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# include "Copter.h"
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# include "GCS_Mavlink.h"
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void Copter : : gcs_send_heartbeat ( void )
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{
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gcs ( ) . send_message ( MSG_HEARTBEAT ) ;
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}
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/*
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* ! ! NOTE ! !
*
* the use of NOINLINE separate functions for each message type avoids
* a compiler bug in gcc that would cause it to use far more stack
* space than is needed . Without the NOINLINE we use the sum of the
* stack needed for each message type . Please be careful to follow the
* pattern below when adding any new messages
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*/
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MAV_TYPE GCS_Copter : : frame_type ( ) const
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{
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return copter . get_frame_mav_type ( ) ;
}
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MAV_MODE GCS_MAVLINK_Copter : : base_mode ( ) const
{
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uint8_t _base_mode = MAV_MODE_FLAG_STABILIZE_ENABLED ;
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// work out the base_mode. This value is not very useful
// for APM, but we calculate it as best we can so a generic
// MAVLink enabled ground station can work out something about
// what the MAV is up to. The actual bit values are highly
// ambiguous for most of the APM flight modes. In practice, you
// only get useful information from the custom_mode, which maps to
// the APM flight mode and has a well defined meaning in the
// ArduPlane documentation
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switch ( copter . control_mode ) {
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case AUTO :
case RTL :
case LOITER :
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case AVOID_ADSB :
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case FOLLOW :
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case GUIDED :
case CIRCLE :
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case POSHOLD :
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case BRAKE :
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case SMART_RTL :
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_base_mode | = MAV_MODE_FLAG_GUIDED_ENABLED ;
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// note that MAV_MODE_FLAG_AUTO_ENABLED does not match what
// APM does in any mode, as that is defined as "system finds its own goal
// positions", which APM does not currently do
break ;
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default :
break ;
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}
// all modes except INITIALISING have some form of manual
// override if stick mixing is enabled
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_base_mode | = MAV_MODE_FLAG_MANUAL_INPUT_ENABLED ;
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# if HIL_MODE != HIL_MODE_DISABLED
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_base_mode | = MAV_MODE_FLAG_HIL_ENABLED ;
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# endif
// we are armed if we are not initialising
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if ( copter . motors ! = nullptr & & copter . motors - > armed ( ) ) {
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_base_mode | = MAV_MODE_FLAG_SAFETY_ARMED ;
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}
// indicate we have set a custom mode
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_base_mode | = MAV_MODE_FLAG_CUSTOM_MODE_ENABLED ;
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return ( MAV_MODE ) _base_mode ;
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}
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uint32_t GCS_Copter : : custom_mode ( ) const
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{
return copter . control_mode ;
}
MAV_STATE GCS_MAVLINK_Copter : : system_status ( ) const
{
// set system as critical if any failsafe have triggered
if ( copter . any_failsafe_triggered ( ) ) {
return MAV_STATE_CRITICAL ;
}
if ( copter . ap . land_complete ) {
return MAV_STATE_STANDBY ;
}
return MAV_STATE_ACTIVE ;
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}
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void GCS_MAVLINK_Copter : : send_position_target_global_int ( )
{
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Location target ;
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if ( ! copter . flightmode - > get_wp ( target ) ) {
return ;
}
mavlink_msg_position_target_global_int_send (
chan ,
AP_HAL : : millis ( ) , // time_boot_ms
MAV_FRAME_GLOBAL_INT , // targets are always global altitude
0xFFF8 , // ignore everything except the x/y/z components
target . lat , // latitude as 1e7
target . lng , // longitude as 1e7
target . alt * 0.01f , // altitude is sent as a float
0.0f , // vx
0.0f , // vy
0.0f , // vz
0.0f , // afx
0.0f , // afy
0.0f , // afz
0.0f , // yaw
0.0f ) ; // yaw_rate
}
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void GCS_MAVLINK_Copter : : send_position_target_local_ned ( )
{
if ( ! copter . flightmode - > in_guided_mode ( ) ) {
return ;
}
const GuidedMode guided_mode = copter . mode_guided . mode ( ) ;
Vector3f target_pos ;
Vector3f target_vel ;
uint16_t type_mask ;
if ( guided_mode = = Guided_WP ) {
type_mask = 0x0FF8 ; // ignore everything except position
target_pos = copter . wp_nav - > get_wp_destination ( ) * 0.01f ; // convert to metres
} else if ( guided_mode = = Guided_Velocity ) {
type_mask = 0x0FC7 ; // ignore everything except velocity
target_vel = copter . flightmode - > pos_control - > get_desired_velocity ( ) * 0.01f ; // convert to m/s
} else {
type_mask = 0x0FC0 ; // ignore everything except position & velocity
target_pos = copter . wp_nav - > get_wp_destination ( ) * 0.01f ;
target_vel = copter . flightmode - > pos_control - > get_desired_velocity ( ) * 0.01f ;
}
mavlink_msg_position_target_local_ned_send (
chan ,
AP_HAL : : millis ( ) , // time boot ms
MAV_FRAME_LOCAL_NED ,
type_mask ,
target_pos . x , // x in metres
target_pos . y , // y in metres
- target_pos . z , // z in metres NED frame
target_vel . x , // vx in m/s
target_vel . y , // vy in m/s
- target_vel . z , // vz in m/s NED frame
0.0f , // afx
0.0f , // afy
0.0f , // afz
0.0f , // yaw
0.0f ) ; // yaw_rate
}
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void GCS_MAVLINK_Copter : : send_nav_controller_output ( ) const
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{
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if ( ! copter . ap . initialised ) {
return ;
}
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const Vector3f & targets = copter . attitude_control - > get_att_target_euler_cd ( ) ;
const Copter : : Mode * flightmode = copter . flightmode ;
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mavlink_msg_nav_controller_output_send (
chan ,
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targets . x * 1.0e-2 f ,
targets . y * 1.0e-2 f ,
targets . z * 1.0e-2 f ,
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flightmode - > wp_bearing ( ) * 1.0e-2 f ,
MIN ( flightmode - > wp_distance ( ) * 1.0e-2 f , UINT16_MAX ) ,
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copter . pos_control - > get_alt_error ( ) * 1.0e-2 f ,
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0 ,
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flightmode - > crosstrack_error ( ) * 1.0e-2 f ) ;
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}
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int16_t GCS_MAVLINK_Copter : : vfr_hud_throttle ( ) const
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{
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return ( int16_t ) ( copter . motors - > get_throttle ( ) * 100 ) ;
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}
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/*
send PID tuning message
*/
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void GCS_MAVLINK_Copter : : send_pid_tuning ( )
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{
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const Vector3f & gyro = AP : : ahrs ( ) . get_gyro ( ) ;
static const PID_TUNING_AXIS axes [ ] = {
PID_TUNING_ROLL ,
PID_TUNING_PITCH ,
PID_TUNING_YAW ,
PID_TUNING_ACCZ
} ;
for ( uint8_t i = 0 ; i < ARRAY_SIZE ( axes ) ; i + + ) {
if ( ! ( copter . g . gcs_pid_mask & ( 1 < < ( axes [ i ] - 1 ) ) ) ) {
continue ;
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}
if ( ! HAVE_PAYLOAD_SPACE ( chan , PID_TUNING ) ) {
return ;
}
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const AP_Logger : : PID_Info * pid_info = nullptr ;
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float achieved ;
switch ( axes [ i ] ) {
case PID_TUNING_ROLL :
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pid_info = & copter . attitude_control - > get_rate_roll_pid ( ) . get_pid_info ( ) ;
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achieved = degrees ( gyro . x ) ;
break ;
case PID_TUNING_PITCH :
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pid_info = & copter . attitude_control - > get_rate_pitch_pid ( ) . get_pid_info ( ) ;
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achieved = degrees ( gyro . y ) ;
break ;
case PID_TUNING_YAW :
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pid_info = & copter . attitude_control - > get_rate_yaw_pid ( ) . get_pid_info ( ) ;
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achieved = degrees ( gyro . z ) ;
break ;
case PID_TUNING_ACCZ :
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pid_info = & copter . pos_control - > get_accel_z_pid ( ) . get_pid_info ( ) ;
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achieved = - ( AP : : ahrs ( ) . get_accel_ef_blended ( ) . z + GRAVITY_MSS ) ;
break ;
default :
continue ;
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}
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if ( pid_info ! = nullptr ) {
mavlink_msg_pid_tuning_send ( chan ,
axes [ i ] ,
pid_info - > desired * 0.01f ,
achieved ,
pid_info - > FF * 0.01f ,
pid_info - > P * 0.01f ,
pid_info - > I * 0.01f ,
pid_info - > D * 0.01f ) ;
}
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}
}
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uint8_t GCS_MAVLINK_Copter : : sysid_my_gcs ( ) const
{
return copter . g . sysid_my_gcs ;
}
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bool GCS_MAVLINK_Copter : : sysid_enforce ( ) const
{
return copter . g2 . sysid_enforce ;
}
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uint32_t GCS_MAVLINK_Copter : : telem_delay ( ) const
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{
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return ( uint32_t ) ( copter . g . telem_delay ) ;
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}
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bool GCS_Copter : : vehicle_initialised ( ) const {
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return copter . ap . initialised ;
}
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// try to send a message, return false if it wasn't sent
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bool GCS_MAVLINK_Copter : : try_send_message ( enum ap_message id )
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{
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# if HIL_MODE != HIL_MODE_SENSORS
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// if we don't have at least 250 micros remaining before the main loop
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// wants to fire then don't send a mavlink message. We want to
// prioritise the main flight control loop over communications
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// the check for nullptr here doesn't just save a nullptr
// dereference; it means that we send messages out even if we're
// failing to detect a PX4 board type (see delay(3000) in px_drivers).
