mirror of https://github.com/ArduPilot/ardupilot
419 lines
14 KiB
C++
419 lines
14 KiB
C++
#include "AP_Camera_Backend.h"
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#if AP_CAMERA_ENABLED
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#include <GCS_MAVLink/GCS.h>
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#include <AP_GPS/AP_GPS.h>
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#include <AP_Mount/AP_Mount.h>
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extern const AP_HAL::HAL& hal;
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// Constructor
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AP_Camera_Backend::AP_Camera_Backend(AP_Camera &frontend, AP_Camera_Params ¶ms, uint8_t instance) :
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_frontend(frontend),
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_params(params),
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_instance(instance)
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{}
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// update - should be called at 50hz
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void AP_Camera_Backend::update()
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{
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// Check camera options and start/stop recording based on arm/disarm
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if ((_params.options.get() & (uint8_t)Options::RecordWhileArmed) != 0) {
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if (hal.util->get_soft_armed() != last_is_armed) {
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last_is_armed = hal.util->get_soft_armed();
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if (!record_video(last_is_armed)) {
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GCS_SEND_TEXT(MAV_SEVERITY_WARNING, "Camera: failed to %s recording", last_is_armed ? "start" : "stop");
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}
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}
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}
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// try to take picture if pending
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if (trigger_pending) {
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take_picture();
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}
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// check feedback pin
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check_feedback();
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// time based triggering
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// if time and distance triggering both are enabled then we only do time based triggering
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if (time_interval_settings.num_remaining != 0) {
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uint32_t delta_ms = AP_HAL::millis() - last_picture_time_ms;
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if (delta_ms > time_interval_settings.time_interval_ms) {
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if (take_picture()) {
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// decrease num_remaining except when its -1 i.e. capture forever
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if (time_interval_settings.num_remaining > 0) {
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time_interval_settings.num_remaining--;
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}
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}
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}
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return;
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}
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// implement trigger distance
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if (!is_positive(_params.trigg_dist)) {
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last_location.lat = 0;
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last_location.lng = 0;
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return;
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}
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// check GPS status
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if (AP::gps().status() < AP_GPS::GPS_OK_FIX_3D) {
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return;
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}
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// check vehicle flight mode supports trigg dist
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if (!_frontend.vehicle_mode_ok_for_trigg_dist()) {
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return;
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}
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// check vehicle roll angle is less than configured maximum
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const AP_AHRS &ahrs = AP::ahrs();
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if ((_frontend.get_roll_max() > 0) && (fabsf(AP::ahrs().roll_sensor * 1e-2f) > _frontend.get_roll_max())) {
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return;
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}
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// get current location. ignore failure because AHRS will provide its best guess
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Location current_loc;
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IGNORE_RETURN(ahrs.get_location(current_loc));
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// initialise last location to current location
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if (last_location.lat == 0 && last_location.lng == 0) {
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last_location = current_loc;
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return;
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}
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if (last_location.lat == current_loc.lat && last_location.lng == current_loc.lng) {
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// we haven't moved - this can happen as update() may
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// be called without a new GPS fix
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return;
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}
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// check vehicle has moved at least trigg_dist meters
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if (current_loc.get_distance(last_location) < _params.trigg_dist) {
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return;
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}
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take_picture();
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}
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// get corresponding mount instance for the camera
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uint8_t AP_Camera_Backend::get_mount_instance() const
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{
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// instance 0 means default
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if (_params.mount_instance.get() == 0) {
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return _instance;
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}
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return _params.mount_instance.get() - 1;
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}
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// get mavlink gimbal device id which is normally mount_instance+1
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uint8_t AP_Camera_Backend::get_gimbal_device_id() const
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{
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#if HAL_MOUNT_ENABLED
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const uint8_t mount_instance = get_mount_instance();
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AP_Mount* mount = AP::mount();
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if (mount != nullptr) {
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if (mount->get_mount_type(mount_instance) != AP_Mount::Type::None) {
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return (mount_instance + 1);
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}
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}
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#endif
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return 0;
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}
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// take a picture. returns true on success
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bool AP_Camera_Backend::take_picture()
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{
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// setup feedback pin interrupt or timer
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setup_feedback_callback();
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// check minimum time interval since last picture taken
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uint32_t now_ms = AP_HAL::millis();
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if (now_ms - last_picture_time_ms < (uint32_t)(_params.interval_min * 1000)) {
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trigger_pending = true;
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return false;
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}
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trigger_pending = false;
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// trigger actually taking picture and update image count
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if (trigger_pic()) {
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image_index++;
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last_picture_time_ms = now_ms;
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IGNORE_RETURN(AP::ahrs().get_location(last_location));
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#if HAL_LOGGING_ENABLED
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log_picture();
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#endif
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return true;
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}
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return false;
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}
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// take multiple pictures, time_interval between two consecutive pictures is in miliseconds
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// total_num is number of pictures to be taken, -1 means capture forever
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void AP_Camera_Backend::take_multiple_pictures(uint32_t time_interval_ms, int16_t total_num)
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{
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time_interval_settings = {time_interval_ms, total_num};
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}
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// stop capturing multiple image sequence
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void AP_Camera_Backend::stop_capture()
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{
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time_interval_settings = {0, 0};
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}
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// handle camera control
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void AP_Camera_Backend::control(float session, float zoom_pos, float zoom_step, float focus_lock, int32_t shooting_cmd, int32_t cmd_id)
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{
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// take picture
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if (shooting_cmd == 1) {
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take_picture();
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}
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}
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// send camera feedback message to GCS
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void AP_Camera_Backend::send_camera_feedback(mavlink_channel_t chan)
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{
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int32_t altitude = 0;
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if (camera_feedback.location.initialised() && !camera_feedback.location.get_alt_cm(Location::AltFrame::ABSOLUTE, altitude)) {
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// completely ignore this failure! this is a shouldn't-happen
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// as current_loc should never be in an altitude we can't
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// convert.
