static uint16_t _store_gps_raw_int(void *out){
mavlink_message_t mavlink_message_struct;
uint8_t sendbuf[MAVLINK_MAX_PACKET_LEN];
memcpy_ts(sendbuf, &mavlink_gps_raw_int_struct, sizeof(mavlink_gps_raw_int_struct), 4);
// ((mavlink_gps_raw_int_t *)sendbuf)->time_usec = timestamp;
mavlink_msg_gps_raw_int_encode(mavlink_system_struct.sysid, MAV_COMP_ID_BNAP, &mavlink_message_struct, (mavlink_gps_raw_int_t *)sendbuf);
return _to_mmc_buf(out, sendbuf, &mavlink_message_struct);
}
void Test::sendCurrentPosition(float lattitude, float longtitude, float altitude)
{
mavlink_gps_raw_int_t msg;
msg.lat = (int32_t)(lattitude * 1e7);
msg.lon = (int32_t)(longtitude * 1e7);
msg.alt = (int32_t)(altitude * 1000);
mavlink_message_t buf;
mavlink_msg_gps_raw_int_encode(SYSTEM_ID, COMPONENT_ID, &buf, &msg);
testMessage(buf);
}
void mavlink_connector::slow_send()
{
mavlink_gps_raw_int_t gps_raw_int_t;
mavlink_battery_status_t battery_status_t;
mavlink_rc_channels_t rc_channels_t;
mavlink_message_t msg;
gps_raw_int_t.lat = (int32_t)(dji_variable::global_position_degree.lati * 1e7) ;
gps_raw_int_t.lon = (int32_t)(dji_variable::global_position_degree.longti * 1e7);
gps_raw_int_t.alt = (int32_t)(dji_variable::global_position_degree.alti * 1000);
mavlink_msg_gps_raw_int_encode(0,200,&msg,&gps_raw_int_t);
send_msg(&msg);
mavlink_msg_heartbeat_encode(0,200,&msg,make_heartbeat());
send_msg(&msg);
// printf("sended heartbeating......\n");
battery_status_t.battery_remaining = dji_variable::battery;
for (int i = 0 ;i< 6;i++)
battery_status_t.voltages[i] = (uint16_t)((float)dji_variable::battery / 100.0f * 22.2 * 1000);
mavlink_msg_battery_status_encode(0,200,&msg,&battery_status_t);
send_msg(&msg);
mavlink_sys_status_t sys_status_t;
memset(&sys_status_t,0, sizeof(sys_status_t));
sys_status_t.battery_remaining = dji_variable::battery;
sys_status_t.voltage_battery = 222 * dji_variable::battery ;
mavlink_msg_sys_status_encode(0,200,&msg,&sys_status_t);
send_msg(&msg);
mavlink_rc_channels_scaled_t rc_channels_scaled_t;
rc_channels_scaled_t.chan1_scaled = dji_variable::rc_channels.roll;
rc_channels_scaled_t.chan2_scaled = dji_variable::rc_channels.pitch;
rc_channels_scaled_t.chan3_scaled = dji_variable::rc_channels.throttle;
rc_channels_scaled_t.chan4_scaled = dji_variable::rc_channels.yaw;
rc_channels_scaled_t.chan5_scaled = dji_variable::rc_channels.mode;
rc_channels_scaled_t.chan6_scaled = dji_variable::rc_channels.gear;
mavlink_msg_rc_channels_scaled_encode(0,200,&msg,&rc_channels_scaled_t);
send_msg(&msg);
}
void MAVLinkProxy::navdata()
{
static mavlink_message_t msg;
static uint8_t buf[MAVLINK_MAX_PACKET_LEN];
if(_attitude.time_boot_ms > 0)
{
