ardupilot/libraries/AP_HAL_SITL/SITL_State_common.cpp

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#include <AP_HAL/AP_HAL.h>
#if CONFIG_HAL_BOARD == HAL_BOARD_SITL
#include "AP_HAL_SITL.h"
#include "AP_HAL_SITL_Namespace.h"
#include "HAL_SITL_Class.h"
#include "UARTDriver.h"
#include "Scheduler.h"
#include "CANSocketIface.h"
#include <stdio.h>
#include <signal.h>
#include <unistd.h>
#include <stdlib.h>
#include <errno.h>
#include <sys/select.h>
#include <AP_Param/AP_Param.h>
#include <SITL/SIM_JSBSim.h>
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#include <AP_HAL/utility/Socket_native.h>
extern const AP_HAL::HAL& hal;
using namespace HALSITL;
#define streq(a, b) (!strcmp(a, b))
SITL::SerialDevice *SITL_State_Common::create_serial_sim(const char *name, const char *arg)
{
if (streq(name, "benewake_tf02")) {
if (benewake_tf02 != nullptr) {
AP_HAL::panic("Only one benewake_tf02 at a time");
}
benewake_tf02 = new SITL::RF_Benewake_TF02();
return benewake_tf02;
#if !defined(HAL_BUILD_AP_PERIPH)
} else if (streq(name, "vicon")) {
if (vicon != nullptr) {
AP_HAL::panic("Only one vicon system at a time");
}
vicon = new SITL::Vicon();
return vicon;
#endif
#if HAL_SIM_ADSB_ENABLED
} else if (streq(name, "adsb")) {
// ADSB is a stand-out as it is the only serial device which
// will cope with begin() being called multiple times on a
// serial port
if (adsb == nullptr) {
adsb = new SITL::ADSB();
}
sitl_model->set_adsb(adsb);
return adsb;
#endif
} else if (streq(name, "benewake_tf03")) {
if (benewake_tf03 != nullptr) {
AP_HAL::panic("Only one benewake_tf03 at a time");
}
benewake_tf03 = new SITL::RF_Benewake_TF03();
return benewake_tf03;
} else if (streq(name, "benewake_tfmini")) {
if (benewake_tfmini != nullptr) {
AP_HAL::panic("Only one benewake_tfmini at a time");
}
benewake_tfmini = new SITL::RF_Benewake_TFmini();
return benewake_tfmini;
} else if (streq(name, "nooploop_tofsense")) {
if (nooploop != nullptr) {
AP_HAL::panic("Only one nooploop_tofsense at a time");
}
nooploop = new SITL::RF_Nooploop();
return nooploop;
} else if (streq(name, "teraranger_serial")) {
if (teraranger_serial != nullptr) {
AP_HAL::panic("Only one teraranger_serial at a time");
}
teraranger_serial = new SITL::RF_TeraRanger_Serial();
return teraranger_serial;
} else if (streq(name, "lightwareserial")) {
if (lightwareserial != nullptr) {
AP_HAL::panic("Only one lightwareserial at a time");
}
lightwareserial = new SITL::RF_LightWareSerial();
return lightwareserial;
} else if (streq(name, "lightwareserial-binary")) {
if (lightwareserial_binary != nullptr) {
AP_HAL::panic("Only one lightwareserial-binary at a time");
}
lightwareserial_binary = new SITL::RF_LightWareSerialBinary();
return lightwareserial_binary;
} else if (streq(name, "lanbao")) {
if (lanbao != nullptr) {
AP_HAL::panic("Only one lanbao at a time");
}
lanbao = new SITL::RF_Lanbao();
return lanbao;
} else if (streq(name, "blping")) {
if (blping != nullptr) {
AP_HAL::panic("Only one blping at a time");
}
blping = new SITL::RF_BLping();
return blping;
} else if (streq(name, "leddarone")) {
if (leddarone != nullptr) {
AP_HAL::panic("Only one leddarone at a time");
}
leddarone = new SITL::RF_LeddarOne();
return leddarone;
} else if (streq(name, "rds02uf")) {
if (rds02uf != nullptr) {
AP_HAL::panic("Only one rds02uf at a time");
}
rds02uf = new SITL::RF_RDS02UF();
return rds02uf;
} else if (streq(name, "USD1_v0")) {
