mirror of https://github.com/ArduPilot/ardupilot
525 lines
15 KiB
C++
525 lines
15 KiB
C++
// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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//
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// Swift Navigation SBP GPS driver for ArduPilot.
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// Code by Niels Joubert
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//
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// Swift Binary Protocol format: http://docs.swift-nav.com/
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//
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#include <AP_GPS.h>
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#include "AP_GPS_SBP.h"
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#include <DataFlash.h>
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#if GPS_RTK_AVAILABLE
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extern const AP_HAL::HAL& hal;
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#define SBP_DEBUGGING 1
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#define SBP_HW_LOGGING 1
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#define SBP_TIMEOUT_HEATBEAT 4000
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#define SBP_TIMEOUT_PVT 500
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#if SBP_DEBUGGING
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# define Debug(fmt, args ...) \
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do { \
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hal.console->printf("%s:%d: " fmt "\n", \
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__FUNCTION__, __LINE__, \
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## args); \
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hal.scheduler->delay(1); \
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} while(0)
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#else
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# define Debug(fmt, args ...)
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#endif
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bool AP_GPS_SBP::logging_started = false;
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AP_GPS_SBP::AP_GPS_SBP(AP_GPS &_gps, AP_GPS::GPS_State &_state,
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AP_HAL::UARTDriver *_port) :
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AP_GPS_Backend(_gps, _state, _port),
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crc_error_counter(0),
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last_full_update_tow(0),
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last_full_update_cpu_ms(0),
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last_injected_data_ms(0),
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last_iar_num_hypotheses(0)
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{
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Debug("SBP Driver Initialized");
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parser_state.state = sbp_parser_state_t::WAITING;
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//Externally visible state
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state.status = AP_GPS::NO_FIX;
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state.have_vertical_velocity = true;
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state.last_gps_time_ms = last_heatbeat_received_ms = hal.scheduler->millis();
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}
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// Process all bytes available from the stream
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//
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bool
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AP_GPS_SBP::read(void)
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{
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//Invariant: Calling this function processes *all* data current in the UART buffer.
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//
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//IMPORTANT NOTICE: This function is NOT CALLED for several seconds
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// during arming. That should not cause the driver to die. Process *all* waiting messages
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_sbp_process();
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return _attempt_state_update();
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}
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void
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AP_GPS_SBP::inject_data(uint8_t *data, uint8_t len)
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{
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if (port->txspace() > len) {
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last_injected_data_ms = hal.scheduler->millis();
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port->write(data, len);
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} else {
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Debug("PIKSI: Not enough TXSPACE");
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}
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}
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//This attempts to reads all SBP messages from the incoming port.
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//Returns true if a new message was read, false if we failed to read a message.
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void
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AP_GPS_SBP::_sbp_process()
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{
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while (port->available() > 0) {
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uint8_t temp = port->read();
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uint16_t crc;
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//This switch reads one character at a time,
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//parsing it into buffers until a full message is dispatched
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switch(parser_state.state) {
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case sbp_parser_state_t::WAITING:
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if (temp == SBP_PREAMBLE) {
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parser_state.n_read = 0;
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parser_state.state = sbp_parser_state_t::GET_TYPE;
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}
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break;
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case sbp_parser_state_t::GET_TYPE:
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*((uint8_t*)&(parser_state.msg_type) + parser_state.n_read) = temp;
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parser_state.n_read += 1;
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if (parser_state.n_read >= 2) {
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parser_state.n_read = 0;
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parser_state.state = sbp_parser_state_t::GET_SENDER;
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}
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break;
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case sbp_parser_state_t::GET_SENDER:
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*((uint8_t*)&(parser_state.sender_id) + parser_state.n_read) = temp;
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parser_state.n_read += 1;
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if (parser_state.n_read >= 2) {
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parser_state.n_read = 0;
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parser_state.state = sbp_parser_state_t::GET_LEN;
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}