mavlink_msg_attitude_encode(_mavlink_system.sysid, _mavlink_system.compid, &msg, &_attitude);
mavlink_msg_to_send_buffer(buf, &msg);
_socket.send_to(boost::asio::buffer(buf), _endpoint);
}
if(_gps.time_usec > 0)
{
mavlink_msg_gps_raw_int_encode(_mavlink_system.sysid, _mavlink_system.compid, &msg, &_gps);
mavlink_msg_to_send_buffer(buf, &msg);
_socket.send_to(boost::asio::buffer(buf), _endpoint);
}
_navdata_timer.expires_from_now(boost::posix_time::milliseconds(MAVLINK_NAVDATA_INTERVAL));
_navdata_timer.async_wait(boost::bind(&MAVLinkProxy::navdata, this));
}
/**
* Processes queue events
*/
static void processObjEvent(UAVObjEvent * ev)
{
UAVObjMetadata metadata;
// FlightTelemetryStatsData flightStats;
// GCSTelemetryStatsData gcsTelemetryStatsData;
// int32_t retries;
// int32_t success;
if (ev->obj == 0) {
updateTelemetryStats();
} else if (ev->obj == GCSTelemetryStatsHandle()) {
gcsTelemetryStatsUpdated();
} else if (ev->obj == TelemetrySettingsHandle()) {
updateSettings();
} else {
// Get object metadata
UAVObjGetMetadata(ev->obj, &metadata);
// If this is a metaobject then make necessary telemetry updates
if (UAVObjIsMetaobject(ev->obj)) {
updateObject(UAVObjGetLinkedObj(ev->obj)); // linked object will be the actual object the metadata are for
}
mavlink_message_t msg;
mavlink_system.sysid = 20;
mavlink_system.compid = MAV_COMP_ID_IMU;
mavlink_system.type = MAV_TYPE_FIXED_WING;
uint8_t mavClass = MAV_AUTOPILOT_OPENPILOT;
AlarmsClear(SYSTEMALARMS_ALARM_TELEMETRY);
// Setup type and object id fields
uint32_t objId = UAVObjGetID(ev->obj);
// uint64_t timeStamp = 0;
switch(objId) {
case BAROALTITUDE_OBJID:
{
BaroAltitudeGet(&baroAltitude);
pressure.press_abs = baroAltitude.Pressure*10.0f;
pressure.temperature = baroAltitude.Temperature*100.0f;
mavlink_msg_scaled_pressure_encode(mavlink_system.sysid, mavlink_system.compid, &msg, &pressure);
// Copy the message to the send buffer
uint16_t len = mavlink_msg_to_send_buffer(mavlinkTxBuf, &msg);
// Send buffer
PIOS_COM_SendBufferNonBlocking(telemetryPort, mavlinkTxBuf, len);
break;
}
case FLIGHTTELEMETRYSTATS_OBJID:
{
// FlightTelemetryStatsData flightTelemetryStats;
FlightTelemetryStatsGet(&flightStats);
// XXX this is a hack to make it think it got a confirmed
// connection
flightStats.Status = FLIGHTTELEMETRYSTATS_STATUS_CONNECTED;
GCSTelemetryStatsGet(&gcsTelemetryStatsData);
gcsTelemetryStatsData.Status = GCSTELEMETRYSTATS_STATUS_CONNECTED;
//
//
// //mavlink_msg_heartbeat_send(MAVLINK_COMM_0,mavlink_system.type,mavClass);
// mavlink_msg_heartbeat_pack(mavlink_system.sysid, mavlink_system.compid, &msg, mavlink_system.type, mavClass);
// // Copy the message to the send buffer
// uint16_t len = mavlink_msg_to_send_buffer(mavlinkTxBuf, &msg);
