/** ****************************************************************************** * @addtogroup OpenPilotModules OpenPilot Modules * @{ * @addtogroup ManualControlModule Manual Control Module * @brief Provide manual control or allow it alter flight mode. * @{ * * Reads in the ManualControlCommand FlightMode setting from receiver then either * pass the settings straght to ActuatorDesired object (manual mode) or to * AttitudeDesired object (stabilized mode) * * @file manualcontrol.c * @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010. * @brief ManualControl module. Handles safety R/C link and flight mode. * * @see The GNU Public License (GPL) Version 3 * *****************************************************************************/ /* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "openpilot.h" #include "manualcontrol.h" #include "manualcontrolsettings.h" #include "stabilizationsettings.h" #include "manualcontrolcommand.h" #include "actuatordesired.h" #include "attitudedesired.h" #include "ahrssettings.h" #include "flighttelemetrystats.h" // Private constants #define STACK_SIZE configMINIMAL_STACK_SIZE #define TASK_PRIORITY (tskIDLE_PRIORITY+4) #define UPDATE_PERIOD_MS 20 #define THROTTLE_FAILSAFE -0.1 #define FLIGHT_MODE_LIMIT 1.0/3.0 #define ARMED_TIME_MS 1000 //safe band to allow a bit of calibration error or trim offset (in microseconds) #define CONNECTION_OFFSET 150 // Private types // Private variables static xTaskHandle taskHandle; // Private functions static void manualControlTask(void *parameters); static float scaleChannel(int16_t value, int16_t max, int16_t min, int16_t neutral); static uint32_t timeDifferenceMs(portTickType start_time, portTickType end_time); // Global updated variable volatile uint8_t manual_updated; /** * Module initialization */ int32_t ManualControlInitialize() { // Start main task xTaskCreate(manualControlTask, (signed char *)"ManualControl", STACK_SIZE, NULL, TASK_PRIORITY, &taskHandle); return 0; } /** * Module task */ static void manualControlTask(void *parameters) { ManualControlSettingsData settings; StabilizationSettingsData stabSettings; ManualControlCommandData cmd; ActuatorDesiredData actuator; AttitudeDesiredData attitude; portTickType lastSysTime; portTickType armedDisarmStart = 0; portTickType lowThrottleStart = 0; uint8_t lowThrottleDetected = 0; float flightMode; uint8_t disconnected_count = 0; uint8_t connected_count = 0; enum { CONNECTED, DISCONNECTED } connection_state = DISCONNECTED; // Make sure unarmed on power up ManualControlCommandGet(&cmd); cmd.Armed = MANUALCONTROLCOMMAND_ARMED_FALSE; ManualControlCommandSet(&cmd); // Main task loop lastSysTime = xTaskGetTickCount(); while (1) { // Wait until next update vTaskDelayUntil(&lastSysTime, UPDATE_PERIOD_MS / portTICK_RATE_MS); manual_updated = 1; // Read settings ManualControlSettingsGet(&settings); StabilizationSettingsGet(&stabSettings); if (ManualControlCommandReadOnly(&cmd)) { FlightTelemetryStatsData flightTelemStats; FlightTelemetryStatsGet(&flightTelemStats); if(flightTelemStats.Status != FLIGHTTELEMETRYSTATS_STATUS_CONNECTED) { /* trying to fly via GCS and lost connection. fall back to transmitter */ UAVObjMetadata metadata; UAVObjGetMetadata(&cmd, &metadata); metadata.access = ACCESS_READWRITE; UAVObjSetMetadata(&cmd, &metadata); } } if (!ManualControlCommandReadOnly(&cmd)) { // Check settings, if error raise alarm if (settings.Roll >= MANUALCONTROLSETTINGS_ROLL_NONE || settings.Pitch >= MANUALCONTROLSETTINGS_PITCH_NONE || settings.Yaw >= MANUALCONTROLSETTINGS_YAW_NONE || settings.Throttle >= MANUALCONTROLSETTINGS_THROTTLE_NONE || settings.FlightMode >= MANUALCONTROLSETTINGS_FLIGHTMODE_NONE) { AlarmsSet(SYSTEMALARMS_ALARM_MANUALCONTROL, SYSTEMALARMS_ALARM_CRITICAL); cmd.FlightMode = MANUALCONTROLCOMMAND_FLIGHTMODE_AUTO; cmd.Connected = MANUALCONTROLCOMMAND_CONNECTED_FALSE; ManualControlCommandSet(&cmd); continue; } // Read channel values in us // TODO: settings.InputMode is currently ignored because PIOS will not allow runtime // selection of PWM and PPM. The configuration is currently done at compile time in // the pios_config.h file. for (int n = 0; n < MANUALCONTROLCOMMAND_CHANNEL_NUMELEM; ++n) { #if defined(PIOS_INCLUDE_PWM) cmd.Channel[n] = PIOS_PWM_Get(n); #elif defined(PIOS_INCLUDE_PPM) cmd.Channel[n] = PIOS_PPM_Get(n); #elif defined(PIOS_INCLUDE_SPEKTRUM) cmd.Channel[n] = PIOS_SPEKTRUM_Get(n); #endif } // Calculate roll command in range +1 to -1 cmd.Roll = scaleChannel(cmd.Channel[settings.Roll], settings.ChannelMax[settings.Roll], settings.ChannelMin[settings.Roll], settings.ChannelNeutral[settings.Roll]); // Calculate pitch command in range +1 to -1 cmd.Pitch = scaleChannel(cmd.Channel[settings.Pitch], settings.ChannelMax[settings.Pitch], settings.ChannelMin[settings.Pitch], settings.ChannelNeutral[settings.Pitch]); // Calculate yaw command in range +1 to -1 cmd.Yaw = scaleChannel(cmd.Channel[settings.Yaw], settings.ChannelMax[settings.Yaw], settings.ChannelMin[settings.Yaw], settings.ChannelNeutral[settings.Yaw]); // Calculate throttle command in range +1 to -1 cmd.Throttle = scaleChannel(cmd.Channel[settings.Throttle], settings.ChannelMax[settings.Throttle], settings.ChannelMin[settings.Throttle], settings.ChannelNeutral[settings.Throttle]); if (settings.Accessory1 != MANUALCONTROLSETTINGS_ACCESSORY1_NONE) cmd.Accessory1 = scaleChannel(cmd.Channel[settings.Accessory1], settings.ChannelMax[settings.Accessory1], settings.ChannelMin[settings.Accessory1], settings.ChannelNeutral[settings.Accessory1]); else cmd.Accessory1 = 0; if (settings.Accessory2 != MANUALCONTROLSETTINGS_ACCESSORY2_NONE) cmd.Accessory2 = scaleChannel(cmd.Channel[settings.Accessory2], settings.ChannelMax[settings.Accessory2], settings.ChannelMin[settings.Accessory2], settings.ChannelNeutral[settings.Accessory2]); else cmd.Accessory2 = 0; if (settings.Accessory3 != MANUALCONTROLSETTINGS_ACCESSORY3_NONE) cmd.Accessory3 = scaleChannel(cmd.Channel[settings.Accessory3], settings.ChannelMax[settings.Accessory3], settings.ChannelMin[settings.Accessory3], settings.ChannelNeutral[settings.Accessory3]); else cmd.Accessory3 = 0; // Update flight mode flightMode = scaleChannel(cmd.Channel[settings.FlightMode], settings.ChannelMax[settings.FlightMode], settings.ChannelMin[settings.FlightMode], settings.ChannelNeutral[settings.FlightMode]); if (flightMode < -FLIGHT_MODE_LIMIT) { // Position 1 for(int i = 0; i < 3; i++) { if(settings.Pos1StabilizationSettings[i] == MANUALCONTROLSETTINGS_POS1STABILIZATIONSETTINGS_NONE) cmd.StabilizationSettings[i] = MANUALCONTROLCOMMAND_STABILIZATIONSETTINGS_NONE; else if(settings.Pos1StabilizationSettings[i] == MANUALCONTROLSETTINGS_POS1STABILIZATIONSETTINGS_RATE) cmd.StabilizationSettings[i] = MANUALCONTROLCOMMAND_STABILIZATIONSETTINGS_RATE; else