ardupilot/APMrover2/Rover.cpp

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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/>.
*/
/*
This is the APMrover2 firmware. It was originally derived from
ArduPlane by Jean-Louis Naudin (JLN), and then rewritten after the
AP_HAL merge by Andrew Tridgell
Maintainer: Grant Morphett
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Authors: Doug Weibel, Jose Julio, Jordi Munoz, Jason Short, Andrew Tridgell, Randy Mackay, Pat Hickey, John Arne Birkeland, Olivier Adler, Jean-Louis Naudin, Grant Morphett
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Thanks to: Chris Anderson, Michael Oborne, Paul Mather, Bill Premerlani, James Cohen, JB from rotorFX, Automatik, Fefenin, Peter Meister, Remzibi, Yury Smirnov, Sandro Benigno, Max Levine, Roberto Navoni, Lorenz Meier
APMrover alpha version tester: Franco Borasio, Daniel Chapelat...
Please contribute your ideas! See http://dev.ardupilot.org for details
*/
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#include "Rover.h"
#define FORCE_VERSION_H_INCLUDE
#include "version.h"
#undef FORCE_VERSION_H_INCLUDE
const AP_HAL::HAL& hal = AP_HAL::get_HAL();
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#define SCHED_TASK(func, _interval_ticks, _max_time_micros) SCHED_TASK_CLASS(Rover, &rover, func, _interval_ticks, _max_time_micros)
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/*
scheduler table - all regular tasks are listed here, along with how
often they should be called (in Hz) and the maximum time
they are expected to take (in microseconds)
*/
const AP_Scheduler::Task Rover::scheduler_tasks[] = {
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// Function name, Hz, us,
SCHED_TASK(read_radio, 50, 200),
SCHED_TASK(ahrs_update, 400, 400),
SCHED_TASK(read_rangefinders, 50, 200),
SCHED_TASK(update_current_mode, 400, 200),
SCHED_TASK(set_servos, 400, 200),
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SCHED_TASK(update_GPS, 50, 300),
SCHED_TASK_CLASS(AP_Baro, &rover.barometer, update, 10, 200),
SCHED_TASK_CLASS(AP_Beacon, &rover.g2.beacon, update, 50, 200),
SCHED_TASK_CLASS(AP_Proximity, &rover.g2.proximity, update, 50, 200),
SCHED_TASK_CLASS(AP_WindVane, &rover.g2.windvane, update, 20, 100),
#if VISUAL_ODOMETRY_ENABLED == ENABLED
SCHED_TASK_CLASS(AP_VisualOdom, &rover.g2.visual_odom, update, 50, 200),
#endif
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SCHED_TASK(update_wheel_encoder, 50, 200),
SCHED_TASK(update_compass, 10, 200),
SCHED_TASK(update_mission, 50, 200),
SCHED_TASK(update_logging1, 10, 200),
SCHED_TASK(update_logging2, 10, 200),
SCHED_TASK_CLASS(GCS, (GCS*)&rover._gcs, update_receive, 400, 500),
SCHED_TASK_CLASS(GCS, (GCS*)&rover._gcs, update_send, 400, 1000),
SCHED_TASK_CLASS(RC_Channels, (RC_Channels*)&rover.g2.rc_channels, read_mode_switch, 7, 200),
SCHED_TASK_CLASS(RC_Channels, (RC_Channels*)&rover.g2.rc_channels, read_aux_all, 10, 200),
SCHED_TASK_CLASS(AP_BattMonitor, &rover.battery, read, 10, 300),
SCHED_TASK_CLASS(AP_ServoRelayEvents, &rover.ServoRelayEvents, update_events, 50, 200),
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#if GRIPPER_ENABLED == ENABLED
SCHED_TASK_CLASS(AP_Gripper, &rover.g2.gripper, update, 10, 75),
#endif
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SCHED_TASK(rpm_update, 10, 100),
#if MOUNT == ENABLED
SCHED_TASK_CLASS(AP_Mount, &rover.camera_mount, update, 50, 200),
#endif
#if CAMERA == ENABLED
SCHED_TASK_CLASS(AP_Camera, &rover.camera, update_trigger, 50, 200),
#endif
SCHED_TASK(gcs_failsafe_check, 10, 200),
SCHED_TASK(fence_check, 10, 200),
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SCHED_TASK(ekf_check, 10, 100),
