ardupilot/APMrover2/system.cpp

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/*****************************************************************************
The init_ardupilot function processes everything we need for an in - air restart
We will determine later if we are actually on the ground and process a
ground start in that case.
*****************************************************************************/
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#include "Rover.h"
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#include <AP_Common/AP_FWVersion.h>
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static void mavlink_delay_cb_static()
{
rover.mavlink_delay_cb();
}
static void failsafe_check_static()
{
rover.failsafe_check();
}
void Rover::init_ardupilot()
{
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// initialise console serial port
serial_manager.init_console();
hal.console->printf("\n\nInit %s"
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"\n\nFree RAM: %u\n",
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AP::fwversion().fw_string,
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(unsigned)hal.util->available_memory());
//
// Check the EEPROM format version before loading any parameters from EEPROM.
//
load_parameters();
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#if STATS_ENABLED == ENABLED
// initialise stats module
g2.stats.init();
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#endif
mavlink_system.sysid = g.sysid_this_mav;
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// initialise serial ports
serial_manager.init();
// setup first port early to allow BoardConfig to report errors
gcs().setup_console();
// Register mavlink_delay_cb, which will run anytime you have
// more than 5ms remaining in your call to hal.scheduler->delay
hal.scheduler->register_delay_callback(mavlink_delay_cb_static, 5);
BoardConfig.init();
#if HAL_WITH_UAVCAN
BoardConfig_CAN.init();
#endif
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// init gripper
#if GRIPPER_ENABLED == ENABLED
g2.gripper.init();
#endif
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g2.fence.init();
// initialise notify system
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notify.init();
notify_mode(control_mode);
battery.init();
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// Initialise RPM sensor
rpm_sensor.init();
rssi.init();
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g2.airspeed.init();
g2.windvane.init(serial_manager);
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// init baro before we start the GCS, so that the CLI baro test works
barometer.init();
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// setup telem slots with serial ports
gcs().setup_uarts();
#if OSD_ENABLED == ENABLED
osd.init();
#endif
#if LOGGING_ENABLED == ENABLED
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log_init();
#endif
// initialise compass
AP::compass().set_log_bit(MASK_LOG_COMPASS);
AP::compass().init();
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// initialise rangefinder
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rangefinder.init(ROTATION_NONE);
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// init proximity sensor
init_proximity();
// init beacons used for non-gps position estimation
init_beacon();
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// init visual odometry
init_visual_odom();
// and baro for EKF
barometer.set_log_baro_bit(MASK_LOG_IMU);
barometer.calibrate();
// Do GPS init
gps.set_log_gps_bit(MASK_LOG_GPS);
gps.init(serial_manager);
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ins.set_log_raw_bit(MASK_LOG_IMU_RAW);
set_control_channels(); // setup radio channels and outputs ranges
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init_rc_in(); // sets up rc channels deadzone
g2.motors.init(); // init motors including setting servo out channels ranges
SRV_Channels::enable_aux_servos();
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// init wheel encoders
g2.wheel_encoder.init();
relay.init();
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#if MOUNT == ENABLED
// initialise camera mount
camera_mount.init();
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#endif
/*
setup the 'main loop is dead' check. Note that this relies on
the RC library being initialised.