// // Send buffer
// PIOS_COM_SendBufferNonBlocking(telemetryPort, mavlinkTxBuf, len);
break;
}
case SYSTEMSTATS_OBJID:
{
FlightStatusData flightStatus;
FlightStatusGet(&flightStatus);
uint8_t system_state = MAV_STATE_UNINIT;
uint8_t base_mode = 0;
uint8_t custom_mode = 0;
// Set flight mode
switch (flightStatus.FlightMode)
{
case FLIGHTSTATUS_FLIGHTMODE_MANUAL:
base_mode |= MAV_MODE_FLAG_MANUAL_INPUT_ENABLED;
break;
case FLIGHTSTATUS_FLIGHTMODE_POSITIONHOLD:
base_mode |= MAV_MODE_FLAG_GUIDED_ENABLED;
break;
case FLIGHTSTATUS_FLIGHTMODE_STABILIZED1:
base_mode |= MAV_MODE_FLAG_STABILIZE_ENABLED;
break;
case FLIGHTSTATUS_FLIGHTMODE_STABILIZED2:
base_mode |= MAV_MODE_FLAG_GUIDED_ENABLED;
break;
case FLIGHTSTATUS_FLIGHTMODE_STABILIZED3:
base_mode |= MAV_MODE_FLAG_AUTO_ENABLED;
break;
case FLIGHTSTATUS_FLIGHTMODE_VELOCITYCONTROL:
base_mode |= MAV_MODE_FLAG_GUIDED_ENABLED;
break;
default:
base_mode |= MAV_MODE_FLAG_MANUAL_INPUT_ENABLED;
break;
}
// Set arming state
switch (flightStatus.Armed)
{
case FLIGHTSTATUS_ARMED_ARMING:
case FLIGHTSTATUS_ARMED_ARMED:
system_state = MAV_STATE_ACTIVE;
base_mode |= MAV_MODE_FLAG_SAFETY_ARMED;
break;
case FLIGHTSTATUS_ARMED_DISARMED:
system_state = MAV_STATE_STANDBY;
base_mode &= !MAV_MODE_FLAG_SAFETY_ARMED;
break;
}
// Set HIL
if (hilEnabled) base_mode |= MAV_MODE_FLAG_HIL_ENABLED;
mavlink_msg_heartbeat_send(MAVLINK_COMM_0, mavlink_system.type, mavClass, base_mode, custom_mode, system_state);
SystemStatsData stats;
SystemStatsGet(&stats);
FlightBatteryStateData flightBatteryData;
FlightBatteryStateGet(&flightBatteryData);
FlightBatterySettingsData flightBatterySettings;
FlightBatterySettingsGet(&flightBatterySettings);
uint16_t batteryVoltage = (uint16_t)(flightBatteryData.Voltage*1000.0f);
int16_t batteryCurrent = -1; // -1: Not present / not estimated
int8_t batteryPercent = -1; // -1: Not present / not estimated
// if (flightBatterySettings.SensorCalibrations[FLIGHTBATTERYSETTINGS_SENSORCALIBRATIONS_CURRENTFACTOR] == 0)
// {
// Factor is zero, sensor is not present
// Estimate remaining capacity based on lipo curve
batteryPercent = 100.0f*((flightBatteryData.Voltage - 9.6f)/(12.6f - 9.6f));
// }
// else
// {
// // Use capacity and current
// batteryPercent = 100.0f*((flightBatterySettings.Capacity - flightBatteryData.ConsumedEnergy) / flightBatterySettings.Capacity);
// batteryCurrent = flightBatteryData.Current*100;
// }
mavlink_msg_sys_status_send(MAVLINK_COMM_0, 0xFF, 0xFF, 0xFF, ((uint16_t)stats.CPULoad*10), batteryVoltage, batteryCurrent, batteryPercent, 0, 0, 0, 0, 0, 0);
// // Copy the message to the send buffer
// uint16_t len = mavlink_msg_to_send_buffer(mavlinkTxBuf, &msg);
// // Send buffer
