2017-07-08 21:24:43 -03:00
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#include "GCS.h"
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2019-04-26 01:44:34 -03:00
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2019-08-29 06:26:05 -03:00
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#include <AC_Fence/AC_Fence.h>
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2019-04-26 01:44:34 -03:00
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#include <AP_BoardConfig/AP_BoardConfig.h>
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2019-04-04 07:49:44 -03:00
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#include <AP_Logger/AP_Logger.h>
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2019-06-13 19:57:04 -03:00
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#include <AP_BattMonitor/AP_BattMonitor.h>
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2019-04-26 01:44:34 -03:00
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#include <AP_Scheduler/AP_Scheduler.h>
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2019-06-26 23:32:25 -03:00
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#include <AP_Baro/AP_Baro.h>
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2019-08-27 17:07:42 -03:00
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#include <AP_AHRS/AP_AHRS.h>
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2017-07-08 21:24:43 -03:00
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extern const AP_HAL::HAL& hal;
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2019-02-13 21:59:00 -04:00
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void GCS::get_sensor_status_flags(uint32_t &present,
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uint32_t &enabled,
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uint32_t &health)
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{
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update_sensor_status_flags();
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present = control_sensors_present;
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enabled = control_sensors_enabled;
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health = control_sensors_health;
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}
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2019-04-28 23:52:02 -03:00
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MissionItemProtocol_Waypoints *GCS::_missionitemprotocol_waypoints;
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MissionItemProtocol_Rally *GCS::_missionitemprotocol_rally;
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const MAV_MISSION_TYPE GCS_MAVLINK::supported_mission_types[] = {
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MAV_MISSION_TYPE_MISSION,
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MAV_MISSION_TYPE_RALLY,
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};
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2017-07-08 21:24:43 -03:00
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/*
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send a text message to all GCS
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*/
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2017-08-01 02:13:34 -03:00
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void GCS::send_textv(MAV_SEVERITY severity, const char *fmt, va_list arg_list)
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2017-07-08 21:24:43 -03:00
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{
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2018-09-05 23:18:47 -03:00
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char text[MAVLINK_MSG_STATUSTEXT_FIELD_TEXT_LEN+1];
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hal.util->vsnprintf(text, sizeof(text), fmt, arg_list);
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2017-08-01 02:13:34 -03:00
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send_statustext(severity, GCS_MAVLINK::active_channel_mask() | GCS_MAVLINK::streaming_channel_mask(), text);
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}
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void GCS::send_text(MAV_SEVERITY severity, const char *fmt, ...)
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{
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2017-07-08 21:24:43 -03:00
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va_list arg_list;
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va_start(arg_list, fmt);
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2017-08-01 02:13:34 -03:00
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send_textv(severity, fmt, arg_list);
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2017-07-08 21:24:43 -03:00
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va_end(arg_list);
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}
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2017-07-08 03:26:34 -03:00
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2018-11-06 22:11:08 -04:00
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void GCS::send_to_active_channels(uint32_t msgid, const char *pkt)
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{
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const mavlink_msg_entry_t *entry = mavlink_get_msg_entry(msgid);
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if (entry == nullptr) {
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return;
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}
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for (uint8_t i=0; i<num_gcs(); i++) {
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2018-12-10 03:56:32 -04:00
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GCS_MAVLINK &c = *chan(i);
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2018-11-06 22:11:08 -04:00
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if (!c.is_active()) {
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continue;
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}
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if (entry->max_msg_len + c.packet_overhead() > c.get_uart()->txspace()) {
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// no room on this channel
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continue;
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}
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c.send_message(pkt, entry);
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}
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}
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2017-07-08 03:26:34 -03:00
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2018-05-15 02:20:30 -03:00
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void GCS::send_named_float(const char *name, float value) const
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{
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2018-11-06 22:11:08 -04:00
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mavlink_named_value_float_t packet;
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packet.time_boot_ms = AP_HAL::millis();
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packet.value = value;
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memcpy(packet.name, name, MIN(strlen(name), (uint8_t)MAVLINK_MSG_NAMED_VALUE_FLOAT_FIELD_NAME_LEN));
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gcs().send_to_active_channels(MAVLINK_MSG_ID_NAMED_VALUE_FLOAT,
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(const char *)&packet);
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2018-05-15 02:20:30 -03:00
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}
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2018-03-25 07:45:48 -03:00
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/*
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install an alternative protocol handler. This allows another
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protocol to take over the link if MAVLink goes idle. It is used to
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allow for the AP_BLHeli pass-thru protocols to run on hal.uartA
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*/
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bool GCS::install_alternative_protocol(mavlink_channel_t c, GCS_MAVLINK::protocol_handler_fn_t handler)
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{
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if (c >= num_gcs()) {
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return false;
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}
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2018-12-10 03:56:32 -04:00
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if (chan(c)->alternative.handler && handler) {
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2018-03-25 07:45:48 -03:00
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// already have one installed - we may need to add support for
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// multiple alternative handlers
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return false;
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}
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2018-12-10 03:56:32 -04:00
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chan(c)->alternative.handler = handler;
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2018-03-25 07:45:48 -03:00
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return true;
