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ardupilot/libraries/AP_GPS/AP_GPS_UBLOX.cpp

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// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
/*
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
//
// u-blox GPS driver for ArduPilot
// Origin code by Michael Smith, Jordi Munoz and Jose Julio, DIYDrones.com
// Substantially rewitten for new GPS driver structure by Andrew Tridgell
//
#include "AP_GPS.h"
#include "AP_GPS_UBLOX.h"
#include <DataFlash/DataFlash.h>
#if CONFIG_HAL_BOARD_SUBTYPE == HAL_BOARD_SUBTYPE_LINUX_NAVIO
#define UBLOX_VERSION_AUTODETECTION 1
#else
#define UBLOX_VERSION_AUTODETECTION 0
#endif
#define UBLOX_DEBUGGING 0
#define UBLOX_FAKE_3DLOCK 0
extern const AP_HAL::HAL& hal;
#if UBLOX_DEBUGGING
# define Debug(fmt, args ...) do {hal.console->printf("%s:%d: " fmt "\n", __FUNCTION__, __LINE__, ## args); hal.scheduler->delay(1); } while(0)
#else
# define Debug(fmt, args ...)
#endif
AP_GPS_UBLOX::AP_GPS_UBLOX(AP_GPS &_gps, AP_GPS::GPS_State &_state, AP_HAL::UARTDriver *_port) :
AP_GPS_Backend(_gps, _state, _port),
_step(0),
_msg_id(0),
_payload_length(0),
_payload_counter(0),
_fix_count(0),
_class(0),
_cfg_saved(false),
_last_cfg_sent_time(0),
_num_cfg_save_tries(0),
_new_position(0),
_new_speed(0),
need_rate_update(false),
_disable_counter(0),
next_fix(AP_GPS::NO_FIX),
rate_update_step(0),
_last_5hz_time(0),
noReceivedHdop(true)
{
// stop any config strings that are pending
gps.send_blob_start(state.instance, NULL, 0);
// configure the GPS for the messages we want
_configure_gps();
}
/*
send the next step of rate updates to the GPS. This reconfigures the
GPS on the fly to have the right message rates. It needs to be
careful to only send a message if there is sufficient buffer space
available on the serial port to avoid it blocking the CPU
*/
void
AP_GPS_UBLOX::send_next_rate_update(void)
{
if (port->txspace() < (int16_t)(sizeof(struct ubx_header)+sizeof(struct ubx_cfg_nav_rate)+2)) {
// not enough space - do it next time
return;
}
//hal.console->printf("next_rate: %u\n", (unsigned)rate_update_step);
switch (rate_update_step++) {
case 0:
_configure_navigation_rate(200);
break;
case 1:
_configure_message_rate(CLASS_NAV, MSG_POSLLH, 1); // 28+8 bytes
break;
case 2:
_configure_message_rate(CLASS_NAV, MSG_STATUS, 1); // 16+8 bytes
break;
case 3:
_configure_message_rate(CLASS_NAV, MSG_SOL, 1); // 52+8 bytes
break;
case 4:
_configure_message_rate(CLASS_NAV, MSG_VELNED, 1); // 36+8 bytes
break;
case 5:
_configure_message_rate(CLASS_NAV, MSG_DOP, 1); // 18+8 bytes
break;
case 6:
#if UBLOX_HW_LOGGING
// gather MON_HW at 0.5Hz
_configure_message_rate(CLASS_MON, MSG_MON_HW, 2); // 64+8 bytes
#endif
break;
case 7:
#if UBLOX_HW_LOGGING
// gather MON_HW2 at 0.5Hz
_configure_message_rate(CLASS_MON, MSG_MON_HW2, 2); // 24+8 bytes
#endif
break;
case 8:
#if UBLOX_RXM_RAW_LOGGING
_configure_message_rate(CLASS_RXM, MSG_RXM_RAW, gps._raw_data);
#endif
break;
case 9:
#if UBLOX_RXM_RAW_LOGGING
_configure_message_rate(CLASS_RXM, MSG_RXM_RAWX, gps._raw_data);
#endif
break;
case 10:
#if UBLOX_VERSION_AUTODETECTION
_request_version();
#endif
break;
default:
need_rate_update = false;
rate_update_step = 0;
break;
}
}
// Process bytes available from the stream
//
// The stream is assumed to contain only messages we recognise. If it
// contains other messages, and those messages contain the preamble
// bytes, it is possible for this code to fail to synchronise to the
// stream immediately. Without buffering the entire message and
// re-processing it from the top, this is unavoidable. The parser
// attempts to avoid this when possible.