SCHED_TASK_CLASS(ModeSmartRTL, &rover.mode_smartrtl, save_position, 3, 200),
SCHED_TASK_CLASS(AP_Notify, &rover.notify, update, 50, 300),
SCHED_TASK(one_second_loop, 1, 1500),
SCHED_TASK_CLASS(AC_Sprayer, &rover.g2.sprayer, update, 3, 90),
SCHED_TASK_CLASS(Compass, &rover.compass, cal_update, 50, 200),
SCHED_TASK(compass_save, 0.1, 200),
SCHED_TASK(accel_cal_update, 10, 200),
#if LOGGING_ENABLED == ENABLED
SCHED_TASK_CLASS(AP_Logger, &rover.logger, periodic_tasks, 50, 300),
#endif
SCHED_TASK_CLASS(AP_InertialSensor, &rover.ins, periodic, 400, 200),
SCHED_TASK_CLASS(AP_Scheduler, &rover.scheduler, update_logging, 0.1, 200),
SCHED_TASK_CLASS(AP_Button, &rover.button, update, 5, 200),
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#if STATS_ENABLED == ENABLED
SCHED_TASK(stats_update, 1, 200),
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#endif
SCHED_TASK(crash_check, 10, 200),
SCHED_TASK(cruise_learn_update, 50, 200),
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#if ADVANCED_FAILSAFE == ENABLED
SCHED_TASK(afs_fs_check, 10, 200),
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#endif
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SCHED_TASK(read_airspeed, 10, 100),
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};
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constexpr int8_t Rover::_failsafe_priorities[7];
Rover::Rover(void) :
param_loader(var_info),
channel_steer(nullptr),
channel_throttle(nullptr),
channel_lateral(nullptr),
logger{g.log_bitmask},
modes(&g.mode1),
control_mode(&mode_initializing),
G_Dt(0.02f)
{
}
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#if STATS_ENABLED == ENABLED
/*
update AP_Stats
*/
void Rover::stats_update(void)
{
g2.stats.set_flying(g2.motors.active());
g2.stats.update();
}
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#endif
/*
setup is called when the sketch starts
*/
void Rover::setup()
{
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// load the default values of variables listed in var_info[]
AP_Param::setup_sketch_defaults();
init_ardupilot();
// initialise the main loop scheduler
scheduler.init(&scheduler_tasks[0], ARRAY_SIZE(scheduler_tasks), MASK_LOG_PM);
}
/*
loop() is called rapidly while the sketch is running
*/
void Rover::loop()
{
scheduler.loop();
G_Dt = scheduler.get_last_loop_time_s();
}
// update AHRS system
void Rover::ahrs_update()
{
arming.update_soft_armed();
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#if HIL_MODE != HIL_MODE_DISABLED
// update hil before AHRS update
gcs().update();
#endif
// AHRS may use movement to calculate heading
update_ahrs_flyforward();
ahrs.update();
// update position
have_position = ahrs.get_position(current_loc);
// set home from EKF if necessary and possible
if (!ahrs.home_is_set()) {
if (!set_home_to_current_location(false)) {
// ignore this failure
}
}
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// if using the EKF get a speed update now (from accelerometers)
Vector3f velocity;
if (ahrs.get_velocity_NED(velocity)) {
ground_speed = norm(velocity.x, velocity.y);
} else if (gps.status() >= AP_GPS::GPS_OK_FIX_3D) {
ground_speed = ahrs.groundspeed();
}
if (should_log(MASK_LOG_ATTITUDE_FAST)) {
Log_Write_Attitude();
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Log_Write_Sail();
}
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if (should_log(MASK_LOG_IMU)) {
logger.Write_IMU();
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}
}
/*
check for GCS failsafe - 10Hz
*/
void Rover::gcs_failsafe_check(void)
{
if (!g.fs_gcs_enabled) {
// gcs failsafe disabled
return;
}
// check for updates from GCS within 2 seconds
