temps_reel/software/raspberry/superviseur-robot/superviseur/src/functions.cpp

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#include "functions.h"
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char mode_start;
void write_in_queue(RT_QUEUE *, MessageToMon);
void f_server(void *arg) {
int err;
/* INIT */
RT_TASK_INFO info;
rt_task_inquire(NULL, &info);
printf("Init %s\n", info.name);
rt_sem_p(&sem_barrier, TM_INFINITE);
err = run_nodejs("/usr/local/bin/node", "/home/pi/Interface_Robot/server.js");
if (err < 0) {
printf("Failed to start nodejs: %s\n", strerror(-err));
exit(EXIT_FAILURE);
} else {
#ifdef _WITH_TRACE_
printf("%s: nodejs started\n", info.name);
#endif
open_server();
rt_sem_broadcast(&sem_serverOk);
}
}
void f_sendToMon(void * arg) {
int err;
MessageToMon msg;
/* INIT */
RT_TASK_INFO info;
rt_task_inquire(NULL, &info);
printf("Init %s\n", info.name);
rt_sem_p(&sem_barrier, TM_INFINITE);
#ifdef _WITH_TRACE_
printf("%s : waiting for sem_serverOk\n", info.name);
#endif
rt_sem_p(&sem_serverOk, TM_INFINITE);
while (1) {
#ifdef _WITH_TRACE_
printf("%s : waiting for a message in queue\n", info.name);
#endif
if (rt_queue_read(&q_messageToMon, &msg, sizeof (MessageToRobot), TM_INFINITE) >= 0) {
#ifdef _WITH_TRACE_
printf("%s : message {%s,%s} in queue\n", info.name, msg.header, msg.data);
#endif
send_message_to_monitor(msg.header, msg.data);
free_msgToMon_data(&msg);
rt_queue_free(&q_messageToMon, &msg);
} else {
printf("Error msg queue write: %s\n", strerror(-err));
}
}
}
void f_receiveFromMon(void *arg) {
MessageFromMon msg;
int err;
/* INIT */
RT_TASK_INFO info;
rt_task_inquire(NULL, &info);
printf("Init %s\n", info.name);
rt_sem_p(&sem_barrier, TM_INFINITE);
#ifdef _WITH_TRACE_
printf("%s : waiting for sem_serverOk\n", info.name);
#endif
rt_sem_p(&sem_serverOk, TM_INFINITE);
do {
#ifdef _WITH_TRACE_
printf("%s : waiting for a message from monitor\n", info.name);
#endif
err = receive_message_from_monitor(msg.header, msg.data);
#ifdef _WITH_TRACE_
printf("%s: msg {header:%s,data=%s} received from UI\n", info.name, msg.header, msg.data);
#endif
if (strcmp(msg.header, HEADER_MTS_COM_DMB) == 0) {
if (msg.data[0] == OPEN_COM_DMB) { // Open communication supervisor-robot
#ifdef _WITH_TRACE_
printf("%s: message open Xbee communication\n", info.name);
#endif
rt_sem_v(&sem_openComRobot);
}
} else if (strcmp(msg.header, HEADER_MTS_DMB_ORDER) == 0) {
if (msg.data[0] == DMB_START_WITHOUT_WD) { // Start robot
#ifdef _WITH_TRACE_
printf("%s: message start robot\n", info.name);
#endif
rt_sem_v(&sem_startRobot);
} else if ((msg.data[0] == DMB_GO_BACK)
|| (msg.data[0] == DMB_GO_FORWARD)
|| (msg.data[0] == DMB_GO_LEFT)
|| (msg.data[0] == DMB_GO_RIGHT)
|| (msg.data[0] == DMB_STOP_MOVE)) {
rt_mutex_acquire(&mutex_move, TM_INFINITE);
robotMove = msg.data[0];
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rt_mutex_release(&mutex_move);
