/*
* 計測ルーチン
*/
void
perf_eval(uint_t n)
{
uint_t i, j;
init_hist(1, MAX_TIME, histarea1);
sus_tsk(LOGTASK); /* システムログタスクの動作を止める */
for (i = 0; i < NO_MEASURE; i++) {
ini_flg(FLG1);
for (j = 0; j < n; j++) {
act_tsk(task_list[j]);
}
chg_pri(TSK_SELF, MAIN_PRIORITY_LOW);
/* タスクが待ち状態に入るのを待つ */
chg_pri(TSK_SELF, TPRI_INI);
begin_measure(1);
set_flg(FLG1, 0x01U);
end_measure(1);
chg_pri(TSK_SELF, MAIN_PRIORITY_LOW);
/* タスクが終了するのを待つ */
chg_pri(TSK_SELF, TPRI_INI);
}
rsm_tsk(LOGTASK); /* システムログタスクの動作を再開する */
syslog_1(LOG_NOTICE, "Execution times of set_flg"
" when %d tasks are released from waiting.", n);
print_hist(1);
logtask_flush(0U);
}
/*
* performance evaluation routine
*/
void
perf_eval(uint_t n)
{
uint_t i, j;
init_hist(1, MAX_TIME, histarea1);
for (i = 0; i < NO_MEASURE; i++) {
ini_flg(FLG1);
for (j = 0; j < n; j++) {
act_tsk(task_list[j]);
}
chg_pri(TSK_SELF, MAIN_PRIORITY_LOW);
/* let the task in the waiting queue of the event flag */
chg_pri(TSK_SELF, TPRI_INI);
begin_measure(1);
set_flg(FLG1, 0x01U);
end_measure(1);
chg_pri(TSK_SELF, MAIN_PRIORITY_LOW);
/* wait the task exits */
chg_pri(TSK_SELF, TPRI_INI);
}
syslog_1(LOG_NOTICE, "Execution times of set_flg"
" when %d tasks are released from waiting.", n);
print_hist(1);
syslog_flush();
}
void
task1(intptr_t exinf)
{
ER_UINT ercd;
test_start(__FILE__);
check_point(1);
ercd = act_tsk(TASK2);
check_ercd(ercd, E_OK);
ercd = act_tsk(TASK4);
check_ercd(ercd, E_OK);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(4);
ercd = snd_mbf(MBF1, string2, 25);
check_ercd(ercd, E_OK);
check_point(6);
check_assert(strncmp(buf1, string2, 25) == 0);
ercd = act_tsk(TASK3);
check_ercd(ercd, E_OK);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(13);
ercd = snd_mbf(MBF1, string2, 10);
check_ercd(ercd, E_OK);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 10);
check_assert(strncmp(buf1, string2, 10) == 0);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(24);
ercd = chg_pri(TASK3, LOW_PRIORITY);
check_ercd(ercd, E_OK);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(34);
ercd = chg_pri(TASK2, HIGH_PRIORITY);
check_ercd(ercd, E_OK);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(0);
}
void Preempt_task()
{
ER status;
T_RTSK pk_rtsk;
puts( "PREEMPT - ref_tsk validation" );
status = ref_tsk( &pk_rtsk, PREEMPT_TASK_ID );
fatal_directive_status( status, E_OK , "ref_tsk of PREEMPT");
rtems_test_assert( pk_rtsk.tskpri == PREEMPT_PRIORITY );
rtems_test_assert( pk_rtsk.itskpri == PREEMPT_PRIORITY );
rtems_test_assert( pk_rtsk.task == Preempt_task );
rtems_test_assert( pk_rtsk.stksz >= RTEMS_MINIMUM_STACK_SIZE );
rtems_test_assert( pk_rtsk.tskstat == (TTS_RUN | TTS_RDY) );
if ( Preempt_task_Count == 0 ) {
Preempt_task_Count ++;
puts( "PREEMPT - chg_pri increment priority ");
status = chg_pri( PREEMPT_TASK_ID, (PREEMPT_PRIORITY+1) );
directive_failed( status, "chg_pri" );
puts( "PREEMPT - ext_tsk - going to DORMANT state" );
ext_tsk( );
rtems_test_assert( 0 );
} else {
Preempt_task_Count ++;
puts( "PREEMPT - exd_tsk - Exit and Delete task" );
exd_tsk( );
rtems_test_assert( 0 );
}
}
static int __ui_chg_pri(struct pt_regs *regs)
{
ID tskid = __xn_reg_arg1(regs);
PRI tskpri = __xn_reg_arg2(regs);
return chg_pri(tskid, tskpri);
}
/**
* Guarantee the QoS of Bluetooth communication by raising the priority of BT_TSK periodically
*/
void bluetooth_qos_task(intptr_t unused) {
while(1) {
chg_pri(BT_TSK, TPRI_BLUETOOTH_HIGH);
dly_tsk(BT_HIGH_PRI_TIME_SLICE);
chg_pri(BT_TSK, TPRI_BLUETOOTH_LOW);
dly_tsk(BT_LOW_PRI_TIME_SLICE);
// tslp_tsk(500);
// syslog(LOG_ERROR, "UART2.LSR: 0x%x", UART2.LSR);
// syslog(LOG_ERROR, "UART2.IER: 0x%x", UART2.IER);
// syslog(LOG_ERROR, "UART2.IIR: 0x%x", UART2.IIR_FCR);