if ( copter . motors ! = nullptr & & copter . scheduler . time_available_usec ( ) < 250 & & copter . motors - > armed ( ) ) {
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gcs ( ) . set_out_of_time ( true ) ;
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return false ;
}
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# endif
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switch ( id ) {
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case MSG_TERRAIN :
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# if AP_TERRAIN_AVAILABLE && AC_TERRAIN
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CHECK_PAYLOAD_SIZE ( TERRAIN_REQUEST ) ;
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copter . terrain . send_request ( chan ) ;
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# endif
break ;
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case MSG_WIND :
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case MSG_SERVO_OUT :
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case MSG_AOA_SSA :
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case MSG_LANDING :
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// unused
break ;
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case MSG_ADSB_VEHICLE :
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# if ADSB_ENABLED == ENABLED
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CHECK_PAYLOAD_SIZE ( ADSB_VEHICLE ) ;
copter . adsb . send_adsb_vehicle ( chan ) ;
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# endif
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break ;
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default :
return GCS_MAVLINK : : try_send_message ( id ) ;
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}
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return true ;
}
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const AP_Param : : GroupInfo GCS_MAVLINK : : var_info [ ] = {
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// @Param: RAW_SENS
// @DisplayName: Raw sensor stream rate
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// @Description: Stream rate of RAW_IMU, SCALED_IMU2, SCALED_IMU3, SCALED_PRESSURE, SCALED_PRESSURE2, SCALED_PRESSURE3 and SENSOR_OFFSETS to ground station
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// @Units: Hz
// @Range: 0 10
// @Increment: 1
// @User: Advanced
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AP_GROUPINFO ( " RAW_SENS " , 0 , GCS_MAVLINK , streamRates [ 0 ] , 0 ) ,
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// @Param: EXT_STAT
// @DisplayName: Extended status stream rate to ground station
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// @Description: Stream rate of SYS_STATUS, POWER_STATUS, MEMINFO, CURRENT_WAYPOINT, GPS_RAW_INT, GPS_RTK (if available), GPS2_RAW (if available), GPS2_RTK (if available), NAV_CONTROLLER_OUTPUT, and FENCE_STATUS to ground station
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// @Units: Hz
// @Range: 0 10
// @Increment: 1
// @User: Advanced
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AP_GROUPINFO ( " EXT_STAT " , 1 , GCS_MAVLINK , streamRates [ 1 ] , 0 ) ,
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// @Param: RC_CHAN
// @DisplayName: RC Channel stream rate to ground station
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// @Description: Stream rate of SERVO_OUTPUT_RAW and RC_CHANNELS to ground station
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// @Units: Hz
// @Range: 0 10
// @Increment: 1
// @User: Advanced
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AP_GROUPINFO ( " RC_CHAN " , 2 , GCS_MAVLINK , streamRates [ 2 ] , 0 ) ,
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// @Param: RAW_CTRL
// @DisplayName: Raw Control stream rate to ground station
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// @Description: Stream rate of RC_CHANNELS_SCALED (HIL only) to ground station
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// @Units: Hz
// @Range: 0 10
// @Increment: 1
// @User: Advanced
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AP_GROUPINFO ( " RAW_CTRL " , 3 , GCS_MAVLINK , streamRates [ 3 ] , 0 ) ,
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// @Param: POSITION
// @DisplayName: Position stream rate to ground station
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// @Description: Stream rate of GLOBAL_POSITION_INT and LOCAL_POSITION_NED to ground station
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// @Units: Hz
// @Range: 0 10
// @Increment: 1
// @User: Advanced
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AP_GROUPINFO ( " POSITION " , 4 , GCS_MAVLINK , streamRates [ 4 ] , 0 ) ,
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// @Param: EXTRA1
// @DisplayName: Extra data type 1 stream rate to ground station
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// @Description: Stream rate of ATTITUDE, SIMSTATE (SITL only), AHRS2 and PID_TUNING to ground station
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// @Units: Hz
// @Range: 0 10
// @Increment: 1
// @User: Advanced
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AP_GROUPINFO ( " EXTRA1 " , 5 , GCS_MAVLINK , streamRates [ 5 ] , 0 ) ,
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// @Param: EXTRA2
// @DisplayName: Extra data type 2 stream rate to ground station
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// @Description: Stream rate of VFR_HUD to ground station
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// @Units: Hz
// @Range: 0 10
// @Increment: 1
// @User: Advanced
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AP_GROUPINFO ( " EXTRA2 " , 6 , GCS_MAVLINK , streamRates [ 6 ] , 0 ) ,
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// @Param: EXTRA3
// @DisplayName: Extra data type 3 stream rate to ground station
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// @Description: Stream rate of AHRS, HWSTATUS, SYSTEM_TIME, RANGEFINDER, DISTANCE_SENSOR, TERRAIN_REQUEST, BATTERY2, MOUNT_STATUS, OPTICAL_FLOW, GIMBAL_REPORT, MAG_CAL_REPORT, MAG_CAL_PROGRESS, EKF_STATUS_REPORT, VIBRATION and RPM to ground station
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// @Units: Hz
// @Range: 0 10
// @Increment: 1
// @User: Advanced
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AP_GROUPINFO ( " EXTRA3 " , 7 , GCS_MAVLINK , streamRates [ 7 ] , 0 ) ,
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// @Param: PARAMS
// @DisplayName: Parameter stream rate to ground station
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// @Description: Stream rate of PARAM_VALUE to ground station
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// @Units: Hz
// @Range: 0 10
// @Increment: 1
// @User: Advanced
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AP_GROUPINFO ( " PARAMS " , 8 , GCS_MAVLINK , streamRates [ 8 ] , 0 ) ,
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// @Param: ADSB
// @DisplayName: ADSB stream rate to ground station
// @Description: ADSB stream rate to ground station
// @Units: Hz
// @Range: 0 50
// @Increment: 1
// @User: Advanced
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AP_GROUPINFO ( " ADSB " , 9 , GCS_MAVLINK , streamRates [ 9 ] , 0 ) ,
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AP_GROUPEND
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} ;
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static const ap_message STREAM_RAW_SENSORS_msgs [ ] = {