if (USD1_v0 != nullptr) {
AP_HAL::panic("Only one USD1_v0 at a time");
}
USD1_v0 = new SITL::RF_USD1_v0();
return USD1_v0;
} else if (streq(name, "USD1_v1")) {
if (USD1_v1 != nullptr) {
AP_HAL::panic("Only one USD1_v1 at a time");
}
USD1_v1 = new SITL::RF_USD1_v1();
return USD1_v1;
} else if (streq(name, "maxsonarseriallv")) {
if (maxsonarseriallv != nullptr) {
AP_HAL::panic("Only one maxsonarseriallv at a time");
}
maxsonarseriallv = new SITL::RF_MaxsonarSerialLV();
return maxsonarseriallv;
} else if (streq(name, "wasp")) {
if (wasp != nullptr) {
AP_HAL::panic("Only one wasp at a time");
}
wasp = new SITL::RF_Wasp();
return wasp;
} else if (streq(name, "nmea")) {
if (nmea != nullptr) {
AP_HAL::panic("Only one nmea at a time");
}
nmea = new SITL::RF_NMEA();
return nmea;
#if !defined(HAL_BUILD_AP_PERIPH)
} else if (streq(name, "rf_mavlink")) {
if (rf_mavlink != nullptr) {
AP_HAL::panic("Only one rf_mavlink at a time");
}
rf_mavlink = new SITL::RF_MAVLink();
return rf_mavlink;
#endif
} else if (streq(name, "frsky-d")) {
if (frsky_d != nullptr) {
AP_HAL::panic("Only one frsky_d at a time");
}
frsky_d = new SITL::Frsky_D();
return frsky_d;
// } else if (streq(name, "frsky-SPort")) {
// if (frsky_sport != nullptr) {
// AP_HAL::panic("Only one frsky_sport at a time");
// }
// frsky_sport = new SITL::Frsky_SPort();
// return frsky_sport;
// } else if (streq(name, "frsky-SPortPassthrough")) {
// if (frsky_sport_passthrough != nullptr) {
// AP_HAL::panic("Only one frsky_sport passthrough at a time");
// }
// frsky_sport = new SITL::Frsky_SPortPassthrough();
// return frsky_sportpassthrough;
#if AP_SIM_CRSF_ENABLED
} else if (streq(name, "crsf")) {
if (crsf != nullptr) {
AP_HAL::panic("Only one crsf at a time");
}
crsf = new SITL::CRSF();
return crsf;
#endif
#if HAL_SIM_PS_RPLIDARA2_ENABLED
} else if (streq(name, "rplidara2")) {
if (rplidara2 != nullptr) {
AP_HAL::panic("Only one rplidara2 at a time");
}
rplidara2 = new SITL::PS_RPLidarA2();
return rplidara2;
#endif
#if HAL_SIM_PS_RPLIDARA1_ENABLED
} else if (streq(name, "rplidara1")) {
if (rplidara1 != nullptr) {
AP_HAL::panic("Only one rplidara1 at a time");
}
rplidara1 = new SITL::PS_RPLidarA1();
return rplidara1;
#endif
#if HAL_SIM_PS_TERARANGERTOWER_ENABLED
} else if (streq(name, "terarangertower")) {
if (terarangertower != nullptr) {
AP_HAL::panic("Only one terarangertower at a time");
}
terarangertower = new SITL::PS_TeraRangerTower();
return terarangertower;
#endif
#if HAL_SIM_PS_LIGHTWARE_SF45B_ENABLED
} else if (streq(name, "sf45b")) {
if (sf45b != nullptr) {
AP_HAL::panic("Only one sf45b at a time");
}
sf45b = new SITL::PS_LightWare_SF45B();
return sf45b;
#endif
#if AP_SIM_ADSB_SAGETECH_MXS_ENABLED
} else if (streq(name, "sagetech_mxs")) {
if (sagetech_mxs != nullptr) {
AP_HAL::panic("Only one sagetech_mxs at a time");
}
sagetech_mxs = new SITL::ADSB_Sagetech_MXS();
if (adsb == nullptr) {
adsb = new SITL::ADSB();
}
sitl_model->set_adsb(adsb);
return sagetech_mxs;
#endif
#if AP_SIM_LOWEHEISER_ENABLED
} else if (streq(name, "loweheiser")) {
sitl_model->set_loweheiser(&_sitl->loweheiser_sim);
return &_sitl->loweheiser_sim;
#endif
#if !defined(HAL_BUILD_AP_PERIPH)
} else if (streq(name, "richenpower")) {
sitl_model->set_richenpower(&_sitl->richenpower_sim);
return &_sitl->richenpower_sim;
} else if (streq(name, "fetteconewireesc")) {
sitl_model->set_fetteconewireesc(&_sitl->fetteconewireesc_sim);
return &_sitl->fetteconewireesc_sim;