#ifdef _WITH_TRACE_
printf("%s: message update movement with %c\n", info.name, move);
#endif
}
}
} while (err > 0);
}
void f_openComRobot(void * arg) {
int err;
/* INIT */
RT_TASK_INFO info;
rt_task_inquire(NULL, &info);
printf("Init %s\n", info.name);
rt_sem_p(&sem_barrier, TM_INFINITE);
while (1) {
#ifdef _WITH_TRACE_
printf("%s : Wait sem_openComRobot\n", info.name);
#endif
rt_sem_p(&sem_openComRobot, TM_INFINITE);
#ifdef _WITH_TRACE_
printf("%s : sem_openComRobot arrived => open communication robot\n", info.name);
#endif
err = open_communication_robot();
if (err == 0) {
#ifdef _WITH_TRACE_
printf("%s : the communication is opened\n", info.name);
#endif
MessageToMon msg;
set_msgToMon_header(&msg, HEADER_STM_ACK);
write_in_queue(&q_messageToMon, msg);
} else {
MessageToMon msg;
set_msgToMon_header(&msg, HEADER_STM_NO_ACK);
write_in_queue(&q_messageToMon, msg);
}
}
}
void f_startRobot(void * arg) {
int err;
/* INIT */
RT_TASK_INFO info;
rt_task_inquire(NULL, &info);
printf("Init %s\n", info.name);
rt_sem_p(&sem_barrier, TM_INFINITE);
while (1) {
#ifdef _WITH_TRACE_
printf("%s : Wait sem_startRobot\n", info.name);
#endif
rt_sem_p(&sem_startRobot, TM_INFINITE);
#ifdef _WITH_TRACE_
printf("%s : sem_startRobot arrived => Start robot\n", info.name);
#endif
err = send_command_to_robot(DMB_START_WITHOUT_WD);
if (err == 0) {
#ifdef _WITH_TRACE_
printf("%s : the robot is started\n", info.name);
#endif
rt_mutex_acquire(&mutex_robotStarted, TM_INFINITE);
robotStarted = 1;
rt_mutex_release(&mutex_robotStarted);
MessageToMon msg;
set_msgToMon_header(&msg, HEADER_STM_ACK);
write_in_queue(&q_messageToMon, msg);
} else {
MessageToMon msg;
set_msgToMon_header(&msg, HEADER_STM_NO_ACK);
write_in_queue(&q_messageToMon, msg);
}
}
}
void f_move(void *arg) {
/* INIT */
RT_TASK_INFO info;
rt_task_inquire(NULL, &info);
printf("Init %s\n", info.name);
rt_sem_p(&sem_barrier, TM_INFINITE);
/* PERIODIC START */
#ifdef _WITH_TRACE_
printf("%s: start period\n", info.name);
#endif
rt_task_set_periodic(NULL, TM_NOW, 100000000);
while (1) {
#ifdef _WITH_TRACE_
printf("%s: Wait period \n", info.name);
#endif
rt_task_wait_period(NULL);
#ifdef _WITH_TRACE_
printf("%s: Periodic activation\n", info.name);
printf("%s: move equals %c\n", info.name, move);
#endif
rt_mutex_acquire(&mutex_robotStarted, TM_INFINITE);
if (robotStarted) {
rt_mutex_acquire(&mutex_move, TM_INFINITE);
send_command_to_robot(robotMove);
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rt_mutex_release(&mutex_move);
#ifdef _WITH_TRACE_
printf("%s: the movement %c was sent\n", info.name, move);
#endif
}
rt_mutex_release(&mutex_robotStarted);
}
}
void write_in_queue(RT_QUEUE *queue, MessageToMon msg) {
void *buff;
buff = rt_queue_alloc(&q_messageToMon, sizeof (MessageToMon));
memcpy(buff, &msg, sizeof (MessageToMon));
rt_queue_send(&q_messageToMon, buff, sizeof (MessageToMon), Q_NORMAL);
}