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MSG_RAW_IMU ,
MSG_SCALED_IMU2 ,
MSG_SCALED_IMU3 ,
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MSG_SCALED_PRESSURE ,
MSG_SCALED_PRESSURE2 ,
MSG_SCALED_PRESSURE3 ,
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MSG_SENSOR_OFFSETS
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} ;
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static const ap_message STREAM_EXTENDED_STATUS_msgs [ ] = {
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MSG_SYS_STATUS ,
MSG_POWER_STATUS ,
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MSG_MEMINFO ,
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MSG_CURRENT_WAYPOINT , // MISSION_CURRENT
MSG_GPS_RAW ,
MSG_GPS_RTK ,
MSG_GPS2_RAW ,
MSG_GPS2_RTK ,
MSG_NAV_CONTROLLER_OUTPUT ,
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MSG_FENCE_STATUS ,
MSG_POSITION_TARGET_GLOBAL_INT ,
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} ;
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static const ap_message STREAM_POSITION_msgs [ ] = {
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MSG_LOCATION ,
MSG_LOCAL_POSITION
} ;
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static const ap_message STREAM_RC_CHANNELS_msgs [ ] = {
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MSG_SERVO_OUTPUT_RAW ,
MSG_RADIO_IN // RC_CHANNELS_RAW, RC_CHANNELS
} ;
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static const ap_message STREAM_EXTRA1_msgs [ ] = {
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MSG_ATTITUDE ,
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MSG_SIMSTATE ,
MSG_AHRS2 ,
MSG_AHRS3 ,
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MSG_PID_TUNING // Up to four PID_TUNING messages are sent, depending on GCS_PID_MASK parameter
} ;
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static const ap_message STREAM_EXTRA2_msgs [ ] = {
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MSG_VFR_HUD
} ;
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static const ap_message STREAM_EXTRA3_msgs [ ] = {
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MSG_AHRS ,
MSG_HWSTATUS ,
MSG_SYSTEM_TIME ,
MSG_RANGEFINDER ,
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MSG_DISTANCE_SENSOR ,
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# if AP_TERRAIN_AVAILABLE && AC_TERRAIN
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MSG_TERRAIN ,
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# endif
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MSG_BATTERY2 ,
MSG_BATTERY_STATUS ,
MSG_MOUNT_STATUS ,
MSG_OPTICAL_FLOW ,
MSG_GIMBAL_REPORT ,
MSG_MAG_CAL_REPORT ,
MSG_MAG_CAL_PROGRESS ,
MSG_EKF_STATUS_REPORT ,
MSG_VIBRATION ,
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MSG_RPM ,
MSG_ESC_TELEMETRY ,
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} ;
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static const ap_message STREAM_PARAMS_msgs [ ] = {
MSG_NEXT_PARAM
} ;
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static const ap_message STREAM_ADSB_msgs [ ] = {
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MSG_ADSB_VEHICLE
} ;
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const struct GCS_MAVLINK : : stream_entries GCS_MAVLINK : : all_stream_entries [ ] = {
MAV_STREAM_ENTRY ( STREAM_RAW_SENSORS ) ,
MAV_STREAM_ENTRY ( STREAM_EXTENDED_STATUS ) ,
MAV_STREAM_ENTRY ( STREAM_POSITION ) ,
MAV_STREAM_ENTRY ( STREAM_RC_CHANNELS ) ,
MAV_STREAM_ENTRY ( STREAM_EXTRA1 ) ,
MAV_STREAM_ENTRY ( STREAM_EXTRA2 ) ,
MAV_STREAM_ENTRY ( STREAM_EXTRA3 ) ,
MAV_STREAM_ENTRY ( STREAM_ADSB ) ,
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MAV_STREAM_ENTRY ( STREAM_PARAMS ) ,
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MAV_STREAM_TERMINATOR // must have this at end of stream_entries
} ;
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bool GCS_MAVLINK_Copter : : handle_guided_request ( AP_Mission : : Mission_Command & cmd )
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{
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# if MODE_AUTO_ENABLED == ENABLED
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return copter . mode_auto . do_guided ( cmd ) ;
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# else
return false ;
# endif
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}
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void GCS_MAVLINK_Copter : : handle_change_alt_request ( AP_Mission : : Mission_Command & cmd )
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{
// add home alt if needed
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if ( cmd . content . location . relative_alt ) {
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cmd . content . location . alt + = copter . ahrs . get_home ( ) . alt ;
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}
// To-Do: update target altitude for loiter or waypoint controller depending upon nav mode
}
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void GCS_MAVLINK_Copter : : packetReceived ( const mavlink_status_t & status ,
mavlink_message_t & msg )
{
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# if ADSB_ENABLED == ENABLED
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if ( copter . g2 . dev_options . get ( ) & DevOptionADSBMAVLink ) {
// optional handling of GLOBAL_POSITION_INT as a MAVLink based avoidance source
copter . avoidance_adsb . handle_msg ( msg ) ;
}
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# endif
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# if MODE_FOLLOW_ENABLED == ENABLED
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// pass message to follow library
copter . g2 . follow . handle_msg ( msg ) ;
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# endif
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GCS_MAVLINK : : packetReceived ( status , msg ) ;
}
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bool GCS_MAVLINK_Copter : : params_ready ( ) const
{
if ( AP_BoardConfig : : in_sensor_config_error ( ) ) {
// we may never have parameters "initialised" in this case
return true ;
}
// if we have not yet initialised (including allocating the motors
// object) we drop this request. That prevents the GCS from getting
// a confusing parameter count during bootup
return copter . ap . initialised_params ;
}
void GCS_MAVLINK_Copter : : send_banner ( )
{
GCS_MAVLINK : : send_banner ( ) ;
send_text ( MAV_SEVERITY_INFO , " Frame: %s " , copter . get_frame_string ( ) ) ;
}
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// a RC override message is considered to be a 'heartbeat' from the ground station for failsafe purposes
void GCS_MAVLINK_Copter : : handle_rc_channels_override ( const mavlink_message_t * msg )
{
copter . failsafe . last_heartbeat_ms = AP_HAL : : millis ( ) ;
GCS_MAVLINK : : handle_rc_channels_override ( msg ) ;
}
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void GCS_MAVLINK_Copter : : handle_command_ack ( const mavlink_message_t * msg )
{
copter . command_ack_counter + + ;
GCS_MAVLINK : : handle_command_ack ( msg ) ;
}
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MAV_RESULT GCS_MAVLINK_Copter : : _handle_command_preflight_calibration ( const mavlink_command_long_t & packet )
{
if ( is_equal ( packet . param6 , 1.0f ) ) {
// compassmot calibration
return copter . mavlink_compassmot ( chan ) ;
}
return GCS_MAVLINK : : _handle_command_preflight_calibration ( packet ) ;
