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drivers/timers_rtai/timers_rtai.c
author fbeaulier
Tue, 16 Aug 2011 14:15:52 +0200
changeset 663 70fc3603e36f
parent 468 787a54d068d6
child 801 32d146b64a35
permissions -rwxr-xr-x
timers_unix.c : remove sigint and sigterm catch
sdo : Allow multiple servers
The sdo transfer struct is not anymore referenced by server's node id but by
client or server number in the OD. Node id is not relevant in SDO transfert. 
#include <stdlib.h>
#include <unistd.h>
#include <sys/mman.h>

#include <sys/poll.h>
#include <rtai_lxrt.h>

#include <rtai_sem.h>
#include <pthread.h>
#include <errno.h>

#include "applicfg.h"
#include "can_driver.h"
#include "timer.h"

#define TIMERLOOP_TASK_CREATED        1

TimerCallback_t exitall;

SEM *CanFestival_mutex;
SEM *condition_mutex;
SEM *control_task; 
CND *timer_set;

// realtime task structures
RT_TASK *timerloop_task;
RT_TASK *Main_Task;

// linux threads id's
static pthread_t timerloop_thr;
 
RTIME last_time_read;
RTIME last_occured_alarm;
RTIME last_timeout_set;

int stop_timer = 0;

void TimerInit(void)
{
    /* Init Main Task */
    if (!(Main_Task = rt_thread_init(rt_get_name(0), 0, 0, SCHED_FIFO, 1))) {
            printf("CANNOT INIT MAIN TASK\n");
            exit(1);
    }
  	
  	/* Init Mutex */
	CanFestival_mutex = rt_sem_init(rt_get_name(0), 1);
	condition_mutex = rt_typed_sem_init(rt_get_name(0), 1, RES_SEM);
	timer_set = rt_cond_init(rt_get_name(0));
	control_task = rt_sem_init(rt_get_name(0), 0);
	/* Set timer mode and start timer */
	rt_set_oneshot_mode();
	start_rt_timer(0);
}

/**
 * Stop Timer Task
 * @param exitfunction
 */
void StopTimerLoop(TimerCallback_t exitfunction)
{
	exitall = exitfunction;
	stop_timer = 1;
	rt_cond_signal(timer_set);
}

/**
 * Clean all Semaphores and main task
 */
void TimerCleanup(void)
{
	/* Stop timer */
	stop_rt_timer();

	/* Delete all mutex and the main task */
	rt_sem_delete(CanFestival_mutex);
	rt_sem_delete(condition_mutex);
	rt_sem_delete(timer_set);
	rt_sem_delete(control_task);
	rt_thread_delete(Main_Task);
}

/**
 * Take a semaphore
 */
void EnterMutex(void)
{
	rt_sem_wait(CanFestival_mutex);
}

/**
 * Signaling a semaphore
 */
void LeaveMutex(void)
{
	rt_sem_signal(CanFestival_mutex);
}

static TimerCallback_t init_callback;

/**
 * Timer Task
 */
void timerloop_task_proc(void *arg)
{
	int ret = 0;
  	// lock process in to RAM
  	mlockall(MCL_CURRENT | MCL_FUTURE);
	timerloop_task = rt_thread_init(rt_get_name(0), 0, 0, SCHED_FIFO, 1);
	rt_make_hard_real_time();

	getElapsedTime();
	last_timeout_set = 0;
	last_occured_alarm = last_time_read;

	/* trigger first alarm */
	SetAlarm(NULL, 0, init_callback, 0, 0);
	
	do{
		RTIME real_alarm;
		rt_sem_wait(condition_mutex);
		if(last_timeout_set == TIMEVAL_MAX)
		{
			ret = rt_cond_wait(
				timer_set,
				condition_mutex);		/* Then sleep until next message*/
 
			rt_sem_signal(condition_mutex);
		}else{
			real_alarm = last_time_read + last_timeout_set;
			ret = rt_cond_wait_until(
				timer_set,
				condition_mutex,
				real_alarm); /* Else, sleep until next deadline */
			if(ret == SEM_TIMOUT){
				last_occured_alarm = real_alarm;
				rt_sem_signal(condition_mutex);
				EnterMutex();
				TimeDispatch();
				LeaveMutex();
			}else{ 
				rt_sem_signal(condition_mutex);
			}
		}
	}while ( ret != SEM_ERR && !stop_timer);
	if(exitall){
		EnterMutex();
		exitall(NULL,0);
		LeaveMutex();
	}
	rt_make_soft_real_time();
	rt_thread_delete(timerloop_task);
}

/**
 * Create the Timer Task
 * @param _init_callback
 */
void StartTimerLoop(TimerCallback_t _init_callback)
{
	stop_timer = 0;	
	init_callback = _init_callback;
	
	/* start timerloop_task ( do nothing and get blocked ) */
	timerloop_thr = rt_thread_create(timerloop_task_proc, NULL, 0);
}

/* We assume that ReceiveLoop_task_proc is always the same */
static void (*rtai_ReceiveLoop_task_proc)(CAN_PORT) = NULL;

/**
 * Enter in realtime and start the CAN receiver loop
 * @param port
 */
void rtai_canReceiveLoop(CAN_PORT port)
{
	RT_TASK *current_task;
	mlockall(MCL_CURRENT | MCL_FUTURE);
	current_task = rt_thread_init(rt_get_name(0), 0, 0, SCHED_FIFO, 1);
	rt_make_hard_real_time();

	rt_sem_signal(control_task);

	/* Call original receive loop with port struct as a param */
	rtai_ReceiveLoop_task_proc(port);

	rt_make_soft_real_time();
	rt_thread_delete(current_task);
}

/**
 * Create the CAN Receiver Task
 * @param fd0 CAN port
 * @param *ReceiveLoop_thread CAN receiver thread
 * @param *ReceiveLoop_task_proc CAN receiver task
 */
void CreateReceiveTask(CAN_PORT fd0, TASK_HANDLE *ReceiveLoop_thread, void* ReceiveLoop_task_proc)
{	
	rtai_ReceiveLoop_task_proc = ReceiveLoop_task_proc;
	*ReceiveLoop_thread = rt_thread_create(rtai_canReceiveLoop, (void*)fd0, 0); 
	rt_sem_wait(control_task);
}

/**
 * Wait for the CAN Receiver Task end
 * @param *ReceiveLoop_thread CAN receiver thread
 */
void WaitReceiveTaskEnd(TASK_HANDLE *ReceiveLoop_thread)
{
	rt_thread_join(*ReceiveLoop_thread);
}

/**
 * Set timer for the next wakeup
 * @param value
 */
void setTimer(TIMEVAL value)
{
	rt_sem_wait(condition_mutex);
	last_timeout_set = value;
	rt_sem_signal(condition_mutex);
	rt_cond_signal(timer_set);
}

/**
 * Get the elapsed time since the last alarm
 * @return a time in nanoseconds
 */
TIMEVAL getElapsedTime(void)
{
	RTIME res;
	rt_sem_wait(condition_mutex);
	last_time_read = rt_get_time();
	res = last_time_read - last_occured_alarm;
	rt_sem_signal(condition_mutex);
	return res;
}
canfestival