//
bool
AP_GPS_UBLOX::read(void)
{
uint8_t data;
int16_t numc;
bool parsed = false;
uint32_t millis_now = AP_HAL::millis();
if (need_rate_update) {
send_next_rate_update();
}else if(!_cfg_saved && gps._save_config && _num_cfg_save_tries < 5 && (millis_now - _last_cfg_sent_time) > 5000) { //save the configuration sent until now
_last_cfg_sent_time = millis_now;
_save_cfg();
_num_cfg_save_tries++;
}
numc = port->available();
for (int16_t i = 0; i < numc; i++) { // Process bytes received
// read the next byte
data = port->read();
reset:
switch(_step) {
// Message preamble detection
//
// If we fail to match any of the expected bytes, we reset
// the state machine and re-consider the failed byte as
// the first byte of the preamble. This improves our
// chances of recovering from a mismatch and makes it less
// likely that we will be fooled by the preamble appearing
// as data in some other message.
//
case 1:
if (PREAMBLE2 == data) {
_step++;
break;
}
_step = 0;
Debug("reset %u", __LINE__);
/* no break */
case 0:
if(PREAMBLE1 == data)
_step++;
break;
// Message header processing
//
// We sniff the class and message ID to decide whether we
// are going to gather the message bytes or just discard
// them.
//
// We always collect the length so that we can avoid being
// fooled by preamble bytes in messages.
//
case 2:
_step++;
_class = data;
_ck_b = _ck_a = data; // reset the checksum accumulators
break;
case 3:
_step++;
_ck_b += (_ck_a += data); // checksum byte
_msg_id = data;
break;
case 4:
_step++;
_ck_b += (_ck_a += data); // checksum byte
_payload_length = data; // payload length low byte
break;
case 5:
_step++;
_ck_b += (_ck_a += data); // checksum byte
_payload_length += (uint16_t)(data<<8);
if (_payload_length > sizeof(_buffer)) {
Debug("large payload %u", (unsigned)_payload_length);
// assume any payload bigger then what we know about is noise
_payload_length = 0;
_step = 0;
goto reset;
}
_payload_counter = 0; // prepare to receive payload
break;
// Receive message data
//
case 6:
_ck_b += (_ck_a += data); // checksum byte
if (_payload_counter < sizeof(_buffer)) {
_buffer.bytes[_payload_counter] = data;
}
if (++_payload_counter == _payload_length)
_step++;
break;
// Checksum and message processing
//
case 7:
_step++;
if (_ck_a != data) {
Debug("bad cka %x should be %x", data, _ck_a);
_step = 0;
goto reset;
}
break;
case 8:
_step = 0;
if (_ck_b != data) {
Debug("bad ckb %x should be %x", data, _ck_b);
break; // bad checksum
}
if (_parse_gps()) {
parsed = true;
}
break;
}
}
return parsed;
}
// Private Methods /////////////////////////////////////////////////////////////
#if UBLOX_HW_LOGGING
void AP_GPS_UBLOX::log_mon_hw(void)
{
if (gps._DataFlash == NULL || !gps._DataFlash->logging_started()) {
return;
}
struct log_Ubx1 pkt = {
LOG_PACKET_HEADER_INIT(_ubx_msg_log_index(LOG_GPS_UBX1_MSG)),
time_us : AP_HAL::micros64(),
instance : state.instance,
noisePerMS : _buffer.mon_hw_60.noisePerMS,
jamInd : _buffer.mon_hw_60.jamInd,
aPower : _buffer.mon_hw_60.aPower,
agcCnt : _buffer.mon_hw_60.agcCnt,
};
if (_payload_length == 68) {
pkt.noisePerMS = _buffer.mon_hw_68.noisePerMS;