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}
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int32_t altitude_rel = 0;
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if (camera_feedback.location.initialised() && !camera_feedback.location.get_alt_cm(Location::AltFrame::ABOVE_HOME, altitude_rel)) {
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// completely ignore this failure! this is a shouldn't-happen
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// as current_loc should never be in an altitude we can't
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// convert.
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}
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// send camera feedback message
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mavlink_msg_camera_feedback_send(
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chan,
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camera_feedback.timestamp_us, // image timestamp
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0, // target system id
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_instance, // camera id
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image_index, // image index
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camera_feedback.location.lat, // latitude
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camera_feedback.location.lng, // longitude
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altitude*1e-2f, // alt MSL
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altitude_rel*1e-2f, // alt relative to home
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camera_feedback.roll_sensor*1e-2f, // roll angle (deg)
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camera_feedback.pitch_sensor*1e-2f, // pitch angle (deg)
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camera_feedback.yaw_sensor*1e-2f, // yaw angle (deg)
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0.0f, // focal length
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CAMERA_FEEDBACK_PHOTO, // flags
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camera_feedback.feedback_trigger_logged_count); // completed image captures
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}
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// send camera information message to GCS
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void AP_Camera_Backend::send_camera_information(mavlink_channel_t chan) const
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{
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// prepare vendor, model and cam definition strings
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const uint8_t vendor_name[32] {};
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const uint8_t model_name[32] {};
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const char cam_definition_uri[140] {};
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const uint32_t cap_flags = CAMERA_CAP_FLAGS_CAPTURE_IMAGE;
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const float NaN = nanf("0x4152");
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// send CAMERA_INFORMATION message
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mavlink_msg_camera_information_send(
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chan,
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AP_HAL::millis(), // time_boot_ms
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vendor_name, // vendor_name uint8_t[32]
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model_name, // model_name uint8_t[32]
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0, // firmware version uint32_t
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NaN, // focal_length float (mm)
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NaN, // sensor_size_h float (mm)
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NaN, // sensor_size_v float (mm)
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0, // resolution_h uint16_t (pix)
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0, // resolution_v uint16_t (pix)
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0, // lens_id, uint8_t
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cap_flags, // flags uint32_t (CAMERA_CAP_FLAGS)
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0, // cam_definition_version uint16_t
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cam_definition_uri, // cam_definition_uri char[140]
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get_gimbal_device_id());// gimbal_device_id uint8_t
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}
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// send camera settings message to GCS
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void AP_Camera_Backend::send_camera_settings(mavlink_channel_t chan) const
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{
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const float NaN = nanf("0x4152");
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// send CAMERA_SETTINGS message
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mavlink_msg_camera_settings_send(
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chan,
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AP_HAL::millis(), // time_boot_ms
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CAMERA_MODE_IMAGE, // camera mode (0:image, 1:video, 2:image survey)
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NaN, // zoomLevel float, percentage from 0 to 100, NaN if unknown
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NaN); // focusLevel float, percentage from 0 to 100, NaN if unknown
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}
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#if AP_CAMERA_SEND_FOV_STATUS_ENABLED
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// send camera field of view status
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void AP_Camera_Backend::send_camera_fov_status(mavlink_channel_t chan) const
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{
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// getting corresponding mount instance for camera
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const AP_Mount* mount = AP::mount();
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if (mount == nullptr) {
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return;
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}
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Quaternion quat;
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Location loc;
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Location poi_loc;
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if (!mount->get_poi(get_mount_instance(), quat, loc, poi_loc)) {
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return;
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}
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// send camera fov status message only if the last calculated values aren't stale
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const float NaN = nanf("0x4152");
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const float quat_array[4] = {
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quat.q1,
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quat.q2,
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quat.q3,
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quat.q4
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};
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mavlink_msg_camera_fov_status_send(
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chan,
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AP_HAL::millis(),
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loc.lat,
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loc.lng,
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loc.alt,
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poi_loc.lat,
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poi_loc.lng,
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poi_loc.alt,
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quat_array,
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horizontal_fov() > 0 ? horizontal_fov() : NaN,
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vertical_fov() > 0 ? vertical_fov() : NaN
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);
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}
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#endif
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// send camera capture status message to GCS
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void AP_Camera_Backend::send_camera_capture_status(mavlink_channel_t chan) const
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{
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const float NaN = nanf("0x4152");
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// Current status of image capturing (0: idle, 1: capture in progress, 2: interval set but idle, 3: interval set and capture in progress)
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const uint8_t image_status = (time_interval_settings.num_remaining > 0) ? 2 : 0;
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// send CAMERA_CAPTURE_STATUS message
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mavlink_msg_camera_capture_status_send(
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chan,
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AP_HAL::millis(),
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image_status,
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0, // current status of video capturing (0: idle, 1: capture in progress)
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static_cast<float>(time_interval_settings.time_interval_ms) / 1000.0, // image capture interval (s)
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0, // elapsed time since recording started (ms)
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NaN, // available storage capacity (ms)
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image_index); // total number of images captured
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}
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// setup a callback for a feedback pin. When on PX4 with the right FMU
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// mode we can use the microsecond timer.