}
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MAV_RESULT GCS_MAVLINK_Copter : : handle_command_do_set_roi ( const Location & roi_loc )
{
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if ( ! roi_loc . check_latlng ( ) ) {
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return MAV_RESULT_FAILED ;
}
copter . flightmode - > auto_yaw . set_roi ( roi_loc ) ;
return MAV_RESULT_ACCEPTED ;
}
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bool GCS_MAVLINK_Copter : : set_home_to_current_location ( bool lock ) {
return copter . set_home_to_current_location ( lock ) ;
}
bool GCS_MAVLINK_Copter : : set_home ( const Location & loc , bool lock ) {
return copter . set_home ( loc , lock ) ;
}
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MAV_RESULT GCS_MAVLINK_Copter : : handle_command_int_packet ( const mavlink_command_int_t & packet )
{
switch ( packet . command ) {
case MAV_CMD_DO_FOLLOW :
# if MODE_FOLLOW_ENABLED == ENABLED
// param1: sysid of target to follow
if ( ( packet . param1 > 0 ) & & ( packet . param1 < = 255 ) ) {
copter . g2 . follow . set_target_sysid ( ( uint8_t ) packet . param1 ) ;
return MAV_RESULT_ACCEPTED ;
}
# endif
return MAV_RESULT_UNSUPPORTED ;
default :
return GCS_MAVLINK : : handle_command_int_packet ( packet ) ;
}
}
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MAV_RESULT GCS_MAVLINK_Copter : : handle_command_mount ( const mavlink_command_long_t & packet )
{
// if the mount doesn't do pan control then yaw the entire vehicle instead:
switch ( packet . command ) {
# if MOUNT == ENABLED
case MAV_CMD_DO_MOUNT_CONTROL :
if ( ! copter . camera_mount . has_pan_control ( ) ) {
copter . flightmode - > auto_yaw . set_fixed_yaw (
( float ) packet . param3 / 100.0f ,
0.0f ,
0 , 0 ) ;
}
break ;
# endif
default :
break ;
}
return GCS_MAVLINK : : handle_command_mount ( packet ) ;
}
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MAV_RESULT GCS_MAVLINK_Copter : : handle_command_long_packet ( const mavlink_command_long_t & packet )
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{
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switch ( packet . command ) {
case MAV_CMD_NAV_TAKEOFF : {
// param3 : horizontal navigation by pilot acceptable
// param4 : yaw angle (not supported)
// param5 : latitude (not supported)
// param6 : longitude (not supported)
// param7 : altitude [metres]
float takeoff_alt = packet . param7 * 100 ; // Convert m to cm
if ( ! copter . flightmode - > do_user_takeoff ( takeoff_alt , is_zero ( packet . param3 ) ) ) {
return MAV_RESULT_FAILED ;
}
return MAV_RESULT_ACCEPTED ;
}
case MAV_CMD_NAV_LOITER_UNLIM :
if ( ! copter . set_mode ( LOITER , MODE_REASON_GCS_COMMAND ) ) {
return MAV_RESULT_FAILED ;
}
return MAV_RESULT_ACCEPTED ;
case MAV_CMD_NAV_RETURN_TO_LAUNCH :
if ( ! copter . set_mode ( RTL , MODE_REASON_GCS_COMMAND ) ) {
return MAV_RESULT_FAILED ;
}
return MAV_RESULT_ACCEPTED ;
case MAV_CMD_NAV_LAND :
if ( ! copter . set_mode ( LAND , MODE_REASON_GCS_COMMAND ) ) {
return MAV_RESULT_FAILED ;
}
return MAV_RESULT_ACCEPTED ;
# if MODE_FOLLOW_ENABLED == ENABLED
case MAV_CMD_DO_FOLLOW :
// param1: sysid of target to follow
if ( ( packet . param1 > 0 ) & & ( packet . param1 < = 255 ) ) {
copter . g2 . follow . set_target_sysid ( ( uint8_t ) packet . param1 ) ;
return MAV_RESULT_ACCEPTED ;
}
return MAV_RESULT_FAILED ;
# endif
case MAV_CMD_CONDITION_YAW :
// param1 : target angle [0-360]
// param2 : speed during change [deg per second]
// param3 : direction (-1:ccw, +1:cw)
// param4 : relative offset (1) or absolute angle (0)
if ( ( packet . param1 > = 0.0f ) & &
( packet . param1 < = 360.0f ) & &
( is_zero ( packet . param4 ) | | is_equal ( packet . param4 , 1.0f ) ) ) {
copter . flightmode - > auto_yaw . set_fixed_yaw (
packet . param1 ,
packet . param2 ,
( int8_t ) packet . param3 ,
is_positive ( packet . param4 ) ) ;
return MAV_RESULT_ACCEPTED ;
}
return MAV_RESULT_FAILED ;
case MAV_CMD_DO_CHANGE_SPEED :
// param1 : unused
// param2 : new speed in m/s
// param3 : unused
// param4 : unused
if ( packet . param2 > 0.0f ) {
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if ( packet . param1 > 2.9f ) { // 3 = speed down
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copter . wp_nav - > set_speed_down ( packet . param2 * 100.0f ) ;
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} else if ( packet . param1 > 1.9f ) { // 2 = speed up
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copter . wp_nav - > set_speed_up ( packet . param2 * 100.0f ) ;
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} else {
copter . wp_nav - > set_speed_xy ( packet . param2 * 100.0f ) ;
}
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return MAV_RESULT_ACCEPTED ;
}
return MAV_RESULT_FAILED ;
# if MODE_AUTO_ENABLED == ENABLED
case MAV_CMD_MISSION_START :
if ( copter . motors - > armed ( ) & & copter . set_mode ( AUTO , MODE_REASON_GCS_COMMAND ) ) {
copter . set_auto_armed ( true ) ;
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if ( copter . mode_auto . mission . state ( ) ! = AP_Mission : : MISSION_RUNNING ) {
copter . mode_auto . mission . start_or_resume ( ) ;
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}
return MAV_RESULT_ACCEPTED ;
}
return MAV_RESULT_FAILED ;
# endif
case MAV_CMD_COMPONENT_ARM_DISARM :
if ( is_equal ( packet . param1 , 1.0f ) ) {
// attempt to arm and return success or failure
const bool do_arming_checks = ! is_equal ( packet . param2 , magic_force_arm_value ) ;
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if ( copter . init_arm_motors ( AP_Arming : : Method : : MAVLINK , do_arming_checks ) ) {
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return MAV_RESULT_ACCEPTED ;
}
} else if ( is_zero ( packet . param1 ) ) {
if ( copter . ap . land_complete | | is_equal ( packet . param2 , magic_force_disarm_value ) ) {
// force disarming by setting param2 = 21196 is deprecated
copter . init_disarm_motors ( ) ;
return MAV_RESULT_ACCEPTED ;
} else {
return MAV_RESULT_FAILED ;
}
} else {
return MAV_RESULT_UNSUPPORTED ;
}
return MAV_RESULT_FAILED ;
# if PARACHUTE == ENABLED
case MAV_CMD_DO_PARACHUTE :
// configure or release parachute
switch ( ( uint16_t ) packet . param1 ) {
case PARACHUTE_DISABLE :
copter . parachute . enabled ( false ) ;
copter . Log_Write_Event ( DATA_PARACHUTE_DISABLED ) ;
return MAV_RESULT_ACCEPTED ;
case PARACHUTE_ENABLE :
copter . parachute . enabled ( true ) ;
copter . Log_Write_Event ( DATA_PARACHUTE_ENABLED ) ;
return MAV_RESULT_ACCEPTED ;
case PARACHUTE_RELEASE :
// treat as a manual release which performs some additional check of altitude
copter . parachute_manual_release ( ) ;
return MAV_RESULT_ACCEPTED ;
}
return MAV_RESULT_FAILED ;
# endif
case MAV_CMD_DO_MOTOR_TEST :
// param1 : motor sequence number (a number from 1 to max number of motors on the vehicle)
// param2 : throttle type (0=throttle percentage, 1=PWM, 2=pilot throttle channel pass-through. See MOTOR_TEST_THROTTLE_TYPE enum)
// param3 : throttle (range depends upon param2)
// param4 : timeout (in seconds)
// param5 : num_motors (in sequence)
// param6 : compass learning (0: disabled, 1: enabled)
return copter . mavlink_motor_test_start ( chan ,
( uint8_t ) packet . param1 ,
( uint8_t ) packet . param2 ,
( uint16_t ) packet . param3 ,
packet . param4 ,
( uint8_t ) packet . param5 ) ;
# if WINCH_ENABLED == ENABLED
case MAV_CMD_DO_WINCH :
// param1 : winch number (ignored)
// param2 : action (0=relax, 1=relative length control, 2=rate control). See WINCH_ACTIONS enum.
