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/*
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/>.
*/
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//
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// u-blox GPS driver for ArduPilot
// Origin code by Michael Smith, Jordi Munoz and Jose Julio, DIYDrones.com
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// Substantially rewritten for new GPS driver structure by Andrew Tridgell
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//
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# include "AP_GPS.h"
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# include "AP_GPS_UBLOX.h"
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# include <AP_HAL/Util.h>
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# include <AP_Logger/AP_Logger.h>
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# include <GCS_MAVLink/GCS.h>
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# include "RTCM3_Parser.h"
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# include <stdio.h>
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# if CONFIG_HAL_BOARD_SUBTYPE == HAL_BOARD_SUBTYPE_LINUX_NAVIO || \
CONFIG_HAL_BOARD_SUBTYPE = = HAL_BOARD_SUBTYPE_LINUX_BH
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# define UBLOX_SPEED_CHANGE 1
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# else
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# define UBLOX_SPEED_CHANGE 0
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# endif
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# define UBLOX_DEBUGGING 0
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# define UBLOX_FAKE_3DLOCK 0
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# ifndef CONFIGURE_PPS_PIN
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# define CONFIGURE_PPS_PIN 0
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# endif
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// this is number of epochs per output. A higher value will reduce
// the uart bandwidth needed and allow for higher latency
# define RTK_MB_RTCM_RATE 1
// use this to enable debugging of moving baseline configs
# define UBLOX_MB_DEBUGGING 0
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extern const AP_HAL : : HAL & hal ;
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# if UBLOX_DEBUGGING
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# if defined(HAL_BUILD_AP_PERIPH)
extern " C " {
void can_printf ( const char * fmt , . . . ) ;
}
# define Debug(fmt, args ...) do {can_printf("%s:%d: " fmt "\n", __FUNCTION__, __LINE__, ## args);} while(0)
# else
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# define Debug(fmt, args ...) do {hal.console->printf("%s:%d: " fmt "\n", __FUNCTION__, __LINE__, ## args); hal.scheduler->delay(1); } while(0)
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# endif
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# else
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# define Debug(fmt, args ...)
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# endif
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# if UBLOX_MB_DEBUGGING
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# if defined(HAL_BUILD_AP_PERIPH)
extern " C " {
void can_printf ( const char * fmt , . . . ) ;
}
# define MB_Debug(fmt, args ...) do {can_printf("%s:%d: " fmt "\n", __FUNCTION__, __LINE__, ## args);} while(0)
# else
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# define MB_Debug(fmt, args ...) do {hal.console->printf("%s:%d: " fmt "\n", __FUNCTION__, __LINE__, ## args); hal.scheduler->delay(1); } while(0)
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# endif
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# else
# define MB_Debug(fmt, args ...)
# endif
AP_GPS_UBLOX : : AP_GPS_UBLOX ( AP_GPS & _gps , AP_GPS : : GPS_State & _state , AP_HAL : : UARTDriver * _port , AP_GPS : : GPS_Role _role ) :
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AP_GPS_Backend ( _gps , _state , _port ) ,
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_next_message ( STEP_PVT ) ,
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_ublox_port ( 255 ) ,
_unconfigured_messages ( CONFIG_ALL ) ,
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_hardware_generation ( UBLOX_UNKNOWN_HARDWARE_GENERATION ) ,
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next_fix ( AP_GPS : : NO_FIX ) ,
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noReceivedHdop ( true ) ,
role ( _role )
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{
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// stop any config strings that are pending
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gps . send_blob_start ( state . instance , nullptr , 0 ) ;
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// start the process of updating the GPS rates
_request_next_config ( ) ;
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# if CONFIGURE_PPS_PIN
_unconfigured_messages | = CONFIG_TP5 ;
# endif
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# if GPS_MOVING_BASELINE
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if ( role = = AP_GPS : : GPS_ROLE_MB_BASE & & ! mb_use_uart2 ( ) ) {
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rtcm3_parser = new RTCM3_Parser ;
if ( rtcm3_parser = = nullptr ) {
GCS_SEND_TEXT ( MAV_SEVERITY_ERROR , " u-blox %d: failed RTCMv3 parser allocation " , state . instance + 1 ) ;
}
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_unconfigured_messages | = CONFIG_RTK_MOVBASE ;
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}
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if ( role = = AP_GPS : : GPS_ROLE_MB_ROVER ) {
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_unconfigured_messages | = CONFIG_RTK_MOVBASE ;
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state . gps_yaw_configured = true ;
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}
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# endif
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}
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AP_GPS_UBLOX : : ~ AP_GPS_UBLOX ( )
{
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# if GPS_MOVING_BASELINE
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delete rtcm3_parser ;
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# endif
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}
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# if GPS_MOVING_BASELINE
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/*
config for F9 GPS in moving baseline base role
See ZED - F9P integration manual section 3.1 .5 .6 .1
*/
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const AP_GPS_UBLOX : : config_list AP_GPS_UBLOX : : config_MB_Base_uart1 [ ] {
{ ConfigKey : : CFG_UART1OUTPROT_RTCM3X , 1 } ,
{ ConfigKey : : CFG_UART2OUTPROT_RTCM3X , 0 } ,
{ ConfigKey : : MSGOUT_UBX_NAV_RELPOSNED_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_UBX_NAV_RELPOSNED_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_0_UART1 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_1_UART1 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1077_UART1 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1087_UART1 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1097_UART1 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1127_UART1 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1230_UART1 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_0_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_1_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1077_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1087_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1097_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1127_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1230_UART2 , 0 } ,
} ;
const AP_GPS_UBLOX : : config_list AP_GPS_UBLOX : : config_MB_Base_uart2 [ ] {
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{ ConfigKey : : CFG_UART2_ENABLED , 1 } ,
{ ConfigKey : : CFG_UART2_BAUDRATE , 460800 } ,
{ ConfigKey : : CFG_UART2OUTPROT_RTCM3X , 1 } ,
{ ConfigKey : : CFG_UART1OUTPROT_RTCM3X , 0 } ,
{ ConfigKey : : CFG_UART1INPROT_RTCM3X , 1 } ,
{ ConfigKey : : MSGOUT_UBX_NAV_RELPOSNED_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_UBX_NAV_RELPOSNED_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_0_UART2 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_1_UART2 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1077_UART2 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1087_UART2 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1097_UART2 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1127_UART2 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1230_UART2 , RTK_MB_RTCM_RATE } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_0_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_1_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1077_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1087_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1097_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1127_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1230_UART1 , 0 } ,
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} ;
/*
config for F9 GPS in moving baseline rover role
See ZED - F9P integration manual section 3.1 .5 .6 .1 .
Note that we list the RTCM msg types as 0 to prevent getting RTCM
data from a GPS previously configured as a base
*/
const AP_GPS_UBLOX : : config_list AP_GPS_UBLOX : : config_MB_Rover_uart1 [ ] {
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{ ConfigKey : : CFG_UART2OUTPROT_RTCM3X , 0 } ,
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{ ConfigKey : : CFG_UART1INPROT_RTCM3X , 1 } ,
{ ConfigKey : : CFG_UART2INPROT_RTCM3X , 0 } ,
{ ConfigKey : : MSGOUT_UBX_NAV_RELPOSNED_UART1 , 1 } ,
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{ ConfigKey : : MSGOUT_UBX_NAV_RELPOSNED_UART2 , 0 } ,
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{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_0_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_1_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1077_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1087_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1097_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1127_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1230_UART1 , 0 } ,
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{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_0_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_1_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1077_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1087_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1097_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1127_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1230_UART2 , 0 } ,
} ;
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const AP_GPS_UBLOX : : config_list AP_GPS_UBLOX : : config_MB_Rover_uart2 [ ] {
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{ ConfigKey : : CFG_UART2_ENABLED , 1 } ,
{ ConfigKey : : CFG_UART2_BAUDRATE , 460800 } ,
{ ConfigKey : : CFG_UART2OUTPROT_RTCM3X , 0 } ,
{ ConfigKey : : CFG_UART2INPROT_RTCM3X , 1 } ,
{ ConfigKey : : CFG_UART1INPROT_RTCM3X , 0 } ,
{ ConfigKey : : MSGOUT_UBX_NAV_RELPOSNED_UART1 , 1 } ,
{ ConfigKey : : MSGOUT_UBX_NAV_RELPOSNED_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_0_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_1_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1077_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1087_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1097_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1127_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1230_UART2 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_0_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE4072_1_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1077_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1087_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1097_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1127_UART1 , 0 } ,
{ ConfigKey : : MSGOUT_RTCM_3X_TYPE1230_UART1 , 0 } ,
} ;
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# endif // GPS_MOVING_BASELINE
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void
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AP_GPS_UBLOX : : _request_next_config ( void )
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{
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// don't request config if we shouldn't configure the GPS
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if ( gps . _auto_config = = AP_GPS : : GPS_AUTO_CONFIG_DISABLE ) {
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return ;
}
// Ensure there is enough space for the largest possible outgoing message
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if ( port - > txspace ( ) < ( uint16_t ) ( sizeof ( struct ubx_header ) + sizeof ( struct ubx_cfg_nav_rate ) + 2 ) ) {
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// not enough space - do it next time
return ;
}
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if ( _unconfigured_messages = = CONFIG_RATE_SOL & & havePvtMsg ) {
/*
we don ' t need SOL if we have PVT and TIMEGPS . This is needed
as F9P doesn ' t support the SOL message
*/
_unconfigured_messages & = ~ CONFIG_RATE_SOL ;
}
Debug ( " Unconfigured messages: 0x%x Current message: %u \n " , ( unsigned ) _unconfigured_messages , ( unsigned ) _next_message ) ;
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// check AP_GPS_UBLOX.h for the enum that controls the order.
