void ParamManager::handle_param_value_msg(const mavlink_message_t &msg)
{
mavlink_param_value_t param;
mavlink_msg_param_value_decode(&msg, ¶m);
if (!first_param_received_)
{
first_param_received_ = true;
received_ = new bool[param.param_count];
}
// ensure null termination of name
char c_name[MAVLINK_MSG_PARAM_VALUE_FIELD_PARAM_ID_LEN + 1];
memcpy(c_name, param.param_id, MAVLINK_MSG_PARAM_VALUE_FIELD_PARAM_ID_LEN);
c_name[MAVLINK_MSG_PARAM_VALUE_FIELD_PARAM_ID_LEN] = '\0';
std::string name(c_name);
if (!is_param_id(name)) // if we haven't received this param before, add it
{
params_[name] = Param(param);
received_[param.param_index] = true; //! \todo Implement check that all parameters have been received
for (int i = 0; i < listeners_.size(); i++)
listeners_[i]->on_new_param_received(name, params_[name].getValue());
}
else // otherwise check if we have new unsaved changes as a result of a param set request
{
if (params_[name].handleUpdate(param))
{
unsaved_changes_ = true;
for (int i = 0; i < listeners_.size(); i++)
{
listeners_[i]->on_param_value_updated(name, params_[name].getValue());
listeners_[i]->on_params_saved_change(unsaved_changes_);
}
}
}
}
void AP_Gimbal_Parameters::handle_param_value(DataFlash_Class *dataflash, mavlink_message_t *msg)
{
mavlink_param_value_t packet;
mavlink_msg_param_value_decode(msg, &packet);
dataflash->Log_Write_Parameter(packet.param_id, packet.param_value);
for(uint8_t i=0; i<MAVLINK_GIMBAL_NUM_TRACKED_PARAMS; i++) {
if (!strcmp(packet.param_id, get_param_name((gmb_param_t)i))) {
_params[i].seen = true;
switch(_params[i].state) {
case GMB_PARAMSTATE_NONEXISTANT:
case GMB_PARAMSTATE_NOT_YET_READ:
case GMB_PARAMSTATE_FETCH_AGAIN:
_params[i].value = packet.param_value;
_params[i].state = GMB_PARAMSTATE_CONSISTENT;
break;
case GMB_PARAMSTATE_CONSISTENT:
_params[i].value = packet.param_value;
break;
case GMB_PARAMSTATE_ATTEMPTING_TO_SET:
if (i == GMB_PARAM_GMB_FLASH) {
if (_flashing_step == GMB_PARAM_FLASHING_WAITING_FOR_ACK && packet.param_value == 1) {
_flashing_step = GMB_PARAM_NOT_FLASHING;
}
_params[i].value = 0;
_params[i].state = GMB_PARAMSTATE_CONSISTENT;
} else if (packet.param_value == _params[i].value) {
_params[i].state = GMB_PARAMSTATE_CONSISTENT;
}
break;
}
break;
}
}
}
void AP_Gimbal_Parameters::handle_param_value(DataFlash_Class *dataflash, mavlink_message_t *msg)
{
mavlink_param_value_t packet;
mavlink_msg_param_value_decode(msg, &packet);
if (flashing() && packet.param_value == 1 && !strcmp(packet.param_id, "GMB_FLASH")) {
mavlink_msg_command_long_send(_chan, 0, MAV_COMP_ID_GIMBAL, 42501, 0, 0, 0, 0, 0, 0, 0, 0);
reset();
return;
}
dataflash->Log_Write_Parameter(packet.param_id, packet.param_value);
for(uint8_t i=0; i<MAVLINK_GIMBAL_NUM_TRACKED_PARAMS; i++) {
if (!strcmp(packet.param_id, get_param_name((gmb_param_t)i))) {
_params[i].seen = true;
switch(_params[i].state) {
