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- /*
- * Copyright (C) 2018 dimercur
- *
- * 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, see <http://www.gnu.org/licenses/>.
- */
-
- #include "tasks.h"
- #include <stdexcept>
-
- // Déclaration des priorités des taches
- #define PRIORITY_TSERVER 30
- #define PRIORITY_TOPENCOMROBOT 20
- #define PRIORITY_TMOVE 20
- #define PRIORITY_TSENDTOMON 22
- #define PRIORITY_TRECEIVEFROMMON 25
- #define PRIORITY_TSTARTROBOT 20
- #define PRIORITY_TCAMERA 21
- #define PRIORITY_TBATTERY 19
- #define PRIORITY_TWATCHDOG 31
-
-
-
- /*
- * Some remarks:
- * 1- This program is mostly a template. It shows you how to create tasks, semaphore
- * message queues, mutex ... and how to use them
- *
- * 2- semDumber is, as name say, useless. Its goal is only to show you how to use semaphore
- *
- * 3- Data flow is probably not optimal
- *
- * 4- Take into account that ComRobot::Write will block your task when serial buffer is full,
- * time for internal buffer to flush
- *
- * 5- Same behavior existe for ComMonitor::Write !
- *
- * 6- When you want to write something in terminal, use cout and terminate with endl and flush
- *
- * 7- Good luck !
- */
-
- /**
- * @brief Initialisation des structures de l'application (tâches, mutex,
- * semaphore, etc.)
- */
- void Tasks::Init() {
- int status;
- int err;
-
- /**************************************************************************************/
- /* Mutex creation */
- /**************************************************************************************/
- if (err = rt_mutex_create(&mutex_monitor, NULL)) {
- cerr << "Error mutex create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_mutex_create(&mutex_robot, NULL)) {
- cerr << "Error mutex create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_mutex_create(&mutex_robotStarted, NULL)) {
- cerr << "Error mutex create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_mutex_create(&mutex_move, NULL)) {
- cerr << "Error mutex create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- cout << "Mutexes created successfully" << endl << flush;
-
- /**************************************************************************************/
- /* Semaphors creation */
- /**************************************************************************************/
- if (err = rt_sem_create(&sem_barrier, NULL, 0, S_FIFO)) {
- cerr << "Error semaphore create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_sem_create(&sem_openComRobot, NULL, 0, S_FIFO)) {
- cerr << "Error semaphore create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_sem_create(&sem_serverOk, NULL, 0, S_FIFO)) {
- cerr << "Error semaphore create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_sem_create(&sem_startRobot, NULL, 0, S_FIFO)) {
- cerr << "Error semaphore create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_sem_create(&sem_restartServer, NULL, 0, S_FIFO)) {
- cerr << "Error semaphore create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_sem_create(&sem_robotStopped, NULL, 0, S_FIFO)) {
- cerr << "Error semaphore create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- cout << "Semaphores created successfully" << endl << flush;
-
- /**************************************************************************************/
- /* Tasks creation */
- /**************************************************************************************/
- if (err = rt_task_create(&th_server, "th_server", 0, PRIORITY_TSERVER, 0)) {
- cerr << "Error task create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_create(&th_sendToMon, "th_sendToMon", 0, PRIORITY_TSENDTOMON, 0)) {
- cerr << "Error task create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_create(&th_receiveFromMon, "th_receiveFromMon", 0, PRIORITY_TRECEIVEFROMMON, 0)) {
- cerr << "Error task create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_create(&th_openComRobot, "th_openComRobot", 0, PRIORITY_TOPENCOMROBOT, 0)) {
- cerr << "Error task create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_create(&th_startRobot, "th_startRobot", 0, PRIORITY_TSTARTROBOT, 0)) {
- cerr << "Error task create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_create(&th_move, "th_move", 0, PRIORITY_TMOVE, 0)) {
- cerr << "Error task create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_create(&th_getBattery, "th_getBattery", 0, PRIORITY_TBATTERY, 0)) {