// This switch statement isn't maintained against the enum in order to reduce code churn
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switch ( _next_message + + ) {
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case STEP_PVT :
if ( ! _request_message_rate ( CLASS_NAV , MSG_PVT ) ) {
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_next_message - - ;
}
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break ;
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case STEP_TIMEGPS :
if ( ! _request_message_rate ( CLASS_NAV , MSG_TIMEGPS ) ) {
_next_message - - ;
}
break ;
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case STEP_PORT :
_request_port ( ) ;
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break ;
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case STEP_POLL_SVINFO :
// not required once we know what generation we are on
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if ( _hardware_generation = = UBLOX_UNKNOWN_HARDWARE_GENERATION ) {
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if ( ! _send_message ( CLASS_NAV , MSG_NAV_SVINFO , 0 , 0 ) ) {
_next_message - - ;
}
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}
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break ;
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case STEP_POLL_SBAS :
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if ( gps . _sbas_mode ! = AP_GPS : : SBAS_Mode : : DoNotChange ) {
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_send_message ( CLASS_CFG , MSG_CFG_SBAS , nullptr , 0 ) ;
} else {
_unconfigured_messages & = ~ CONFIG_SBAS ;
}
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break ;
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case STEP_POLL_NAV :
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if ( ! _send_message ( CLASS_CFG , MSG_CFG_NAV_SETTINGS , nullptr , 0 ) ) {
_next_message - - ;
}
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break ;
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case STEP_POLL_GNSS :
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if ( ! _send_message ( CLASS_CFG , MSG_CFG_GNSS , nullptr , 0 ) ) {
_next_message - - ;
}
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break ;
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case STEP_POLL_TP5 :
# if CONFIGURE_PPS_PIN
if ( ! _send_message ( CLASS_CFG , MSG_CFG_TP5 , nullptr , 0 ) ) {
_next_message - - ;
}
# endif
break ;
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case STEP_NAV_RATE :
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if ( ! _send_message ( CLASS_CFG , MSG_CFG_RATE , nullptr , 0 ) ) {
_next_message - - ;
}
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break ;
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case STEP_POSLLH :
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if ( ! _request_message_rate ( CLASS_NAV , MSG_POSLLH ) ) {
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_next_message - - ;
}
break ;
case STEP_STATUS :
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if ( ! _request_message_rate ( CLASS_NAV , MSG_STATUS ) ) {
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_next_message - - ;
}
break ;
case STEP_SOL :
if ( ! _request_message_rate ( CLASS_NAV , MSG_SOL ) ) {
_next_message - - ;
}
break ;
case STEP_VELNED :
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if ( ! _request_message_rate ( CLASS_NAV , MSG_VELNED ) ) {
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_next_message - - ;
}
break ;
case STEP_DOP :
if ( ! _request_message_rate ( CLASS_NAV , MSG_DOP ) ) {
_next_message - - ;
}
break ;
case STEP_MON_HW :
if ( ! _request_message_rate ( CLASS_MON , MSG_MON_HW ) ) {
_next_message - - ;
}
break ;
case STEP_MON_HW2 :
if ( ! _request_message_rate ( CLASS_MON , MSG_MON_HW2 ) ) {
_next_message - - ;
}
break ;
case STEP_RAW :
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# if UBLOX_RXM_RAW_LOGGING
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if ( gps . _raw_data = = 0 ) {
_unconfigured_messages & = ~ CONFIG_RATE_RAW ;
} else if ( ! _request_message_rate ( CLASS_RXM , MSG_RXM_RAW ) ) {
_next_message - - ;
}
# else
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_unconfigured_messages & = ~ CONFIG_RATE_RAW ;
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# endif
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break ;
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case STEP_RAWX :
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# if UBLOX_RXM_RAW_LOGGING
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if ( gps . _raw_data = = 0 ) {
_unconfigured_messages & = ~ CONFIG_RATE_RAW ;
} else if ( ! _request_message_rate ( CLASS_RXM , MSG_RXM_RAWX ) ) {
_next_message - - ;
}
# else
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_unconfigured_messages & = ~ CONFIG_RATE_RAW ;
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# endif
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break ;
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case STEP_VERSION :
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if ( ! _have_version & & ! hal . util - > get_soft_armed ( ) ) {
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_request_version ( ) ;
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} else {
_unconfigured_messages & = ~ CONFIG_VERSION ;
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}
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break ;
case STEP_TMODE :
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if ( supports_F9_config ( ) ) {
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if ( ! _configure_valget ( ConfigKey : : TMODE_MODE ) ) {
_next_message - - ;
}
}
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break ;
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case STEP_RTK_MOVBASE :
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# if GPS_MOVING_BASELINE
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if ( supports_F9_config ( ) ) {
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static_assert ( sizeof ( active_config . done_mask ) * 8 > = ARRAY_SIZE ( config_MB_Base_uart1 ) , " done_mask too small, base1 " ) ;
static_assert ( sizeof ( active_config . done_mask ) * 8 > = ARRAY_SIZE ( config_MB_Base_uart2 ) , " done_mask too small, base2 " ) ;
static_assert ( sizeof ( active_config . done_mask ) * 8 > = ARRAY_SIZE ( config_MB_Rover_uart1 ) , " done_mask too small, rover1 " ) ;
static_assert ( sizeof ( active_config . done_mask ) * 8 > = ARRAY_SIZE ( config_MB_Rover_uart2 ) , " done_mask too small, rover2 " ) ;
if ( role = = AP_GPS : : GPS_ROLE_MB_BASE ) {
const config_list * list = mb_use_uart2 ( ) ? config_MB_Base_uart2 : config_MB_Base_uart1 ;
uint8_t list_length = mb_use_uart2 ( ) ? ARRAY_SIZE ( config_MB_Base_uart2 ) : ARRAY_SIZE ( config_MB_Base_uart1 ) ;
if ( ! _configure_config_set ( list , list_length , CONFIG_RTK_MOVBASE ) ) {
_next_message - - ;
}
2019-11-16 00:26:28 -04:00
}
2020-04-03 00:54:15 -03:00
if ( role = = AP_GPS : : GPS_ROLE_MB_ROVER ) {
const config_list * list = mb_use_uart2 ( ) ? config_MB_Rover_uart2 : config_MB_Rover_uart1 ;
uint8_t list_length = mb_use_uart2 ( ) ? ARRAY_SIZE ( config_MB_Rover_uart2 ) : ARRAY_SIZE ( config_MB_Rover_uart1 ) ;
if ( ! _configure_config_set ( list , list_length , CONFIG_RTK_MOVBASE ) ) {
_next_message - - ;
}
2019-11-16 00:26:28 -04:00
}
}
2020-04-03 03:52:42 -03:00
# endif
2019-11-16 00:26:28 -04:00
break ;
2014-03-23 22:02:37 -03:00
default :
2016-02-02 03:58:33 -04:00
// this case should never be reached, do a full reset if it is hit
2017-01-12 02:19:35 -04:00
_next_message = STEP_PVT ;
2014-03-23 22:02:37 -03:00
break ;
2013-10-01 23:32:32 -03:00
}
}
2016-02-02 03:58:33 -04:00
void
AP_GPS_UBLOX : : _verify_rate ( uint8_t msg_class , uint8_t msg_id , uint8_t rate ) {
2017-01-12 02:19:35 -04:00
uint8_t desired_rate ;
2022-01-08 04:00:52 -04:00
uint32_t config_msg_id ;
2016-02-02 03:58:33 -04:00
switch ( msg_class ) {
case CLASS_NAV :
switch ( msg_id ) {
case MSG_POSLLH :
2017-01-12 02:19:35 -04:00
desired_rate = havePvtMsg ? 0 : RATE_POSLLH ;
2022-01-08 04:00:52 -04:00
config_msg_id = CONFIG_RATE_POSLLH ;
2016-02-02 03:58:33 -04:00
break ;
case MSG_STATUS :
2017-01-12 02:19:35 -04:00
desired_rate = havePvtMsg ? 0 : RATE_STATUS ;
2022-01-08 04:00:52 -04:00
config_msg_id = CONFIG_RATE_STATUS ;
2016-02-02 03:58:33 -04:00
break ;
case MSG_SOL :
2019-03-30 01:21:11 -03:00
desired_rate = havePvtMsg ? 0 : RATE_SOL ;
2022-01-08 04:00:52 -04:00
config_msg_id = CONFIG_RATE_SOL ;
2016-02-02 03:58:33 -04:00
break ;
2016-07-30 20:38:43 -03:00
case MSG_PVT :
2022-01-08 04:00:52 -04:00
desired_rate = RATE_PVT ;
config_msg_id = CONFIG_RATE_PVT ;
2016-07-30 20:38:43 -03:00
break ;
2019-03-30 01:21:11 -03:00
case MSG_TIMEGPS :
2022-01-08 04:00:52 -04:00
desired_rate = RATE_TIMEGPS ;
config_msg_id = CONFIG_RATE_TIMEGPS ;
2019-03-30 01:21:11 -03:00
break ;
2016-02-02 03:58:33 -04:00
case MSG_VELNED :
2017-01-12 02:19:35 -04:00
desired_rate = havePvtMsg ? 0 : RATE_VELNED ;
2022-01-08 04:00:52 -04:00
config_msg_id = CONFIG_RATE_VELNED ;
2016-02-02 03:58:33 -04:00
break ;
case MSG_DOP :
2022-01-08 04:00:52 -04:00
desired_rate = RATE_DOP ;
config_msg_id = CONFIG_RATE_DOP ;
2016-02-02 03:58:33 -04:00
break ;
2022-01-08 04:00:52 -04:00
default :
return ;
2016-02-02 03:58:33 -04:00
}
break ;
case CLASS_MON :
switch ( msg_id ) {
case MSG_MON_HW :
2022-01-08 04:00:52 -04:00
desired_rate = RATE_HW ;
config_msg_id = CONFIG_RATE_MON_HW ;
2016-02-02 03:58:33 -04:00
break ;
case MSG_MON_HW2 :
2022-01-08 04:00:52 -04:00
desired_rate = RATE_HW2 ;
config_msg_id = CONFIG_RATE_MON_HW2 ;
2016-02-02 03:58:33 -04:00
break ;
2022-01-08 04:00:52 -04:00
default :
return ;
2016-02-02 03:58:33 -04:00
}
break ;
# if UBLOX_RXM_RAW_LOGGING
case CLASS_RXM :
switch ( msg_id ) {
case MSG_RXM_RAW :
2022-01-08 04:00:52 -04:00
desired_rate = gps . _raw_data ;
config_msg_id = CONFIG_RATE_RAW ;
2016-02-02 03:58:33 -04:00
break ;
case MSG_RXM_RAWX :
2022-01-08 04:00:52 -04:00
desired_rate = gps . _raw_data ;
config_msg_id = CONFIG_RATE_RAW ;
2016-02-02 03:58:33 -04:00
break ;
2022-01-08 04:00:52 -04:00
default :
return ;
2016-02-02 03:58:33 -04:00
}
break ;
# endif // UBLOX_RXM_RAW_LOGGING
2022-01-08 04:00:52 -04:00
default :
return ;
2016-02-02 03:58:33 -04:00
}
2022-01-08 04:00:52 -04:00
if ( rate = = desired_rate ) {
// coming in at correct rate; mark as configured
_unconfigured_messages & = ~ config_msg_id ;
return ;
}
// coming in at wrong rate; try to configure it
_configure_message_rate ( msg_class , msg_id , desired_rate ) ;
_unconfigured_messages | = config_msg_id ;
_cfg_needs_save = true ;
2016-02-02 03:58:33 -04:00
}
2013-10-01 23:32:32 -03:00
2016-02-02 03:58:33 -04:00
// Requests the ublox driver to identify what port we are using to communicate
void
AP_GPS_UBLOX : : _request_port ( void )
{
2019-11-06 07:35:25 -04:00
if ( port - > txspace ( ) < ( uint16_t ) ( sizeof ( struct ubx_header ) + 2 ) ) {
2016-02-02 03:58:33 -04:00
// not enough space - do it next time
return ;
}
2016-10-30 02:24:21 -03:00
_send_message ( CLASS_CFG , MSG_CFG_PRT , nullptr , 0 ) ;
2016-02-02 03:58:33 -04:00
}
2019-01-04 00:40:41 -04:00
// Ensure there is enough space for the largest possible outgoing message
2010-09-06 19:31:18 -03:00
// 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.