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}
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2019-02-19 19:01:16 -04:00
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void GCS::update_sensor_status_flags()
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{
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control_sensors_present = 0;
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control_sensors_enabled = 0;
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control_sensors_health = 0;
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AP_AHRS &ahrs = AP::ahrs();
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const AP_InertialSensor &ins = AP::ins();
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control_sensors_present |= MAV_SYS_STATUS_AHRS;
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control_sensors_enabled |= MAV_SYS_STATUS_AHRS;
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if (!ahrs.initialised() || ahrs.healthy()) {
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if (!ahrs.have_inertial_nav() || ins.accel_calibrated_ok_all()) {
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control_sensors_health |= MAV_SYS_STATUS_AHRS;
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}
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}
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2019-04-13 20:34:58 -03:00
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const Compass &compass = AP::compass();
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if (AP::compass().enabled()) {
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control_sensors_present |= MAV_SYS_STATUS_SENSOR_3D_MAG;
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control_sensors_enabled |= MAV_SYS_STATUS_SENSOR_3D_MAG;
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}
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if (compass.enabled() && compass.healthy() && ahrs.use_compass()) {
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control_sensors_health |= MAV_SYS_STATUS_SENSOR_3D_MAG;
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}
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2019-02-19 19:01:16 -04:00
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const AP_Baro &barometer = AP::baro();
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control_sensors_present |= MAV_SYS_STATUS_SENSOR_ABSOLUTE_PRESSURE;
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control_sensors_enabled |= MAV_SYS_STATUS_SENSOR_ABSOLUTE_PRESSURE;
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if (barometer.all_healthy()) {
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control_sensors_health |= MAV_SYS_STATUS_SENSOR_ABSOLUTE_PRESSURE;
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}
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const AP_BattMonitor &battery = AP::battery();
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control_sensors_present |= MAV_SYS_STATUS_SENSOR_BATTERY;
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if (battery.num_instances() > 0) {
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control_sensors_enabled |= MAV_SYS_STATUS_SENSOR_BATTERY;
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}
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if (battery.healthy() && !battery.has_failsafed()) {
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control_sensors_health |= MAV_SYS_STATUS_SENSOR_BATTERY;
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}
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control_sensors_present |= MAV_SYS_STATUS_SENSOR_3D_GYRO;
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control_sensors_present |= MAV_SYS_STATUS_SENSOR_3D_ACCEL;
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if (!ins.calibrating()) {
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control_sensors_enabled |= MAV_SYS_STATUS_SENSOR_3D_ACCEL;
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control_sensors_enabled |= MAV_SYS_STATUS_SENSOR_3D_GYRO;
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if (ins.get_accel_health_all()) {
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control_sensors_health |= MAV_SYS_STATUS_SENSOR_3D_ACCEL;
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}
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if (ins.get_gyro_health_all() && ins.gyro_calibrated_ok_all()) {
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control_sensors_health |= MAV_SYS_STATUS_SENSOR_3D_GYRO;
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}
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}
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const AP_Logger &logger = AP::logger();
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if (logger.logging_present()) { // primary logging only (usually File)
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control_sensors_present |= MAV_SYS_STATUS_LOGGING;
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}
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if (logger.logging_enabled()) {
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control_sensors_enabled |= MAV_SYS_STATUS_LOGGING;
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}
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if (!logger.logging_failed()) {
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control_sensors_health |= MAV_SYS_STATUS_LOGGING;
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}
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// set motors outputs as enabled if safety switch is not disarmed (i.e. either NONE or ARMED)
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control_sensors_present |= MAV_SYS_STATUS_SENSOR_MOTOR_OUTPUTS;
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if (hal.util->safety_switch_state() != AP_HAL::Util::SAFETY_DISARMED) {
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control_sensors_enabled |= MAV_SYS_STATUS_SENSOR_MOTOR_OUTPUTS;
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}
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control_sensors_health |= MAV_SYS_STATUS_SENSOR_MOTOR_OUTPUTS;
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2019-06-21 22:26:30 -03:00
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#if CONFIG_HAL_BOARD == HAL_BOARD_SITL
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if (ahrs.get_ekf_type() == 10) {
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// always show EKF type 10 as healthy. This prevents spurious error
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// messages in xplane and other simulators that use EKF type 10
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control_sensors_health |= MAV_SYS_STATUS_AHRS | MAV_SYS_STATUS_SENSOR_GPS | MAV_SYS_STATUS_SENSOR_3D_ACCEL | MAV_SYS_STATUS_SENSOR_3D_GYRO;
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}
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#endif
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2019-08-29 06:26:05 -03:00
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const AC_Fence *fence = AP::fence();
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if (fence != nullptr) {
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if (fence->sys_status_enabled()) {
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control_sensors_enabled |= MAV_SYS_STATUS_GEOFENCE;
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}
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if (fence->sys_status_present()) {
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control_sensors_present |= MAV_SYS_STATUS_GEOFENCE;
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}
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if (!fence->sys_status_failed()) {
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control_sensors_health |= MAV_SYS_STATUS_GEOFENCE;
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}
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}
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2019-02-19 19:01:16 -04:00
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update_vehicle_sensor_status_flags();
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}
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2019-04-26 01:44:34 -03:00
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bool GCS::out_of_time() const
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{
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// while we are in the delay callback we are never out of time:
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if (hal.scheduler->in_delay_callback()) {
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return false;
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}
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// we always want to be able to send messages out while in the error loop:
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if (AP_BoardConfig::in_sensor_config_error()) {
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return false;
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}
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if (min_loop_time_remaining_for_message_send_us() <= AP::scheduler().time_available_usec()) {
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return false;
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}
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return true;
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}
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