failsafe_trigger(FAILSAFE_EVENT_GCS, failsafe.last_heartbeat_ms != 0 && (millis() - failsafe.last_heartbeat_ms) > 2000);
}
/*
log some key data - 10Hz
*/
void Rover::update_logging1(void)
{
if (should_log(MASK_LOG_ATTITUDE_MED) && !should_log(MASK_LOG_ATTITUDE_FAST)) {
Log_Write_Attitude();
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Log_Write_Sail();
}
if (should_log(MASK_LOG_THR)) {
Log_Write_Throttle();
logger.Write_Beacon(g2.beacon);
}
if (should_log(MASK_LOG_NTUN)) {
Log_Write_Nav_Tuning();
}
if (should_log(MASK_LOG_RANGEFINDER)) {
logger.Write_Proximity(g2.proximity);
}
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}
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/*
log some key data - 10Hz
*/
void Rover::update_logging2(void)
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{
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if (should_log(MASK_LOG_STEERING)) {
Log_Write_Steering();
}
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if (should_log(MASK_LOG_RC)) {
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Log_Write_RC();
g2.wheel_encoder.Log_Write();
}
if (should_log(MASK_LOG_IMU)) {
logger.Write_Vibration();
}
}
/*
once a second events
*/
void Rover::one_second_loop(void)
{
// allow orientation change at runtime to aid config
ahrs.update_orientation();
set_control_channels();
// cope with changes to aux functions
SRV_Channels::enable_aux_servos();
// update notify flags
AP_Notify::flags.pre_arm_check = arming.pre_arm_checks(false);
AP_Notify::flags.pre_arm_gps_check = true;
AP_Notify::flags.armed = arming.is_armed() || arming.arming_required() == AP_Arming::Required::NO;
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AP_Notify::flags.flying = hal.util->get_soft_armed();
// cope with changes to mavlink system ID
mavlink_system.sysid = g.sysid_this_mav;
// attempt to update home position and baro calibration if not armed:
if (!hal.util->get_soft_armed()) {
update_home();
}
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// init compass location for declination
init_compass_location();
// update error mask of sensors and subsystems. The mask uses the
// MAV_SYS_STATUS_* values from mavlink. If a bit is set then it
// indicates that the sensor or subsystem is present but not
// functioning correctly
gcs().update_sensor_status_flags();
// need to set "likely flying" when armed to allow for compass
// learning to run
ahrs.set_likely_flying(hal.util->get_soft_armed());
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// send latest param values to wp_nav
g2.wp_nav.set_turn_params(g.turn_max_g, g2.turn_radius, g2.motors.have_skid_steering());
}
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void Rover::update_GPS(void)
{
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gps.update();
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if (gps.last_message_time_ms() != last_gps_msg_ms) {
last_gps_msg_ms = gps.last_message_time_ms();
#if CAMERA == ENABLED
camera.update();
#endif
}
}
void Rover::update_current_mode(void)
{
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// check for emergency stop
if (SRV_Channels::get_emergency_stop()) {
// relax controllers, motor stopping done at output level
g2.attitude_control.relax_I();
}
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control_mode->update();
}
// update mission including starting or stopping commands. called by scheduler at 10Hz
void Rover::update_mission(void)
{
if (control_mode == &mode_auto) {
if (ahrs.home_is_set() && mode_auto.mission.num_commands() > 1) {
mode_auto.mission.update();
}
}
}
Rover rover;
AP_HAL_MAIN_CALLBACKS(&rover);