//
2010-12-24 02:35:09 -04:00
bool
AP_GPS_UBLOX : : read ( void )
2010-09-06 17:16:50 -03:00
{
2012-08-21 23:19:52 -03:00
bool parsed = false ;
2015-11-19 23:10:22 -04:00
uint32_t millis_now = AP_HAL : : millis ( ) ;
2011-10-28 15:52:50 -03:00
2016-02-02 03:58:33 -04:00
// walk through the gps configuration at 1 message per second
if ( millis_now - _last_config_time > = _delay_time ) {
_request_next_config ( ) ;
_last_config_time = millis_now ;
if ( _unconfigured_messages ) { // send the updates faster until fully configured
2017-02-15 19:20:21 -04:00
if ( ! havePvtMsg & & ( _unconfigured_messages & CONFIG_REQUIRED_INITIAL ) ) {
_delay_time = 300 ;
} else {
_delay_time = 750 ;
}
2016-02-02 03:58:33 -04:00
} else {
2016-10-16 21:56:34 -03:00
_delay_time = 2000 ;
2016-02-02 03:58:33 -04:00
}
}
2016-02-12 16:32:08 -04:00
if ( ! _unconfigured_messages & & gps . _save_config & & ! _cfg_saved & &
2016-02-02 03:58:33 -04:00
_num_cfg_save_tries < 5 & & ( millis_now - _last_cfg_sent_time ) > 5000 & &
! hal . util - > get_soft_armed ( ) ) {
//save the configuration sent until now
2016-02-12 16:32:08 -04:00
if ( gps . _save_config = = 1 | |
( gps . _save_config = = 2 & & _cfg_needs_save ) ) {
_save_cfg ( ) ;
}
2013-10-01 23:32:32 -03:00
}
2021-11-04 23:48:57 -03:00
const uint16_t numc = MIN ( port - > available ( ) , 8192U ) ;
for ( uint16_t i = 0 ; i < numc ; i + + ) { // Process bytes received
2011-10-28 15:52:50 -03:00
// read the next byte
2021-11-04 23:48:57 -03:00
const int16_t rdata = port - > read ( ) ;
if ( rdata < 0 ) {
break ;
}
const uint8_t data = rdata ;
2021-11-18 16:49:21 -04:00
# if AP_GPS_DEBUG_LOGGING_ENABLED
log_data ( & data , 1 ) ;
# endif
2011-10-28 15:52:50 -03:00
2020-09-29 16:47:37 -03:00
# if GPS_MOVING_BASELINE
2019-11-16 00:26:28 -04:00
if ( rtcm3_parser ) {
if ( rtcm3_parser - > read ( data ) ) {
// we've found a RTCMv3 packet. We stop parsing at
// this point and reset u-blox parse state. We need to
// stop parsing to give the higher level driver a
// chance to send the RTCMv3 packet to another (rover)
// GPS
_step = 0 ;
break ;
}
}
2020-04-03 03:52:42 -03:00
# endif
2019-11-16 00:26:28 -04:00
2013-01-05 01:32:42 -04:00
reset :
2011-10-28 15:52:50 -03:00
switch ( _step ) {
2012-08-21 23:19:52 -03:00
// 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.
//
2011-10-28 15:52:50 -03:00
case 1 :
if ( PREAMBLE2 = = data ) {
_step + + ;
break ;
}
_step = 0 ;
2012-08-21 23:19:52 -03:00
Debug ( " reset %u " , __LINE__ ) ;
2017-08-22 14:28:10 -03:00
FALLTHROUGH ;
2011-10-28 15:52:50 -03:00
case 0 :
if ( PREAMBLE1 = = data )
_step + + ;
break ;
2012-08-21 23:19:52 -03:00
// 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.
//
2011-10-28 15:52:50 -03:00
case 2 :
_step + + ;
2012-08-21 23:19:52 -03:00
_class = data ;
2019-01-04 00:40:41 -04:00
_ck_b = _ck_a = data ; // reset the checksum accumulators
2011-10-28 15:52:50 -03:00
break ;
case 3 :
_step + + ;
2012-08-21 23:19:52 -03:00
_ck_b + = ( _ck_a + = data ) ; // checksum byte
2011-10-28 15:52:50 -03:00
_msg_id = data ;
break ;
case 4 :
_step + + ;
2012-08-21 23:19:52 -03:00
_ck_b + = ( _ck_a + = data ) ; // checksum byte
2019-01-04 00:40:41 -04:00
_payload_length = data ; // payload length low byte
2011-10-28 15:52:50 -03:00
break ;
case 5 :
_step + + ;
2012-08-21 23:19:52 -03:00
_ck_b + = ( _ck_a + = data ) ; // checksum byte
2012-06-10 03:34:13 -03:00
_payload_length + = ( uint16_t ) ( data < < 8 ) ;
2015-07-20 00:12:58 -03:00
if ( _payload_length > sizeof ( _buffer ) ) {
2012-08-21 23:19:52 -03:00
Debug ( " large payload %u " , ( unsigned ) _payload_length ) ;
2015-07-20 00:12:58 -03:00
// assume any payload bigger then what we know about is noise
2012-08-21 23:19:52 -03:00
_payload_length = 0 ;
_step = 0 ;
2013-01-05 01:32:42 -04:00
goto reset ;
2012-08-21 23:19:52 -03:00
}
2019-01-04 00:40:41 -04:00
_payload_counter = 0 ; // prepare to receive payload
2019-09-26 08:14:41 -03:00
if ( _payload_length = = 0 ) {
// bypass payload and go straight to checksum
_step + + ;
}
2011-10-28 15:52:50 -03:00
break ;
2012-08-21 23:19:52 -03:00
// Receive message data
//
2011-10-28 15:52:50 -03:00
case 6 :
2012-08-21 23:19:52 -03:00
_ck_b + = ( _ck_a + = data ) ; // checksum byte
if ( _payload_counter < sizeof ( _buffer ) ) {
2016-06-06 10:49:46 -03:00
_buffer [ _payload_counter ] = data ;
2012-08-21 23:19:52 -03:00
}
2011-10-28 15:52:50 -03:00
if ( + + _payload_counter = = _payload_length )
_step + + ;
break ;
2012-08-21 23:19:52 -03:00
// Checksum and message processing
//
2011-10-28 15:52:50 -03:00
case 7 :
_step + + ;
2012-06-08 03:39:12 -03:00
if ( _ck_a ! = data ) {
2012-08-21 23:19:52 -03:00
Debug ( " bad cka %x should be %x " , data , _ck_a ) ;
2013-01-05 01:32:42 -04:00
_step = 0 ;
goto reset ;
2012-08-21 23:19:52 -03:00
}
2011-10-28 15:52:50 -03:00
break ;
case 8 :
_step = 0 ;
2012-06-08 03:39:12 -03:00
if ( _ck_b ! = data ) {
2012-08-21 23:19:52 -03:00
Debug ( " bad ckb %x should be %x " , data , _ck_b ) ;
break ; // bad checksum
}
2011-10-28 15:52:50 -03:00
2020-09-29 16:47:37 -03:00
# if GPS_MOVING_BASELINE
2019-11-16 00:26:28 -04:00
if ( rtcm3_parser ) {
// this is a uBlox packet, discard any partial RTCMv3 state
rtcm3_parser - > reset ( ) ;
}
2020-04-03 03:52:42 -03:00
# endif
2012-08-21 23:19:52 -03:00
if ( _parse_gps ( ) ) {
parsed = true ;
2011-10-28 15:52:50 -03:00
}
2015-07-14 02:23:10 -03:00
break ;
2011-10-28 15:52:50 -03:00
}
}
return parsed ;
2010-09-06 17:16:50 -03:00
}
2010-09-06 19:31:18 -03:00
// Private Methods /////////////////////////////////////////////////////////////
2014-03-23 22:02:37 -03:00
void AP_GPS_UBLOX : : log_mon_hw ( void )
{
2021-05-17 03:51:36 -03:00
# if HAL_LOGGING_ENABLED
2019-02-11 04:19:08 -04:00
if ( ! should_log ( ) ) {
2014-03-23 22:02:37 -03:00
return ;
}
struct log_Ubx1 pkt = {
2020-11-10 01:19:37 -04:00
LOG_PACKET_HEADER_INIT ( LOG_GPS_UBX1_MSG ) ,
2015-11-19 23:10:22 -04:00
time_us : AP_HAL : : micros64 ( ) ,
2014-03-28 16:52:27 -03:00
instance : state . instance ,
2014-04-02 20:55:05 -03:00
noisePerMS : _buffer . mon_hw_60 . noisePerMS ,
jamInd : _buffer . mon_hw_60 . jamInd ,
2014-10-28 16:50:51 -03:00
aPower : _buffer . mon_hw_60 . aPower ,
agcCnt : _buffer . mon_hw_60 . agcCnt ,
2017-10-04 15:08:38 -03:00
config : _unconfigured_messages ,
2014-03-23 22:02:37 -03:00
} ;
2014-04-02 20:55:05 -03:00
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 ;
2014-10-28 16:50:51 -03:00
pkt . agcCnt = _buffer . mon_hw_68 . agcCnt ;
2014-04-02 20:55:05 -03:00
}
2019-01-18 00:24:08 -04:00
AP : : logger ( ) . WriteBlock ( & pkt , sizeof ( pkt ) ) ;
2019-05-26 22:34:13 -03:00
# endif
2014-03-23 22:02:37 -03:00
}
void AP_GPS_UBLOX : : log_mon_hw2 ( void )
{
2021-05-17 03:51:36 -03:00
# if HAL_LOGGING_ENABLED
2019-02-11 04:19:08 -04:00
if ( ! should_log ( ) ) {
2014-03-23 22:02:37 -03:00
return ;
}
struct log_Ubx2 pkt = {
2020-11-10 01:19:37 -04:00
LOG_PACKET_HEADER_INIT ( LOG_GPS_UBX2_MSG ) ,
2015-11-19 23:10:22 -04:00
time_us : AP_HAL : : micros64 ( ) ,
2014-03-28 16:52:27 -03:00
instance : state . instance ,
2014-03-23 22:02:37 -03:00
ofsI : _buffer . mon_hw2 . ofsI ,
magI : _buffer . mon_hw2 . magI ,
ofsQ : _buffer . mon_hw2 . ofsQ ,
magQ : _buffer . mon_hw2 . magQ ,
} ;
2019-01-18 00:24:08 -04:00
AP : : logger ( ) . WriteBlock ( & pkt , sizeof ( pkt ) ) ;
2019-05-26 22:34:13 -03:00
# endif
2014-03-23 22:02:37 -03:00
}
2014-10-28 16:44:07 -03:00
2015-05-04 05:18:34 -03:00
# if UBLOX_RXM_RAW_LOGGING
void AP_GPS_UBLOX : : log_rxm_raw ( const struct ubx_rxm_raw & raw )
{
2021-05-17 03:51:36 -03:00
# if HAL_LOGGING_ENABLED
2019-02-11 04:19:08 -04:00
if ( ! should_log ( ) ) {
2015-05-04 05:18:34 -03:00
return ;
}
2017-06-27 05:12:45 -03:00
2015-11-19 23:10:22 -04:00
uint64_t now = AP_HAL : : micros64 ( ) ;
2015-05-04 05:18:34 -03:00
for ( uint8_t i = 0 ; i < raw . numSV ; i + + ) {
struct log_GPS_RAW pkt = {
LOG_PACKET_HEADER_INIT ( LOG_GPS_RAW_MSG ) ,
2015-04-30 00:49:03 -03:00
time_us : now ,
2015-05-04 05:18:34 -03:00
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
} ;
2019-01-18 00:24:08 -04:00
AP : : logger ( ) . WriteBlock ( & pkt , sizeof ( pkt ) ) ;
2015-05-04 05:18:34 -03:00
}
2019-05-26 22:34:13 -03:00
# endif
2015-05-04 05:18:34 -03:00
}
2015-06-29 19:04:35 -03:00
void AP_GPS_UBLOX : : log_rxm_rawx ( const struct ubx_rxm_rawx & raw )
{
2021-05-17 03:51:36 -03:00
# if HAL_LOGGING_ENABLED
2019-02-11 04:19:08 -04:00
if ( ! should_log ( ) ) {
2015-06-29 19:04:35 -03:00
return ;
}
2017-06-27 05:12:45 -03:00
2015-11-19 23:10:22 -04:00
uint64_t now = AP_HAL : : micros64 ( ) ;
2015-06-29 19:04:35 -03:00
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
} ;
2019-01-18 00:24:08 -04:00
AP : : logger ( ) . WriteBlock ( & header , sizeof ( header ) ) ;
2015-06-29 19:04:35 -03:00
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
} ;
2019-01-18 00:24:08 -04:00
AP : : logger ( ) . WriteBlock ( & pkt , sizeof ( pkt ) ) ;
2015-06-29 19:04:35 -03:00
}
2019-05-26 22:34:13 -03:00
# endif
2015-06-29 19:04:35 -03:00
}
2015-05-04 05:18:34 -03:00
# endif // UBLOX_RXM_RAW_LOGGING
2014-03-23 22:02:37 -03:00
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 ) ;
}
}
2010-09-06 19:31:18 -03:00
2019-11-16 00:26:28 -04:00
// return size of a config key, or 0 if unknown
uint8_t AP_GPS_UBLOX : : config_key_size ( ConfigKey key ) const
{
// step over the value
const uint8_t key_size = ( uint32_t ( key ) > > 28 ) & 0x07 ; // mask off the storage size
switch ( key_size ) {
case 0x1 : // bit
case 0x2 : // byte
return 1 ;
case 0x3 : // 2 bytes
return 2 ;
case 0x4 : // 4 bytes
return 4 ;
case 0x5 : // 8 bytes
return 8 ;
default :
break ;
}
// invalid
return 0 ;
}
/*
find index of a config key in the active_config list , or - 1