- cerr << "Error task create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_create(&th_watchDog, "th_watchDog", 0, PRIORITY_TWATCHDOG, 0)) {
- cerr << "Error task create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- cout << "Tasks created successfully" << endl << flush;
-
- /**************************************************************************************/
- /* Message queues creation */
- /**************************************************************************************/
- if ((err = rt_queue_create(&q_messageToMon, "q_messageToMon", sizeof (Message*)*50, Q_UNLIMITED, Q_FIFO)) < 0) {
- cerr << "Error msg queue create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if ((err = rt_queue_create(&q_messageComRobot, "q_messageComRobot", sizeof (Message*)*50, Q_UNLIMITED, Q_FIFO)) < 0) {
- cerr << "Error messageComRobot queue create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
-
- if ((err = rt_queue_create(&q_messageControlRobot, "q_messageControlRobot", sizeof (Message*)*50, Q_UNLIMITED, Q_FIFO)) < 0) {
- cerr << "Error messageControlRobot queue create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
-
- if ((err = rt_queue_create(&q_messageControlCam, "q_messageControlCam", sizeof (Message*)*50, Q_UNLIMITED, Q_FIFO)) < 0) {
- cerr << "Error messageControlCam queue create: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- cout << "Queues created successfully" << endl << flush;
- }
-
- /**
- * @brief Démarrage des tâches
- */
- void Tasks::Run() {
- rt_task_set_priority(NULL, T_LOPRIO);
- int err;
-
- if (err = rt_task_start(&th_server, (void(*)(void*)) & Tasks::ServerTask, this)) {
- cerr << "Error task start: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_start(&th_sendToMon, (void(*)(void*)) & Tasks::SendToMonTask, this)) {
- cerr << "Error task start: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_start(&th_receiveFromMon, (void(*)(void*)) & Tasks::ReceiveFromMonTask, this)) {
- cerr << "Error task start: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_start(&th_openComRobot, (void(*)(void*)) & Tasks::OpenComRobot, this)) {
- cerr << "Error task start: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_start(&th_startRobot, (void(*)(void*)) & Tasks::StartRobotTask, this)) {
- cerr << "Error task start: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_start(&th_move, (void(*)(void*)) & Tasks::MoveTask, this)) {
- cerr << "Error task start: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_start(&th_getBattery, (void(*)(void*)) & Tasks::ReadBattery, this)) {
- cerr << "Error task start: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- if (err = rt_task_start(&th_watchDog, (void(*)(void*)) & Tasks::WatchDog, this)) {
- cerr << "Error task start: " << strerror(-err) << endl << flush;
- exit(EXIT_FAILURE);
- }
- cout << "Tasks launched" << endl << flush;
- }
-
- /**
- * @brief Arrêt des tâches
- */
- void Tasks::Stop() {
- monitor.Close();
- robot.Close();
- }
-
- /**
- */
- void Tasks::Join() {
- cout << "Tasks synchronized" << endl << flush;
- rt_sem_broadcast(&sem_barrier);
- pause();
- }
-
- /**
- * @brief Thread handling server communication with the monitor.
- */
- void Tasks::ServerTask(void *arg) {
- int status;
-
- cout << "Start " << __PRETTY_FUNCTION__ << endl << flush;
- // Synchronization barrier (waiting that all tasks are started)
- rt_sem_p(&sem_barrier, TM_INFINITE);
-
- /**************************************************************************************/
- /* The task server starts here */
- /**************************************************************************************/
- while(1){
- rt_mutex_acquire(&mutex_monitor, TM_INFINITE);
- status = monitor.Open(SERVER_PORT);
- rt_mutex_release(&mutex_monitor);
-
- cout << "Open server on port " << (SERVER_PORT) << " (" << status << ")" << endl;
-
- if (status < 0) throw std::runtime_error {
- "Unable to start server on port " + std::to_string(SERVER_PORT)
- };
- monitor.AcceptClient(); // Wait the monitor client
- cout << "Rock'n'Roll baby, client accepted!" << endl << flush;
- rt_sem_broadcast(&sem_serverOk);
- rt_sem_p(&sem_restartServer, TM_INFINITE);
- rt_mutex_acquire(&mutex_monitor, TM_INFINITE);
- monitor.Close();
- rt_mutex_release(&mutex_monitor);
- }
-
- }
-
- /**
- * @brief Thread sending data to monitor.