pkt.jamInd = _buffer.mon_hw_68.jamInd;
pkt.aPower = _buffer.mon_hw_68.aPower;
pkt.agcCnt = _buffer.mon_hw_68.agcCnt;
}
gps._DataFlash->WriteBlock(&pkt, sizeof(pkt));
}
void AP_GPS_UBLOX::log_mon_hw2(void)
{
if (gps._DataFlash == NULL || !gps._DataFlash->logging_started()) {
return;
}
struct log_Ubx2 pkt = {
LOG_PACKET_HEADER_INIT(_ubx_msg_log_index(LOG_GPS_UBX2_MSG)),
time_us : AP_HAL::micros64(),
instance : state.instance,
ofsI : _buffer.mon_hw2.ofsI,
magI : _buffer.mon_hw2.magI,
ofsQ : _buffer.mon_hw2.ofsQ,
magQ : _buffer.mon_hw2.magQ,
};
gps._DataFlash->WriteBlock(&pkt, sizeof(pkt));
}
#endif // UBLOX_HW_LOGGING
#if UBLOX_RXM_RAW_LOGGING
void AP_GPS_UBLOX::log_rxm_raw(const struct ubx_rxm_raw &raw)
{
if (gps._DataFlash == NULL || !gps._DataFlash->logging_started()) {
return;
}
uint64_t now = AP_HAL::micros64();
for (uint8_t i=0; i<raw.numSV; i++) {
struct log_GPS_RAW pkt = {
LOG_PACKET_HEADER_INIT(LOG_GPS_RAW_MSG),
time_us : now,
iTOW : raw.iTOW,
week : raw.week,
numSV : raw.numSV,
sv : raw.svinfo[i].sv,
cpMes : raw.svinfo[i].cpMes,
prMes : raw.svinfo[i].prMes,
doMes : raw.svinfo[i].doMes,
mesQI : raw.svinfo[i].mesQI,
cno : raw.svinfo[i].cno,
lli : raw.svinfo[i].lli
};
gps._DataFlash->WriteBlock(&pkt, sizeof(pkt));
}
}
void AP_GPS_UBLOX::log_rxm_rawx(const struct ubx_rxm_rawx &raw)
{
if (gps._DataFlash == NULL || !gps._DataFlash->logging_started()) {
return;
}
uint64_t now = AP_HAL::micros64();
struct log_GPS_RAWH header = {
LOG_PACKET_HEADER_INIT(LOG_GPS_RAWH_MSG),
time_us : now,
rcvTow : raw.rcvTow,
week : raw.week,
leapS : raw.leapS,
numMeas : raw.numMeas,
recStat : raw.recStat
};
gps._DataFlash->WriteBlock(&header, sizeof(header));
for (uint8_t i=0; i<raw.numMeas; i++) {
struct log_GPS_RAWS pkt = {
LOG_PACKET_HEADER_INIT(LOG_GPS_RAWS_MSG),
time_us : now,
prMes : raw.svinfo[i].prMes,
cpMes : raw.svinfo[i].cpMes,
doMes : raw.svinfo[i].doMes,
gnssId : raw.svinfo[i].gnssId,
svId : raw.svinfo[i].svId,
freqId : raw.svinfo[i].freqId,
locktime : raw.svinfo[i].locktime,
cno : raw.svinfo[i].cno,
prStdev : raw.svinfo[i].prStdev,
cpStdev : raw.svinfo[i].cpStdev,
doStdev : raw.svinfo[i].doStdev,
trkStat : raw.svinfo[i].trkStat
};
gps._DataFlash->WriteBlock(&pkt, sizeof(pkt));
}
}
#endif // UBLOX_RXM_RAW_LOGGING
void AP_GPS_UBLOX::unexpected_message(void)
{
Debug("Unexpected message 0x%02x 0x%02x", (unsigned)_class, (unsigned)_msg_id);
if (++_disable_counter == 0) {
// disable future sends of this message id, but
// only do this every 256 messages, as some
// message types can't be disabled and we don't
// want to get into an ack war
Debug("Disabling message 0x%02x 0x%02x", (unsigned)_class, (unsigned)_msg_id);
_configure_message_rate(_class, _msg_id, 0);
}
}
bool
AP_GPS_UBLOX::_parse_gps(void)
{
if (_class == CLASS_ACK) {
Debug("ACK %u", (unsigned)_msg_id);
if(_msg_id == MSG_ACK_ACK && _buffer.ack.clsID == CLASS_CFG && _buffer.ack.msgID == MSG_CFG_CFG) {
_cfg_saved = true;
}
return false;
}
if (_class == CLASS_CFG && _msg_id == MSG_CFG_NAV_SETTINGS) {
Debug("Got settings %u min_elev %d drLimit %u\n",
(unsigned)_buffer.nav_settings.dynModel,