case GMB_PARAMSTATE_NONEXISTANT:
case GMB_PARAMSTATE_NOT_YET_READ:
case GMB_PARAMSTATE_FETCH_AGAIN:
_params[i].value = packet.param_value;
_params[i].state = GMB_PARAMSTATE_CONSISTENT;
break;
case GMB_PARAMSTATE_CONSISTENT:
_params[i].value = packet.param_value;
break;
case GMB_PARAMSTATE_ATTEMPTING_TO_SET:
if (i == GMB_PARAM_GMB_FLASH || packet.param_value == _params[i].value) {
_params[i].state = GMB_PARAMSTATE_CONSISTENT;
}
break;
}
break;
}
}
}
void MAVLink_Message_Handler::handle_message(uint64_t timestamp, mavlink_message_t &msg)
{
// ::fprintf(stderr, "msg.msgid=%u\n", msg.msgid);
switch(msg.msgid) {
case MAVLINK_MSG_ID_AHRS2: {
mavlink_ahrs2_t decoded;
mavlink_msg_ahrs2_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_ATTITUDE: {
mavlink_attitude_t decoded;
mavlink_msg_attitude_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_EKF_STATUS_REPORT: {
mavlink_ekf_status_report_t decoded;
mavlink_msg_ekf_status_report_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_GLOBAL_POSITION_INT: {
mavlink_global_position_int_t decoded;
mavlink_msg_global_position_int_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_GPS_RAW_INT: {
mavlink_gps_raw_int_t decoded;
mavlink_msg_gps_raw_int_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_HEARTBEAT: {
mavlink_heartbeat_t decoded;
mavlink_msg_heartbeat_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_MOUNT_STATUS: {
mavlink_mount_status_t decoded;
mavlink_msg_mount_status_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_NAV_CONTROLLER_OUTPUT: {
mavlink_nav_controller_output_t decoded;
mavlink_msg_nav_controller_output_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_PARAM_VALUE: {
mavlink_param_value_t decoded;
mavlink_msg_param_value_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_REMOTE_LOG_DATA_BLOCK: {
mavlink_remote_log_data_block_t decoded;
mavlink_msg_remote_log_data_block_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_SCALED_PRESSURE: {
mavlink_scaled_pressure_t decoded;
mavlink_msg_scaled_pressure_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_SCALED_PRESSURE2: {
mavlink_scaled_pressure2_t decoded;
mavlink_msg_scaled_pressure2_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_SERVO_OUTPUT_RAW: {
mavlink_servo_output_raw_t decoded;
mavlink_msg_servo_output_raw_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_STATUSTEXT: {
mavlink_statustext_t decoded;
mavlink_msg_statustext_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_SYS_STATUS: {
mavlink_sys_status_t decoded;
mavlink_msg_sys_status_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_SYSTEM_TIME: {
mavlink_system_time_t decoded;
mavlink_msg_system_time_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
case MAVLINK_MSG_ID_VFR_HUD: {
mavlink_vfr_hud_t decoded;
mavlink_msg_vfr_hud_decode(&msg, &decoded);
handle_decoded_message(timestamp, decoded);
break;
}
}
}