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break;
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case sbp_parser_state_t::GET_LEN:
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parser_state.msg_len = temp;
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parser_state.n_read = 0;
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parser_state.state = sbp_parser_state_t::GET_MSG;
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break;
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case sbp_parser_state_t::GET_MSG:
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*((uint8_t*)&(parser_state.msg_buff) + parser_state.n_read) = temp;
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parser_state.n_read += 1;
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if (parser_state.n_read >= parser_state.msg_len) {
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parser_state.n_read = 0;
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parser_state.state = sbp_parser_state_t::GET_CRC;
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}
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break;
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case sbp_parser_state_t::GET_CRC:
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*((uint8_t*)&(parser_state.crc) + parser_state.n_read) = temp;
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parser_state.n_read += 1;
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if (parser_state.n_read >= 2) {
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parser_state.state = sbp_parser_state_t::WAITING;
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crc = crc16_ccitt((uint8_t*)&(parser_state.msg_type), 2, 0);
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crc = crc16_ccitt((uint8_t*)&(parser_state.sender_id), 2, crc);
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crc = crc16_ccitt(&(parser_state.msg_len), 1, crc);
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crc = crc16_ccitt(parser_state.msg_buff, parser_state.msg_len, crc);
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if (parser_state.crc == crc) {
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_sbp_process_message();
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} else {
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Debug("CRC Error Occurred!");
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crc_error_counter += 1;
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}
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parser_state.state = sbp_parser_state_t::WAITING;
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}
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break;
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default:
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parser_state.state = sbp_parser_state_t::WAITING;
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break;
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}
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}
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}
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//INVARIANT: A fully received message with correct CRC is currently in parser_state
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void
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AP_GPS_SBP::_sbp_process_message() {
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switch(parser_state.msg_type) {
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case SBP_HEARTBEAT_MSGTYPE:
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last_heatbeat_received_ms = hal.scheduler->millis();
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break;
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case SBP_GPS_TIME_MSGTYPE:
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memcpy(&last_gps_time, parser_state.msg_buff, sizeof(last_gps_time));
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break;
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case SBP_VEL_NED_MSGTYPE:
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memcpy(&last_vel_ned, parser_state.msg_buff, sizeof(last_vel_ned));
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break;
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case SBP_POS_LLH_MSGTYPE: {
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struct sbp_pos_llh_t *pos_llh = (struct sbp_pos_llh_t*)parser_state.msg_buff;
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// Check if this is a single point or RTK solution
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// flags = 0 -> single point
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if (pos_llh->flags == 0) {
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last_pos_llh_spp = *pos_llh;
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} else if (pos_llh->flags == 1 || pos_llh->flags == 2) {
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last_pos_llh_rtk = *pos_llh;
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}
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break;
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}
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case SBP_DOPS_MSGTYPE:
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memcpy(&last_dops, parser_state.msg_buff, sizeof(last_dops));
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break;
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case SBP_TRACKING_STATE_MSGTYPE:
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//INTENTIONALLY BLANK
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//Currenly unhandled, but logged after switch statement.
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break;
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case SBP_IAR_STATE_MSGTYPE: {
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sbp_iar_state_t *iar = (struct sbp_iar_state_t*)parser_state.msg_buff;
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last_iar_num_hypotheses = iar->num_hypotheses;
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break;
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}
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default:
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// Break out of any logging if it's an unsupported message
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return;
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}
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logging_log_raw_sbp(parser_state.msg_type, parser_state.sender_id, parser_state.msg_len, parser_state.msg_buff);
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}
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bool
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AP_GPS_SBP::_attempt_state_update()
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{
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// If we currently have heartbeats
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// - NO FIX
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//
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// If we have a full update available, save it
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//
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uint32_t now = hal.scheduler->millis();
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bool ret = false;
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if (now - last_heatbeat_received_ms > SBP_TIMEOUT_HEATBEAT) {
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state.status = AP_GPS::NO_GPS;
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Debug("No Heartbeats from Piksi! Driver Ready to Die!");
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ret = false;
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} else if (last_pos_llh_rtk.tow == last_vel_ned.tow
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&& abs((int32_t) (last_gps_time.tow - last_vel_ned.tow)) < 10000
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&& abs((int32_t) (last_dops.tow - last_vel_ned.tow)) < 60000