*/
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hal.scheduler->register_timer_failsafe(failsafe_check_static, 1000);
// initialize SmartRTL
g2.smart_rtl.init();
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// initialise object avoidance
g2.oa.init();
startup_ground();
Mode *initial_mode = mode_from_mode_num((enum Mode::Number)g.initial_mode.get());
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if (initial_mode == nullptr) {
initial_mode = &mode_initializing;
}
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set_mode(*initial_mode, MODE_REASON_INITIALISED);
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// initialise rc channels
rc().init();
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rover.g2.sailboat.init();
// disable safety if requested
BoardConfig.init_safety();
// flag that initialisation has completed
initialised = true;
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#if AP_PARAM_KEY_DUMP
AP_Param::show_all(hal.console, true);
#endif
}
//*********************************************************************************
// This function does all the calibrations, etc. that we need during a ground start
//*********************************************************************************
void Rover::startup_ground(void)
{
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set_mode(mode_initializing, MODE_REASON_INITIALISED);
gcs().send_text(MAV_SEVERITY_INFO, "<startup_ground> Ground start");
#if(GROUND_START_DELAY > 0)
gcs().send_text(MAV_SEVERITY_NOTICE, "<startup_ground> With delay");
delay(GROUND_START_DELAY * 1000);
#endif
// IMU ground start
//------------------------
//
startup_INS_ground();
// initialise mission library
mode_auto.mission.init();
// initialise AP_Logger library
#if LOGGING_ENABLED == ENABLED
logger.setVehicle_Startup_Writer(
FUNCTOR_BIND(&rover, &Rover::Log_Write_Vehicle_Startup_Messages, void)
);
#endif
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#ifdef ENABLE_SCRIPTING
if (!g2.scripting.init()) {
gcs().send_text(MAV_SEVERITY_ERROR, "Scripting failed to start");
}
#endif // ENABLE_SCRIPTING
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// we don't want writes to the serial port to cause us to pause
// so set serial ports non-blocking once we are ready to drive
serial_manager.set_blocking_writes_all(false);
gcs().send_text(MAV_SEVERITY_INFO, "Ready to drive");
}
// update the ahrs flyforward setting which can allow
// the vehicle's movements to be used to estimate heading
void Rover::update_ahrs_flyforward()
{
bool flyforward = false;
// boats never use movement to estimate heading
if (!is_boat()) {
// throttle threshold is 15% or 1/2 cruise throttle
bool throttle_over_thresh = g2.motors.get_throttle() > MIN(g.throttle_cruise * 0.50f, 15.0f);
// desired speed threshold of 1m/s
bool desired_speed_over_thresh = g2.attitude_control.speed_control_active() && (g2.attitude_control.get_desired_speed() > 0.5f);
if (throttle_over_thresh || (is_positive(g2.motors.get_throttle()) && desired_speed_over_thresh)) {
uint32_t now = AP_HAL::millis();
// if throttle over threshold start timer
if (flyforward_start_ms == 0) {
flyforward_start_ms = now;
}
// if throttle over threshold for 2 seconds set flyforward to true
flyforward = (now - flyforward_start_ms > 2000);
} else {
// reset timer
flyforward_start_ms = 0;
}
}
ahrs.set_fly_forward(flyforward);
}
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bool Rover::set_mode(Mode &new_mode, mode_reason_t reason)
{
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if (control_mode == &new_mode) {
// don't switch modes if we are already in the correct mode.
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return true;
}
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Mode &old_mode = *control_mode;
if (!new_mode.enter()) {
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// Log error that we failed to enter desired flight mode
AP::logger().Write_Error(LogErrorSubsystem::FLIGHT_MODE,
LogErrorCode(new_mode.mode_number()));
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gcs().send_text(MAV_SEVERITY_WARNING, "Flight mode change failed");
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return false;
}
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control_mode = &new_mode;
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// pilot requested flight mode change during a fence breach indicates pilot is attempting to manually recover
// this flight mode change could be automatic (i.e. fence, battery, GPS or GCS failsafe)
// but it should be harmless to disable the fence temporarily in these situations as well
g2.fence.manual_recovery_start();
#if CAMERA == ENABLED
camera.set_is_auto_mode(control_mode->mode_number() == Mode::Number::AUTO);
#endif
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old_mode.exit();
control_mode_reason = reason;
logger.Write_Mode(control_mode->mode_number(), control_mode_reason);
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gcs().send_message(MSG_HEARTBEAT);
notify_mode(control_mode);
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return true;
}
void Rover::startup_INS_ground(void)
{
gcs().send_text(MAV_SEVERITY_INFO, "Beginning INS calibration. Do not move vehicle");
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hal.scheduler->delay(100);
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ahrs.init();
// say to EKF that rover only move by going forward
ahrs.set_fly_forward(true);
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ahrs.set_vehicle_class(AHRS_VEHICLE_GROUND);
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ins.init(scheduler.get_loop_rate_hz());
ahrs.reset();
}
// update notify with mode change
void Rover::notify_mode(const Mode *mode)
{
AP_Notify::flags.autopilot_mode = mode->is_autopilot_mode();
notify.flags.flight_mode = mode->mode_number();
notify.set_flight_mode_str(mode->name4());
}
/*
check a digital pin for high,low (1/0)
*/
uint8_t Rover::check_digital_pin(uint8_t pin)
{
// ensure we are in input mode
hal.gpio->pinMode(pin, HAL_GPIO_INPUT);
// enable pullup
hal.gpio->write(pin, 1);
return hal.gpio->read(pin);
}
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/*
should we log a message type now?
*/
bool Rover::should_log(uint32_t mask)
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{
return logger.should_log(mask);
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}
// returns true if vehicle is a boat
// this affects whether the vehicle tries to maintain position after reaching waypoints
bool Rover::is_boat() const
{
return ((enum frame_class)g2.frame_class.get() == FRAME_BOAT);
}