- */
- void Tasks::SendToMonTask(void* arg) {
- Message *msg;
-
- cout << "Start " << __PRETTY_FUNCTION__ << endl << flush;
- // Synchronization barrier (waiting that all tasks are starting)
- rt_sem_p(&sem_barrier, TM_INFINITE);
-
- /**************************************************************************************/
- /* The task sendToMon starts here */
- /**************************************************************************************/
-
- rt_sem_p(&sem_serverOk, TM_INFINITE);
-
- while (1) {
- cout << "wait msg to send" << endl << flush;
- msg = ReadInQueue(&q_messageToMon);
- cout << "Send msg to mon: " << msg->ToString() << endl << flush;
- rt_mutex_acquire(&mutex_monitor, TM_INFINITE);
- monitor.Write(msg); // The message is deleted with the Write
- rt_mutex_release(&mutex_monitor);
- }
- }
-
- /**
- * @brief Thread receiving data from monitor.
- */
- void Tasks::ReceiveFromMonTask(void *arg) {
- Message *msgRcv;
-
- cout << "Start " << __PRETTY_FUNCTION__ << endl << flush;
- // Synchronization barrier (waiting that all tasks are starting)
- rt_sem_p(&sem_barrier, TM_INFINITE);
-
- /**************************************************************************************/
- /* The task receiveFromMon starts here */
- /**************************************************************************************/
- while(1){
- rt_sem_p(&sem_serverOk, TM_INFINITE);
- cout << "Received message from monitor activated" << endl << flush;
-
- while (1) {
- msgRcv = monitor.Read();
- cout << "Rcv <= " << msgRcv->ToString() << endl << flush;
-
- if (msgRcv->CompareID(MESSAGE_MONITOR_LOST)) {
- delete(msgRcv);
- WriteInQueue(&q_messageControlRobot, new Message(MESSAGE_ROBOT_RESET));
- WriteInQueue(&q_messageComRobot, new Message(MESSAGE_ROBOT_COM_CLOSE));
- WriteInQueue(&q_messageControlCam, new Message(MESSAGE_CAM_CLOSE));
- rt_sem_v(&sem_restartServer); // A VERIFIER
- break;
-
- } else if (msgRcv->CompareID(MESSAGE_ROBOT_COM_OPEN) || msgRcv->CompareID(MESSAGE_ROBOT_COM_CLOSE)) {
- WriteInQueue(&q_messageComRobot, msgRcv);
- //rt_sem_v(&sem_openComRobot);
- } else if (msgRcv->CompareID(MESSAGE_ROBOT_START_WITHOUT_WD) || msgRcv->CompareID(MESSAGE_ROBOT_START_WITH_WD)) {
- WriteInQueue(&q_messageControlRobot, msgRcv);
- //rt_sem_v(&sem_startRobot);
- }
- else if (msgRcv->CompareID(MESSAGE_ROBOT_GO_FORWARD) ||
- msgRcv->CompareID(MESSAGE_ROBOT_GO_BACKWARD) ||
- msgRcv->CompareID(MESSAGE_ROBOT_GO_LEFT) ||
- msgRcv->CompareID(MESSAGE_ROBOT_GO_RIGHT) ||
- msgRcv->CompareID(MESSAGE_ROBOT_STOP)) {
- rt_mutex_acquire(&mutex_move, TM_INFINITE);
- move = msgRcv->GetID();
- rt_mutex_release(&mutex_move);
- }
-
- else if (msgRcv->CompareID(MESSAGE_CAM_OPEN) ||
- msgRcv->CompareID(MESSAGE_CAM_CLOSE) ||
- msgRcv->CompareID(MESSAGE_CAM_ASK_ARENA) ||
- msgRcv->CompareID(MESSAGE_CAM_ARENA_CONFIRM) ||
- msgRcv->CompareID(MESSAGE_CAM_ARENA_INFIRM) ||
- msgRcv->CompareID(MESSAGE_CAM_POSITION_COMPUTE_START) ||
- msgRcv->CompareID(MESSAGE_CAM_POSITION_COMPUTE_STOP))
- {
- WriteInQueue(&q_messageControlCam, msgRcv);
- }
- delete(msgRcv); // mus be deleted manually, no consumer
- }
-
- }
- }
-
- /**
- * @brief Thread opening communication with the robot.