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&& last_vel_ned.tow > last_full_update_tow) {
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// Use the RTK position
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sbp_pos_llh_t *pos_llh = &last_pos_llh_rtk;
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// Update time state
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state.time_week = last_gps_time.wn;
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state.time_week_ms = last_vel_ned.tow;
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state.hdop = last_dops.hdop;
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// Update velocity state
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state.velocity[0] = (float)(last_vel_ned.n / 1000.0);
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state.velocity[1] = (float)(last_vel_ned.e / 1000.0);
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state.velocity[2] = (float)(last_vel_ned.d / 1000.0);
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float ground_vector_sq = state.velocity[0]*state.velocity[0] + state.velocity[1]*state.velocity[1];
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state.ground_speed = safe_sqrt(ground_vector_sq);
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state.ground_course_cd = (int32_t) 100*ToDeg(atan2f(state.velocity[1], state.velocity[0]));
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if (state.ground_course_cd < 0) {
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state.ground_course_cd += 36000;
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}
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// Update position state
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state.location.lat = (int32_t) (pos_llh->lat*1e7);
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state.location.lng = (int32_t) (pos_llh->lon*1e7);
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state.location.alt = (int32_t) (pos_llh->height*1e2);
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state.num_sats = pos_llh->n_sats;
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if (pos_llh->flags == 0)
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state.status = AP_GPS::GPS_OK_FIX_3D;
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else if (pos_llh->flags == 2)
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state.status = AP_GPS::GPS_OK_FIX_3D_DGPS;
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else if (pos_llh->flags == 1)
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state.status = AP_GPS::GPS_OK_FIX_3D_RTK;
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last_full_update_tow = last_vel_ned.tow;
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last_full_update_cpu_ms = now;
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logging_log_full_update();
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ret = true;
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} else if (now - last_full_update_cpu_ms > SBP_TIMEOUT_PVT) {
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//INVARIANT: If we currently have a fix, ONLY return true after a full update.
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state.status = AP_GPS::NO_FIX;
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ret = true;
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} else {
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//No timeouts yet, no data yet, nothing has happened.
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ret = false;
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}
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return ret;
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}
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bool
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AP_GPS_SBP::_detect(struct SBP_detect_state &state, uint8_t data)
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{
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// This switch reads one character at a time, if we find something that
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// looks like our preamble we'll try to read the full message length,
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// calculating the CRC. If the CRC matches, we have an SBP GPS!
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switch(state.state) {
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case SBP_detect_state::WAITING:
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if (data == SBP_PREAMBLE) {
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state.n_read = 0;
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state.crc_so_far = 0;
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state.state = SBP_detect_state::GET_TYPE;
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}
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break;
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case SBP_detect_state::GET_TYPE:
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state.crc_so_far = crc16_ccitt(&data, 1, state.crc_so_far);
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state.n_read += 1;
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if (state.n_read >= 2) {
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state.n_read = 0;
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state.state = SBP_detect_state::GET_SENDER;
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}
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break;
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case SBP_detect_state::GET_SENDER:
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state.crc_so_far = crc16_ccitt(&data, 1, state.crc_so_far);
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state.n_read += 1;
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if (state.n_read >= 2) {
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state.n_read = 0;
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state.state = SBP_detect_state::GET_LEN;
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}
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break;
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case SBP_detect_state::GET_LEN:
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state.crc_so_far = crc16_ccitt(&data, 1, state.crc_so_far);
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state.msg_len = data;
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state.n_read = 0;
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state.state = SBP_detect_state::GET_MSG;
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break;
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case SBP_detect_state::GET_MSG:
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state.crc_so_far = crc16_ccitt(&data, 1, state.crc_so_far);
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state.n_read += 1;
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if (state.n_read >= state.msg_len) {
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state.n_read = 0;
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state.state = SBP_detect_state::GET_CRC;
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}
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break;
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case SBP_detect_state::GET_CRC:
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*((uint8_t*)&(state.crc) + state.n_read) = data;
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state.n_read += 1;
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if (state.n_read >= 2) {
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state.state = SBP_detect_state::WAITING;
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return state.crc == state.crc_so_far;
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}
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break;
