Edward's patch fixing nmtSlave compilation with LSS enabled.
#include <stdlib.h>
#include <unistd.h>
#include <sys/mman.h>
#include <native/task.h>
#include <native/timer.h>
#include <native/sem.h>
#include <native/mutex.h>
#include <native/cond.h>
#include <native/alarm.h>
#include "applicfg.h"
#include "can_driver.h"
#include "timer.h"
#define TIMERLOOP_TASK_CREATED 1
TimerCallback_t exitall;
RT_MUTEX condition_mutex;
RT_SEM CanFestival_mutex;
RT_SEM control_task;
RT_COND timer_set;
RT_TASK timerloop_task;
RTIME last_time_read;
RTIME last_occured_alarm;
RTIME last_timeout_set;
int stop_timer = 0;
/**
* Init Mutex, Semaphores and Condition variable
*/
void TimerInit(void)
{
int ret = 0;
char taskname[32];
// lock process in to RAM
mlockall(MCL_CURRENT | MCL_FUTURE);
snprintf(taskname, sizeof(taskname), "S1-%d", getpid());
rt_sem_create(&CanFestival_mutex, taskname, 1, S_FIFO);
snprintf(taskname, sizeof(taskname), "S2-%d", getpid());
rt_sem_create(&control_task, taskname, 0, S_FIFO);
snprintf(taskname, sizeof(taskname), "M1-%d", getpid());
rt_mutex_create(&condition_mutex, taskname);
snprintf(taskname, sizeof(taskname), "C1-%d", getpid());
rt_cond_create(&timer_set, taskname);
}
/**
* Stop Timer Task
* @param exitfunction
*/
void StopTimerLoop(TimerCallback_t exitfunction)
{
exitall = exitfunction;
stop_timer = 1;
rt_cond_signal(&timer_set);
}
void cleanup_all(void)
{
if (rt_task_join(&timerloop_task) != 0){
printf("Failed to join with Timerloop task\n");
}
rt_task_delete(&timerloop_task);
}
/**
* Clean all Semaphores, mutex, condition variable and main task
*/
void TimerCleanup(void)
{
rt_sem_delete(&CanFestival_mutex);
rt_mutex_delete(&condition_mutex);
rt_cond_delete(&timer_set);
rt_sem_delete(&control_task);
if (rt_task_join(&timerloop_task) != 0){
printf("Failed to join with Timerloop task\n");
}
rt_task_delete(&timerloop_task);
}
/**
* Take a semaphore
*/
void EnterMutex(void)
{
rt_sem_p(&CanFestival_mutex, TM_INFINITE);
}
/**
* Signaling a semaphore
*/
void LeaveMutex(void)
{
rt_sem_v(&CanFestival_mutex);
}
static TimerCallback_t init_callback;
/**
* Timer Task
*/
void timerloop_task_proc(void *arg)
{
int ret = 0;
getElapsedTime();
last_timeout_set = 0;
last_occured_alarm = last_time_read;
/* trigger first alarm */
SetAlarm(NULL, 0, init_callback, 0, 0);
RTIME current_time;
RTIME real_alarm;
do{
rt_mutex_acquire(&condition_mutex, TM_INFINITE);
if(last_timeout_set == TIMEVAL_MAX)
{
ret = rt_cond_wait(
&timer_set,
&condition_mutex,
TM_INFINITE
); /* Then sleep until next message*/
rt_mutex_release(&condition_mutex);
}else{
current_time = rt_timer_read();
real_alarm = last_time_read + last_timeout_set;
ret = rt_cond_wait( /* sleep until next deadline */
&timer_set,
&condition_mutex,
(real_alarm - current_time)); /* else alarm consider expired */
if(ret == -ETIMEDOUT){
last_occured_alarm = real_alarm;
rt_mutex_release(&condition_mutex);
EnterMutex();
TimeDispatch();
LeaveMutex();
}else{
rt_mutex_release(&condition_mutex);
}
}
}while ((ret == 0 || ret == -EINTR || ret == -ETIMEDOUT) && !stop_timer);
if(exitall){
EnterMutex();
exitall(NULL,0);
LeaveMutex();
}
}
/**
* Create the Timer Task
* @param _init_callback
*/
void StartTimerLoop(TimerCallback_t _init_callback)
{
int ret = 0;
stop_timer = 0;
init_callback = _init_callback;
char taskname[32];
snprintf(taskname, sizeof(taskname), "timerloop-%d", getpid());
/* create timerloop_task */
ret = rt_task_create(&timerloop_task, taskname, 0, 50, T_JOINABLE);
if (ret) {
printf("Failed to create timerloop_task, code %d\n",errno);
return;
}
/* start timerloop_task */
ret = rt_task_start(&timerloop_task,&timerloop_task_proc,NULL);
if (ret) {
printf("Failed to start timerloop_task, code %u\n",errno);
goto error;
}
return;
error:
cleanup_all();
}
/**
* Create the CAN Receiver Task
* @param fd0 CAN port
* @param *ReceiveLoop_task CAN receiver task
* @param *ReceiveLoop_task_proc CAN receiver function
*/
void CreateReceiveTask(CAN_PORT fd0, TASK_HANDLE *ReceiveLoop_task, void* ReceiveLoop_task_proc)
{
int ret;
static int id = 0;
char taskname[32];
snprintf(taskname, sizeof(taskname), "canloop%d-%d", id, getpid());
id++;
/* create ReceiveLoop_task */
ret = rt_task_create(ReceiveLoop_task,taskname,0,50,T_JOINABLE);
if (ret) {
printf("Failed to create ReceiveLoop_task number %d, code %d\n", id, errno);
return;
}
/* start ReceiveLoop_task */
ret = rt_task_start(ReceiveLoop_task, ReceiveLoop_task_proc,(void*)fd0);
if (ret) {
printf("Failed to start ReceiveLoop_task number %d, code %d\n", id, errno);
return;
}
rt_sem_v(&control_task);
}
/**
* Wait for the CAN Receiver Task end
* @param *ReceiveLoop_task CAN receiver thread
*/
void WaitReceiveTaskEnd(TASK_HANDLE *ReceiveLoop_task)
{
if (rt_task_join(ReceiveLoop_task) != 0){
printf("Failed to join with Receive task\n");
}
rt_task_delete(ReceiveLoop_task);
}
/**
* Set timer for the next wakeup
* @param value
*/
void setTimer(TIMEVAL value)
{
rt_mutex_acquire(&condition_mutex, TM_INFINITE);
last_timeout_set = value;
rt_mutex_release(&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_mutex_acquire(&condition_mutex, TM_INFINITE);
last_time_read = rt_timer_read();
res = last_time_read - last_occured_alarm;
rt_mutex_release(&condition_mutex);
return res;
}