Beispiel #1
0
//! Initialize the transmitter control mode
int32_t transmitter_control_initialize()
{
	AccessoryDesiredInitialize();
	ManualControlCommandInitialize();
	FlightStatusInitialize();
	StabilizationDesiredInitialize();
	ReceiverActivityInitialize();
	ManualControlSettingsInitialize();

	// Both the gimbal and coptercontrol do not support loitering
#if !defined(SMALLF1) && !defined(GIMBAL)
	LoiterCommandInitialize();
#endif

	/* For now manual instantiate extra instances of Accessory Desired.  In future  */
	/* should be done dynamically this includes not even registering it if not used */
	AccessoryDesiredCreateInstance();
	AccessoryDesiredCreateInstance();

	/* No pending control events */
	pending_control_event = CONTROL_EVENTS_NONE;

	/* Initialize the RcvrActivty FSM */
	lastActivityTime = PIOS_Thread_Systime();
	resetRcvrActivity(&activity_fsm);

	// Use callback to update the settings when they change
	ManualControlSettingsConnectCallbackCtx(UAVObjCbSetFlag, &settings_updated);

	settings_updated = true;

	// Main task loop
	lastSysTime = PIOS_Thread_Systime();
	return 0;
}
Beispiel #2
0
/**
 * Initialize the module, called on startup.
 * \returns 0 on success or -1 if initialization failed
 */
int32_t SystemModInitialize(void)
{

	// Must registers objects here for system thread because ObjectManager started in OpenPilotInit
	SystemSettingsInitialize();
	SystemStatsInitialize();
	FlightStatusInitialize();
	//ObjectPersistenceInitialize(); moved to pios board due to different bootstraping
#if defined(DIAG_TASKS)
	TaskInfoInitialize();
#endif
#if defined(I2C_WDG_STATS_DIAGNOSTICS)
	I2CStatsInitialize();
	WatchdogStatusInitialize();
#endif

	//objectPersistenceQueue = xQueueCreate(1, sizeof(UAVObjEvent));
	//if (objectPersistenceQueue == NULL)
	//	return -1;

	/* Edited for raspberry pilot, the systemodstart is not automatically called
	 * it is called just after MODULE_INITIALISE_ALL in initTask(), but the system
	 * waits for objectpersitance (over uavlink) to load all the settings
	 */
	//SystemModStart();

	return 0;
}
Beispiel #3
0
/**
 * @brief initialize UAVOs and structs used by this library
 */
void plan_initialize()
{
    TakeOffLocationInitialize();
    PositionStateInitialize();
    PathDesiredInitialize();
    FlightModeSettingsInitialize();
    FlightStatusInitialize();
    AttitudeStateInitialize();
    ManualControlCommandInitialize();
    VelocityStateInitialize();
    VtolPathFollowerSettingsInitialize();
}
Beispiel #4
0
int32_t LoggingInitialize(void)
{
    DebugLogSettingsInitialize();
    DebugLogControlInitialize();
    DebugLogStatusInitialize();
    DebugLogEntryInitialize();
    FlightStatusInitialize();
    PIOS_DEBUGLOG_Initialize();
    entry = pios_malloc(sizeof(DebugLogEntryData));
    if (!entry) {
        return -1;
    }

    return 0;
}
Beispiel #5
0
/**
 * Initialize the module
 * \return -1 if initialization failed
 * \return 0 on success
 */
static int32_t uavoTaranisInitialize(void)
{
	uint32_t sport_com = PIOS_COM_FRSKY_SPORT;

	if (sport_com) {


		frsky = PIOS_malloc(sizeof(struct frsky_sport_telemetry));
		if (frsky != NULL) {
			memset(frsky, 0x00, sizeof(struct frsky_sport_telemetry));