} else if (streq(name, "ie24")) {
sitl_model->set_ie24(&_sitl->ie24_sim);
return &_sitl->ie24_sim;
#endif // HAL_BUILD_AP_PERIPH
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} else if (streq(name, "jre")) {
if (jre != nullptr) {
AP_HAL::panic("Only one jre at a time");
}
jre = new SITL::RF_JRE();
return jre;
} else if (streq(name, "gyus42v2")) {
if (gyus42v2 != nullptr) {
AP_HAL::panic("Only one gyus42v2 at a time");
}
gyus42v2 = new SITL::RF_GYUS42v2();
return gyus42v2;
} else if (streq(name, "megasquirt")) {
if (efi_ms != nullptr) {
AP_HAL::panic("Only one megasquirt at a time");
}
efi_ms = new SITL::EFI_MegaSquirt();
return efi_ms;
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} else if (streq(name, "hirth")) {
if (efi_hirth != nullptr) {
AP_HAL::panic("Only one hirth at a time");
}
efi_hirth = new SITL::EFI_Hirth();
return efi_hirth;
} else if (streq(name, "VectorNav")) {
if (vectornav != nullptr) {
AP_HAL::panic("Only one VectorNav at a time");
}
vectornav = new SITL::VectorNav();
return vectornav;
} else if (streq(name, "MicroStrain5")) {
if (microstrain5 != nullptr) {
AP_HAL::panic("Only one MicroStrain5 at a time");
}
microstrain5 = new SITL::MicroStrain5();
return microstrain5;
} else if (streq(name, "MicroStrain7")) {
if (microstrain7 != nullptr) {
AP_HAL::panic("Only one MicroStrain7 at a time");
}
microstrain7 = new SITL::MicroStrain7();
return microstrain7;
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} else if (streq(name, "ILabs")) {
if (inertiallabs != nullptr) {
AP_HAL::panic("Only one InertialLabs INS at a time");
}
inertiallabs = new SITL::InertialLabs();
return inertiallabs;
#if HAL_SIM_AIS_ENABLED
} else if (streq(name, "AIS")) {
if (ais != nullptr) {
AP_HAL::panic("Only one AIS at a time");
}
ais = new SITL::AIS();
return ais;
#endif
} else if (strncmp(name, "gps", 3) == 0) {
const char *p = strchr(name, ':');
if (p == nullptr) {
AP_HAL::panic("Need a GPS number (e.g. sim:gps:1)");
}
uint8_t x = atoi(p+1);
if (x <= 0 || x > ARRAY_SIZE(gps)) {
AP_HAL::panic("Bad GPS number %u", x);
}
gps[x-1] = new SITL::GPS(x-1);
return gps[x-1];
}
AP_HAL::panic("unknown simulated device: %s", name);
}
/*
update simulators
*/
void SITL_State_Common::sim_update(void)
{
#if HAL_SIM_GIMBAL_ENABLED
if (gimbal != nullptr) {
gimbal->update();
}
#endif
#if HAL_SIM_ADSB_ENABLED
if (adsb != nullptr) {
adsb->update(*sitl_model);
}
#endif
#if !defined(HAL_BUILD_AP_PERIPH)
if (vicon != nullptr) {
Quaternion attitude;
sitl_model->get_attitude(attitude);
vicon->update(sitl_model->get_location(),
sitl_model->get_position_relhome(),
sitl_model->get_velocity_ef(),
attitude);
}
#endif
if (benewake_tf02 != nullptr) {
benewake_tf02->update(sitl_model->rangefinder_range());
}
if (benewake_tf03 != nullptr) {
benewake_tf03->update(sitl_model->rangefinder_range());
}
if (benewake_tfmini != nullptr) {
benewake_tfmini->update(sitl_model->rangefinder_range());
}
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if (jre != nullptr) {
jre->update(sitl_model->rangefinder_range());
}
if (nooploop != nullptr) {
nooploop->update(sitl_model->rangefinder_range());
}
if (teraranger_serial != nullptr) {
teraranger_serial->update(sitl_model->rangefinder_range());
}
if (lightwareserial != nullptr) {
lightwareserial->update(sitl_model->rangefinder_range());
}
if (lightwareserial_binary != nullptr) {
lightwareserial_binary->update(sitl_model->rangefinder_range());
}