void mavlink_handleMessage(mavlink_message_t* msg) {
mavlink_message_t msg2;
char sysmsg_str[1024];
switch (msg->msgid) {
case MAVLINK_MSG_ID_HEARTBEAT: {
mavlink_heartbeat_t packet;
mavlink_msg_heartbeat_decode(msg, &packet);
droneType = packet.type;
autoPilot = packet.autopilot;
if (packet.base_mode == MAV_MODE_MANUAL_ARMED) {
ModelData.mode = MODEL_MODE_MANUAL;
} else if (packet.base_mode == 128 + 64 + 16) {
ModelData.mode = MODEL_MODE_RTL;
} else if (packet.base_mode == 128 + 16) {
ModelData.mode = MODEL_MODE_POSHOLD;
} else if (packet.base_mode == 128 + 4) {
ModelData.mode = MODEL_MODE_MISSION;
}
if (packet.system_status == MAV_STATE_ACTIVE) {
ModelData.armed = MODEL_ARMED;
} else {
ModelData.armed = MODEL_DISARMED;
}
// SDL_Log("Heartbeat: %i, %i, %i\n", ModelData.armed, ModelData.mode, ModelData.status);
ModelData.heartbeat = 100;
// sprintf(sysmsg_str, "Heartbeat: %i", (int)time(0));
if ((*msg).sysid != 0xff) {
ModelData.sysid = (*msg).sysid;
ModelData.compid = (*msg).compid;
if (mavlink_maxparam == 0) {
mavlink_start_feeds();
}
}
redraw_flag = 1;
break;
}
case MAVLINK_MSG_ID_RC_CHANNELS_SCALED: {
mavlink_rc_channels_scaled_t packet;
mavlink_msg_rc_channels_scaled_decode(msg, &packet);
// SDL_Log("Radio: %i,%i,%i\n", packet.chan1_scaled, packet.chan2_scaled, packet.chan3_scaled);
/* if ((int)packet.chan6_scaled > 1000) {
mode = MODE_MISSION;
} else if ((int)packet.chan6_scaled < -1000) {
mode = MODE_MANUEL;
} else {
mode = MODE_POSHOLD;
}
if ((int)packet.chan7_scaled > 1000) {
mode = MODE_RTL;
} else if ((int)packet.chan7_scaled < -1000) {
mode = MODE_SETHOME;
}
*/
ModelData.radio[0] = (int)packet.chan1_scaled / 100.0;
ModelData.radio[1] = (int)packet.chan2_scaled / 100.0;
ModelData.radio[2] = (int)packet.chan3_scaled / 100.0;
ModelData.radio[3] = (int)packet.chan4_scaled / 100.0;
ModelData.radio[4] = (int)packet.chan5_scaled / 100.0;
ModelData.radio[5] = (int)packet.chan6_scaled / 100.0;
ModelData.radio[6] = (int)packet.chan7_scaled / 100.0;
ModelData.radio[7] = (int)packet.chan8_scaled / 100.0;
redraw_flag = 1;
break;
}
case MAVLINK_MSG_ID_SCALED_PRESSURE: {
mavlink_scaled_pressure_t packet;
mavlink_msg_scaled_pressure_decode(msg, &packet);
// SDL_Log("BAR;%i;%0.2f;%0.2f;%0.2f\n", time(0), packet.press_abs, packet.press_diff, packet.temperature / 100.0);
// redraw_flag = 1;
break;
}
case MAVLINK_MSG_ID_ATTITUDE: {
mavlink_attitude_t packet;
mavlink_msg_attitude_decode(msg, &packet);
ModelData.roll = toDeg(packet.roll);
ModelData.pitch = toDeg(packet.pitch);
if (toDeg(packet.yaw) < 0.0) {
ModelData.yaw = 360.0 + toDeg(packet.yaw);
} else {
ModelData.yaw = toDeg(packet.yaw);
}
mavlink_update_yaw = 1;
// SDL_Log("ATT;%i;%0.2f;%0.2f;%0.2f\n", time(0), toDeg(packet.roll), toDeg(packet.pitch), toDeg(packet.yaw));
redraw_flag = 1;
break;
}
case MAVLINK_MSG_ID_SCALED_IMU: {
// SDL_Log("SCALED_IMU\n");
break;
}
case MAVLINK_MSG_ID_GPS_RAW_INT: {
