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# include "AP_LandingGear.h"
# include <AP_Relay/AP_Relay.h>
# include <AP_Math/AP_Math.h>
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# include <SRV_Channel/SRV_Channel.h>
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# include <AP_HAL/AP_HAL.h>
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# include <AP_Logger/AP_Logger.h>
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# include <GCS_MAVLink/GCS.h>
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extern const AP_HAL : : HAL & hal ;
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const AP_Param : : GroupInfo AP_LandingGear : : var_info [ ] = {
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// 0 and 1 used by previous retract and deploy pwm, now replaced with SERVOn_MIN/MAX/REVERSED
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// @Param: STARTUP
// @DisplayName: Landing Gear Startup position
// @Description: Landing Gear Startup behaviour control
// @Values: 0:WaitForPilotInput, 1:Retract, 2:Deploy
// @User: Standard
AP_GROUPINFO ( " STARTUP " , 2 , AP_LandingGear , _startup_behaviour , ( uint8_t ) AP_LandingGear : : LandingGear_Startup_WaitForPilotInput ) ,
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// @Param: DEPLOY_PIN
// @DisplayName: Chassis deployment feedback pin
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// @Description: Pin number to use for detection of gear deployment. If set to -1 feedback is disabled.
// @Values: -1:Disabled,50:AUX1,51:AUX2,52:AUX3,53:AUX4,54:AUX5,55:AUX6
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// @User: Standard
// @RebootRequired: True
AP_GROUPINFO ( " DEPLOY_PIN " , 3 , AP_LandingGear , _pin_deployed , - 1 ) ,
// @Param: DEPLOY_POL
// @DisplayName: Chassis deployment feedback pin polarity
// @Description: Polarity for feedback pin. If this is 1 then the pin should be high when gear are deployed. If set to 0 then then deployed gear level is low.
// @Values: 0:Low,1:High
// @User: Standard
AP_GROUPINFO ( " DEPLOY_POL " , 4 , AP_LandingGear , _pin_deployed_polarity , 0 ) ,
// @Param: WOW_PIN
// @DisplayName: Weight on wheels feedback pin
// @Description: Pin number to use for feedback of weight on wheels condition. If set to -1 feedback is disabled.
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// @Values: -1:Disabled,50:AUX1,51:AUX2,52:AUX3,53:AUX4,54:AUX5,55:AUX6
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// @User: Standard
// @RebootRequired: True
AP_GROUPINFO ( " WOW_PIN " , 5 , AP_LandingGear , _pin_weight_on_wheels , DEFAULT_PIN_WOW ) ,
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// @Param: WOW_POL
// @DisplayName: Weight on wheels feedback pin polarity
// @Description: Polarity for feedback pin. If this is 1 then the pin should be high when there is weight on wheels. If set to 0 then then weight on wheels level is low.
// @Values: 0:Low,1:High
// @User: Standard
AP_GROUPINFO ( " WOW_POL " , 6 , AP_LandingGear , _pin_weight_on_wheels_polarity , DEFAULT_PIN_WOW_POL ) ,
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// @Param: DEPLOY_ALT
// @DisplayName: Landing gear deployment altitude
// @Description: Altitude where the landing gear will be deployed. This should be lower than the RETRACT_ALT. If zero then altitude is not used for deploying landing gear. Only applies when vehicle is armed.
// @Units: m
// @Range: 0 1000
// @Increment: 1
// @User: Standard
AP_GROUPINFO ( " DEPLOY_ALT " , 7 , AP_LandingGear , _deploy_alt , 0 ) ,
// @Param: RETRACT_ALT
// @DisplayName: Landing gear retract altitude
// @Description: Altitude where the landing gear will be retracted. This should be higher than the DEPLOY_ALT. If zero then altitude is not used for retracting landing gear. Only applies when vehicle is armed.
