].x = vx * 10; // millimeters
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const int16_t vy = input_buffer[11] | (((uint16_t) input_buffer[12]) << 8);
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hedge->position_buffer[ind].y = vy * 10; // millimeters
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const int16_t vz = input_buffer[13] | (((uint16_t) input_buffer[14]) << 8);
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hedge->position_buffer[ind].z = vz * 10; // millimeters
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hedge->position_buffer[ind].high_resolution = false;
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ind = mark_position_ready();
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p = hedge->position_buffer[ind];
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}
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void AP_Beacon_Marvelmind::process_position_highres_datagram(struct PositionValue &p)
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{
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uint8_t ind = hedge->_last_values_next;
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hedge->position_buffer[ind].address = input_buffer[22];
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hedge->position_buffer[ind].timestamp = input_buffer[5]
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| (((uint32_t) input_buffer[6]) << 8)
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| (((uint32_t) input_buffer[7]) << 16)
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| (((uint32_t) input_buffer[8]) << 24);
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const int32_t vx = input_buffer[9] | (((uint32_t) input_buffer[10]) << 8)
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| (((uint32_t) input_buffer[11]) << 16)
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| (((uint32_t) input_buffer[12]) << 24);
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hedge->position_buffer[ind].x = vx;
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const int32_t vy = input_buffer[13] | (((uint32_t) input_buffer[14]) << 8)
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| (((uint32_t) input_buffer[15]) << 16)
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| (((uint32_t) input_buffer[16]) << 24);
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hedge->position_buffer[ind].y = vy;
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const int32_t vz = input_buffer[17] | (((uint32_t) input_buffer[18]) << 8)
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| (((uint32_t) input_buffer[19]) << 16)
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| (((uint32_t) input_buffer[20]) << 24);
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hedge->position_buffer[ind].z = vz;
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hedge->position_buffer[ind].high_resolution = true;
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ind = mark_position_ready();
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p = hedge->position_buffer[ind];
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}
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uint16_t AP_Beacon_Marvelmind::calc_crc_modbus(uint8_t *buf, uint16_t len)
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{
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uint16_t crc = 0xFFFF;
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for (uint16_t pos = 0; pos < len; pos++) {
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crc ^= (uint16_t) buf[pos]; // XOR byte into least sig. byte of crc
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for (uint8_t i = 8; i != 0; i--) { // Loop over each bit
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if ((crc & 0x0001) != 0) { // If the LSB is set
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crc >>= 1; // Shift right and XOR 0xA001
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crc ^= 0xA001;
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} else {
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// Else LSB is not set
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crc >>= 1; // Just shift right
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}
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}
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}
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return crc;
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}
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void AP_Beacon_Marvelmind::create_marvelmind_hedge()
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{
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hedge->max_buffered_positions = 3;
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hedge->position_buffer = nullptr;
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hedge->verbose = false;
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hedge->receive_data_callback = nullptr;
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hedge->_last_values_count = 0;
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hedge->_last_values_next = 0;
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hedge->_have_new_values = false;
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hedge->terminationRequired = false;
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}
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bool AP_Beacon_Marvelmind::healthy()
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{
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// healthy if we have parsed a message within the past 300ms
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return ((AP_HAL::millis() - last_update_ms) < AP_BEACON_TIMEOUT_MS);
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}
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void AP_Beacon_Marvelmind::start_marvelmind_hedge()
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{
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hedge->position_buffer = (PositionValue*) malloc(sizeof(struct PositionValue) * hedge->max_buffered_positions);
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if (hedge->position_buffer == nullptr) {
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if (hedge->verbose) {
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hal.console->printf("MarvelMind: Not enough memory");
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}
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hedge->terminationRequired = true;
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return;
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}
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for (uint8_t i = 0; i < hedge->max_buffered_positions; i++) {
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hedge->position_buffer[i].ready = false;
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hedge->position_buffer[i].processed = false;
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}
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hedge->positions_beacons.num_beacons = 0;
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hedge->positions_beacons.updated = false;
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}
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void AP_Beacon_Marvelmind::update(void)
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{
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if (uart == nullptr) {
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return;
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}
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// read any available characters
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int32_t num_bytes_read = uart->available();
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uint8_t received_char = 0;
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if (num_bytes_read < 0) {
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return;