if ( ! copter . g2 . winch . enabled ( ) ) {
return MAV_RESULT_FAILED ;
}
switch ( ( uint8_t ) packet . param2 ) {
case WINCH_RELAXED :
copter . g2 . winch . relax ( ) ;
copter . Log_Write_Event ( DATA_WINCH_RELAXED ) ;
return MAV_RESULT_ACCEPTED ;
case WINCH_RELATIVE_LENGTH_CONTROL : {
copter . g2 . winch . release_length ( packet . param3 , fabsf ( packet . param4 ) ) ;
copter . Log_Write_Event ( DATA_WINCH_LENGTH_CONTROL ) ;
return MAV_RESULT_ACCEPTED ;
}
case WINCH_RATE_CONTROL :
if ( fabsf ( packet . param4 ) < = copter . g2 . winch . get_rate_max ( ) ) {
copter . g2 . winch . set_desired_rate ( packet . param4 ) ;
copter . Log_Write_Event ( DATA_WINCH_RATE_CONTROL ) ;
return MAV_RESULT_ACCEPTED ;
}
return MAV_RESULT_FAILED ;
default :
break ;
}
return MAV_RESULT_FAILED ;
# endif
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case MAV_CMD_AIRFRAME_CONFIGURATION : {
// Param 1: Select which gear, not used in ArduPilot
// Param 2: 0 = Deploy, 1 = Retract
// For safety, anything other than 1 will deploy
switch ( ( uint8_t ) packet . param2 ) {
case 1 :
copter . landinggear . set_position ( AP_LandingGear : : LandingGear_Retract ) ;
return MAV_RESULT_ACCEPTED ;
default :
copter . landinggear . set_position ( AP_LandingGear : : LandingGear_Deploy ) ;
return MAV_RESULT_ACCEPTED ;
}
return MAV_RESULT_FAILED ;
}
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/* Solo user presses Fly button */
case MAV_CMD_SOLO_BTN_FLY_CLICK : {
if ( copter . failsafe . radio ) {
return MAV_RESULT_ACCEPTED ;
}
// set mode to Loiter or fall back to AltHold
if ( ! copter . set_mode ( LOITER , MODE_REASON_GCS_COMMAND ) ) {
copter . set_mode ( ALT_HOLD , MODE_REASON_GCS_COMMAND ) ;
}
return MAV_RESULT_ACCEPTED ;
}
/* Solo user holds down Fly button for a couple of seconds */
case MAV_CMD_SOLO_BTN_FLY_HOLD : {
if ( copter . failsafe . radio ) {
return MAV_RESULT_ACCEPTED ;
}
if ( ! copter . motors - > armed ( ) ) {
// if disarmed, arm motors
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copter . init_arm_motors ( AP_Arming : : Method : : MAVLINK ) ;
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} else if ( copter . ap . land_complete ) {
// if armed and landed, takeoff
if ( copter . set_mode ( LOITER , MODE_REASON_GCS_COMMAND ) ) {
copter . flightmode - > do_user_takeoff ( packet . param1 * 100 , true ) ;
}
} else {
// if flying, land
copter . set_mode ( LAND , MODE_REASON_GCS_COMMAND ) ;
}
return MAV_RESULT_ACCEPTED ;
}
/* Solo user presses pause button */
case MAV_CMD_SOLO_BTN_PAUSE_CLICK : {
if ( copter . failsafe . radio ) {
return MAV_RESULT_ACCEPTED ;
}
if ( copter . motors - > armed ( ) ) {
if ( copter . ap . land_complete ) {
// if landed, disarm motors
copter . init_disarm_motors ( ) ;
} else {
// assume that shots modes are all done in guided.
// NOTE: this may need to change if we add a non-guided shot mode
bool shot_mode = ( ! is_zero ( packet . param1 ) & & ( copter . control_mode = = GUIDED | | copter . control_mode = = GUIDED_NOGPS ) ) ;
if ( ! shot_mode ) {
# if MODE_BRAKE_ENABLED == ENABLED
if ( copter . set_mode ( BRAKE , MODE_REASON_GCS_COMMAND ) ) {
copter . mode_brake . timeout_to_loiter_ms ( 2500 ) ;
} else {
copter . set_mode ( ALT_HOLD , MODE_REASON_GCS_COMMAND ) ;
}
# else
copter . set_mode ( ALT_HOLD , MODE_REASON_GCS_COMMAND ) ;
# endif
} else {
// SoloLink is expected to handle pause in shots
}
}
}
return MAV_RESULT_ACCEPTED ;
}
default :
return GCS_MAVLINK : : handle_command_long_packet ( packet ) ;
}
}
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void GCS_MAVLINK_Copter : : handle_mount_message ( const mavlink_message_t * msg )
{
switch ( msg - > msgid ) {
# if MOUNT == ENABLED
case MAVLINK_MSG_ID_MOUNT_CONTROL :
if ( ! copter . camera_mount . has_pan_control ( ) ) {
// if the mount doesn't do pan control then yaw the entire vehicle instead:
copter . flightmode - > auto_yaw . set_fixed_yaw (
mavlink_msg_mount_control_get_input_c ( msg ) / 100.0f ,
0.0f ,
0 ,
0 ) ;
break ;
}
# endif
}
GCS_MAVLINK : : handle_mount_message ( msg ) ;
}
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void GCS_MAVLINK_Copter : : handleMessage ( mavlink_message_t * msg )
{
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switch ( msg - > msgid ) {
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case MAVLINK_MSG_ID_HEARTBEAT : // MAV ID: 0
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{
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// We keep track of the last time we received a heartbeat from our GCS for failsafe purposes
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if ( msg - > sysid ! = copter . g . sysid_my_gcs ) break ;
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copter . failsafe . last_heartbeat_ms = AP_HAL : : millis ( ) ;
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break ;
}
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case MAVLINK_MSG_ID_MANUAL_CONTROL :
{
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if ( msg - > sysid ! = copter . g . sysid_my_gcs ) {
break ; // only accept control from our gcs
}
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mavlink_manual_control_t packet ;
mavlink_msg_manual_control_decode ( msg , & packet ) ;
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if ( packet . target ! = copter . g . sysid_this_mav ) {
break ; // only accept control aimed at us
}
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if ( packet . z < 0 ) { // Copter doesn't do negative thrust
break ;
}
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uint32_t tnow = AP_HAL : : millis ( ) ;
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manual_override ( copter . channel_roll , packet . y , 1000 , 2000 , tnow ) ;
manual_override ( copter . channel_pitch , packet . x , 1000 , 2000 , tnow , true ) ;
manual_override ( copter . channel_throttle , packet . z , 0 , 1000 , tnow ) ;
manual_override ( copter . channel_yaw , packet . r , 1000 , 2000 , tnow ) ;
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// a manual control message is considered to be a 'heartbeat' from the ground station for failsafe purposes