(int)_buffer.nav_settings.minElev,
(unsigned)_buffer.nav_settings.drLimit);
_buffer.nav_settings.mask = 0;
if (gps._navfilter != AP_GPS::GPS_ENGINE_NONE &&
_buffer.nav_settings.dynModel != gps._navfilter) {
// we've received the current nav settings, change the engine
// settings and send them back
Debug("Changing engine setting from %u to %u\n",
(unsigned)_buffer.nav_settings.dynModel, (unsigned)gps._navfilter);
_buffer.nav_settings.dynModel = gps._navfilter;
_buffer.nav_settings.mask |= 1;
}
if (gps._min_elevation != -100 &&
_buffer.nav_settings.minElev != gps._min_elevation) {
Debug("Changing min elevation to %d\n", (int)gps._min_elevation);
_buffer.nav_settings.minElev = gps._min_elevation;
_buffer.nav_settings.mask |= 2;
}
if (_buffer.nav_settings.mask != 0) {
_send_message(CLASS_CFG, MSG_CFG_NAV_SETTINGS,
&_buffer.nav_settings,
sizeof(_buffer.nav_settings));
_cfg_saved = false; //save configuration
}
return false;
}
#if UBLOX_GNSS_SETTINGS
if (_class == CLASS_CFG && _msg_id == MSG_CFG_GNSS && gps._gnss_mode != 0) {
uint8_t gnssCount = 0;
Debug("Got GNSS Settings %u %u %u %u:\n",
(unsigned)_buffer.gnss.msgVer,
(unsigned)_buffer.gnss.numTrkChHw,
(unsigned)_buffer.gnss.numTrkChUse,
(unsigned)_buffer.gnss.numConfigBlocks);
#if UBLOX_DEBUG
for(int i = 0; i < _buffer.gnss.numConfigBlocks; i++) {
Debug(" %u %u %u 0x%08x\n",
(unsigned)_buffer.gnss.configBlock[i].gnssId,
(unsigned)_buffer.gnss.configBlock[i].resTrkCh,
(unsigned)_buffer.gnss.configBlock[i].maxTrkCh,
(unsigned)_buffer.gnss.configBlock[i].flags);
}
#endif
for(int i = 0; i < UBLOX_MAX_GNSS_CONFIG_BLOCKS; i++) {
if((gps._gnss_mode & (1 << i)) && i != GNSS_SBAS) {
gnssCount++;
}
}
for(int i = 0; i < _buffer.gnss.numConfigBlocks; i++) {
// Reserve an equal portion of channels for all enabled systems
if(gps._gnss_mode & (1 << _buffer.gnss.configBlock[i].gnssId)) {
if(GNSS_SBAS !=_buffer.gnss.configBlock[i].gnssId) {
_buffer.gnss.configBlock[i].resTrkCh = (_buffer.gnss.numTrkChHw - 3) / (gnssCount * 2);
_buffer.gnss.configBlock[i].maxTrkCh = _buffer.gnss.numTrkChHw;
} else {
_buffer.gnss.configBlock[i].resTrkCh = 1;
_buffer.gnss.configBlock[i].maxTrkCh = 3;
}
_buffer.gnss.configBlock[i].flags = _buffer.gnss.configBlock[i].flags | 0x00000001;
} else {
_buffer.gnss.configBlock[i].resTrkCh = 0;
_buffer.gnss.configBlock[i].maxTrkCh = 0;
_buffer.gnss.configBlock[i].flags = _buffer.gnss.configBlock[i].flags & 0xFFFFFFFE;
}
}
_send_message(CLASS_CFG, MSG_CFG_GNSS, &_buffer.gnss, 4 + (8 * _buffer.gnss.numConfigBlocks));
return false;
}
#endif
if (_class == CLASS_CFG && _msg_id == MSG_CFG_SBAS && gps._sbas_mode != 2) {
Debug("Got SBAS settings %u %u %u 0x%x 0x%x\n",
(unsigned)_buffer.sbas.mode,
(unsigned)_buffer.sbas.usage,
(unsigned)_buffer.sbas.maxSBAS,
(unsigned)_buffer.sbas.scanmode2,
(unsigned)_buffer.sbas.scanmode1);
if (_buffer.sbas.mode != gps._sbas_mode) {
_buffer.sbas.mode = gps._sbas_mode;
_send_message(CLASS_CFG, MSG_CFG_SBAS,
&_buffer.sbas,
sizeof(_buffer.sbas));
_cfg_saved = false;
}
}
#if UBLOX_HW_LOGGING
if (_class == CLASS_MON) {
if (_msg_id == MSG_MON_HW) {
if (_payload_length == 60 || _payload_length == 68) {