if (lanbao != nullptr) {
lanbao->update(sitl_model->rangefinder_range());
}
if (blping != nullptr) {
blping->update(sitl_model->rangefinder_range());
}
if (leddarone != nullptr) {
leddarone->update(sitl_model->rangefinder_range());
}
if (rds02uf != nullptr) {
rds02uf->update(sitl_model->rangefinder_range());
}
if (USD1_v0 != nullptr) {
USD1_v0->update(sitl_model->rangefinder_range());
}
if (USD1_v1 != nullptr) {
USD1_v1->update(sitl_model->rangefinder_range());
}
if (maxsonarseriallv != nullptr) {
maxsonarseriallv->update(sitl_model->rangefinder_range());
}
if (wasp != nullptr) {
wasp->update(sitl_model->rangefinder_range());
}
if (nmea != nullptr) {
nmea->update(sitl_model->rangefinder_range());
}
if (rf_mavlink != nullptr) {
rf_mavlink->update(sitl_model->rangefinder_range());
}
if (gyus42v2 != nullptr) {
gyus42v2->update(sitl_model->rangefinder_range());
}
if (efi_ms != nullptr) {
efi_ms->update();
}
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if (efi_hirth != nullptr) {
efi_hirth->update();
}
if (frsky_d != nullptr) {
frsky_d->update();
}
// if (frsky_sport != nullptr) {
// frsky_sport->update();
// }
// if (frsky_sportpassthrough != nullptr) {
// frsky_sportpassthrough->update();
// }
#if AP_SIM_CRSF_ENABLED
if (crsf != nullptr) {
crsf->update();
}
#endif
#if HAL_SIM_PS_RPLIDARA2_ENABLED
if (rplidara2 != nullptr) {
rplidara2->update(sitl_model->get_location());
}
#endif
#if HAL_SIM_PS_RPLIDARA1_ENABLED
if (rplidara1 != nullptr) {
rplidara1->update(sitl_model->get_location());
}
#endif
#if HAL_SIM_PS_TERARANGERTOWER_ENABLED
if (terarangertower != nullptr) {
terarangertower->update(sitl_model->get_location());
}
#endif
#if HAL_SIM_PS_LIGHTWARE_SF45B_ENABLED
if (sf45b != nullptr) {
sf45b->update(sitl_model->get_location());
}
#endif
#if AP_SIM_ADSB_SAGETECH_MXS_ENABLED
if (sagetech_mxs != nullptr) {
sagetech_mxs->update(sitl_model);
}
#endif
if (vectornav != nullptr) {
vectornav->update();
}
if (microstrain5 != nullptr) {
microstrain5->update();
}
if (microstrain7 != nullptr) {
microstrain7->update();
}
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if (inertiallabs != nullptr) {
inertiallabs->update();
}
#if HAL_SIM_AIS_ENABLED
if (ais != nullptr) {
ais->update();
}
#endif
for (uint8_t i=0; i<ARRAY_SIZE(gps); i++) {
if (gps[i] != nullptr) {
gps[i]->update();
}
}
}
/*
update voltage and current pins
*/
void SITL_State_Common::update_voltage_current(struct sitl_input &input, float throttle)
{
float voltage = 0;
float current = 0;
if (_sitl != nullptr) {
if (_sitl->state.battery_voltage <= 0) {
if (_vehicle == ArduSub) {
voltage = _sitl->batt_voltage;
for (uint8_t i=0; i<6; i++) {
float pwm = input.servos[i];
//printf("i: %d, pwm: %.2f\n", i, pwm);
float fraction = fabsf((pwm - 1500) / 500.0f);
voltage -= fraction * 0.5f;
float draw = fraction * 15;
current += draw;
}
} else {
// simulate simple battery setup
// lose 0.7V at full throttle
voltage = _sitl->batt_voltage - 0.7f * throttle;
// assume 50A at full throttle
current = 50.0f * throttle;
}
} else {
// FDM provides voltage and current
voltage = _sitl->state.battery_voltage;
current = _sitl->state.battery_current;
}
}
// assume 3DR power brick
voltage_pin_voltage = (voltage / 10.1f);
current_pin_voltage = current/17.0f;
// fake battery2 as just a 25% gain on the first one
voltage2_pin_voltage = voltage_pin_voltage * .25f;
current2_pin_voltage = current_pin_voltage * .25f;
}
#endif // HAL_BOARD_SITL