if(settings.Pos1StabilizationSettings[i] == MANUALCONTROLSETTINGS_POS1STABILIZATIONSETTINGS_ATTITUDE) cmd.StabilizationSettings[i] = MANUALCONTROLCOMMAND_STABILIZATIONSETTINGS_ATTITUDE; } if(settings.Pos1FlightMode == MANUALCONTROLSETTINGS_POS1FLIGHTMODE_MANUAL) cmd.FlightMode = MANUALCONTROLCOMMAND_FLIGHTMODE_MANUAL; else if(settings.Pos1FlightMode == MANUALCONTROLSETTINGS_POS1FLIGHTMODE_STABILIZED) cmd.FlightMode = MANUALCONTROLCOMMAND_FLIGHTMODE_STABILIZED; else if(settings.Pos1FlightMode == MANUALCONTROLSETTINGS_POS1FLIGHTMODE_AUTO) cmd.FlightMode = MANUALCONTROLCOMMAND_FLIGHTMODE_AUTO; } else if (flightMode > FLIGHT_MODE_LIMIT) { // Position 3 for(int i = 0; i < 3; i++) { if(settings.Pos3StabilizationSettings[i] == MANUALCONTROLSETTINGS_POS3STABILIZATIONSETTINGS_NONE) cmd.StabilizationSettings[i] = MANUALCONTROLCOMMAND_STABILIZATIONSETTINGS_NONE; else if(settings.Pos3StabilizationSettings[i] == MANUALCONTROLSETTINGS_POS3STABILIZATIONSETTINGS_RATE) cmd.StabilizationSettings[i] = MANUALCONTROLCOMMAND_STABILIZATIONSETTINGS_RATE; else if(settings.Pos3StabilizationSettings[i] == MANUALCONTROLSETTINGS_POS3STABILIZATIONSETTINGS_ATTITUDE) cmd.StabilizationSettings[i] = MANUALCONTROLCOMMAND_STABILIZATIONSETTINGS_ATTITUDE; } if(settings.Pos3FlightMode == MANUALCONTROLSETTINGS_POS3FLIGHTMODE_MANUAL) cmd.FlightMode = MANUALCONTROLCOMMAND_FLIGHTMODE_MANUAL; else if(settings.Pos3FlightMode == MANUALCONTROLSETTINGS_POS3FLIGHTMODE_STABILIZED) cmd.FlightMode = MANUALCONTROLCOMMAND_FLIGHTMODE_STABILIZED; else if(settings.Pos3FlightMode == MANUALCONTROLSETTINGS_POS3FLIGHTMODE_AUTO) cmd.FlightMode = MANUALCONTROLCOMMAND_FLIGHTMODE_AUTO; } else { // Position 2 for(int i = 0; i < 3; i++) { if(settings.Pos2StabilizationSettings[i] == MANUALCONTROLSETTINGS_POS2STABILIZATIONSETTINGS_NONE) cmd.StabilizationSettings[i] = MANUALCONTROLCOMMAND_STABILIZATIONSETTINGS_NONE; else if(settings.Pos2StabilizationSettings[i] == MANUALCONTROLSETTINGS_POS2STABILIZATIONSETTINGS_RATE) cmd.StabilizationSettings[i] = MANUALCONTROLCOMMAND_STABILIZATIONSETTINGS_RATE; else if(settings.Pos2StabilizationSettings[i] == MANUALCONTROLSETTINGS_POS2STABILIZATIONSETTINGS_ATTITUDE) cmd.StabilizationSettings[i] = MANUALCONTROLCOMMAND_STABILIZATIONSETTINGS_ATTITUDE; } if(settings.Pos2FlightMode == MANUALCONTROLSETTINGS_POS2FLIGHTMODE_MANUAL) cmd.FlightMode = MANUALCONTROLCOMMAND_FLIGHTMODE_MANUAL; else if(settings.Pos2FlightMode == MANUALCONTROLSETTINGS_POS2FLIGHTMODE_STABILIZED) cmd.FlightMode = MANUALCONTROLCOMMAND_FLIGHTMODE_STABILIZED; else if(settings.Pos2FlightMode == MANUALCONTROLSETTINGS_POS2FLIGHTMODE_AUTO) cmd.FlightMode = MANUALCONTROLCOMMAND_FLIGHTMODE_AUTO; } // Update the ManualControlCommand object ManualControlCommandSet(&cmd); // This seems silly to set then get, but the reason is if the GCS is // the control input, the set command will be blocked by the read only // setting and the get command will pull the right values from telemetry } else ManualControlCommandGet(&cmd); /* Under GCS control */ // Implement hysteresis loop on connection status // Must check both Max and Min in case they reversed if (!ManualControlCommandReadOnly(&cmd) && cmd.Channel[settings.Throttle] < settings.ChannelMax[settings.Throttle] - CONNECTION_OFFSET && cmd.Channel[settings.Throttle] < settings.ChannelMin[settings.Throttle] - CONNECTION_OFFSET) { if (disconnected_count++ > 10) { connection_state = DISCONNECTED; connected_count = 0; disconnected_count = 0; } else disconnected_count++; } else { if (connected_count++ > 