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default:
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state.state = SBP_detect_state::WAITING;
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break;
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}
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return false;
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}
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#if SBP_HW_LOGGING
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#define LOG_MSG_SBPHEALTH 202
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#define LOG_MSG_SBPLLH 203
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#define LOG_MSG_SBPBASELINE 204
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#define LOG_MSG_SBPTRACKING1 205
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#define LOG_MSG_SBPTRACKING2 206
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#define LOG_MSG_SBPRAW1 207
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#define LOG_MSG_SBPRAW2 208
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struct PACKED log_SbpLLH {
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LOG_PACKET_HEADER;
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uint32_t timestamp;
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uint32_t tow;
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int32_t lat;
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int32_t lon;
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int32_t alt;
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uint8_t n_sats;
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uint8_t flags;
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};
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struct PACKED log_SbpHealth {
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LOG_PACKET_HEADER;
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uint32_t timestamp;
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uint32_t crc_error_counter;
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uint32_t last_injected_data_ms;
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uint32_t last_iar_num_hypotheses;
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};
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struct PACKED log_SbpRAW1 {
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LOG_PACKET_HEADER;
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uint32_t timestamp;
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uint16_t msg_type;
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uint16_t sender_id;
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uint8_t msg_len;
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uint8_t data1[64];
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};
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struct PACKED log_SbpRAW2 {
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LOG_PACKET_HEADER;
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uint32_t timestamp;
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uint16_t msg_type;
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uint8_t data2[192];
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};
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static const struct LogStructure sbp_log_structures[] PROGMEM = {
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{ LOG_MSG_SBPHEALTH, sizeof(log_SbpHealth),
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"SBPH", "IIII", "TimeMS,CrcError,LastInject,IARhyp" },
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{ LOG_MSG_SBPRAW1, sizeof(log_SbpRAW1),
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"SBR1", "IHHBZ", "TimeMS,msg_type,sender_id,msg_len,d1" },
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{ LOG_MSG_SBPRAW2, sizeof(log_SbpRAW2),
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"SBR2", "IHZZZ", "TimeMS,msg_type,d2,d3,d4" }
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};
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void
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AP_GPS_SBP::logging_write_headers(void)
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{
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if (!logging_started) {
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logging_started = true;
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gps._DataFlash->AddLogFormats(sbp_log_structures, sizeof(sbp_log_structures) / sizeof(LogStructure));
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}
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}
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void
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AP_GPS_SBP::logging_log_full_update()
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{
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if (gps._DataFlash == NULL || !gps._DataFlash->logging_started()) {
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return;
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}
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logging_write_headers();
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struct log_SbpHealth pkt = {
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LOG_PACKET_HEADER_INIT(LOG_MSG_SBPHEALTH),
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timestamp : hal.scheduler->millis(),
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crc_error_counter : crc_error_counter,
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last_injected_data_ms : last_injected_data_ms,
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last_iar_num_hypotheses : last_iar_num_hypotheses,
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};
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gps._DataFlash->WriteBlock(&pkt, sizeof(pkt));
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};
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void
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AP_GPS_SBP::logging_log_raw_sbp(uint16_t msg_type,
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uint16_t sender_id,
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uint8_t msg_len,
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uint8_t *msg_buff) {
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if (gps._DataFlash == NULL || !gps._DataFlash->logging_started()) {
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return;
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}
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//MASK OUT MESSAGES WE DON'T WANT TO LOG
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if (( ((uint16_t) gps._sbp_logmask) & msg_type) == 0) {
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return;
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}
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logging_write_headers();
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uint32_t now = hal.scheduler->millis();
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struct log_SbpRAW1 pkt = {
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LOG_PACKET_HEADER_INIT(LOG_MSG_SBPRAW1),
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timestamp : now,
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msg_type : msg_type,
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sender_id : sender_id,
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msg_len : msg_len,
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};
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memcpy(pkt.data1, msg_buff, max(msg_len,64));
|
|
gps._DataFlash->WriteBlock(&pkt, sizeof(pkt));
|
|
|
|
if (msg_len > 64) {
|
|
|
|
struct log_SbpRAW2 pkt2 = {
|
|
LOG_PACKET_HEADER_INIT(LOG_MSG_SBPRAW2),
|
|
timestamp : now,
|
|
msg_type : msg_type,
|
|
};
|
|
memcpy(pkt2.data2, &msg_buff[64], msg_len - 64);
|
|
gps._DataFlash->WriteBlock(&pkt2, sizeof(pkt2));
|
|
|
|
}
|
|
|
|
};
|
|
|
|
|
|
#endif // SBP_HW_LOGGING
|
|
|
|
#endif // GPS_RTK_AVAILABLE
|