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}
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while (num_bytes_read-- > 0) {
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bool good_byte = false;
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received_char = uart->read();
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input_buffer[num_bytes_in_block_received] = received_char;
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switch (parse_state) {
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case RECV_HDR:
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switch (num_bytes_in_block_received) {
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case 0:
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good_byte = (received_char == 0xff);
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break;
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case 1:
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good_byte = (received_char == 0x47);
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break;
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case 2:
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good_byte = true;
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break;
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case 3:
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data_id = (((uint16_t)received_char) << 8) + input_buffer[2];
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good_byte = (data_id == AP_BEACON_MARVELMIND_POSITION_DATAGRAM_ID)
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|| (data_id == AP_BEACON_MARVELMIND_POSITIONS_DATAGRAM_ID)
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|| (data_id == AP_BEACON_MARVELMIND_POSITION_DATAGRAM_HIGHRES_ID)
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|| (data_id == AP_BEACON_MARVELMIND_POSITIONS_DATAGRAM_HIGHRES_ID);
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break;
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case 4: {
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switch (data_id) {
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case AP_BEACON_MARVELMIND_POSITION_DATAGRAM_ID: {
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good_byte = (received_char == 0x10);
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break;
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}
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case AP_BEACON_MARVELMIND_POSITIONS_DATAGRAM_ID:
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case AP_BEACON_MARVELMIND_POSITIONS_DATAGRAM_HIGHRES_ID:
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good_byte = true;
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break;
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case AP_BEACON_MARVELMIND_POSITION_DATAGRAM_HIGHRES_ID: {
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good_byte = (received_char == 0x16);
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break;
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}
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}
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if (good_byte) {
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parse_state = RECV_DGRAM;
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}
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break;
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}
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}
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if (good_byte) {
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// correct header byte
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num_bytes_in_block_received++;
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} else {
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// ...or incorrect
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parse_state = RECV_HDR;
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num_bytes_in_block_received = 0;
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}
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break;
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case RECV_DGRAM:
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num_bytes_in_block_received++;
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if (num_bytes_in_block_received >= 7 + input_buffer[4]) {
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// parse dgram
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uint16_t block_crc = calc_crc_modbus(input_buffer, num_bytes_in_block_received);
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if (block_crc == 0) {
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switch (data_id) {
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case AP_BEACON_MARVELMIND_POSITION_DATAGRAM_ID:
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// add to position_buffer
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process_position_datagram(cur_position);
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break;
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case AP_BEACON_MARVELMIND_POSITIONS_DATAGRAM_ID:
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{
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process_beacons_positions_datagram(cur_beacon);
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Vector3f pos(cur_beacon.x / 1000.0f,
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cur_beacon.y / 1000.0f, cur_beacon.z / 1000.0f);
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set_beacon_position(cur_beacon.address, pos);
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set_beacon_distance(cur_beacon.address, pos.length());
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break;
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}
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case AP_BEACON_MARVELMIND_POSITION_DATAGRAM_HIGHRES_ID:
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// add to position_buffer
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process_position_highres_datagram(cur_position);
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break;
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case AP_BEACON_MARVELMIND_POSITIONS_DATAGRAM_HIGHRES_ID:
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process_beacons_positions_highres_datagram(cur_beacon);
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break;
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}
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// callback
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if (hedge->receive_data_callback) {
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if (data_id == AP_BEACON_MARVELMIND_POSITION_DATAGRAM_ID) {
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hedge->receive_data_callback(cur_position);
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Vector3f pos(cur_position.x / 1000.0f,
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cur_position.y / 1000.0f,
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cur_position.z / 1000.0f);
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set_vehicle_position(pos, 0.0f); //TODO: Calculate Accuracy of the received signal
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last_update_ms = AP_HAL::millis();
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}
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}
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}
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// and repeat
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parse_state = RECV_HDR;
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num_bytes_in_block_received = 0;
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}
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break;
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}
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}
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}
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