mavlink_gps_raw_int_t packet;
mavlink_msg_gps_raw_int_decode(msg, &packet);
if (packet.lat != 0.0) {
GPS_found = 1;
ModelData.p_lat = (float)packet.lat / 10000000.0;
ModelData.p_long = (float)packet.lon / 10000000.0;
ModelData.p_alt = (float)packet.alt / 1000.0;
ModelData.speed = (float)packet.vel / 100.0;
ModelData.numSat = packet.satellites_visible;
ModelData.gpsfix = packet.fix_type;
redraw_flag = 1;
}
break;
}
case MAVLINK_MSG_ID_RC_CHANNELS_RAW: {
// SDL_Log("RC_CHANNELS_RAW\n");
break;
}
case MAVLINK_MSG_ID_SERVO_OUTPUT_RAW: {
// SDL_Log("SERVO_OUTPUT_RAW\n");
break;
}
case MAVLINK_MSG_ID_SYS_STATUS: {
mavlink_sys_status_t packet;
mavlink_msg_sys_status_decode(msg, &packet);
// SDL_Log("%0.1f %%, %0.3f V)\n", packet.load / 10.0, packet.voltage_battery / 1000.0);
ModelData.voltage = packet.voltage_battery / 1000.0;
ModelData.load = packet.load / 10.0;
redraw_flag = 1;
break;
}
case MAVLINK_MSG_ID_STATUSTEXT: {
mavlink_statustext_t packet;
mavlink_msg_statustext_decode(msg, &packet);
SDL_Log("mavlink: ## %s ##\n", packet.text);
sys_message((char *)packet.text);
redraw_flag = 1;
break;
}
case MAVLINK_MSG_ID_PARAM_VALUE: {
mavlink_param_value_t packet;
mavlink_msg_param_value_decode(msg, &packet);
char var[101];
uint16_t n1 = 0;
uint16_t n2 = 0;
for (n1 = 0; n1 < strlen(packet.param_id); n1++) {
if (packet.param_id[n1] != 9 && packet.param_id[n1] != ' ' && packet.param_id[n1] != '\t') {
var[n2++] = packet.param_id[n1];
}
}
var[n2++] = 0;
// MAV_VAR_FLOAT=0, /* 32 bit float | */
// MAV_VAR_UINT8=1, /* 8 bit unsigned integer | */
// MAV_VAR_INT8=2, /* 8 bit signed integer | */
// MAV_VAR_UINT16=3, /* 16 bit unsigned integer | */
// MAV_VAR_INT16=4, /* 16 bit signed integer | */
// MAV_VAR_UINT32=5, /* 32 bit unsigned integer | */
// MAV_VAR_INT32=6, /* 32 bit signed integer | */
sprintf(sysmsg_str, "PARAM_VALUE (%i/%i): #%s# = %f (Type: %i)", packet.param_index + 1, packet.param_count, var, packet.param_value, packet.param_type);
SDL_Log("mavlink: %s\n", sysmsg_str);
sys_message(sysmsg_str);
mavlink_maxparam = packet.param_count;
mavlink_timeout = 0;
mavlink_set_value(var, packet.param_value, packet.param_type, packet.param_index);
if (packet.param_index + 1 == packet.param_count || packet.param_index % 10 == 0) {
mavlink_param_xml_meta_load();
}
redraw_flag = 1;
break;
}
case MAVLINK_MSG_ID_MISSION_COUNT: {
mavlink_mission_count_t packet;
mavlink_msg_mission_count_decode(msg, &packet);
sprintf(sysmsg_str, "MISSION_COUNT: %i\n", packet.count);
sys_message(sysmsg_str);
mission_max = packet.count;
if (mission_max > 0) {
mavlink_msg_mission_request_pack(127, 0, &msg2, ModelData.sysid, ModelData.compid, 0);
mavlink_send_message(&msg2);
}
redraw_flag = 1;
break;
}
case MAVLINK_MSG_ID_MISSION_ACK: {
SDL_Log("mavlink: Mission-Transfer ACK\n");
break;
}
case MAVLINK_MSG_ID_MISSION_REQUEST: {
mavlink_mission_request_t packet;