// PIOS_COM_SendBufferNonBlocking(telemetryPort, mavlinkTxBuf, len);
break;
}
case ATTITUDERAW_OBJID:
{
AttitudeRawGet(&attitudeRaw);
// Copy data
attitude_raw.xacc = attitudeRaw.accels[ATTITUDERAW_ACCELS_X];
attitude_raw.yacc = attitudeRaw.accels[ATTITUDERAW_ACCELS_Y];
attitude_raw.zacc = attitudeRaw.accels[ATTITUDERAW_ACCELS_Z];
attitude_raw.xgyro = attitudeRaw.gyros[ATTITUDERAW_GYROS_X];
attitude_raw.ygyro = attitudeRaw.gyros[ATTITUDERAW_GYROS_Y];
attitude_raw.zgyro = attitudeRaw.gyros[ATTITUDERAW_GYROS_Z];
attitude_raw.xmag = attitudeRaw.magnetometers[ATTITUDERAW_MAGNETOMETERS_X];
attitude_raw.ymag = attitudeRaw.magnetometers[ATTITUDERAW_MAGNETOMETERS_Y];
attitude_raw.zmag = attitudeRaw.magnetometers[ATTITUDERAW_MAGNETOMETERS_Z];
mavlink_msg_raw_imu_encode(mavlink_system.sysid, mavlink_system.compid, &msg, &attitude_raw);
// Copy the message to the send buffer
uint16_t len = mavlink_msg_to_send_buffer(mavlinkTxBuf, &msg);
// Send buffer
PIOS_COM_SendBufferNonBlocking(telemetryPort, mavlinkTxBuf, len);
if (hilEnabled)
{
mavlink_hil_controls_t controls;
// Copy data
controls.roll_ailerons = 0.1;
controls.pitch_elevator = 0.1;
controls.yaw_rudder = 0.0;
controls.throttle = 0.8;
mavlink_msg_hil_controls_encode(mavlink_system.sysid, mavlink_system.compid, &msg, &controls);
// Copy the message to the send buffer
len = mavlink_msg_to_send_buffer(mavlinkTxBuf, &msg);
// Send buffer
PIOS_COM_SendBufferNonBlocking(telemetryPort, mavlinkTxBuf, len);
}
break;
}
case ATTITUDEMATRIX_OBJID:
{
AttitudeMatrixGet(&attitudeMatrix);
// Copy data
attitude.roll = attitudeMatrix.Roll;
attitude.pitch = attitudeMatrix.Pitch;
attitude.yaw = attitudeMatrix.Yaw;
attitude.rollspeed = attitudeMatrix.AngularRates[0];
attitude.pitchspeed = attitudeMatrix.AngularRates[1];
attitude.yawspeed = attitudeMatrix.AngularRates[2];
mavlink_msg_attitude_encode(mavlink_system.sysid,
mavlink_system.compid, &msg, &attitude);
// Copy the message to the send buffer
uint16_t len = mavlink_msg_to_send_buffer(mavlinkTxBuf, &msg);
// Send buffer
PIOS_COM_SendBufferNonBlocking(telemetryPort, mavlinkTxBuf, len);
break;
}
case GPSPOSITION_OBJID:
{
GPSPositionGet(&gpsPosition);
gps_raw.time_usec = 0;
gps_raw.lat = gpsPosition.Latitude*10;
gps_raw.lon = gpsPosition.Longitude*10;
gps_raw.alt = gpsPosition.Altitude*10;
gps_raw.eph = gpsPosition.HDOP*100;
gps_raw.epv = gpsPosition.VDOP*100;
gps_raw.cog = gpsPosition.Heading*100;
gps_raw.satellites_visible = gpsPosition.Satellites;
gps_raw.fix_type = gpsPosition.Status;
mavlink_msg_gps_raw_int_encode(mavlink_system.sysid, mavlink_system.compid, &msg, &gps_raw);
// Copy the message to the send buffer
uint16_t len = mavlink_msg_to_send_buffer(mavlinkTxBuf, &msg);
// Send buffer