10) { connection_state = CONNECTED; connected_count = 0; disconnected_count = 0; } else connected_count++; } if (connection_state == DISCONNECTED) { cmd.Connected = MANUALCONTROLCOMMAND_CONNECTED_FALSE; cmd.Throttle = -1; // Shut down engine with no control cmd.Roll = 0; cmd.Yaw = 0; cmd.Pitch = 0; //cmd.FlightMode = MANUALCONTROLCOMMAND_FLIGHTMODE_AUTO; // don't do until AUTO implemented and functioning AlarmsSet(SYSTEMALARMS_ALARM_MANUALCONTROL, SYSTEMALARMS_ALARM_WARNING); ManualControlCommandSet(&cmd); } else { cmd.Connected = MANUALCONTROLCOMMAND_CONNECTED_TRUE; AlarmsClear(SYSTEMALARMS_ALARM_MANUALCONTROL); ManualControlCommandSet(&cmd); } if((cmd.Throttle < 0) && !lowThrottleDetected) { lowThrottleDetected = 1; lowThrottleStart = lastSysTime; } else if (cmd.Throttle >= 0) lowThrottleDetected = 0; else if((cmd.Throttle < 0) && (timeDifferenceMs(lowThrottleStart, lastSysTime) > settings.ArmedTimeout) & (settings.ArmedTimeout != 0) ) { cmd.Armed = MANUALCONTROLCOMMAND_ARMED_FALSE; ManualControlCommandSet(&cmd); } /* Look for arm or disarm signal */ if ((cmd.Throttle <= 0.05) && (cmd.Roll <= -0.95)) { if (armedDisarmStart == 0) // store when started, deal with rollover armedDisarmStart = lastSysTime; else if (timeDifferenceMs(armedDisarmStart, lastSysTime) > ARMED_TIME_MS) cmd.Armed = MANUALCONTROLCOMMAND_ARMED_TRUE; } else if ((cmd.Throttle <= 0.05) && (cmd.Roll >= 0.95)) { if (armedDisarmStart == 0) armedDisarmStart = lastSysTime; else if (timeDifferenceMs(armedDisarmStart, lastSysTime) > ARMED_TIME_MS) cmd.Armed = MANUALCONTROLCOMMAND_ARMED_FALSE; } else { armedDisarmStart = 0; } // Depending on the mode update the Stabilization or Actuator objects if (cmd.FlightMode == MANUALCONTROLCOMMAND_FLIGHTMODE_MANUAL) { actuator.Roll = cmd.Roll; actuator.Pitch = cmd.Pitch; actuator.Yaw = cmd.Yaw; actuator.Throttle = cmd.Throttle; ActuatorDesiredSet(&actuator); } else if (cmd.FlightMode == MANUALCONTROLCOMMAND_FLIGHTMODE_STABILIZED) { attitude.Roll = cmd.Roll * stabSettings.RollMax; attitude.Pitch = cmd.Pitch * stabSettings.PitchMax; attitude.Yaw = fmod(cmd.Yaw * 180.0, 360); attitude.Throttle = (cmd.Throttle < 0) ? -1 : cmd.Throttle; AttitudeDesiredSet(&attitude); } if (cmd.Accessory3 < -.5) { //TODO: Make what happens here depend on GCS AHRSSettingsData attitudeSettings; AHRSSettingsGet(&attitudeSettings); // Hard coding a maximum bias of 15 for now... maybe mistake attitudeSettings.PitchBias = cmd.Accessory1 * 15; attitudeSettings.RollBias = cmd.Accessory2 * 15; AHRSSettingsSet(&attitudeSettings); } } } /** * Convert channel from servo pulse duration (microseconds) to scaled -1/+1 range. */ static float scaleChannel(int16_t value, int16_t max, int16_t min, int16_t neutral) { float valueScaled; // Scale if ((max > min && value >= neutral) || (min > max && value <= neutral)) { if (max != neutral) { valueScaled = (float)(value - neutral) / (float)(max - neutral); } else { valueScaled = 0; } } else { if (min != neutral) { valueScaled = (float)(value - neutral) / (float)(neutral - min); } else { valueScaled = 0; } } // Bound if (valueScaled > 1.0) { valueScaled = 1.0; } else if (valueScaled < -1.0) { valueScaled = -1.0; } return valueScaled; } static uint32_t timeDifferenceMs(portTickType start_time, portTickType end_time) { if(end_time > start_time) return (end_time - start_time) * portTICK_RATE_MS; return ((((portTICK_RATE_MS) -1) - start_time) + end_time) * portTICK_RATE_MS; } /** * @} * @} */