mavlink_msg_mission_request_decode(msg, &packet);
uint16_t id = packet.seq;
uint16_t id2 = packet.seq;
uint16_t type = 0;
if (ModelData.teletype == TELETYPE_MEGAPIRATE_NG || ModelData.teletype == TELETYPE_ARDUPILOT) {
if (id2 > 0) {
id2 = id2 - 1;
} else {
SDL_Log("mavlink: WORKAROUND: first WP == HOME ?\n");
}
}
sprintf(sysmsg_str, "sending Waypoint (%i): %s\n", id, WayPoints[1 + id2].name);
sys_message(sysmsg_str);
if (strcmp(WayPoints[1 + id2].command, "WAYPOINT") == 0) {
SDL_Log("mavlink: Type: MAV_CMD_NAV_WAYPOINT\n");
type = MAV_CMD_NAV_WAYPOINT;
} else if (strcmp(WayPoints[1 + id2].command, "RTL") == 0) {
SDL_Log("mavlink: Type: MAV_CMD_NAV_RETURN_TO_LAUNCH\n");
type = MAV_CMD_NAV_RETURN_TO_LAUNCH;
} else if (strcmp(WayPoints[1 + id2].command, "LAND") == 0) {
SDL_Log("mavlink: Type: MAV_CMD_NAV_LAND\n");
type = MAV_CMD_NAV_LAND;
} else if (strcmp(WayPoints[1 + id2].command, "TAKEOFF") == 0) {
SDL_Log("mavlink: Type: MAV_CMD_NAV_TAKEOFF\n");
type = MAV_CMD_NAV_TAKEOFF;
} else {
SDL_Log("mavlink: Type: UNKNOWN\n");
type = MAV_CMD_NAV_WAYPOINT;
}
sprintf(sysmsg_str, "SENDING MISSION_ITEM: %i: %f, %f, %f\n", id, WayPoints[1 + id2].p_lat, WayPoints[1 + id2].p_long, WayPoints[1 + id2].p_alt);
SDL_Log("mavlink: %s\n", sysmsg_str);
mavlink_msg_mission_item_pack(127, 0, &msg2, ModelData.sysid, ModelData.compid, id, 0, type, 0.0, 0.0, WayPoints[1 + id2].radius, WayPoints[1 + id2].wait, WayPoints[1 + id2].orbit, WayPoints[1 + id2].yaw, WayPoints[1 + id2].p_lat, WayPoints[1 + id2].p_long, WayPoints[1 + id2].p_alt);
mavlink_send_message(&msg2);
/*
mavlink_msg_mission_item_pack(system_id, component_id, &msg , packet1.target_system , packet1.target_component , packet1.seq , packet1.frame , packet1.command , packet1.current , packet1.autocontinue , packet1.param1 , packet1.param2 , packet1.param3 , packet1.param4 , packet1.x , packet1.y , packet1.z );
float param1; ///< PARAM1 / For NAV command MISSIONs: Radius in which the MISSION is accepted as reached, in meters
float param2; ///< PARAM2 / For NAV command MISSIONs: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds
float param3; ///< PARAM3 / For LOITER command MISSIONs: Orbit to circle around the MISSION, in meters. If positive the orbit direction should be clockwise, if negative the orbit direction should be counter-clockwise.
float param4; ///< PARAM4 / For NAV and LOITER command MISSIONs: Yaw orientation in degrees, [0..360] 0 = NORTH
float x; ///< PARAM5 / local: x position, global: latitude
float y; ///< PARAM6 / y position: global: longitude
float z; ///< PARAM7 / z position: global: altitude
uint16_t seq; ///< Sequence
uint16_t command; ///< The scheduled action for the MISSION. see MAV_CMD in common.xml MAVLink specs
uint8_t target_system; ///< System ID
uint8_t target_component; ///< Component ID
uint8_t frame; ///< The coordinate system of the MISSION. see MAV_FRAME in mavlink_types.h