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copter . failsafe . last_heartbeat_ms = tnow ;
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break ;
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}
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# if MODE_GUIDED_ENABLED == ENABLED
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case MAVLINK_MSG_ID_SET_ATTITUDE_TARGET : // MAV ID: 82
{
// decode packet
mavlink_set_attitude_target_t packet ;
mavlink_msg_set_attitude_target_decode ( msg , & packet ) ;
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// exit if vehicle is not in Guided mode or Auto-Guided mode
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if ( ! copter . flightmode - > in_guided_mode ( ) ) {
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break ;
}
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// ensure type_mask specifies to use attitude and thrust
if ( ( packet . type_mask & ( ( 1 < < 7 ) | ( 1 < < 6 ) ) ) ! = 0 ) {
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break ;
}
// convert thrust to climb rate
packet . thrust = constrain_float ( packet . thrust , 0.0f , 1.0f ) ;
float climb_rate_cms = 0.0f ;
if ( is_equal ( packet . thrust , 0.5f ) ) {
climb_rate_cms = 0.0f ;
} else if ( packet . thrust > 0.5f ) {
// climb at up to WPNAV_SPEED_UP
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climb_rate_cms = ( packet . thrust - 0.5f ) * 2.0f * copter . wp_nav - > get_default_speed_up ( ) ;
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} else {
// descend at up to WPNAV_SPEED_DN
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climb_rate_cms = ( 0.5f - packet . thrust ) * 2.0f * - fabsf ( copter . wp_nav - > get_default_speed_down ( ) ) ;
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}
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// if the body_yaw_rate field is ignored, use the commanded yaw position
// otherwise use the commanded yaw rate
bool use_yaw_rate = false ;
if ( ( packet . type_mask & ( 1 < < 2 ) ) = = 0 ) {
use_yaw_rate = true ;
}
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copter . mode_guided . set_angle ( Quaternion ( packet . q [ 0 ] , packet . q [ 1 ] , packet . q [ 2 ] , packet . q [ 3 ] ) ,
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climb_rate_cms , use_yaw_rate , packet . body_yaw_rate ) ;
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break ;
}
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case MAVLINK_MSG_ID_SET_POSITION_TARGET_LOCAL_NED : // MAV ID: 84
{
// decode packet
mavlink_set_position_target_local_ned_t packet ;
mavlink_msg_set_position_target_local_ned_decode ( msg , & packet ) ;
2014-10-13 23:26:08 -03:00
// exit if vehicle is not in Guided mode or Auto-Guided mode
2018-02-21 21:49:47 -04:00
if ( ! copter . flightmode - > in_guided_mode ( ) ) {
2014-10-13 08:31:40 -03:00
break ;
}
2015-08-11 08:26:28 -03:00
// check for supported coordinate frames
if ( packet . coordinate_frame ! = MAV_FRAME_LOCAL_NED & &
packet . coordinate_frame ! = MAV_FRAME_LOCAL_OFFSET_NED & &
packet . coordinate_frame ! = MAV_FRAME_BODY_NED & &
packet . coordinate_frame ! = MAV_FRAME_BODY_OFFSET_NED ) {
break ;
}
2014-11-14 21:18:17 -04:00
bool pos_ignore = packet . type_mask & MAVLINK_SET_POS_TYPE_MASK_POS_IGNORE ;
bool vel_ignore = packet . type_mask & MAVLINK_SET_POS_TYPE_MASK_VEL_IGNORE ;
bool acc_ignore = packet . type_mask & MAVLINK_SET_POS_TYPE_MASK_ACC_IGNORE ;
2017-06-22 12:20:14 -03:00
bool yaw_ignore = packet . type_mask & MAVLINK_SET_POS_TYPE_MASK_YAW_IGNORE ;
bool yaw_rate_ignore = packet . type_mask & MAVLINK_SET_POS_TYPE_MASK_YAW_RATE_IGNORE ;
2014-11-14 21:18:17 -04:00
/*
* for future use :
* bool force = packet . type_mask & MAVLINK_SET_POS_TYPE_MASK_FORCE ;
*/
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// prepare position
Vector3f pos_vector ;
if ( ! pos_ignore ) {
// convert to cm
pos_vector = Vector3f ( packet . x * 100.0f , packet . y * 100.0f , - packet . z * 100.0f ) ;
// rotate to body-frame if necessary
if ( packet . coordinate_frame = = MAV_FRAME_BODY_NED | |
packet . coordinate_frame = = MAV_FRAME_BODY_OFFSET_NED ) {
copter . rotate_body_frame_to_NE ( pos_vector . x , pos_vector . y ) ;
}
// add body offset if necessary
if ( packet . coordinate_frame = = MAV_FRAME_LOCAL_OFFSET_NED | |
packet . coordinate_frame = = MAV_FRAME_BODY_NED | |
packet . coordinate_frame = = MAV_FRAME_BODY_OFFSET_NED ) {
pos_vector + = copter . inertial_nav . get_position ( ) ;
} else {
// convert from alt-above-home to alt-above-ekf-origin
2019-02-21 02:42:13 -04:00
if ( ! AP : : ahrs ( ) . home_is_set ( ) ) {
break ;
}
const Location & origin = copter . inertial_nav . get_origin ( ) ;
pos_vector . z + = AP : : ahrs ( ) . get_home ( ) . alt ;
pos_vector . z - = origin . alt ;
2015-08-11 08:26:28 -03:00
}
}
// prepare velocity
Vector3f vel_vector ;
if ( ! vel_ignore ) {
// convert to cm
vel_vector = Vector3f ( packet . vx * 100.0f , packet . vy * 100.0f , - packet . vz * 100.0f ) ;
// rotate to body-frame if necessary
if ( packet . coordinate_frame = = MAV_FRAME_BODY_NED | | packet . coordinate_frame = = MAV_FRAME_BODY_OFFSET_NED ) {
copter . rotate_body_frame_to_NE ( vel_vector . x , vel_vector . y ) ;
}
}
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// prepare yaw
float yaw_cd = 0.0f ;
bool yaw_relative = false ;
float yaw_rate_cds = 0.0f ;
if ( ! yaw_ignore ) {
yaw_cd = ToDeg ( packet . yaw ) * 100.0f ;
yaw_relative = packet . coordinate_frame = = MAV_FRAME_BODY_NED | | packet . coordinate_frame = = MAV_FRAME_BODY_OFFSET_NED ;
}
if ( ! yaw_rate_ignore ) {
yaw_rate_cds = ToDeg ( packet . yaw_rate ) * 100.0f ;
}
2015-08-11 08:26:28 -03:00
// send request
2014-11-14 21:18:17 -04:00
if ( ! pos_ignore & & ! vel_ignore & & acc_ignore ) {
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copter . mode_guided . set_destination_posvel ( pos_vector , vel_vector , ! yaw_ignore , yaw_cd , ! yaw_rate_ignore , yaw_rate_cds , yaw_relative ) ;
2014-11-14 21:18:17 -04:00
} else if ( pos_ignore & & ! vel_ignore & & acc_ignore ) {