- */
- void Tasks::OpenComRobot(void *arg) {
- int status;
- int err;
-
- cout << "Start " << __PRETTY_FUNCTION__ << endl << flush;
- // Synchronization barrier (waiting that all tasks are starting)
- rt_sem_p(&sem_barrier, TM_INFINITE);
-
- /**************************************************************************************/
- /* The task openComRobot starts here */
- /**************************************************************************************/
- while (1) {
- Message * msg;
- msg=ReadInQueue(&q_messageComRobot);
- if(msg->CompareID(MESSAGE_ROBOT_COM_OPEN)){
- cout << "Open serial com (";
- rt_mutex_acquire(&mutex_robot, TM_INFINITE);
- status = robot.Open();
- rt_mutex_release(&mutex_robot);
- cout << status;
- cout << ")" << endl << flush;
-
- Message * msgSend;
- if (status < 0) {
- msgSend = new Message(MESSAGE_ANSWER_NACK);
- } else {
- msgSend = new Message(MESSAGE_ANSWER_ACK);
- }
- WriteInQueue(&q_messageToMon, msgSend); // msgSend will be deleted by sendToMon
- }else if(msg->CompareID(MESSAGE_ROBOT_COM_CLOSE)){
- rt_sem_p(&sem_robotStopped, TM_INFINITE);
- cout << "Close serial com (";
- rt_mutex_acquire(&mutex_robot, TM_INFINITE);
- status = robot.Close();
- rt_mutex_release(&mutex_robot);
- cout << status;
- cout << ")" << endl << flush;
-
- Message * msgSend;
- if (status < 0) {
- msgSend = new Message(MESSAGE_ANSWER_NACK);
- } else {
- msgSend = new Message(MESSAGE_ANSWER_ACK);
- }
- WriteInQueue(&q_messageToMon, msgSend); // msgSend will be deleted by sendToMon
- }
- //delete(msg);
- //rt_sem_p(&sem_openComRobot, TM_INFINITE);
-
- }
- }
-
- /**
- * @brief Thread starting the communication with the robot.