log_mon_hw();
}
} else if (_msg_id == MSG_MON_HW2) {
if (_payload_length == 28) {
log_mon_hw2();
}
} else {
unexpected_message();
}
return false;
}
#endif // UBLOX_HW_LOGGING
#if UBLOX_RXM_RAW_LOGGING
if (_class == CLASS_RXM && _msg_id == MSG_RXM_RAW && gps._raw_data != 0) {
log_rxm_raw(_buffer.rxm_raw);
return false;
} else if (_class == CLASS_RXM && _msg_id == MSG_RXM_RAWX && gps._raw_data != 0) {
log_rxm_rawx(_buffer.rxm_rawx);
return false;
}
#endif // UBLOX_RXM_RAW_LOGGING
if (_class != CLASS_NAV) {
unexpected_message();
return false;
}
switch (_msg_id) {
case MSG_POSLLH:
Debug("MSG_POSLLH next_fix=%u", next_fix);
_last_pos_time = _buffer.posllh.time;
state.location.lng = _buffer.posllh.longitude;
state.location.lat = _buffer.posllh.latitude;
state.location.alt = _buffer.posllh.altitude_msl / 10;
state.status = next_fix;
_new_position = true;
state.horizontal_accuracy = _buffer.posllh.horizontal_accuracy*1.0e-3f;
state.vertical_accuracy = _buffer.posllh.vertical_accuracy*1.0e-3f;
state.have_horizontal_accuracy = true;
state.have_vertical_accuracy = true;
#if UBLOX_FAKE_3DLOCK
state.location.lng = 1491652300L;
state.location.lat = -353632610L;
state.location.alt = 58400;
state.vertical_accuracy = 0;
state.horizontal_accuracy = 0;
#endif
break;
case MSG_STATUS:
Debug("MSG_STATUS fix_status=%u fix_type=%u",
_buffer.status.fix_status,
_buffer.status.fix_type);
if (_buffer.status.fix_status & NAV_STATUS_FIX_VALID) {
if( (_buffer.status.fix_type == AP_GPS_UBLOX::FIX_3D) &&
(_buffer.status.fix_status & AP_GPS_UBLOX::NAV_STATUS_DGPS_USED)) {
next_fix = AP_GPS::GPS_OK_FIX_3D_DGPS;
}else if( _buffer.status.fix_type == AP_GPS_UBLOX::FIX_3D) {
next_fix = AP_GPS::GPS_OK_FIX_3D;
}else if (_buffer.status.fix_type == AP_GPS_UBLOX::FIX_2D) {
next_fix = AP_GPS::GPS_OK_FIX_2D;
}else{
next_fix = AP_GPS::NO_FIX;
state.status = AP_GPS::NO_FIX;
}
}else{
next_fix = AP_GPS::NO_FIX;
state.status = AP_GPS::NO_FIX;
}
#if UBLOX_FAKE_3DLOCK
state.status = AP_GPS::GPS_OK_FIX_3D;
next_fix = state.status;
#endif
break;
case MSG_DOP:
Debug("MSG_DOP");
noReceivedHdop = false;
state.hdop = _buffer.dop.hDOP;
state.vdop = _buffer.dop.vDOP;
#if UBLOX_FAKE_3DLOCK
state.hdop = 130;
state.hdop = 170;
#endif
break;
case MSG_SOL:
Debug("MSG_SOL fix_status=%u fix_type=%u",
_buffer.solution.fix_status,
_buffer.solution.fix_type);
if (_buffer.solution.fix_status & NAV_STATUS_FIX_VALID) {
if( (_buffer.solution.fix_type == AP_GPS_UBLOX::FIX_3D) &&
(_buffer.solution.fix_status & AP_GPS_UBLOX::NAV_STATUS_DGPS_USED)) {
next_fix = AP_GPS::GPS_OK_FIX_3D_DGPS;
}else if( _buffer.solution.fix_type == AP_GPS_UBLOX::FIX_3D) {
next_fix = AP_GPS::GPS_OK_FIX_3D;
}else if (_buffer.solution.fix_type == AP_GPS_UBLOX::FIX_2D) {
next_fix = AP_GPS::GPS_OK_FIX_2D;
}else{
next_fix = AP_GPS::NO_FIX;
state.status = AP_GPS::NO_FIX;
}
}else{
next_fix = AP_GPS::NO_FIX;
state.status = AP_GPS::NO_FIX;
}
if(noReceivedHdop) {
state.hdop = _buffer.solution.position_DOP;
}
state.num_sats = _buffer.solution.satellites;
if (next_fix >= AP_GPS::GPS_OK_FIX_2D) {
state.last_gps_time_ms = AP_HAL::millis();
if (state.time_week == _buffer.solution.week &&