*/
int8_t AP_GPS_UBLOX : : find_active_config_index ( ConfigKey key ) const
{
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# if GPS_MOVING_BASELINE
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if ( active_config . list = = nullptr ) {
return - 1 ;
}
for ( uint8_t i = 0 ; i < active_config . count ; i + + ) {
if ( key = = active_config . list [ i ] . key ) {
return ( int8_t ) i ;
}
}
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# endif
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return - 1 ;
}
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bool
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AP_GPS_UBLOX : : _parse_gps ( void )
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{
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if ( _class = = CLASS_ACK ) {
Debug ( " ACK %u " , ( unsigned ) _msg_id ) ;
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if ( _msg_id = = MSG_ACK_ACK ) {
switch ( _buffer . ack . clsID ) {
case CLASS_CFG :
switch ( _buffer . ack . msgID ) {
case MSG_CFG_CFG :
_cfg_saved = true ;
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_cfg_needs_save = false ;
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break ;
case MSG_CFG_GNSS :
_unconfigured_messages & = ~ CONFIG_GNSS ;
break ;
case MSG_CFG_MSG :
// There is no way to know what MSG config was ack'ed, assume it was the last
// one requested. To verify it rerequest the last config we sent. If we miss
// the actual ack we will catch it next time through the poll loop, but that
// will be a good chunk of time later.
break ;
case MSG_CFG_NAV_SETTINGS :
_unconfigured_messages & = ~ CONFIG_NAV_SETTINGS ;
break ;
case MSG_CFG_RATE :
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// The GPS will ACK a update rate that is invalid. in order to detect this
// only accept the rate as configured by reading the settings back and
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// validating that they all match the target values
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break ;
case MSG_CFG_SBAS :
_unconfigured_messages & = ~ CONFIG_SBAS ;
break ;
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case MSG_CFG_TP5 :
_unconfigured_messages & = ~ CONFIG_TP5 ;
break ;
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}
break ;
case CLASS_MON :
switch ( _buffer . ack . msgID ) {
case MSG_MON_HW :
_unconfigured_messages & = ~ CONFIG_RATE_MON_HW ;
break ;
case MSG_MON_HW2 :
_unconfigured_messages & = ~ CONFIG_RATE_MON_HW2 ;
break ;
}
}
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}
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return false ;
}
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if ( _class = = CLASS_CFG ) {
switch ( _msg_id ) {
case 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 ) ) ;
_unconfigured_messages | = CONFIG_NAV_SETTINGS ;
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_cfg_needs_save = true ;
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} else {
_unconfigured_messages & = ~ CONFIG_NAV_SETTINGS ;
}
return false ;
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# if UBLOX_GNSS_SETTINGS
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case MSG_CFG_GNSS :
if ( gps . _gnss_mode [ state . instance ] ! = 0 ) {
struct ubx_cfg_gnss start_gnss = _buffer . gnss ;
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 ) ;
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# if UBLOX_DEBUGGING
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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 ) ;
}
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# endif
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for ( int i = 0 ; i < UBLOX_MAX_GNSS_CONFIG_BLOCKS ; i + + ) {
if ( ( gps . _gnss_mode [ state . instance ] & ( 1 < < i ) ) & & i ! = GNSS_SBAS ) {
gnssCount + + ;
}
}
for ( int i = 0 ; i < _buffer . gnss . numConfigBlocks ; i + + ) {
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// Reserve an equal portion of channels for all enabled systems that supports it
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if ( gps . _gnss_mode [ state . instance ] & ( 1 < < _buffer . gnss . configBlock [ i ] . gnssId ) ) {
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if ( GNSS_SBAS ! = _buffer . gnss . configBlock [ i ] . gnssId & & ( _hardware_generation > UBLOX_M8 | | GNSS_GALILEO ! = _buffer . gnss . configBlock [ i ] . gnssId ) ) {
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_buffer . gnss . configBlock [ i ] . resTrkCh = ( _buffer . gnss . numTrkChHw - 3 ) / ( gnssCount * 2 ) ;
_buffer . gnss . configBlock [ i ] . maxTrkCh = _buffer . gnss . numTrkChHw ;
} else {
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if ( GNSS_SBAS = = _buffer . gnss . configBlock [ i ] . gnssId ) {
_buffer . gnss . configBlock [ i ] . resTrkCh = 1 ;
_buffer . gnss . configBlock [ i ] . maxTrkCh = 3 ;
}
if ( GNSS_GALILEO = = _buffer . gnss . configBlock [ i ] . gnssId ) {
_buffer . gnss . configBlock [ i ] . resTrkCh = ( _buffer . gnss . numTrkChHw - 3 ) / ( gnssCount * 2 ) ;
_buffer . gnss . configBlock [ i ] . maxTrkCh = 8 ; //Per the M8 receiver description UBX-13003221 - R16, 4.1.1.3 it is not recommended to set the number of galileo channels higher then eigh
}
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}
_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 ;
}
}
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if ( memcmp ( & start_gnss , & _buffer . gnss , sizeof ( start_gnss ) ) ) {
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_send_message ( CLASS_CFG , MSG_CFG_GNSS , & _buffer . gnss , 4 + ( 8 * _buffer . gnss . numConfigBlocks ) ) ;
_unconfigured_messages | = CONFIG_GNSS ;
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_cfg_needs_save = true ;
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} else {
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_unconfigured_messages & = ~ CONFIG_GNSS ;
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}
} else {
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_unconfigured_messages & = ~ CONFIG_GNSS ;
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}
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return false ;
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# endif
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case MSG_CFG_SBAS :
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if ( gps . _sbas_mode ! = AP_GPS : : SBAS_Mode : : DoNotChange ) {
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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 ) ) ;
_unconfigured_messages | = CONFIG_SBAS ;
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_cfg_needs_save = true ;
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} else {
_unconfigured_messages & = ~ CONFIG_SBAS ;
}
} else {
_unconfigured_messages & = ~ CONFIG_SBAS ;
}
return false ;
case MSG_CFG_MSG :
if ( _payload_length = = sizeof ( ubx_cfg_msg_rate_6 ) ) {
// can't verify the setting without knowing the port
// request the port again
if ( _ublox_port > = UBLOX_MAX_PORTS ) {
_request_port ( ) ;
return false ;
}
_verify_rate ( _buffer . msg_rate_6 . msg_class , _buffer . msg_rate_6 . msg_id ,
_buffer . msg_rate_6 . rates [ _ublox_port ] ) ;
} else {
_verify_rate ( _buffer . msg_rate . msg_class , _buffer . msg_rate . msg_id ,
_buffer . msg_rate . rate ) ;
}
return false ;
case MSG_CFG_PRT :
_ublox_port = _buffer . prt . portID ;
return false ;
case MSG_CFG_RATE :
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if ( _buffer . nav_rate . measure_rate_ms ! = gps . _rate_ms [ state . instance ] | |
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_buffer . nav_rate . nav_rate ! = 1 | |
_buffer . nav_rate . timeref ! = 0 ) {
_configure_rate ( ) ;
_unconfigured_messages | = CONFIG_RATE_NAV ;
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_cfg_needs_save = true ;
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} else {
_unconfigured_messages & = ~ CONFIG_RATE_NAV ;
}
return false ;
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# if CONFIGURE_PPS_PIN
case MSG_CFG_TP5 : {
// configure the PPS pin for 1Hz, zero delay
Debug ( " Got TP5 ver=%u 0x%04x %u \n " ,
( unsigned ) _buffer . nav_tp5 . version ,
( unsigned ) _buffer . nav_tp5 . flags ,
( unsigned ) _buffer . nav_tp5 . freqPeriod ) ;
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# ifdef HAL_GPIO_PPS
hal . gpio - > attach_interrupt ( HAL_GPIO_PPS , FUNCTOR_BIND_MEMBER ( & AP_GPS_UBLOX : : pps_interrupt , void , uint8_t , bool , uint32_t ) , AP_HAL : : GPIO : : INTERRUPT_FALLING ) ;
# endif
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const uint16_t desired_flags = 0x003f ;
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const uint16_t desired_period_hz = _pps_freq ;
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if ( _buffer . nav_tp5 . flags ! = desired_flags | |
_buffer . nav_tp5 . freqPeriod ! = desired_period_hz ) {
_buffer . nav_tp5 . tpIdx = 0 ;
_buffer . nav_tp5 . reserved1 [ 0 ] = 0 ;
_buffer . nav_tp5 . reserved1 [ 1 ] = 0 ;
_buffer . nav_tp5 . antCableDelay = 0 ;
_buffer . nav_tp5 . rfGroupDelay = 0 ;
_buffer . nav_tp5 . freqPeriod = desired_period_hz ;
_buffer . nav_tp5 . freqPeriodLock = desired_period_hz ;
_buffer . nav_tp5 . pulseLenRatio = 1 ;
_buffer . nav_tp5 . pulseLenRatioLock = 2 ;
_buffer . nav_tp5 . userConfigDelay = 0 ;
_buffer . nav_tp5 . flags = desired_flags ;
_send_message ( CLASS_CFG , MSG_CFG_TP5 ,
& _buffer . nav_tp5 ,
sizeof ( _buffer . nav_tp5 ) ) ;
_unconfigured_messages | = CONFIG_TP5 ;
_cfg_needs_save = true ;
} else {
_unconfigured_messages & = ~ CONFIG_TP5 ;
}
return false ;