uint8_t current; ///< false:0, true:1
uint8_t autocontinue; ///< autocontinue to next wp
*/
redraw_flag = 1;
break;
}
case MAVLINK_MSG_ID_MISSION_ITEM: {
mavlink_mission_item_t packet;
mavlink_msg_mission_item_decode(msg, &packet);
sprintf(sysmsg_str, "RECEIVED MISSION_ITEM: %i/%i: %f, %f, %f (%i)\n", packet.seq, mission_max, packet.x, packet.y, packet.z, packet.frame);
SDL_Log("mavlink: %s\n", sysmsg_str);
sys_message(sysmsg_str);
if (packet.seq < mission_max - 1) {
mavlink_msg_mission_request_pack(127, 0, &msg2, ModelData.sysid, ModelData.compid, packet.seq + 1);
mavlink_send_message(&msg2);
} else {
mavlink_msg_mission_ack_pack(127, 0, &msg2, ModelData.sysid, ModelData.compid, 15);
mavlink_send_message(&msg2);
}
if (ModelData.teletype == TELETYPE_MEGAPIRATE_NG || ModelData.teletype == TELETYPE_ARDUPILOT) {
if (packet.seq > 0) {
packet.seq = packet.seq - 1;
} else {
SDL_Log("mavlink: WORKAROUND: ignore first WP\n");
break;
}
}
SDL_Log("mavlink: getting WP(%i): %f, %f\n", packet.seq, packet.x, packet.y);
switch (packet.command) {
case MAV_CMD_NAV_WAYPOINT: {
strcpy(WayPoints[1 + packet.seq].command, "WAYPOINT");
break;
}
case MAV_CMD_NAV_LOITER_UNLIM: {
strcpy(WayPoints[1 + packet.seq].command, "LOITER_UNLIM");
break;
}
case MAV_CMD_NAV_LOITER_TURNS: {
strcpy(WayPoints[1 + packet.seq].command, "LOITER_TURNS");
break;
}
case MAV_CMD_NAV_LOITER_TIME: {
strcpy(WayPoints[1 + packet.seq].command, "LOITER_TIME");
break;
}
case MAV_CMD_NAV_RETURN_TO_LAUNCH: {
strcpy(WayPoints[1 + packet.seq].command, "RTL");
break;
}
case MAV_CMD_NAV_LAND: {
strcpy(WayPoints[1 + packet.seq].command, "LAND");
break;
}
case MAV_CMD_NAV_TAKEOFF: {
strcpy(WayPoints[1 + packet.seq].command, "TAKEOFF");
break;
}
default: {
sprintf(WayPoints[1 + packet.seq].command, "CMD:%i", packet.command);
break;
}
}
if (packet.x == 0.0) {
packet.x = 0.00001;
}
if (packet.y == 0.0) {
packet.y = 0.00001;
}
if (packet.z == 0.0) {
packet.z = 0.00001;
}
WayPoints[1 + packet.seq].p_lat = packet.x;
WayPoints[1 + packet.seq].p_long = packet.y;
WayPoints[1 + packet.seq].p_alt = packet.z;
WayPoints[1 + packet.seq].yaw = packet.param4;
sprintf(WayPoints[1 + packet.seq].name, "WP%i", packet.seq + 1);
WayPoints[1 + packet.seq + 1].p_lat = 0.0;
WayPoints[1 + packet.seq + 1].p_long = 0.0;
WayPoints[1 + packet.seq + 1].p_alt = 0.0;
WayPoints[1 + packet.seq + 1].yaw = 0.0;
WayPoints[1 + packet.seq + 1].name[0] = 0;
WayPoints[1 + packet.seq + 1].command[0] = 0;
/*
float param1; ///< PARAM1 / For NAV command MISSIONs: Radius in which the MISSION is accepted as reached, in meters
float param2; ///< PARAM2 / For NAV command MISSIONs: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds
float param3; ///< PARAM3 / For LOITER command MISSIONs: Orbit to circle around the MISSION, in meters. If positive the orbit direction should be clockwise, if negative the orbit direction should be counter-clockwise.