state.time_week_ms + 200 == _buffer.solution.time) {
// we got a 5Hz update. This relies on the way
// that uBlox gives timestamps that are always
// multiples of 200 for 5Hz
_last_5hz_time = state.last_gps_time_ms;
}
state.time_week_ms = _buffer.solution.time;
state.time_week = _buffer.solution.week;
}
#if UBLOX_FAKE_3DLOCK
next_fix = state.status;
state.num_sats = 10;
state.time_week = 1721;
state.time_week_ms = AP_HAL::millis() + 3*60*60*1000 + 37000;
state.last_gps_time_ms = AP_HAL::millis();
state.hdop = 130;
#endif
break;
case MSG_VELNED:
Debug("MSG_VELNED");
_last_vel_time = _buffer.velned.time;
state.ground_speed = _buffer.velned.speed_2d*0.01f; // m/s
state.ground_course_cd = wrap_360_cd(_buffer.velned.heading_2d / 1000); // Heading 2D deg * 100000 rescaled to deg * 100
state.have_vertical_velocity = true;
state.velocity.x = _buffer.velned.ned_north * 0.01f;
state.velocity.y = _buffer.velned.ned_east * 0.01f;
state.velocity.z = _buffer.velned.ned_down * 0.01f;
state.have_speed_accuracy = true;
state.speed_accuracy = _buffer.velned.speed_accuracy*0.01f;
#if UBLOX_FAKE_3DLOCK
state.speed_accuracy = 0;
#endif
_new_speed = true;
break;
#if UBLOX_VERSION_AUTODETECTION
case MSG_NAV_SVINFO:
{
Debug("MSG_NAV_SVINFO\n");
static const uint8_t HardwareGenerationMask = 0x07;
uint8_t hardware_generation = _buffer.svinfo_header.globalFlags & HardwareGenerationMask;
switch (hardware_generation) {
case UBLOX_5:
case UBLOX_6:
/*speed already configured */;
break;
case UBLOX_7:
case UBLOX_M8:
port->begin(4000000U);
Debug("Changed speed to 5Mhzfor SPI-driven UBlox\n");
break;
default:
hal.console->printf("Wrong Ublox' Hardware Version%u\n", hardware_generation);
break;
};
/* We don't need that anymore */
_configure_message_rate(CLASS_NAV, MSG_NAV_SVINFO, 0);
break;
}
#endif
default:
Debug("Unexpected NAV message 0x%02x", (unsigned)_msg_id);
if (++_disable_counter == 0) {
Debug("Disabling NAV message 0x%02x", (unsigned)_msg_id);
_configure_message_rate(CLASS_NAV, _msg_id, 0);
}
return false;
}
// we only return true when we get new position and speed data
// this ensures we don't use stale data
if (_new_position && _new_speed && _last_vel_time == _last_pos_time) {
_new_speed = _new_position = false;
_fix_count++;
if ((AP_HAL::millis() - _last_5hz_time) > 15000U && !need_rate_update) {
// the GPS is running slow. It possibly browned out and
// restarted with incorrect parameters. We will slowly
// send out new parameters to fix it
need_rate_update = true;
rate_update_step = 0;
_last_5hz_time = AP_HAL::millis();
}
if (_fix_count == 50 && gps._sbas_mode != 2) {
// ask for SBAS settings every 20 seconds
Debug("Asking for SBAS setting\n");
_send_message(CLASS_CFG, MSG_CFG_SBAS, NULL, 0);
}
if (_fix_count == 100) {
// ask for nav settings every 20 seconds
Debug("Asking for engine setting\n");
_send_message(CLASS_CFG, MSG_CFG_NAV_SETTINGS, NULL, 0);
_fix_count = 0;
}
return true;
}
return false;
}
// UBlox auto configuration
/*
* update checksum for a set of bytes
*/
void
AP_GPS_UBLOX::_update_checksum(uint8_t *data, uint16_t len, uint8_t &ck_a, uint8_t &ck_b)
{