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copter . mode_guided . set_velocity ( vel_vector , ! yaw_ignore , yaw_cd , ! yaw_rate_ignore , yaw_rate_cds , yaw_relative ) ;
2014-11-14 21:18:17 -04:00
} else if ( ! pos_ignore & & vel_ignore & & acc_ignore ) {
2018-07-03 23:16:58 -03:00
copter . mode_guided . set_destination ( pos_vector , ! yaw_ignore , yaw_cd , ! yaw_rate_ignore , yaw_rate_cds , yaw_relative ) ;
2014-11-14 21:18:17 -04:00
}
2014-10-13 08:31:40 -03:00
break ;
}
case MAVLINK_MSG_ID_SET_POSITION_TARGET_GLOBAL_INT : // MAV ID: 86
{
// decode packet
mavlink_set_position_target_global_int_t packet ;
mavlink_msg_set_position_target_global_int_decode ( msg , & packet ) ;
2014-10-13 23:26:08 -03:00
// exit if vehicle is not in Guided mode or Auto-Guided mode
2018-02-21 21:49:47 -04:00
if ( ! copter . flightmode - > in_guided_mode ( ) ) {
2014-10-13 08:31:40 -03:00
break ;
}
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bool pos_ignore = packet . type_mask & MAVLINK_SET_POS_TYPE_MASK_POS_IGNORE ;
bool vel_ignore = packet . type_mask & MAVLINK_SET_POS_TYPE_MASK_VEL_IGNORE ;
bool acc_ignore = packet . type_mask & MAVLINK_SET_POS_TYPE_MASK_ACC_IGNORE ;
2017-06-22 12:20:14 -03:00
bool yaw_ignore = packet . type_mask & MAVLINK_SET_POS_TYPE_MASK_YAW_IGNORE ;
bool yaw_rate_ignore = packet . type_mask & MAVLINK_SET_POS_TYPE_MASK_YAW_RATE_IGNORE ;
2014-11-14 21:18:17 -04:00
/*
* for future use :
* bool force = packet . type_mask & MAVLINK_SET_POS_TYPE_MASK_FORCE ;
*/
2017-11-24 13:04:34 -04:00
Vector3f pos_neu_cm ; // position (North, East, Up coordinates) in centimeters
2014-11-14 21:18:17 -04:00
if ( ! pos_ignore ) {
2016-06-01 19:29:40 -03:00
// sanity check location
if ( ! check_latlng ( packet . lat_int , packet . lon_int ) ) {
break ;
}
2019-03-14 22:44:27 -03:00
Location : : AltFrame frame ;
2019-02-05 17:46:57 -04:00
if ( ! mavlink_coordinate_frame_to_location_alt_frame ( packet . coordinate_frame , frame ) ) {
// unknown coordinate frame
break ;
2014-11-14 21:18:17 -04:00
}
2019-02-05 17:46:57 -04:00
const Location loc {
packet . lat_int ,
packet . lon_int ,
int32_t ( packet . alt * 100 ) ,
frame ,
} ;
2019-02-04 18:08:19 -04:00
if ( ! loc . get_vector_from_origin_NEU ( pos_neu_cm ) ) {
break ;
}
2014-11-14 21:18:17 -04:00
}
2017-07-11 02:06:18 -03:00
// prepare yaw
float yaw_cd = 0.0f ;
bool yaw_relative = false ;
float yaw_rate_cds = 0.0f ;
if ( ! yaw_ignore ) {
yaw_cd = ToDeg ( packet . yaw ) * 100.0f ;
yaw_relative = packet . coordinate_frame = = MAV_FRAME_BODY_NED | | packet . coordinate_frame = = MAV_FRAME_BODY_OFFSET_NED ;
}
if ( ! yaw_rate_ignore ) {
yaw_rate_cds = ToDeg ( packet . yaw_rate ) * 100.0f ;
}
2014-11-14 21:18:17 -04:00
if ( ! pos_ignore & & ! vel_ignore & & acc_ignore ) {
2018-07-03 23:16:58 -03:00
copter . mode_guided . set_destination_posvel ( pos_neu_cm , Vector3f ( packet . vx * 100.0f , packet . vy * 100.0f , - packet . vz * 100.0f ) , ! yaw_ignore , yaw_cd , ! yaw_rate_ignore , yaw_rate_cds , yaw_relative ) ;
2014-11-14 21:18:17 -04:00
} else if ( pos_ignore & & ! vel_ignore & & acc_ignore ) {
2017-12-11 01:43:27 -04:00
copter . mode_guided . set_velocity ( Vector3f ( packet . vx * 100.0f , packet . vy * 100.0f , - packet . vz * 100.0f ) , ! yaw_ignore , yaw_cd , ! yaw_rate_ignore , yaw_rate_cds , yaw_relative ) ;
2014-11-14 21:18:17 -04:00
} else if ( ! pos_ignore & & vel_ignore & & acc_ignore ) {
2018-07-03 23:16:58 -03:00
copter . mode_guided . set_destination ( pos_neu_cm , ! yaw_ignore , yaw_cd , ! yaw_rate_ignore , yaw_rate_cds , yaw_relative ) ;
2014-11-14 21:18:17 -04:00
}
2014-10-13 08:31:40 -03:00
break ;
}
2018-02-23 00:09:07 -04:00
# endif
2014-10-13 08:31:40 -03:00
2016-05-04 00:03:56 -03:00
case MAVLINK_MSG_ID_DISTANCE_SENSOR :
{
2016-04-27 08:37:04 -03:00
copter . rangefinder . handle_msg ( msg ) ;
2017-01-09 23:09:39 -04:00
# if PROXIMITY_ENABLED == ENABLED
copter . g2 . proximity . handle_msg ( msg ) ;
# endif
2016-05-04 00:03:56 -03:00
break ;
}
2018-09-06 07:18:03 -03:00
case MAVLINK_MSG_ID_OBSTACLE_DISTANCE :
{
# if PROXIMITY_ENABLED == ENABLED
copter . g2 . proximity . handle_msg ( msg ) ;
# endif
break ;
}
2012-07-04 21:55:58 -03:00
# if HIL_MODE != HIL_MODE_DISABLED
2014-02-27 21:24:47 -04:00
case MAVLINK_MSG_ID_HIL_STATE : // MAV ID: 90
2012-08-16 21:50:03 -03:00
{
mavlink_hil_state_t packet ;
mavlink_msg_hil_state_decode ( msg , & packet ) ;
2012-06-26 02:19:51 -03:00
2016-06-01 19:29:40 -03:00
// sanity check location
if ( ! check_latlng ( packet . lat , packet . lon ) ) {
break ;
}
2012-08-16 21:50:03 -03:00
// set gps hil sensor
2014-03-31 04:07:46 -03:00
Location loc ;
loc . lat = packet . lat ;
loc . lng = packet . lon ;
loc . alt = packet . alt / 10 ;
Vector3f vel ( packet . vx , packet . vy , packet . vz ) ;
vel * = 0.01f ;
2014-04-01 17:51:19 -03:00
gps . setHIL ( 0 , AP_GPS : : GPS_OK_FIX_3D ,
2014-03-31 04:07:46 -03:00
packet . time_usec / 1000 ,
2016-05-04 22:42:28 -03:00
loc , vel , 10 , 0 ) ;
2012-06-26 02:19:51 -03:00
2012-08-16 21:50:03 -03:00
// rad/sec
Vector3f gyros ;
gyros . x = packet . rollspeed ;
gyros . y = packet . pitchspeed ;
gyros . z = packet . yawspeed ;
2013-03-19 03:07:15 -03:00
2012-08-16 21:50:03 -03:00
// m/s/s
Vector3f accels ;
2015-05-02 06:26:19 -03:00
accels . x = packet . xacc * ( GRAVITY_MSS / 1000.0f ) ;
accels . y = packet . yacc * ( GRAVITY_MSS / 1000.0f ) ;
accels . z = packet . zacc * ( GRAVITY_MSS / 1000.0f ) ;
2012-06-04 05:24:08 -03:00
2014-02-22 17:18:20 -04:00
ins . set_gyro ( 0 , gyros ) ;
2012-06-04 05:24:08 -03:00
2014-02-22 17:18:20 -04:00
ins . set_accel ( 0 , accels ) ;
2012-06-26 02:19:51 -03:00
2018-03-05 16:37:25 -04:00
AP : : baro ( ) . setHIL ( packet . alt * 0.001f ) ;
2015-05-29 23:12:49 -03:00
copter . compass . setHIL ( 0 , packet . roll , packet . pitch , packet . yaw ) ;
copter . compass . setHIL ( 1 , packet . roll , packet . pitch , packet . yaw ) ;
2012-06-04 05:24:08 -03:00
2012-08-16 21:50:03 -03:00
break ;
}
2012-07-04 21:55:58 -03:00
# endif // HIL_MODE != HIL_MODE_DISABLED
2012-06-26 02:19:51 -03:00
2014-02-27 21:24:47 -04:00
case MAVLINK_MSG_ID_RADIO :
case MAVLINK_MSG_ID_RADIO_STATUS : // MAV ID: 109