- */
- void Tasks::StartRobotTask(void *arg) {
- cout << "Start " << __PRETTY_FUNCTION__ << endl << flush;
- // Synchronization barrier (waiting that all tasks are starting)
- rt_sem_p(&sem_barrier, TM_INFINITE);
-
- /**************************************************************************************/
- /* The task startRobot starts here */
- /**************************************************************************************/
- while (1) {
-
- Message * tmp;
- Message * msgSend;
- tmp = ReadInQueue(&q_messageControlRobot);
- if (tmp -> CompareID(MESSAGE_ROBOT_START_WITHOUT_WD)){
- cout << "Start robot without watchdog (";
- rt_mutex_acquire(&mutex_robot, TM_INFINITE);
- msgSend = robot.Write(robot.StartWithoutWD());
- rt_mutex_release(&mutex_robot);
- cout << msgSend->GetID();
- cout << ")" << endl;
- cout << "Movement answer: " << msgSend->ToString() << endl << flush;
- WriteInQueue(&q_messageToMon, msgSend); // msgSend will be deleted by sendToMon
- if (msgSend->GetID() == MESSAGE_ANSWER_ACK) {
- rt_mutex_acquire(&mutex_robotStarted, TM_INFINITE);
- robotStarted = 1;
- rt_mutex_release(&mutex_robotStarted);
- }
- } else if (tmp -> CompareID(MESSAGE_ROBOT_START_WITH_WD)){
- cout << "Start robot with watchdog (";
- rt_mutex_acquire(&mutex_robot, TM_INFINITE);
- msgSend = robot.Write(robot.StartWithWD());
- rt_task_set_periodic(&th_watchDog,TM_NOW,1000000000);
- rt_mutex_release(&mutex_robot);
- cout << msgSend->GetID();
- cout << ")" << endl;
- cout << "Movement answer: " << msgSend->ToString() << endl << flush;
- WriteInQueue(&q_messageToMon, msgSend); // msgSend will be deleted by sendToMon
- if (msgSend->GetID() == MESSAGE_ANSWER_ACK) {
- rt_mutex_acquire(&mutex_robotStarted, TM_INFINITE);
- robotStarted = 1;
- rt_mutex_release(&mutex_robotStarted);
- } else {
- rt_task_set_periodic(&th_watchDog,TM_NOW,0);
- }
-
- } else if (tmp -> CompareID(MESSAGE_ROBOT_RESET)){
- rt_task_set_periodic(&th_watchDog,TM_NOW,0);
- cout << "Stopping Robot (";
- rt_mutex_acquire(&mutex_robotStarted, TM_INFINITE);
- robotStarted = 0;
- rt_mutex_release(&mutex_robotStarted);
- rt_task_sleep(100000000);
- rt_mutex_acquire(&mutex_robot, TM_INFINITE);
- msgSend = robot.Write(robot.Reset());
- rt_mutex_release(&mutex_robot);
- rt_mutex_acquire(&mutex_move, TM_INFINITE);
- move = MESSAGE_ROBOT_STOP;
- rt_mutex_release(&mutex_move);
- cout << msgSend->GetID();
- cout << ")" << endl;
- cout << "Movement answer: " << msgSend->ToString() << endl << flush;
- WriteInQueue(&q_messageToMon, msgSend); // msgSend will be deleted by sendToMon
-
- rt_sem_v(&sem_robotStopped);
- }
-
-
- }
- }
-
-
- void Tasks::WatchDog(void *arg) {
- cout << "Start " << __PRETTY_FUNCTION__ << endl << flush;
- // Synchronization barrier (waiting that all tasks are starting)
- rt_sem_p(&sem_barrier, TM_INFINITE);
- rt_task_set_periodic(NULL, TM_NOW, 0);
- while (1) {
- cout << "Realoading" << endl << flush;
- rt_task_wait_period(NULL);
- Message * msgSend;
- rt_mutex_acquire(&mutex_robot, TM_INFINITE);
- msgSend = robot.ReloadWD();
- robot.Write(msgSend);
- rt_mutex_release(&mutex_robot);
- }
- }
-
- /**
- * @brief Thread handling control of the robot.