while (len--) {
ck_a += *data;
ck_b += ck_a;
data++;
}
}
/*
* send a ublox message
*/
void
AP_GPS_UBLOX::_send_message(uint8_t msg_class, uint8_t msg_id, void *msg, uint16_t size)
{
struct ubx_header header;
uint8_t ck_a=0, ck_b=0;
header.preamble1 = PREAMBLE1;
header.preamble2 = PREAMBLE2;
header.msg_class = msg_class;
header.msg_id = msg_id;
header.length = size;
_update_checksum((uint8_t *)&header.msg_class, sizeof(header)-2, ck_a, ck_b);
_update_checksum((uint8_t *)msg, size, ck_a, ck_b);
port->write((const uint8_t *)&header, sizeof(header));
port->write((const uint8_t *)msg, size);
port->write((const uint8_t *)&ck_a, 1);
port->write((const uint8_t *)&ck_b, 1);
}
/*
* configure a UBlox GPS for the given message rate for a specific
* message class and msg_id
*/
void
AP_GPS_UBLOX::_configure_message_rate(uint8_t msg_class, uint8_t msg_id, uint8_t rate)
{
struct ubx_cfg_msg_rate msg;
msg.msg_class = msg_class;
msg.msg_id = msg_id;
msg.rate = rate;
_send_message(CLASS_CFG, MSG_CFG_SET_RATE, &msg, sizeof(msg));
}
/*
* configure a UBlox GPS navigation solution rate of 200ms
*/
void
AP_GPS_UBLOX::_configure_navigation_rate(uint16_t rate_ms)
{
struct ubx_cfg_nav_rate msg;
msg.measure_rate_ms = rate_ms;
msg.nav_rate = 1;
msg.timeref = 0; // UTC time
_send_message(CLASS_CFG, MSG_CFG_RATE, &msg, sizeof(msg));
}
/*
* configure a UBlox GPS for the given message rate
*/
void
AP_GPS_UBLOX::_configure_gps(void)
{
// start the process of updating the GPS rates
need_rate_update = true;
_last_5hz_time = AP_HAL::millis();
rate_update_step = 0;
// ask for the current navigation settings
Debug("Asking for engine setting\n");
_send_message(CLASS_CFG, MSG_CFG_NAV_SETTINGS, NULL, 0);
_send_message(CLASS_CFG, MSG_CFG_GNSS, NULL, 0);
}
/*
* save gps configurations to non-volatile memory sent until the call of
* this message
*/
void
AP_GPS_UBLOX::_save_cfg()
{
ubx_cfg_cfg save_cfg;
save_cfg.clearMask = 0;
save_cfg.saveMask = SAVE_CFG_ALL;
save_cfg.loadMask = 0;
_send_message(CLASS_CFG, MSG_CFG_CFG, &save_cfg, sizeof(save_cfg));
}
/*
detect a Ublox GPS. Adds one byte, and returns true if the stream
matches a UBlox
*/
bool
AP_GPS_UBLOX::_detect(struct UBLOX_detect_state &state, uint8_t data)
{
reset:
switch (state.step) {
case 1:
if (PREAMBLE2 == data) {
state.step++;
break;
}
state.step = 0;
/* no break */
case 0:
if (PREAMBLE1 == data)
state.step++;
break;
case 2:
state.step++;
state.ck_b = state.ck_a = data;
break;
case 3:
state.step++;
state.ck_b += (state.ck_a += data);
break;
case 4:
state.step++;
state.ck_b += (state.ck_a += data);
state.payload_length = data;
break;
case 5:
state.step++;
state.ck_b += (state.ck_a += data);
state.payload_counter = 0;
break;
case 6:
state.ck_b += (state.ck_a += data);
if (++state.payload_counter == state.payload_length)
state.step++;
break;
case 7:
state.step++;
if (state.ck_a != data) {
state.step = 0;
goto reset;
}
break;
case 8:
state.step = 0;
if (state.ck_b == data) {
// a valid UBlox packet
return true;
} else {
goto reset;
}
}
return false;
}
void
AP_GPS_UBLOX::_request_version(void)
{
_configure_message_rate(CLASS_NAV, MSG_NAV_SVINFO, 2);
}