}
# endif // CONFIGURE_PPS_PIN
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case MSG_CFG_VALGET : {
uint8_t cfg_len = _payload_length - sizeof ( ubx_cfg_valget ) ;
const uint8_t * cfg_data = ( const uint8_t * ) ( & _buffer ) + sizeof ( ubx_cfg_valget ) ;
while ( cfg_len > = 5 ) {
ConfigKey id ;
memcpy ( & id , cfg_data , sizeof ( uint32_t ) ) ;
cfg_len - = 4 ;
cfg_data + = 4 ;
switch ( id ) {
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case ConfigKey : : TMODE_MODE : {
uint8_t mode = cfg_data [ 0 ] ;
if ( mode ! = 0 ) {
// ask for mode 0, to disable TIME mode
mode = 0 ;
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_configure_valset ( ConfigKey : : TMODE_MODE , & mode ) ;
_cfg_needs_save = true ;
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_unconfigured_messages | = CONFIG_TMODE_MODE ;
} else {
_unconfigured_messages & = ~ CONFIG_TMODE_MODE ;
}
break ;
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}
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default :
break ;
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}
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# if GPS_MOVING_BASELINE
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// see if it is in active config list
int8_t cfg_idx = find_active_config_index ( id ) ;
if ( cfg_idx > = 0 ) {
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const uint8_t key_size = config_key_size ( id ) ;
if ( cfg_len < key_size | |
memcmp ( & active_config . list [ cfg_idx ] . value , cfg_data , key_size ) ! = 0 ) {
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_configure_valset ( id , & active_config . list [ cfg_idx ] . value ) ;
_unconfigured_messages | = active_config . unconfig_bit ;
active_config . done_mask & = ~ ( 1U < < cfg_idx ) ;
_cfg_needs_save = true ;
} else {
active_config . done_mask | = ( 1U < < cfg_idx ) ;
if ( active_config . done_mask = = ( 1U < < active_config . count ) - 1 ) {
// all done!
_unconfigured_messages & = ~ active_config . unconfig_bit ;
}
}
}
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# endif // GPS_MOVING_BASELINE
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// step over the value
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uint8_t step_size = config_key_size ( id ) ;
if ( step_size = = 0 ) {
return false ;
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}
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cfg_len - = step_size ;
cfg_data + = step_size ;
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}
}
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}
}
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if ( _class = = CLASS_MON ) {
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switch ( _msg_id ) {
case MSG_MON_HW :
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if ( _payload_length = = 60 | | _payload_length = = 68 ) {
log_mon_hw ( ) ;
}
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break ;
case MSG_MON_HW2 :
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if ( _payload_length = = 28 ) {
log_mon_hw2 ( ) ;
}
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break ;
case MSG_MON_VER :
_have_version = true ;
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strncpy ( _version . hwVersion , _buffer . mon_ver . hwVersion , sizeof ( _version . hwVersion ) ) ;
strncpy ( _version . swVersion , _buffer . mon_ver . swVersion , sizeof ( _version . swVersion ) ) ;
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GCS_SEND_TEXT ( MAV_SEVERITY_INFO ,
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" u-blox %d HW: %s SW: %s " ,
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state . instance + 1 ,
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_version . hwVersion ,
_version . swVersion ) ;
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// check for F9 and M9. The F9 does not respond to SVINFO,
// so we need to use MON_VER for hardware generation
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if ( strncmp ( _version . hwVersion , " 00190000 " , 8 ) = = 0 ) {
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if ( strncmp ( _version . swVersion , " EXT CORE 1 " , 10 ) = = 0 ) {
// a F9
if ( _hardware_generation ! = UBLOX_F9 ) {
// need to ensure time mode is correctly setup on F9
_unconfigured_messages | = CONFIG_TMODE_MODE ;
}
_hardware_generation = UBLOX_F9 ;
}
if ( strncmp ( _version . swVersion , " EXT CORE 4 " , 10 ) = = 0 ) {
// a M9
_hardware_generation = UBLOX_M9 ;
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}
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}
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// none of the 9 series support the SOL message
_unconfigured_messages & = ~ CONFIG_RATE_SOL ;
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break ;
default :
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unexpected_message ( ) ;
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}
return false ;
}
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# 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 ;
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} else if ( _class = = CLASS_RXM & & _msg_id = = MSG_RXM_RAWX & & gps . _raw_data ! = 0 ) {
log_rxm_rawx ( _buffer . rxm_rawx ) ;
return false ;
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}
# endif // UBLOX_RXM_RAW_LOGGING
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if ( _class ! = CLASS_NAV ) {
unexpected_message ( ) ;
return false ;
}
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switch ( _msg_id ) {
case MSG_POSLLH :
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Debug ( " MSG_POSLLH next_fix=%u " , next_fix ) ;
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if ( havePvtMsg ) {
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_unconfigured_messages | = CONFIG_RATE_POSLLH ;
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break ;
}
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_check_new_itow ( _buffer . posllh . itow ) ;
_last_pos_time = _buffer . posllh . itow ;
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state . location . lng = _buffer . posllh . longitude ;
state . location . lat = _buffer . posllh . latitude ;
state . location . alt = _buffer . posllh . altitude_msl / 10 ;
state . status = next_fix ;
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_new_position = true ;
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state . horizontal_accuracy = _buffer . posllh . horizontal_accuracy * 1.0e-3 f ;
state . vertical_accuracy = _buffer . posllh . vertical_accuracy * 1.0e-3 f ;
state . have_horizontal_accuracy = true ;
state . have_vertical_accuracy = true ;
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# if UBLOX_FAKE_3DLOCK
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state . location . lng = 1491652300L ;
state . location . lat = - 353632610L ;
state . location . alt = 58400 ;
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state . vertical_accuracy = 0 ;
state . horizontal_accuracy = 0 ;
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# endif
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break ;
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case MSG_STATUS :
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Debug ( " MSG_STATUS fix_status=%u fix_type=%u " ,
_buffer . status . fix_status ,
_buffer . status . fix_type ) ;
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_check_new_itow ( _buffer . status . itow ) ;
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if ( havePvtMsg ) {
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_unconfigured_messages | = CONFIG_RATE_STATUS ;
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break ;
}
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if ( _buffer . status . fix_status & NAV_STATUS_FIX_VALID ) {
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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 ) {
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next_fix = AP_GPS : : GPS_OK_FIX_3D ;
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} else if ( _buffer . status . fix_type = = AP_GPS_UBLOX : : FIX_2D ) {
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next_fix = AP_GPS : : GPS_OK_FIX_2D ;
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} else {
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next_fix = AP_GPS : : NO_FIX ;
state . status = AP_GPS : : NO_FIX ;
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}
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} else {
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next_fix = AP_GPS : : NO_FIX ;
state . status = AP_GPS : : NO_FIX ;
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}
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# if UBLOX_FAKE_3DLOCK
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state . status = AP_GPS : : GPS_OK_FIX_3D ;
next_fix = state . status ;
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# endif
break ;
case MSG_DOP :
Debug ( " MSG_DOP " ) ;
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noReceivedHdop = false ;
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_check_new_itow ( _buffer . dop . itow ) ;
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state . hdop = _buffer . dop . hDOP ;
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state . vdop = _buffer . dop . vDOP ;
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# if UBLOX_FAKE_3DLOCK
2015-07-14 02:14:25 -03:00
state . hdop = 130 ;
2015-09-07 19:22:12 -03:00
state . hdop = 170 ;
2013-10-02 03:10:22 -03:00
# endif
2011-10-28 15:52:50 -03:00
break ;
case MSG_SOL :
2012-08-21 23:19:52 -03:00