			// These objects are registered on the TLM so it
			// can intercept them from the telemetry stream
			FlightBatteryStateInitialize();
			FlightStatusInitialize();
			PositionActualInitialize();
			VelocityActualInitialize();

			frsky->frsky_settings.use_current_sensor = false;
			frsky->frsky_settings.batt_cell_count = 0;
			frsky->frsky_settings.use_baro_sensor = false;
			frsky->state = FRSKY_STATE_WAIT_POLL_REQUEST;
			frsky->last_poll_time = PIOS_DELAY_GetuS();
			frsky->ignore_rx_chars = 0;
			frsky->scheduled_item = -1;
			frsky->com = sport_com;

			uint8_t i;
			for (i = 0; i < NELEMENTS(frsky_value_items); i++)
				frsky->item_last_triggered[i] = PIOS_DELAY_GetuS();
			PIOS_COM_ChangeBaud(frsky->com, FRSKY_SPORT_BAUDRATE);
			module_enabled = true;
			return 0;
		}

		module_enabled = true;

		return 0;
	}

	module_enabled = false;

	return -1;
}
Beispiel #6
0
/**
 * Initialise the module.  Called before the start function
 * \returns 0 on success or -1 if initialisation failed
 */
int32_t AttitudeInitialize(void)
{
    AttitudeActualInitialize();
    AirspeedActualInitialize();
    AirspeedSensorInitialize();
    AttitudeSettingsInitialize();
    PositionActualInitialize();
    VelocityActualInitialize();
    RevoSettingsInitialize();
    RevoCalibrationInitialize();
    EKFConfigurationInitialize();
    EKFStateVarianceInitialize();
    FlightStatusInitialize();

    // Initialize this here while we aren't setting the homelocation in GPS
    HomeLocationInitialize();

    // Initialize quaternion
    AttitudeActualData attitude;
    AttitudeActualGet(&attitude);
    attitude.q1 = 1.0f;
    attitude.q2 = 0.0f;
    attitude.q3 = 0.0f;
    attitude.q4 = 0.0f;
    AttitudeActualSet(&attitude);

    // Cannot trust the values to init right above if BL runs
    GyrosBiasData gyrosBias;
    GyrosBiasGet(&gyrosBias);
    gyrosBias.x = 0.0f;
    gyrosBias.y = 0.0f;
    gyrosBias.z = 0.0f;
    GyrosBiasSet(&gyrosBias);

    AttitudeSettingsConnectCallback(&settingsUpdatedCb);
    RevoSettingsConnectCallback(&settingsUpdatedCb);
    RevoCalibrationConnectCallback(&settingsUpdatedCb);
    HomeLocationConnectCallback(&settingsUpdatedCb);
    EKFConfigurationConnectCallback(&settingsUpdatedCb);
    FlightStatusConnectCallback(&settingsUpdatedCb);

    return 0;
}
Beispiel #7
0
void stabilizationInnerloopInit()
{
    RateDesiredInitialize();
    ActuatorDesiredInitialize();
    GyroStateInitialize();
    StabilizationStatusInitialize();
    FlightStatusInitialize();
    ManualControlCommandInitialize();
#ifdef REVOLUTION
    AirspeedStateInitialize();
    AirspeedStateConnectCallback(AirSpeedUpdatedCb);
#endif
    PIOS_DELTATIME_Init(&timeval, UPDATE_EXPECTED, UPDATE_MIN, UPDATE_MAX, UPDATE_ALPHA);

    callbackHandle = PIOS_CALLBACKSCHEDULER_Create(&stabilizationInnerloopTask, CALLBACK_PRIORITY, CBTASK_PRIORITY, CALLBACKINFO_RUNNING_STABILIZATION1, STACK_SIZE_BYTES);
    GyroStateConnectCallback(GyroStateUpdatedCb);

    // schedule dead calls every FAILSAFE_TIMEOUT_MS to have the watchdog cleared
    PIOS_CALLBACKSCHEDULER_Schedule(callbackHandle, FAILSAFE_TIMEOUT_MS, CALLBACK_UPDATEMODE_LATER);
}
Beispiel #8
0
/**
 * Initialize the module, called on startup.
 * \returns 0 on success or -1 if initialization failed
 */
int32_t SystemModInitialize(void)
{