PIOS_COM_SendBufferNonBlocking(telemetryPort, mavlinkTxBuf, len);
// mavlink_msg_gps_raw_int_send(MAVLINK_COMM_0, gps_raw.usec, gps_raw.lat, gps_raw.lon, gps_raw.alt, gps_raw.eph, gps_raw.epv, gps_raw.hdg, gps_raw.satellites_visible, gps_raw.fix_type, 0);
break;
}
case POSITIONACTUAL_OBJID:
{
PositionActualData pos;
PositionActualGet(&pos);
mavlink_local_position_ned_t m_pos;
m_pos.time_boot_ms = 0;
m_pos.x = pos.North;
m_pos.y = pos.East;
m_pos.z = pos.Down;
m_pos.vx = 0.0f;
m_pos.vy = 0.0f;
m_pos.vz = 0.0f;
mavlink_msg_local_position_ned_encode(mavlink_system.sysid, mavlink_system.compid, &msg, &m_pos);
// Copy the message to the send buffer
uint16_t len = mavlink_msg_to_send_buffer(mavlinkTxBuf, &msg);
// Send buffer
PIOS_COM_SendBufferNonBlocking(telemetryPort, mavlinkTxBuf, len);
}
break;
case ACTUATORCOMMAND_OBJID:
{
mavlink_rc_channels_scaled_t rc;
float val;
ManualControlCommandRollGet(&val);
rc.chan1_scaled = val*1000;
ManualControlCommandPitchGet(&val);
rc.chan2_scaled = val*1000;
ManualControlCommandYawGet(&val);
rc.chan3_scaled = val*1000;
ManualControlCommandThrottleGet(&val);
rc.chan4_scaled = val*1000;
ActuatorCommandData act;
ActuatorCommandGet(&act);
rc.chan5_scaled = act.Channel[0];
rc.chan6_scaled = act.Channel[1];
rc.chan7_scaled = act.Channel[2];
rc.chan8_scaled = act.Channel[3];
ManualControlCommandData cmd;
ManualControlCommandGet(&cmd);
rc.rssi = ((uint8_t)(cmd.Connected == MANUALCONTROLCOMMAND_CONNECTED_TRUE))*255;
rc.port = 0;
mavlink_msg_rc_channels_scaled_encode(mavlink_system.sysid, mavlink_system.compid, &msg, &rc);
// Copy the message to the send buffer
uint16_t len = mavlink_msg_to_send_buffer(mavlinkTxBuf, &msg);
// Send buffer
PIOS_COM_SendBufferNonBlocking(PIOS_COM_TELEM_RF, mavlinkTxBuf, len);
break;
}
case MANUALCONTROLCOMMAND_OBJID:
{
mavlink_rc_channels_scaled_t rc;
float val;
ManualControlCommandRollGet(&val);
rc.chan1_scaled = val*1000;
ManualControlCommandPitchGet(&val);
rc.chan2_scaled = val*1000;
ManualControlCommandYawGet(&val);
rc.chan3_scaled = val*1000;
ManualControlCommandThrottleGet(&val);
rc.chan4_scaled = val*1000;
rc.chan5_scaled = 0;
rc.chan6_scaled = 0;
rc.chan7_scaled = 0;
rc.chan8_scaled = 0;
ManualControlCommandData cmd;
ManualControlCommandGet(&cmd);
rc.rssi = ((uint8_t)(cmd.Connected == MANUALCONTROLCOMMAND_CONNECTED_TRUE))*255;
rc.port = 0;
mavlink_msg_rc_channels_scaled_encode(mavlink_system.sysid, mavlink_system.compid, &msg, &rc);
// Copy the message to the send buffer
uint16_t len = mavlink_msg_to_send_buffer(mavlinkTxBuf, &msg);
// Send buffer
PIOS_COM_SendBufferNonBlocking(PIOS_COM_TELEM_RF, mavlinkTxBuf, len);
break;
}
default:
{
//printf("unknown object: %x\n",(unsigned int)objId);
break;
}
}
}
}