2013-04-29 09:30:22 -03:00
{
2019-03-26 02:13:36 -03:00
handle_radio_status ( msg , copter . should_log ( MASK_LOG_PM ) ) ;
2013-04-29 09:30:22 -03:00
break ;
}
2012-04-01 22:18:42 -03:00
2015-09-10 16:06:38 -03:00
# if PRECISION_LANDING == ENABLED
2016-03-20 14:12:31 -03:00
case MAVLINK_MSG_ID_LANDING_TARGET :
copter . precland . handle_msg ( msg ) ;
break ;
2015-09-10 16:06:38 -03:00
# endif
2014-07-22 05:22:36 -03:00
case MAVLINK_MSG_ID_TERRAIN_DATA :
case MAVLINK_MSG_ID_TERRAIN_CHECK :
2015-11-13 23:38:47 -04:00
# if AP_TERRAIN_AVAILABLE && AC_TERRAIN
2015-05-29 23:12:49 -03:00
copter . terrain . handle_data ( chan , msg ) ;
2014-07-22 05:22:36 -03:00
# endif
break ;
2015-10-02 22:37:02 -03:00
case MAVLINK_MSG_ID_SET_HOME_POSITION :
{
mavlink_set_home_position_t packet ;
mavlink_msg_set_home_position_decode ( msg , & packet ) ;
if ( ( packet . latitude = = 0 ) & & ( packet . longitude = = 0 ) & & ( packet . altitude = = 0 ) ) {
2018-05-29 21:47:08 -03:00
if ( ! copter . set_home_to_current_location ( true ) ) {
// silently ignored
}
2015-10-02 22:37:02 -03:00
} else {
Location new_home_loc ;
new_home_loc . lat = packet . latitude ;
new_home_loc . lng = packet . longitude ;
2016-04-15 16:28:29 -03:00
new_home_loc . alt = packet . altitude / 10 ;
2018-05-29 21:47:08 -03:00
if ( ! copter . set_home ( new_home_loc , true ) ) {
// silently ignored
}
2015-10-02 22:37:02 -03:00
}
break ;
}
2015-11-25 19:22:21 -04:00
case MAVLINK_MSG_ID_ADSB_VEHICLE :
2016-08-16 20:19:48 -03:00
case MAVLINK_MSG_ID_UAVIONIX_ADSB_OUT_CFG :
case MAVLINK_MSG_ID_UAVIONIX_ADSB_OUT_DYNAMIC :
2016-08-16 19:37:29 -03:00
case MAVLINK_MSG_ID_UAVIONIX_ADSB_TRANSCEIVER_HEALTH_REPORT :
2016-07-10 21:21:57 -03:00
# if ADSB_ENABLED == ENABLED
2016-08-16 20:19:48 -03:00
copter . adsb . handle_message ( chan , msg ) ;
2016-07-10 21:21:57 -03:00
# endif
break ;
2018-01-18 02:49:20 -04:00
# if TOY_MODE_ENABLED == ENABLED
case MAVLINK_MSG_ID_NAMED_VALUE_INT :
copter . g2 . toy_mode . handle_message ( msg ) ;
break ;
# endif
2016-11-06 20:06:51 -04:00
default :
handle_common_message ( msg ) ;
2016-01-20 22:50:49 -04:00
break ;
2014-02-27 21:24:47 -04:00
} // end switch
} // end handle mavlink
2012-07-24 23:02:54 -03:00
2013-03-20 23:54:04 -03:00
2011-08-01 05:08:52 -03:00
/*
2012-08-16 21:50:03 -03:00
* a delay ( ) callback that processes MAVLink packets . We set this as the
* callback in long running library initialisation routines to allow
* MAVLink to process packets while waiting for the initialisation to
* complete
*/
2015-05-29 23:12:49 -03:00
void Copter : : mavlink_delay_cb ( )
2011-08-01 05:08:52 -03:00
{
2012-05-22 03:08:46 -03:00
static uint32_t last_1hz , last_50hz , last_5s ;
2018-05-08 03:17:08 -03:00
if ( ! gcs ( ) . chan ( 0 ) . initialised ) return ;
2011-09-04 21:15:36 -03:00
2019-01-18 00:23:42 -04:00
logger . EnableWrites ( false ) ;
2011-08-01 05:08:52 -03:00
2012-12-12 21:25:09 -04:00
uint32_t tnow = millis ( ) ;
if ( tnow - last_1hz > 1000 ) {
last_1hz = tnow ;
2013-01-08 01:45:12 -04:00
gcs_send_heartbeat ( ) ;
2018-12-17 22:08:11 -04:00
gcs ( ) . send_message ( MSG_SYS_STATUS ) ;
2012-12-12 21:25:09 -04:00
}
if ( tnow - last_50hz > 20 ) {
last_50hz = tnow ;
2018-11-22 20:37:54 -04:00
gcs ( ) . update_receive ( ) ;
gcs ( ) . update_send ( ) ;
2013-08-29 00:14:07 -03:00
notify . update ( ) ;
2012-12-12 21:25:09 -04:00
}
if ( tnow - last_5s > 5000 ) {
last_5s = tnow ;
2017-07-08 21:56:49 -03:00
gcs ( ) . send_text ( MAV_SEVERITY_INFO , " Initialising APM " ) ;
2012-12-12 21:25:09 -04:00
}
2011-09-04 21:15:36 -03:00
2019-01-18 00:23:42 -04:00
logger . EnableWrites ( true ) ;
2011-08-23 03:16:37 -03:00
}
2011-10-11 06:12:37 -03:00
2017-07-25 03:36:17 -03:00
AP_AdvancedFailsafe * GCS_MAVLINK_Copter : : get_advanced_failsafe ( ) const
{
# if ADVANCED_FAILSAFE == ENABLED
return & copter . g2 . afs ;
# else
return nullptr ;
# endif
}
MAV_RESULT GCS_MAVLINK_Copter : : handle_flight_termination ( const mavlink_command_long_t & packet ) {
MAV_RESULT result = MAV_RESULT_FAILED ;
# if ADVANCED_FAILSAFE == ENABLED
if ( GCS_MAVLINK : : handle_flight_termination ( packet ) ! = MAV_RESULT_ACCEPTED ) {
# endif
if ( packet . param1 > 0.5f ) {
copter . init_disarm_motors ( ) ;
result = MAV_RESULT_ACCEPTED ;
}
# if ADVANCED_FAILSAFE == ENABLED
} else {
result = MAV_RESULT_ACCEPTED ;
}
# endif
return result ;
}
2017-08-11 03:02:52 -03:00
bool GCS_MAVLINK_Copter : : set_mode ( const uint8_t mode )
{
# ifdef DISALLOW_GCS_MODE_CHANGE_DURING_RC_FAILSAFE
if ( copter . failsafe . radio ) {
// don't allow mode changes while in radio failsafe
return false ;
}
# endif
return copter . set_mode ( ( control_mode_t ) mode , MODE_REASON_GCS_COMMAND ) ;
}
2018-11-05 21:04:00 -04:00
float GCS_MAVLINK_Copter : : vfr_hud_alt ( ) const
{
if ( copter . g2 . dev_options . get ( ) & DevOptionVFR_HUDRelativeAlt ) {
2019-03-25 20:57:55 -03:00
// compatibility option for older mavlink-aware devices that
2018-11-05 21:04:00 -04:00
// assume Copter returns a relative altitude in VFR_HUD.alt
return copter . current_loc . alt / 100.0f ;
}
return GCS_MAVLINK : : vfr_hud_alt ( ) ;
}
2018-03-28 21:51:26 -03:00
uint64_t GCS_MAVLINK_Copter : : capabilities ( ) const
{
return ( MAV_PROTOCOL_CAPABILITY_MISSION_FLOAT |
MAV_PROTOCOL_CAPABILITY_PARAM_FLOAT |
MAV_PROTOCOL_CAPABILITY_MISSION_INT |
MAV_PROTOCOL_CAPABILITY_COMMAND_INT |
MAV_PROTOCOL_CAPABILITY_SET_POSITION_TARGET_LOCAL_NED |
MAV_PROTOCOL_CAPABILITY_SET_POSITION_TARGET_GLOBAL_INT |
MAV_PROTOCOL_CAPABILITY_FLIGHT_TERMINATION |
MAV_PROTOCOL_CAPABILITY_SET_ATTITUDE_TARGET |
# if AP_TERRAIN_AVAILABLE && AC_TERRAIN
( copter . terrain . enabled ( ) ? MAV_PROTOCOL_CAPABILITY_TERRAIN : 0 ) |
# endif
MAV_PROTOCOL_CAPABILITY_COMPASS_CALIBRATION |
GCS_MAVLINK : : capabilities ( ) ) ;
}
2018-04-30 06:50:04 -03:00
MAV_LANDED_STATE GCS_MAVLINK_Copter : : landed_state ( ) const
{
if ( copter . ap . land_complete ) {
return MAV_LANDED_STATE_ON_GROUND ;
}
if ( copter . flightmode - > is_landing ( ) ) {
return MAV_LANDED_STATE_LANDING ;
}
if ( copter . flightmode - > is_taking_off ( ) ) {
return MAV_LANDED_STATE_TAKEOFF ;
}
return MAV_LANDED_STATE_IN_AIR ;
}