    // Must registers objects here for system thread because ObjectManager started in OpenPilotInit
    SystemSettingsInitialize();
    SystemStatsInitialize();
    FlightStatusInitialize();
    ObjectPersistenceInitialize();
#if defined(DIAG_TASKS)
    TaskInfoInitialize();
#endif
#if defined(DIAGNOSTICS)
    I2CStatsInitialize();
    WatchdogStatusInitialize();
#endif

    SystemModStart();

    return 0;
}
Beispiel #9
0
//! Initialize the transmitter control mode
int32_t transmitter_control_initialize()
{
	/* Check the assumptions about uavobject enum's are correct */
	if(!assumptions)
		return -1;

	AccessoryDesiredInitialize();
	ManualControlCommandInitialize();
	FlightStatusInitialize();
	StabilizationDesiredInitialize();
	ReceiverActivityInitialize();
	ManualControlSettingsInitialize();

	// Both the gimbal and coptercontrol do not support loitering
#if !defined(COPTERCONTROL) && !defined(GIMBAL)
	LoiterCommandInitialize();
#endif

	/* For now manual instantiate extra instances of Accessory Desired.  In future  */
	/* should be done dynamically this includes not even registering it if not used */
	AccessoryDesiredCreateInstance();
	AccessoryDesiredCreateInstance();

	/* Reset the state machine for processing stick movements */
	arm_state = ARM_STATE_DISARMED;

	/* No pending control events */
	pending_control_event = CONTROL_EVENTS_NONE;

	/* Initialize the RcvrActivty FSM */
	lastActivityTime = xTaskGetTickCount();
	resetRcvrActivity(&activity_fsm);

	// Use callback to update the settings when they change
	ManualControlSettingsConnectCallback(manual_control_settings_updated);
	manual_control_settings_updated(NULL);

	// Main task loop
	lastSysTime = xTaskGetTickCount();
	return 0;
}
Beispiel #10
0
/**
 * Module initialization
 */
int32_t ManualControlInitialize()
{
    /* Check the assumptions about uavobject enum's are correct */
    PIOS_STATIC_ASSERT(assumptions);

    ManualControlCommandInitialize();
    FlightStatusInitialize();
    ManualControlSettingsInitialize();
    FlightModeSettingsInitialize();
    SystemSettingsInitialize();
    StabilizationSettingsInitialize();
#ifndef PIOS_EXCLUDE_ADVANCED_FEATURES
    VtolSelfTuningStatsInitialize();
    VtolPathFollowerSettingsInitialize();
    VtolPathFollowerSettingsConnectCallback(&SettingsUpdatedCb);
    SystemSettingsConnectCallback(&SettingsUpdatedCb);
#endif
    callbackHandle = PIOS_CALLBACKSCHEDULER_Create(&manualControlTask, CALLBACK_PRIORITY, CBTASK_PRIORITY, CALLBACKINFO_RUNNING_MANUALCONTROL, STACK_SIZE_BYTES);

    return 0;
}
Beispiel #11
0
/**
 * Initialize the module, called on startup.
 * \returns 0 on success or -1 if initialization failed
 */
int32_t SystemModInitialize(void)
{

	// Must registers objects here for system thread because ObjectManager started in OpenPilotInit
	SystemSettingsInitialize();
	SystemStatsInitialize();
	FlightStatusInitialize();
	ObjectPersistenceInitialize();
#if defined(DIAG_TASKS)
	TaskInfoInitialize();
#endif
#if defined(WDG_STATS_DIAGNOSTICS)
	WatchdogStatusInitialize();
#endif

	objectPersistenceQueue = PIOS_Queue_Create(1, sizeof(UAVObjEvent));
	if (objectPersistenceQueue == NULL)
		return -1;

	SystemModStart();

	return 0;
}