Debug ( " MSG_SOL fix_status=%u fix_type=%u " ,
_buffer . solution . fix_status ,
_buffer . solution . fix_type ) ;
2018-05-15 22:16:01 -03:00
_check_new_itow ( _buffer . solution . itow ) ;
2016-07-30 20:38:43 -03:00
if ( havePvtMsg ) {
state . time_week = _buffer . solution . week ;
break ;
}
2013-03-25 21:21:47 -03:00
if ( _buffer . solution . fix_status & NAV_STATUS_FIX_VALID ) {
2015-06-18 11:53:28 -03:00
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 ) {
2014-03-28 16:52:27 -03:00
next_fix = AP_GPS : : GPS_OK_FIX_3D ;
2013-03-25 21:21:47 -03:00
} else if ( _buffer . solution . fix_type = = AP_GPS_UBLOX : : FIX_2D ) {
2014-03-28 16:52:27 -03:00
next_fix = AP_GPS : : GPS_OK_FIX_2D ;
2013-03-25 07:08:47 -03:00
} else {
2014-03-28 16:52:27 -03:00
next_fix = AP_GPS : : NO_FIX ;
state . status = AP_GPS : : NO_FIX ;
2013-03-25 07:08:47 -03:00
}
2013-03-25 04:24:14 -03:00
} else {
2014-03-28 16:52:27 -03:00
next_fix = AP_GPS : : NO_FIX ;
state . status = AP_GPS : : NO_FIX ;
2012-08-21 23:19:52 -03:00
}
2015-08-07 09:49:36 -03:00
if ( noReceivedHdop ) {
2015-08-07 07:20:55 -03:00
state . hdop = _buffer . solution . position_DOP ;
}
2014-03-28 16:52:27 -03:00
state . num_sats = _buffer . solution . satellites ;
if ( next_fix > = AP_GPS : : GPS_OK_FIX_2D ) {
2015-11-19 23:10:22 -04:00
state . last_gps_time_ms = AP_HAL : : millis ( ) ;
2018-05-15 22:16:01 -03:00
state . time_week_ms = _buffer . solution . itow ;
2014-03-28 16:52:27 -03:00
state . time_week = _buffer . solution . week ;
2013-10-23 08:13:48 -03:00
}
2013-10-02 03:10:22 -03:00
# if UBLOX_FAKE_3DLOCK
2014-03-28 16:52:27 -03:00
next_fix = state . status ;
state . num_sats = 10 ;
state . time_week = 1721 ;
2015-11-19 23:10:22 -04:00
state . time_week_ms = AP_HAL : : millis ( ) + 3 * 60 * 60 * 1000 + 37000 ;
state . last_gps_time_ms = AP_HAL : : millis ( ) ;
2015-09-03 22:49:23 -03:00
state . hdop = 130 ;
2013-10-02 03:10:22 -03:00
# endif
2011-10-28 15:52:50 -03:00
break ;
2020-09-29 16:47:37 -03:00
# if GPS_MOVING_BASELINE
2019-09-03 16:32:09 -03:00
case MSG_RELPOSNED :
{
2019-10-07 03:00:11 -03:00
// note that we require the yaw to come from a fixed solution, not a float solution
// yaw from a float solution would only be acceptable with a very large separation between
// GPS modules
2019-09-03 16:32:09 -03:00
const uint32_t valid_mask = static_cast < uint32_t > ( RELPOSNED : : relPosHeadingValid ) |
static_cast < uint32_t > ( RELPOSNED : : relPosValid ) |
static_cast < uint32_t > ( RELPOSNED : : gnssFixOK ) |
static_cast < uint32_t > ( RELPOSNED : : isMoving ) |
2019-10-07 03:00:11 -03:00
static_cast < uint32_t > ( RELPOSNED : : carrSolnFixed ) ;
2019-09-03 16:32:09 -03:00
const uint32_t invalid_mask = static_cast < uint32_t > ( RELPOSNED : : refPosMiss ) |
2019-10-07 03:00:11 -03:00
static_cast < uint32_t > ( RELPOSNED : : refObsMiss ) |
static_cast < uint32_t > ( RELPOSNED : : carrSolnFloat ) ;
2019-09-03 16:32:09 -03:00
2020-04-02 21:51:22 -03:00
_check_new_itow ( _buffer . relposned . iTOW ) ;
2020-04-03 01:35:59 -03:00
if ( _buffer . relposned . iTOW ! = _last_relposned_itow + 200 ) {
// useful for looking at packet loss on links
MB_Debug ( " RELPOSNED ITOW %u %u \n " , unsigned ( _buffer . relposned . iTOW ) , unsigned ( _last_relposned_itow ) ) ;
}
2020-04-02 21:51:22 -03:00
_last_relposned_itow = _buffer . relposned . iTOW ;
2021-08-11 07:13:55 -03:00
MB_Debug ( " RELPOSNED flags: %lx valid: %lx invalid: %lx \n " , _buffer . relposned . flags , valid_mask , invalid_mask ) ;
2019-09-03 16:32:09 -03:00
if ( ( ( _buffer . relposned . flags & valid_mask ) = = valid_mask ) & &
2021-08-11 07:13:55 -03:00
( ( _buffer . relposned . flags & invalid_mask ) = = 0 ) ) {
if ( calculate_moving_base_yaw ( _buffer . relposned . relPosHeading * 1e-5 ,
2020-09-29 16:47:37 -03:00
_buffer . relposned . relPosLength * 0.01 ,
_buffer . relposned . relPosD * 0.01 ) ) {
2021-08-11 07:13:55 -03:00
state . have_gps_yaw_accuracy = true ;
state . gps_yaw_accuracy = _buffer . relposned . accHeading * 1e-5 ;
_last_relposned_ms = AP_HAL : : millis ( ) ;
}
state . relPosHeading = _buffer . relposned . relPosHeading * 1e-5 ;
state . relPosLength = _buffer . relposned . relPosLength * 0.01 ;
state . relPosD = _buffer . relposned . relPosD * 0.01 ;
state . accHeading = _buffer . relposned . accHeading * 1e-5 ;
state . relposheading_ts = AP_HAL : : millis ( ) ;
2019-09-03 16:32:09 -03:00
} else {
state . have_gps_yaw_accuracy = false ;
}
}
break ;
2020-09-29 16:47:37 -03:00
# endif // GPS_MOVING_BASELINE
2016-07-30 20:38:43 -03:00
case MSG_PVT :
Debug ( " MSG_PVT " ) ;
2019-09-03 16:32:09 -03:00
2016-07-30 20:38:43 -03:00
havePvtMsg = true ;
// position
2018-05-15 22:16:01 -03:00
_check_new_itow ( _buffer . pvt . itow ) ;
2020-04-02 21:51:22 -03:00
_last_pvt_itow = _buffer . pvt . itow ;
2016-07-30 20:38:43 -03:00
_last_pos_time = _buffer . pvt . itow ;
state . location . lng = _buffer . pvt . lon ;
state . location . lat = _buffer . pvt . lat ;
state . location . alt = _buffer . pvt . h_msl / 10 ;
switch ( _buffer . pvt . fix_type )
{
case 0 :
state . status = AP_GPS : : NO_FIX ;
break ;
case 1 :
state . status = AP_GPS : : NO_FIX ;
break ;
case 2 :
state . status = AP_GPS : : GPS_OK_FIX_2D ;
break ;
case 3 :
state . status = AP_GPS : : GPS_OK_FIX_3D ;
if ( _buffer . pvt . flags & 0b00000010 ) // diffsoln
state . status = AP_GPS : : GPS_OK_FIX_3D_DGPS ;
if ( _buffer . pvt . flags & 0b01000000 ) // carrsoln - float
2016-10-16 21:56:34 -03:00
state . status = AP_GPS : : GPS_OK_FIX_3D_RTK_FLOAT ;
2016-07-30 20:38:43 -03:00
if ( _buffer . pvt . flags & 0b10000000 ) // carrsoln - fixed
2016-10-16 21:56:34 -03:00
state . status = AP_GPS : : GPS_OK_FIX_3D_RTK_FIXED ;
2016-07-30 20:38:43 -03:00
break ;
case 4 :
2019-05-26 22:34:13 -03:00
GCS_SEND_TEXT ( MAV_SEVERITY_INFO ,
2016-10-16 21:56:34 -03:00
" Unexpected state %d " , _buffer . pvt . flags ) ;
2016-07-30 20:38:43 -03:00
state . status = AP_GPS : : GPS_OK_FIX_3D ;
break ;
case 5 :
state . status = AP_GPS : : NO_FIX ;
break ;
default :
state . status = AP_GPS : : NO_FIX ;
break ;
}
next_fix = state . status ;
_new_position = true ;
state . horizontal_accuracy = _buffer . pvt . h_acc * 1.0e-3 f ;
state . vertical_accuracy = _buffer . pvt . v_acc * 1.0e-3 f ;
state . have_horizontal_accuracy = true ;
state . have_vertical_accuracy = true ;
// SVs
state . num_sats = _buffer . pvt . num_sv ;
// velocity
_last_vel_time = _buffer . pvt . itow ;
state . ground_speed = _buffer . pvt . gspeed * 0.001f ; // m/s
state . ground_course = wrap_360 ( _buffer . pvt . head_mot * 1.0e-5 f ) ; // Heading 2D deg * 100000
state . have_vertical_velocity = true ;
state . velocity . x = _buffer . pvt . velN * 0.001f ;
state . velocity . y = _buffer . pvt . velE * 0.001f ;
state . velocity . z = _buffer . pvt . velD * 0.001f ;
state . have_speed_accuracy = true ;
state . speed_accuracy = _buffer . pvt . s_acc * 0.001f ;
_new_speed = true ;
// dop
if ( noReceivedHdop ) {
state . hdop = _buffer . pvt . p_dop ;
state . vdop = _buffer . pvt . p_dop ;
}
state . last_gps_time_ms = AP_HAL : : millis ( ) ;
// time
state . time_week_ms = _buffer . pvt . itow ;
2017-02-20 04:43:31 -04:00
# if UBLOX_FAKE_3DLOCK
state . location . lng = 1491652300L ;
state . location . lat = - 353632610L ;
state . location . alt = 58400 ;
state . vertical_accuracy = 0 ;
state . horizontal_accuracy = 0 ;
state . status = AP_GPS : : GPS_OK_FIX_3D ;
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 ;
2018-06-03 06:21:49 -03:00
state . speed_accuracy = 0 ;
2017-02-20 04:43:31 -04:00
next_fix = state . status ;
# endif
2016-07-30 20:38:43 -03:00
break ;
2019-03-30 01:21:11 -03:00
case MSG_TIMEGPS :
Debug ( " MSG_TIMEGPS " ) ;
_check_new_itow ( _buffer . timegps . itow ) ;
2019-07-01 01:51:56 -03:00
if ( _buffer . timegps . valid & UBX_TIMEGPS_VALID_WEEK_MASK ) {
2019-03-30 01:21:11 -03:00
state . time_week = _buffer . timegps . week ;
2019-07-01 01:51:56 -03:00
}
2019-03-30 01:21:11 -03:00
break ;
2011-10-28 15:52:50 -03:00
case MSG_VELNED :
2012-08-21 23:19:52 -03:00
Debug ( " MSG_VELNED " ) ;
2016-07-30 20:38:43 -03:00
if ( havePvtMsg ) {
2017-01-12 02:19:35 -04:00
_unconfigured_messages | = CONFIG_RATE_VELNED ;
2016-07-30 20:38:43 -03:00
break ;
}
2018-05-15 22:16:01 -03:00
_check_new_itow ( _buffer . velned . itow ) ;
_last_vel_time = _buffer . velned . itow ;
2014-03-28 16:52:27 -03:00
state . ground_speed = _buffer . velned . speed_2d * 0.01f ; // m/s
2016-05-04 22:28:35 -03:00
state . ground_course = wrap_360 ( _buffer . velned . heading_2d * 1.0e-5 f ) ; // Heading 2D deg * 100000
2014-03-28 16:52:27 -03:00
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 ;
2016-05-05 02:28:15 -03:00
state . ground_course = wrap_360 ( degrees ( atan2f ( state . velocity . y , state . velocity . x ) ) ) ;
2021-09-11 07:31:17 -03:00
state . ground_speed = state . velocity . xy ( ) . length ( ) ;
2014-10-28 16:44:07 -03:00
state . have_speed_accuracy = true ;
state . speed_accuracy = _buffer . velned . speed_accuracy * 0.01f ;
2015-09-03 22:49:23 -03:00
# if UBLOX_FAKE_3DLOCK
state . speed_accuracy = 0 ;
# endif
2012-08-21 23:19:52 -03:00
_new_speed = true ;
2011-10-28 15:52:50 -03:00
break ;
2015-04-01 08:49:34 -03:00
case MSG_NAV_SVINFO :
{
Debug ( " MSG_NAV_SVINFO \n " ) ;
static const uint8_t HardwareGenerationMask = 0x07 ;
2018-05-15 22:16:01 -03:00
_check_new_itow ( _buffer . svinfo_header . itow ) ;
2016-02-02 03:58:33 -04:00
_hardware_generation = _buffer . svinfo_header . globalFlags & HardwareGenerationMask ;
switch ( _hardware_generation ) {
2015-04-01 08:49:34 -03:00
case UBLOX_5 :
case UBLOX_6 :
2016-02-02 03:58:33 -04:00
// only 7 and newer support CONFIG_GNSS