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void AP_Camera_Backend::setup_feedback_callback()
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{
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if (_params.feedback_pin <= 0 || timer_installed || isr_installed) {
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// invalid or already installed
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return;
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}
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// ensure we are in input mode
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hal.gpio->pinMode(_params.feedback_pin, HAL_GPIO_INPUT);
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// enable pullup/pulldown
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uint8_t trigger_polarity = _params.feedback_polarity == 0 ? 0 : 1;
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hal.gpio->write(_params.feedback_pin, !trigger_polarity);
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if (hal.gpio->attach_interrupt(_params.feedback_pin, FUNCTOR_BIND_MEMBER(&AP_Camera_Backend::feedback_pin_isr, void, uint8_t, bool, uint32_t),
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trigger_polarity?AP_HAL::GPIO::INTERRUPT_RISING:AP_HAL::GPIO::INTERRUPT_FALLING)) {
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isr_installed = true;
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} else {
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// install a 1kHz timer to check feedback pin
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hal.scheduler->register_timer_process(FUNCTOR_BIND_MEMBER(&AP_Camera_Backend::feedback_pin_timer, void));
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timer_installed = true;
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}
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}
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// interrupt handler for interrupt based feedback trigger
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void AP_Camera_Backend::feedback_pin_isr(uint8_t pin, bool high, uint32_t timestamp_us)
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{
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feedback_trigger_timestamp_us = timestamp_us;
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feedback_trigger_count++;
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}
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// check if feedback pin is high for timer based feedback trigger, when
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// attach_interrupt fails
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void AP_Camera_Backend::feedback_pin_timer()
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{
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uint8_t pin_state = hal.gpio->read(_params.feedback_pin);
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uint8_t trigger_polarity = _params.feedback_polarity == 0 ? 0 : 1;
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if (pin_state == trigger_polarity &&
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last_pin_state != trigger_polarity) {
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feedback_trigger_timestamp_us = AP_HAL::micros();
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feedback_trigger_count++;
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}
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last_pin_state = pin_state;
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}
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// check for feedback pin update and log if necessary
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void AP_Camera_Backend::check_feedback()
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{
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if (feedback_trigger_logged_count != feedback_trigger_count) {
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#if HAL_LOGGING_ENABLED
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const uint32_t timestamp32 = feedback_trigger_timestamp_us;
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#endif
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feedback_trigger_logged_count = feedback_trigger_count;
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// we should consider doing this inside the ISR and pin_timer
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prep_mavlink_msg_camera_feedback(feedback_trigger_timestamp_us);
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#if HAL_LOGGING_ENABLED
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// log camera message
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uint32_t tdiff = AP_HAL::micros() - timestamp32;
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uint64_t timestamp = AP_HAL::micros64();
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Write_Camera(timestamp - tdiff);
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#endif
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}
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}
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void AP_Camera_Backend::prep_mavlink_msg_camera_feedback(uint64_t timestamp_us)
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{
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const AP_AHRS &ahrs = AP::ahrs();
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if (!ahrs.get_location(camera_feedback.location)) {
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// completely ignore this failure! AHRS will provide its best guess.
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}
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camera_feedback.timestamp_us = timestamp_us;
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camera_feedback.roll_sensor = ahrs.roll_sensor;
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camera_feedback.pitch_sensor = ahrs.pitch_sensor;
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camera_feedback.yaw_sensor = ahrs.yaw_sensor;
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camera_feedback.feedback_trigger_logged_count = feedback_trigger_logged_count;
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GCS_SEND_MESSAGE(MSG_CAMERA_FEEDBACK);
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}
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#if HAL_LOGGING_ENABLED
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// log picture
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void AP_Camera_Backend::log_picture()
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{
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const bool using_feedback_pin = _params.feedback_pin > 0;
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if (!using_feedback_pin) {
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// if we're using a feedback pin then when the event occurs we
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// stash the feedback data. Since we're not using a feedback
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// pin, we just use "now".
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prep_mavlink_msg_camera_feedback(AP::gps().time_epoch_usec());
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}
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if (!using_feedback_pin) {
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Write_Camera();
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} else {
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Write_Trigger();
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}
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}
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#endif
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#endif // AP_CAMERA_ENABLED
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