float param4; ///< PARAM4 / For NAV and LOITER command MISSIONs: Yaw orientation in degrees, [0..360] 0 = NORTH
float x; ///< PARAM5 / local: x position, global: latitude
float y; ///< PARAM6 / y position: global: longitude
float z; ///< PARAM7 / z position: global: altitude
uint16_t seq; ///< Sequence
uint16_t command; ///< The scheduled action for the MISSION. see MAV_CMD in common.xml MAVLink specs
uint8_t target_system; ///< System ID
uint8_t target_component; ///< Component ID
uint8_t frame; ///< The coordinate system of the MISSION. see MAV_FRAME in mavlink_types.h
uint8_t current; ///< false:0, true:1
uint8_t autocontinue; ///< autocontinue to next wp
GCS_MAVLink/message_definitions_v1.0/common.xml: <entry value="0" name="MAV_FRAME_GLOBAL">
GCS_MAVLink/message_definitions_v1.0/common.xml: <entry value="1" name="MAV_FRAME_LOCAL_NED">
GCS_MAVLink/message_definitions_v1.0/common.xml: <entry value="2" name="MAV_FRAME_MISSION">
GCS_MAVLink/message_definitions_v1.0/common.xml: <entry value="3" name="MAV_FRAME_GLOBAL_RELATIVE_ALT">
GCS_MAVLink/message_definitions_v1.0/common.xml: <entry value="4" name="MAV_FRAME_LOCAL_ENU">
*/
redraw_flag = 1;
break;
}
case MAVLINK_MSG_ID_MISSION_CURRENT: {
mavlink_mission_current_t packet;
mavlink_msg_mission_current_decode(msg, &packet);
// SDL_Log("mavlink: ## Active_WP %f ##\n", packet.seq);
uav_active_waypoint = (uint8_t)packet.seq;
break;
}
case MAVLINK_MSG_ID_RAW_IMU: {
mavlink_raw_imu_t packet;
mavlink_msg_raw_imu_decode(msg, &packet);
/*
SDL_Log("## IMU_RAW_ACC_X %i ##\n", packet.xacc);
SDL_Log("## IMU_RAW_ACC_Y %i ##\n", packet.yacc);
SDL_Log("## IMU_RAW_ACC_Z %i ##\n", packet.zacc);
SDL_Log("## IMU_RAW_GYRO_X %i ##\n", packet.xgyro);
SDL_Log("## IMU_RAW_GYRO_Y %i ##\n", packet.ygyro);
SDL_Log("## IMU_RAW_GYRO_Z %i ##\n", packet.zgyro);
SDL_Log("## IMU_RAW_MAG_X %i ##\n", packet.xmag);
SDL_Log("## IMU_RAW_MAG_Y %i ##\n", packet.ymag);
SDL_Log("## IMU_RAW_MAG_Z %i ##\n", packet.zmag);
*/
ModelData.acc_x = (float)packet.xacc / 1000.0;
ModelData.acc_y = (float)packet.yacc / 1000.0;
ModelData.acc_z = (float)packet.zacc / 1000.0;
ModelData.gyro_x = (float)packet.zgyro;
ModelData.gyro_y = (float)packet.zgyro;
ModelData.gyro_z = (float)packet.zgyro;
redraw_flag = 1;
break;
}
case MAVLINK_MSG_ID_NAV_CONTROLLER_OUTPUT: {
mavlink_nav_controller_output_t packet;
mavlink_msg_nav_controller_output_decode(msg, &packet);
/*
nav_roll
nav_pitch
alt_error
aspd_error
xtrack_error
nav_bearing
target_bearing
wp_dist
*/
break;
}
case MAVLINK_MSG_ID_VFR_HUD: {
mavlink_vfr_hud_t packet;
mavlink_msg_vfr_hud_decode(msg, &packet);
// SDL_Log("## pa %f ##\n", packet.airspeed);
// SDL_Log("## pg %f ##\n", packet.groundspeed);
// SDL_Log("## palt %f ##\n", packet.alt);
if (GPS_found == 0) {
ModelData.p_alt = packet.alt;
}
// SDL_Log("## pc %f ##\n", packet.climb);
// SDL_Log("## ph %i ##\n", packet.heading);
// SDL_Log("## pt %i ##\n", packet.throttle);
break;
}
case MAVLINK_MSG_ID_RADIO: {
mavlink_radio_t packet;
mavlink_msg_radio_decode(msg, &packet);
SDL_Log("mavlink: ## rxerrors %i ##\n", packet.rxerrors);
SDL_Log("mavlink: ## fixed %i ##\n", packet.fixed);
SDL_Log("mavlink: ## rssi %i ##\n", packet.rssi);
SDL_Log("mavlink: ## remrssi %i ##\n", packet.remrssi);
SDL_Log("mavlink: ## txbuf %i ##\n", packet.txbuf);
SDL_Log("mavlink: ## noise %i ##\n", packet.noise);
SDL_Log("mavlink: ## remnoise %i ##\n", packet.remnoise);
break;
}
default: {
// SDL_Log(" ## MSG_ID == %i ##\n", msg->msgid);
break;
}
}
}