_unconfigured_messages & = ~ CONFIG_GNSS ;
2015-04-01 08:49:34 -03:00
break ;
case UBLOX_7 :
case UBLOX_M8 :
2016-02-02 03:58:33 -04:00
# if UBLOX_SPEED_CHANGE
2015-04-01 08:49:34 -03:00
port - > begin ( 4000000U ) ;
2016-02-02 03:58:33 -04:00
Debug ( " Changed speed to 4Mhz for SPI-driven UBlox \n " ) ;
# endif
2015-04-01 08:49:34 -03:00
break ;
default :
2016-02-02 03:58:33 -04:00
hal . console - > printf ( " Wrong Ublox Hardware Version%u \n " , _hardware_generation ) ;
2015-04-01 08:49:34 -03:00
break ;
} ;
2016-02-02 03:58:33 -04:00
_unconfigured_messages & = ~ CONFIG_VERSION ;
2015-04-01 08:49:34 -03:00
/* We don't need that anymore */
_configure_message_rate ( CLASS_NAV , MSG_NAV_SVINFO , 0 ) ;
break ;
}
2011-10-28 15:52:50 -03:00
default :
2012-08-21 23:19:52 -03:00
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 ) ;
}
2011-10-28 15:52:50 -03:00
return false ;
}
2012-06-08 03:39:12 -03:00
2020-04-03 00:54:15 -03:00
if ( state . have_gps_yaw ) {
2020-04-02 21:51:22 -03:00
// when we are a rover we want to ensure we have both the new
// PVT and the new RELPOSNED message so that we give a
// consistent view
2020-04-03 00:54:15 -03:00
if ( AP_HAL : : millis ( ) - _last_relposned_ms > 400 ) {
2021-04-30 20:52:57 -03:00
// we have stopped receiving valid RELPOSNED messages, disable yaw reporting
2020-04-02 21:51:22 -03:00
state . have_gps_yaw = false ;
2020-04-03 00:54:15 -03:00
} else if ( _last_relposned_itow ! = _last_pvt_itow ) {
2020-04-02 21:51:22 -03:00
// wait until ITOW matches
return false ;
}
}
2012-08-21 23:19:52 -03:00
// we only return true when we get new position and speed data
// this ensures we don't use stale data
2014-04-14 19:23:12 -03:00
if ( _new_position & & _new_speed & & _last_vel_time = = _last_pos_time ) {
2012-08-21 23:19:52 -03:00
_new_speed = _new_position = false ;
return true ;
}
return false ;
2010-09-06 17:16:50 -03:00
}
2012-06-10 03:34:13 -03:00
2022-01-16 08:15:59 -04:00
/*
* handle pps interrupt
*/
# ifdef HAL_GPIO_PPS
void
AP_GPS_UBLOX : : pps_interrupt ( uint8_t pin , bool high , uint32_t timestamp_us )
{
_last_pps_time_us = timestamp_us ;
}
2022-01-18 07:37:15 -04:00
void
AP_GPS_UBLOX : : set_pps_desired_freq ( uint8_t freq )
{
_pps_freq = freq ;
_unconfigured_messages | = CONFIG_TP5 ;
}
2022-01-16 08:15:59 -04:00
# endif
2012-06-10 03:34:13 -03:00
// UBlox auto configuration
/*
2012-08-21 23:19:52 -03:00
* update checksum for a set of bytes
2012-06-10 03:34:13 -03:00
*/
void
2015-05-04 05:18:34 -03:00
AP_GPS_UBLOX : : _update_checksum ( uint8_t * data , uint16_t len , uint8_t & ck_a , uint8_t & ck_b )
2012-06-10 03:34:13 -03:00
{
2012-08-21 23:19:52 -03:00
while ( len - - ) {
ck_a + = * data ;
ck_b + = ck_a ;
data + + ;
}
2012-06-10 03:34:13 -03:00
}
/*
2012-08-21 23:19:52 -03:00
* send a ublox message
2012-06-10 03:34:13 -03:00
*/
2017-02-15 19:20:21 -04:00
bool
2022-01-09 18:38:04 -04:00
AP_GPS_UBLOX : : _send_message ( uint8_t msg_class , uint8_t msg_id , const void * msg , uint16_t size )
2012-06-10 03:34:13 -03:00
{
2017-02-15 19:20:21 -04:00
if ( port - > txspace ( ) < ( sizeof ( struct ubx_header ) + 2 + size ) ) {
return false ;
}
2012-08-21 23:19:52 -03:00
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 ) ;
2014-03-28 16:52:27 -03:00
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 ) ;
2017-02-15 19:20:21 -04:00
return true ;
2012-06-10 03:34:13 -03:00
}
2016-02-02 03:58:33 -04:00
/*
* requests the given message rate for a specific message class
* and msg_id
* returns true if it sent the request , false if waiting on knowing the port
*/
bool
AP_GPS_UBLOX : : _request_message_rate ( uint8_t msg_class , uint8_t msg_id )
{
// Without knowing what communication port is being used it isn't possible to verify
// always ensure we have a port before sending the request
if ( _ublox_port > = UBLOX_MAX_PORTS ) {
_request_port ( ) ;
return false ;
} else {
struct ubx_cfg_msg msg ;
msg . msg_class = msg_class ;
msg . msg_id = msg_id ;
2017-02-15 19:20:21 -04:00
return _send_message ( CLASS_CFG , MSG_CFG_MSG , & msg , sizeof ( msg ) ) ;
2016-02-02 03:58:33 -04:00
}
}
2012-06-10 03:34:13 -03:00
/*
2012-08-21 23:19:52 -03:00
* configure a UBlox GPS for the given message rate for a specific
* message class and msg_id
2012-06-10 03:34:13 -03:00
*/
2016-02-02 03:58:33 -04:00
bool
2012-06-10 03:34:13 -03:00
AP_GPS_UBLOX : : _configure_message_rate ( uint8_t msg_class , uint8_t msg_id , uint8_t rate )
{
2019-11-06 07:35:25 -04:00
if ( port - > txspace ( ) < ( uint16_t ) ( sizeof ( struct ubx_header ) + sizeof ( struct ubx_cfg_msg_rate ) + 2 ) ) {
2016-02-02 03:58:33 -04:00
return false ;
}
2012-08-21 23:19:52 -03:00
struct ubx_cfg_msg_rate msg ;
msg . msg_class = msg_class ;
msg . msg_id = msg_id ;
2016-10-16 21:56:34 -03:00
msg . rate = rate ;
2017-02-15 19:20:21 -04:00
return _send_message ( CLASS_CFG , MSG_CFG_MSG , & msg , sizeof ( msg ) ) ;
2013-10-01 23:32:32 -03:00
}
2019-11-05 23:43:41 -04:00
/*
* configure F9 based key / value pair - VALSET
*/
bool
2019-11-16 00:26:28 -04:00
AP_GPS_UBLOX : : _configure_valset ( ConfigKey key , const void * value )
2019-11-05 23:43:41 -04:00
{
2019-12-17 21:50:20 -04:00
if ( ! supports_F9_config ( ) ) {
2019-11-05 23:43:41 -04:00
return false ;
}
2019-11-16 00:26:28 -04:00
const uint8_t len = config_key_size ( key ) ;
2019-11-05 23:43:41 -04:00
struct ubx_cfg_valset msg { } ;
uint8_t buf [ sizeof ( msg ) + len ] ;
2019-11-06 07:35:25 -04:00
if ( port - > txspace ( ) < ( uint16_t ) ( sizeof ( struct ubx_header ) + sizeof ( buf ) + 2 ) ) {
2019-11-05 23:43:41 -04:00
return false ;
}
msg . version = 1 ;
msg . layers = 7 ; // all layers
msg . transaction = 0 ;
msg . key = uint32_t ( key ) ;
memcpy ( buf , & msg , sizeof ( msg ) ) ;
memcpy ( & buf [ sizeof ( msg ) ] , value , len ) ;
auto ret = _send_message ( CLASS_CFG , MSG_CFG_VALSET , buf , sizeof ( buf ) ) ;
return ret ;
}
/*
* configure F9 based key / value pair - VALGET
*/
bool
AP_GPS_UBLOX : : _configure_valget ( ConfigKey key )
{
2019-12-17 21:50:20 -04:00
if ( ! supports_F9_config ( ) ) {
2019-11-05 23:43:41 -04:00
return false ;
}
struct {
struct ubx_cfg_valget msg ;
ConfigKey key ;
} msg { } ;
2019-11-06 07:35:25 -04:00
if ( port - > txspace ( ) < ( uint16_t ) ( sizeof ( struct ubx_header ) + sizeof ( msg ) + 2 ) ) {
2019-11-05 23:43:41 -04:00
return false ;
}
msg . msg . version = 0 ;
msg . msg . layers = 0 ; // ram
msg . key = key ;
return _send_message ( CLASS_CFG , MSG_CFG_VALGET , & msg , sizeof ( msg ) ) ;
}
2019-11-16 00:26:28 -04:00
/*
* configure F9 based key / value pair for a complete config list
*/
bool
AP_GPS_UBLOX : : _configure_config_set ( const config_list * list , uint8_t count , uint32_t unconfig_bit )
{
2020-09-29 16:47:37 -03:00
# if GPS_MOVING_BASELINE
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active_config . list = list ;
active_config . count = count ;
active_config . done_mask = 0 ;
active_config . unconfig_bit = unconfig_bit ;
uint8_t buf [ sizeof ( ubx_cfg_valget ) + count * sizeof ( ConfigKey ) ] ;
struct ubx_cfg_valget msg { } ;
if ( port - > txspace ( ) < ( uint16_t ) ( sizeof ( struct ubx_header ) + sizeof ( buf ) + 2 ) ) {
return false ;
}
msg . version = 0 ;
msg . layers = 0 ; // ram
memcpy ( buf , & msg , sizeof ( msg ) ) ;
for ( uint8_t i = 0 ; i < count ; i + + ) {
memcpy ( & buf [ sizeof ( msg ) + i * sizeof ( ConfigKey ) ] , & list [ i ] . key , sizeof ( ConfigKey ) ) ;
}
return _send_message ( CLASS_CFG , MSG_CFG_VALGET , buf , sizeof ( buf ) ) ;
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# else
return false ;
# endif
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}
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/*
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* save gps configurations to non - volatile memory sent until the call of
* this message
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*/
void
AP_GPS_UBLOX : : _save_cfg ( )
{
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static const ubx_cfg_cfg save_cfg {
clearMask : 0 ,
saveMask : SAVE_CFG_ALL ,
loadMask : 0
} ;
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_send_message ( CLASS_CFG , MSG_CFG_CFG , & save_cfg , sizeof ( save_cfg ) ) ;
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_last_cfg_sent_time = AP_HAL : : millis ( ) ;
_num_cfg_save_tries + + ;
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GCS_SEND_TEXT ( MAV_SEVERITY_INFO ,
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" GPS %d: u-blox saving config " ,
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state . instance + 1 ) ;
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}
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/*
detect a Ublox GPS . Adds one byte , and returns true if the stream
matches a UBlox
*/
bool
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AP_GPS_UBLOX : : _detect ( struct UBLOX_detect_state & state , uint8_t data )
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{
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reset :
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switch ( state . step ) {
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case 1 :
if ( PREAMBLE2 = = data ) {
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state . step + + ;
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break ;
}
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state . step = 0 ;
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FALLTHROUGH ;
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case 0 :
if ( PREAMBLE1 = = data )
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state . step + + ;
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break ;
case 2 :