// @Units: m
// @Range: 0 1000
// @Increment: 1
// @User: Standard
AP_GROUPINFO ( " RETRACT_ALT " , 8 , AP_LandingGear , _retract_alt , 0 ) ,
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AP_GROUPEND
} ;
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AP_LandingGear * AP_LandingGear : : _singleton ;
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/// initialise state of landing gear
void AP_LandingGear : : init ( )
{
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if ( _pin_deployed ! = - 1 ) {
hal . gpio - > pinMode ( _pin_deployed , HAL_GPIO_INPUT ) ;
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// set pullup/pulldown to default to non-deployed state
hal . gpio - > write ( _pin_deployed , ! _pin_deployed_polarity ) ;
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log_wow_state ( wow_state_current ) ;
}
if ( _pin_weight_on_wheels ! = - 1 ) {
hal . gpio - > pinMode ( _pin_weight_on_wheels , HAL_GPIO_INPUT ) ;
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// set pullup/pulldown to default to flying state
hal . gpio - > write ( _pin_weight_on_wheels , ! _pin_weight_on_wheels_polarity ) ;
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log_wow_state ( wow_state_current ) ;
}
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switch ( ( enum LandingGearStartupBehaviour ) _startup_behaviour . get ( ) ) {
default :
case LandingGear_Startup_WaitForPilotInput :
// do nothing
break ;
case LandingGear_Startup_Retract :
retract ( ) ;
break ;
case LandingGear_Startup_Deploy :
deploy ( ) ;
break ;
}
}
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/// set landing gear position to retract, deploy or deploy-and-keep-deployed
void AP_LandingGear : : set_position ( LandingGearCommand cmd )
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{
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switch ( cmd ) {
case LandingGear_Retract :
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retract ( ) ;
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break ;
case LandingGear_Deploy :
deploy ( ) ;
break ;
}
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}
/// deploy - deploy landing gear
void AP_LandingGear : : deploy ( )
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{
// set servo PWM to deployed position
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SRV_Channels : : set_output_limit ( SRV_Channel : : k_landing_gear_control , SRV_Channel : : SRV_CHANNEL_LIMIT_MAX ) ;
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// set deployed flag
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_deployed = true ;
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_have_changed = true ;
gcs ( ) . send_text ( MAV_SEVERITY_INFO , " LandingGear: DEPLOY " ) ;
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}
/// retract - retract landing gear
void AP_LandingGear : : retract ( )
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{
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// set servo PWM to retracted position
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SRV_Channels : : set_output_limit ( SRV_Channel : : k_landing_gear_control , SRV_Channel : : SRV_CHANNEL_LIMIT_MIN ) ;
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// reset deployed flag
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_deployed = false ;
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_have_changed = true ;
gcs ( ) . send_text ( MAV_SEVERITY_INFO , " LandingGear: RETRACT " ) ;
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}
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bool AP_LandingGear : : deployed ( )
{
if ( _pin_deployed = = - 1 ) {
return _deployed ;
} else {
return hal . gpio - > read ( _pin_deployed ) = = _pin_deployed_polarity ? true : false ;
}
}
AP_LandingGear : : LG_WOW_State AP_LandingGear : : get_wow_state ( )
{
return wow_state_current ;
}
AP_LandingGear : : LG_LandingGear_State AP_LandingGear : : get_state ( )
{
return gear_state_current ;
}
uint32_t AP_LandingGear : : get_gear_state_duration_ms ( )
{
if ( last_gear_event_ms = = 0 ) {
return 0 ;
}
return AP_HAL : : millis ( ) - last_gear_event_ms ;
}
uint32_t AP_LandingGear : : get_wow_state_duration_ms ( )
{
if ( last_wow_event_ms = = 0 ) {
return 0 ;
}
return AP_HAL : : millis ( ) - last_wow_event_ms ;
}
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void AP_LandingGear : : update ( float height_above_ground_m )
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{
if ( _pin_weight_on_wheels = = - 1 ) {
last_wow_event_ms = 0 ;
wow_state_current = LG_WOW_UNKNOWN ;
} else {
LG_WOW_State wow_state_new = hal . gpio - > read ( _pin_weight_on_wheels ) = = _pin_weight_on_wheels_polarity ? LG_WOW : LG_NO_WOW ;
if ( wow_state_new ! = wow_state_current ) {
// we changed states, lets note the time.
last_wow_event_ms = AP_HAL : : millis ( ) ;
log_wow_state ( wow_state_new ) ;
}
wow_state_current = wow_state_new ;
}
if ( _pin_deployed = = - 1 ) {
last_gear_event_ms = 0 ;
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// If there was no pilot input and state is still unknown - leave it as it is
if ( gear_state_current ! = LG_UNKNOWN ) {
gear_state_current = ( _deployed = = true ? LG_DEPLOYED : LG_RETRACTED ) ;
}
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} else {
LG_LandingGear_State gear_state_new ;
if ( _deployed ) {
gear_state_new = ( deployed ( ) = = true ? LG_DEPLOYED : LG_DEPLOYING ) ;
} else {
gear_state_new = ( deployed ( ) = = false ? LG_RETRACTED : LG_RETRACTING ) ;
}
if ( gear_state_new ! = gear_state_current ) {
// we changed states, lets note the time.
last_gear_event_ms = AP_HAL : : millis ( ) ;
log_wow_state ( wow_state_current ) ;
}
gear_state_current = gear_state_new ;
}
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/*
check for height based triggering
*/
int16_t alt_m = constrain_int16 ( height_above_ground_m , 0 , INT16_MAX ) ;
if ( hal . util - > get_soft_armed ( ) ) {
// only do height based triggering when armed
if ( ( ! _deployed | | ! _have_changed ) & &
_deploy_alt > 0 & &
alt_m < = _deploy_alt & &
_last_height_above_ground > _deploy_alt ) {
deploy ( ) ;
}
if ( ( _deployed | | ! _have_changed ) & &
_retract_alt > 0 & &
_retract_alt > = _deploy_alt & &
alt_m > = _retract_alt & &
_last_height_above_ground < _retract_alt ) {
retract ( ) ;
}
}
_last_height_above_ground = alt_m ;
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}
// log weight on wheels state
void AP_LandingGear : : log_wow_state ( LG_WOW_State state )
{
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AP : : logger ( ) . Write ( " LGR " , " TimeUS,LandingGear,WeightOnWheels " , " Qbb " ,
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AP_HAL : : micros64 ( ) ,
( int8_t ) gear_state_current , ( int8_t ) state ) ;
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}
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bool AP_LandingGear : : check_before_land ( void )
{
// If the landing gear state is not known (most probably as it is not used)
if ( get_state ( ) = = LG_UNKNOWN ) {
return true ;
}
// If the landing gear was not used - return true, otherwise - check for deployed
return ( get_state ( ) = = LG_DEPLOYED ) ;
}