/*
* 並行実行されるタスク
*/
void task(intptr_t exinf)
{
volatile ulong_t i;
int_t n = 0;
int_t tskno = (int_t) exinf;
const char *graph[] = { "|", " +", " *" };
char c;
while (true) {
syslog(LOG_NOTICE, "task%d is running (%03d). %s",
tskno, ++n, graph[tskno-1]);
for (i = 0; i < task_loop; i++);
c = message[tskno-1];
message[tskno-1] = 0;
switch (c) {
case 'e':
syslog(LOG_INFO, "#%d#ext_tsk()", tskno);
SVC_PERROR(ext_tsk());
assert(0);
case 's':
syslog(LOG_INFO, "#%d#slp_tsk()", tskno);
SVC_PERROR(slp_tsk());
break;
case 'S':
syslog(LOG_INFO, "#%d#tslp_tsk(10000000)", tskno);
SVC_PERROR(tslp_tsk(10000000));
break;
case 'd':
syslog(LOG_INFO, "#%d#dly_tsk(10000000)", tskno);
SVC_PERROR(dly_tsk(10000000));
break;
case 'y':
syslog(LOG_INFO, "#%d#dis_ter()", tskno);
SVC_PERROR(dis_ter());
break;
case 'Y':
syslog(LOG_INFO, "#%d#ena_ter()", tskno);
SVC_PERROR(ena_ter());
break;
#ifdef CPUEXC1
case 'z':
syslog(LOG_NOTICE, "#%d#raise CPU exception", tskno);
RAISE_CPU_EXCEPTION;
break;
case 'Z':
SVC_PERROR(loc_cpu());
syslog(LOG_NOTICE, "#%d#raise CPU exception", tskno);
RAISE_CPU_EXCEPTION;
SVC_PERROR(unl_cpu());
break;
#endif /* CPUEXC1 */
default:
break;
}
}
}
/*
* 並行実行されるタスク
*/
void task(intptr_t exinf)
{
volatile ulong_t i;
int_t n = 0;
int_t tskno = (int_t) exinf;
const char *graph[] = { "| ", " + ", " *" };
char c;
#ifdef TOPPERS_SUPPORT_OVRHDR
T_ROVR pk_rovr;
#endif /* TOPPERS_SUPPORT_OVRHDR */
while (true) {
#ifdef TOPPERS_SUPPORT_OVRHDR
SVC_PERROR(ref_ovr(TSK_SELF, &pk_rovr));
if ((pk_rovr.ovrstat & TOVR_STA) != 0) {
syslog(LOG_NOTICE, "task%d is running (%03d). %s [%ld]",
tskno, ++n, graph[tskno-1], pk_rovr.leftotm);
}
else {
syslog(LOG_NOTICE, "task%d is running (%03d). %s",
tskno, ++n, graph[tskno-1]);
}
#else /* TOPPERS_SUPPORT_OVRHDR */
syslog(LOG_NOTICE, "task%d is running (%03d). %s",
tskno, ++n, graph[tskno-1]);
#endif /* TOPPERS_SUPPORT_OVRHDR */
for (i = 0; i < task_loop; i++);
c = message[tskno-1];
message[tskno-1] = 0;
switch (c) {
case 'e':
syslog(LOG_INFO, "#%d#ext_tsk()", tskno);
SVC_PERROR(ext_tsk());
assert(0);
case 's':
syslog(LOG_INFO, "#%d#slp_tsk()", tskno);
SVC_PERROR(slp_tsk());
break;
case 'S':
syslog(LOG_INFO, "#%d#tslp_tsk(10000000)", tskno);
SVC_PERROR(tslp_tsk(10000000));
break;
case 'd':
syslog(LOG_INFO, "#%d#dly_tsk(10000000)", tskno);
SVC_PERROR(dly_tsk(10000000));
break;
case 'y':
syslog(LOG_INFO, "#%d#dis_ter()", tskno);
SVC_PERROR(dis_ter());
break;
case 'Y':
syslog(LOG_INFO, "#%d#ena_ter()", tskno);
SVC_PERROR(ena_ter());
break;
#ifdef CPUEXC1
case 'z':
syslog(LOG_NOTICE, "#%d#raise CPU exception", tskno);
RAISE_CPU_EXCEPTION;
break;
case 'Z':
SVC_PERROR(loc_cpu());
syslog(LOG_NOTICE, "#%d#raise CPU exception", tskno);
RAISE_CPU_EXCEPTION;
SVC_PERROR(unl_cpu());
break;
#endif /* CPUEXC1 */
default:
break;
}
}
}
void
task3(intptr_t exinf)
{
ER_UINT ercd;
T_RTSK rtsk;
switch (++task3_count) {
case 1:
check_point(10);
ercd = tloc_mtx(MTX1, 3 * TEST_TIME_CP);
check_ercd(ercd, E_OK);
check_point(11);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(0);
case 2:
check_point(16);
ercd = loc_mtx(MTX1);
check_ercd(ercd, E_OK);
check_point(17);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(0);
case 3:
check_point(29);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(0);
case 4:
check_point(33);
ercd = ref_tsk(TASK3, &rtsk);
check_ercd(ercd, E_OK);
check_assert(rtsk.tskstat == TTS_RUN);
check_assert(rtsk.actcnt == 0U);
ercd = ext_tsk();
check_ercd(ercd, E_OK);
check_point(0);
case 5:
check_point(47);
ercd = dis_ter();
check_ercd(ercd, E_OK);
ercd = slp_tsk();
check_ercd(ercd, E_RASTER);
check_point(50);
ercd = ref_tsk(TASK3, &rtsk);
check_ercd(ercd, E_OK);
check_assert(rtsk.tskstat == TTS_RUN);
check_assert(rtsk.raster == true);
check_assert(rtsk.dister == true);
check_point(51);
ercd = slp_tsk();
check_ercd(ercd, E_RASTER);
ercd = ena_ter();
check_ercd(ercd, E_OK);
check_point(0);
case 6:
check_point(54);
ercd = dis_ter();
check_ercd(ercd, E_OK);
ercd = sus_tsk(TSK_SELF);
check_ercd(ercd, E_OK);
check_point(57);
ercd = ref_tsk(TASK3, &rtsk);
check_ercd(ercd, E_OK);
check_assert(rtsk.tskstat == TTS_RUN);
check_assert(rtsk.raster == true);
check_assert(rtsk.dister == true);
ercd = sus_tsk(TSK_SELF);
check_ercd(ercd, E_RASTER);
ercd = ena_ter();
check_ercd(ercd, E_OK);
check_point(0);
default:
check_point(0);
}
check_point(0);
}