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state . step + + ;
state . ck_b = state . ck_a = data ;
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break ;
case 3 :
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state . step + + ;
state . ck_b + = ( state . ck_a + = data ) ;
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break ;
case 4 :
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state . step + + ;
state . ck_b + = ( state . ck_a + = data ) ;
state . payload_length = data ;
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break ;
case 5 :
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state . step + + ;
state . ck_b + = ( state . ck_a + = data ) ;
state . payload_counter = 0 ;
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break ;
case 6 :
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state . ck_b + = ( state . ck_a + = data ) ;
if ( + + state . payload_counter = = state . payload_length )
state . step + + ;
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break ;
case 7 :
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state . step + + ;
if ( state . ck_a ! = data ) {
state . step = 0 ;
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goto reset ;
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}
break ;
case 8 :
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state . step = 0 ;
if ( state . ck_b = = data ) {
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// a valid UBlox packet
return true ;
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} else {
goto reset ;
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}
}
return false ;
}
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void
AP_GPS_UBLOX : : _request_version ( void )
{
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_send_message ( CLASS_MON , MSG_MON_VER , nullptr , 0 ) ;
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}
void
AP_GPS_UBLOX : : _configure_rate ( void )
{
struct ubx_cfg_nav_rate msg ;
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// require a minimum measurement rate of 5Hz
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msg . measure_rate_ms = gps . get_rate_ms ( state . instance ) ;
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msg . nav_rate = 1 ;
msg . timeref = 0 ; // UTC time
_send_message ( CLASS_CFG , MSG_CFG_RATE , & msg , sizeof ( msg ) ) ;
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}
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static const char * reasons [ ] = { " navigation rate " ,
" posllh rate " ,
" status rate " ,
" solution rate " ,
" velned rate " ,
" dop rate " ,
" hw monitor rate " ,
" hw2 monitor rate " ,
" raw rate " ,
" version " ,
" navigation settings " ,
" GNSS settings " ,
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" SBAS settings " ,
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" PVT rate " ,
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" time pulse settings " ,
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" TIMEGPS rate " ,
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" Time mode settings " ,
" RTK MB " } ;
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static_assert ( ( 1 < < ARRAY_SIZE ( reasons ) ) = = CONFIG_LAST , " UBLOX: Missing configuration description " ) ;
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void
AP_GPS_UBLOX : : broadcast_configuration_failure_reason ( void ) const {
for ( uint8_t i = 0 ; i < ARRAY_SIZE ( reasons ) ; i + + ) {
if ( _unconfigured_messages & ( 1 < < i ) ) {
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GCS_SEND_TEXT ( MAV_SEVERITY_INFO , " GPS %u: u-blox %s configuration 0x%02x " ,
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( unsigned int ) ( state . instance + 1 ) , reasons [ i ] , ( unsigned int ) _unconfigured_messages ) ;
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break ;
}
}
}
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/*
return velocity lag in seconds
*/
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bool AP_GPS_UBLOX : : get_lag ( float & lag_sec ) const
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{
switch ( _hardware_generation ) {
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case UBLOX_UNKNOWN_HARDWARE_GENERATION :
lag_sec = 0.22f ;
// always bail out in this case, it's used to indicate we have yet to receive a valid
// hardware generation, however the user may have inhibited us detecting the generation
// so if we aren't allowed to do configuration, we will accept this as the default delay
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return gps . _auto_config = = AP_GPS : : GPS_AUTO_CONFIG_DISABLE ;
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case UBLOX_5 :
case UBLOX_6 :
default :
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lag_sec = 0.22f ;
break ;
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case UBLOX_7 :
case UBLOX_M8 :
// based on flight logs the 7 and 8 series seem to produce about 120ms lag
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lag_sec = 0.12f ;
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break ;
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case UBLOX_F9 :
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case UBLOX_M9 :
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// F9 lag not verified yet from flight log, but likely to be at least
// as good as M8
lag_sec = 0.12f ;
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# if GPS_MOVING_BASELINE
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if ( role = = AP_GPS : : GPS_ROLE_MB_BASE | |
role = = AP_GPS : : GPS_ROLE_MB_ROVER ) {
// the moving baseline rover will lag about 40ms from the
// base. We need to provide the more conservative value to
// ensure that the EKF allocates a larger enough buffer
lag_sec + = 0.04 ;
}
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# endif
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break ;
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} ;
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return true ;
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}
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void AP_GPS_UBLOX : : Write_AP_Logger_Log_Startup_messages ( ) const
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{
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# if HAL_LOGGING_ENABLED
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AP_GPS_Backend : : Write_AP_Logger_Log_Startup_messages ( ) ;
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if ( _have_version ) {
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AP : : logger ( ) . Write_MessageF ( " u-blox %d HW: %s SW: %s " ,
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state . instance + 1 ,
_version . hwVersion ,
_version . swVersion ) ;
}
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# endif
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}
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// uBlox specific check_new_itow(), handling message length
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void AP_GPS_UBLOX : : _check_new_itow ( uint32_t itow )
{
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check_new_itow ( itow , _payload_length + sizeof ( ubx_header ) + 2 ) ;
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}
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// support for retrieving RTCMv3 data from a moving baseline base
bool AP_GPS_UBLOX : : get_RTCMV3 ( const uint8_t * & bytes , uint16_t & len )
{
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# if GPS_MOVING_BASELINE
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if ( rtcm3_parser ) {
len = rtcm3_parser - > get_len ( bytes ) ;
return len > 0 ;
}
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# endif
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return false ;
}
// clear previous RTCM3 packet
void AP_GPS_UBLOX : : clear_RTCMV3 ( void )
{
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# if GPS_MOVING_BASELINE
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if ( rtcm3_parser ) {
rtcm3_parser - > clear_packet ( ) ;
}
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# endif
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}
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// ublox specific healthy checks
bool AP_GPS_UBLOX : : is_healthy ( void ) const
{
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# if CONFIG_HAL_BOARD == HAL_BOARD_SITL
if ( gps . _auto_config = = AP_GPS : : GPS_AUTO_CONFIG_DISABLE ) {
// allow for fake ublox moving baseline
return true ;
}
# endif
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# if GPS_MOVING_BASELINE
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if ( ( role = = AP_GPS : : GPS_ROLE_MB_BASE | |
role = = AP_GPS : : GPS_ROLE_MB_ROVER ) & &
! supports_F9_config ( ) ) {
// need F9 or above for moving baseline
return false ;
}
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if ( role = = AP_GPS : : GPS_ROLE_MB_BASE & & rtcm3_parser = = nullptr & & ! mb_use_uart2 ( ) ) {
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// we haven't initialised RTCMv3 parser
return false ;
}
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# endif
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return true ;
}
// return true if GPS is capable of F9 config
bool AP_GPS_UBLOX : : supports_F9_config ( void ) const
{
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return _hardware_generation = = UBLOX_F9 & & _hardware_generation ! = UBLOX_UNKNOWN_HARDWARE_GENERATION ;
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}