- */
- void Tasks::MoveTask(void *arg) {
- int rs;
- int previousMove = MESSAGE_ROBOT_GO_FORWARD;
- int cpMove;
- int nb_error = 0;
-
- cout << "Start " << __PRETTY_FUNCTION__ << endl << flush;
- // Synchronization barrier (waiting that all tasks are starting)
- rt_sem_p(&sem_barrier, TM_INFINITE);
-
- /**************************************************************************************/
- /* The task starts here */
- /**************************************************************************************/
- rt_task_set_periodic(NULL, TM_NOW, 100000000);
-
- Message * msgSend;
- while (1) {
- rt_task_wait_period(NULL);
- rt_mutex_acquire(&mutex_robotStarted, TM_INFINITE);
- rs = robotStarted;
- rt_mutex_release(&mutex_robotStarted);
- if (rs == 1) {
- cout << "Periodic movement update";
- rt_mutex_acquire(&mutex_move, TM_INFINITE);
- cpMove = move;
- rt_mutex_release(&mutex_move);
- if (cpMove != previousMove || cpMove != MESSAGE_ROBOT_STOP) {
- cout << " move: " << cpMove;
-
- rt_mutex_acquire(&mutex_robot, TM_INFINITE);
- msgSend = robot.Write(new Message((MessageID)cpMove));
- rt_mutex_release(&mutex_robot);
- if (msgSend->CompareID(MESSAGE_ANSWER_ACK)) {
- nb_error = 0;
- previousMove = cpMove;
- } else {
- nb_error++;
- }
- if (nb_error > 2) {
- cout << "ERREUR ROBOT DETECTED";
- WriteInQueue(&q_messageToMon, new Message(MESSAGE_ANSWER_COM_ERROR));
- rt_mutex_acquire(&mutex_move, TM_INFINITE);
- move = MESSAGE_ROBOT_STOP;
- rt_mutex_release(&mutex_move);
- rt_mutex_acquire(&mutex_robotStarted, TM_INFINITE);
- robotStarted = 0;
- rt_mutex_release(&mutex_robotStarted);
- rt_task_set_periodic(&th_watchDog,TM_NOW,0);
- }
- }
- cout << endl << flush;
- }
- }
- }
-
- /**
- * Write a message in a given queue
- * @param queue Queue identifier
- * @param msg Message to be stored
- */
- void Tasks::WriteInQueue(RT_QUEUE *queue, Message *msg) {
- int err;
- if ((err = rt_queue_write(queue, (const void *) &msg, sizeof ((const void *) &msg), Q_NORMAL)) < 0) {
- cerr << "Write in queue failed: " << strerror(-err) << endl << flush;
- throw std::runtime_error{"Error in write in queue"};
- }
- }
-
- /**
- * Read a message from a given queue, block if empty
- * @param queue Queue identifier
- * @return Message read
- */
- Message *Tasks::ReadInQueue(RT_QUEUE *queue) {
- int err;
- Message *msg;
-
- if ((err = rt_queue_read(queue, &msg, sizeof ((void*) &msg), TM_INFINITE)) < 0) {
- cout << "Read in queue failed: " << strerror(-err) << endl << flush;
- throw std::runtime_error{"Error in read in queue"};
- }/** else {
- cout << "@msg :" << msg << endl << flush;
- } /**/
-
- return msg;
- }
-
- void Tasks::ReadBattery(void *arg){
- cout << "Start " << __PRETTY_FUNCTION__ << endl << flush;
- // Synchronization barrier (waiting that all tasks are starting)
- rt_sem_p(&sem_barrier, TM_INFINITE);
-
- /**************************************************************************************/
- /* The task starts here */
- /**************************************************************************************/
- rt_task_set_periodic(NULL, TM_NOW, 500000000);
-
- int rs;
-
- while (1) {
- rt_task_wait_period(NULL);
- rt_mutex_acquire(&mutex_robotStarted, TM_INFINITE);
- rs = robotStarted;
- rt_mutex_release(&mutex_robotStarted);
- if (rs == 1) {
- cout << "Periodic battery get lvl" << endl << flush;
- rt_mutex_acquire(&mutex_robot, TM_INFINITE);
- Message *msg = robot.Write( robot.GetBattery() ) ;
- rt_mutex_release(&mutex_robot);
- if (msg->CompareID((MessageID)MESSAGE_ROBOT_BATTERY_LEVEL)) {
- rt_mutex_acquire(&mutex_monitor, TM_INFINITE);
- monitor.Write(msg);
- rt_mutex_release(&mutex_monitor);
- }
- }
- }
- }
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