// syslog(LOG_ERROR, "UART2.MSR: 0x%x", UART2.MSR);
// syslog(LOG_ERROR, "rx_size: %d", rx_size);
}
}
void
task1(intptr_t exinf)
{
ER_UINT ercd;
test_start(__FILE__);
check_point(1);
ercd = act_tsk(TASK2);
check_ercd(ercd, E_OK);
check_point(6);
ercd = chg_pri(TASK3, HIGH_PRIORITY);
check_ercd(ercd, E_NOSPT);
check_point(7);
ercd = wup_tsk(TASK3);
check_ercd(ercd, E_NOSPT);
check_point(8);
ercd = can_wup(TASK3);
check_ercd(ercd, E_NOSPT);
check_point(9);
ercd = rel_wai(TASK3);
check_ercd(ercd, E_NOSPT);
check_point(10);
ercd = sus_tsk(TASK3);
check_ercd(ercd, E_NOSPT);
check_point(11);
ercd = rsm_tsk(TASK3);
check_ercd(ercd, E_NOSPT);
check_point(12);
ercd = sta_alm(ALM1, 10);
check_ercd(ercd, E_OK);
check_point(13);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(27);
ercd = act_tsk(TASK3);
check_ercd(ercd, E_OK);
check_point(28);
ercd = act_tsk(TASK4);
check_ercd(ercd, E_OK);
check_point(29);
ercd = act_tsk(TASK2);
check_ercd(ercd, E_OK);
check_finish(34);
check_point(0);
}
/*
* モニタタスク
*/
void monitor(VP_INT exinf)
{
INT no, point;
B c;
/* モニタで使用するデータの初期化 */
mon_portid = mon_default_portid = (ID)exinf;
mon_datatype = DATA_BYTE;
mon_logmask = LOG_NOTICE;
mon_lowmask = LOG_EMERG;
current_tskid = MONTASK;
mon_infile = stdin;
if(mon_portid != CONSOLE_PORTID)
syscall(serial_opn_por(mon_portid));
#ifdef NEED_MONITOR
if(!need_monitor())
ext_tsk();
#endif /* NEED_MONITOR */
_setup_stdio(&mon_portid);
#ifdef MONITOR_DELAY
dly_tsk(MONITOR_DELAY);
#endif /* MONITOR_DELAY */
#if defined(LOGTASK) && (LOGTASK_PRIORITY <= MONITOR_PRIORITY)
chg_pri(LOGTASK, MONITOR_PRIORITY+1);
dly_tsk(50);
printf("change log task priority %d to %d !\n", LOGTASK_PRIORITY, MONITOR_PRIORITY+1);
#endif
printf(banner,
(TMONITOR_PRVER >> 12) & 0x0f,
(TMONITOR_PRVER >> 4) & 0xff,
TMONITOR_PRVER & 0x0f);
vmsk_log(LOG_UPTO(mon_logmask), LOG_UPTO(mon_lowmask));
syscall(serial_ctl_por(mon_portid, (IOCTL_CRLF | IOCTL_FCSND | IOCTL_FCRCV)));
/* モニタのメインのデスパッチ */
do{
prompt(current_tskid);
c = monitor_getstring(mon_command, &point);
no = dispatch_command(mon_command, &point);
putecho('\n');
if(no >= 0)
mon_dispatch[no].func(&mon_command[point]);
fflush(NULL);
}while(c != KEY_EXT);
printf("exit monitor !!\n");
}
void
task2(intptr_t exinf)
{
ID tskid;
ER_UINT ercd;
uint_t load;
check_point(7);
ercd = get_lod(TPRI_SELF, &load);
check_ercd(ercd, E_OK);
check_assert(load == 3U);
ercd = get_nth(TPRI_SELF, 0U, &tskid);
check_ercd(ercd, E_OK);
check_assert(tskid == TASK2);
check_point(8);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(17);
ercd = get_lod(TPRI_SELF, &load);
check_ercd(ercd, E_OK);
check_assert(load == 1U);
check_point(18);
ercd = chg_pri(TASK5, MID_PRIORITY);
check_ercd(ercd, E_OK);
ercd = get_lod(TPRI_SELF, &load);
check_ercd(ercd, E_OK);
check_assert(load == 2U);
ercd = rot_rdq(TPRI_SELF);
check_ercd(ercd, E_OK);
check_point(0);
}
void
task3(intptr_t exinf)
{
ER_UINT ercd;
check_point(7);
ercd = snd_mbf(MBF1, string2, 26);
check_ercd(ercd, E_OK);
check_point(12);
ercd = wup_tsk(TASK1);
check_ercd(ercd, E_OK);
check_point(14);
ercd = snd_mbf(MBF1, string3, 10);
check_ercd(ercd, E_OK);
check_point(18);
ercd = snd_mbf(MBF1, string2, 26);
check_ercd(ercd, E_OK);
check_point(20);
check_assert(strncmp(buf1, string2, 26) == 0);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 26);
check_assert(strncmp(buf1, string1, 26) == 0);
ercd = chg_pri(TASK2, TPRI_INI);
check_ercd(ercd, E_OK);
check_point(21);
ercd = snd_mbf(MBF1, string1, 26);
check_ercd(ercd, E_OK);
check_point(0);
}
void
task3(intptr_t exinf)
{
ER_UINT ercd;
check_point(16);
ercd = wup_tsk(TASK1);
check_ercd(ercd, E_OK);
check_point(17);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(26);
ercd = wup_tsk(TASK1);
check_ercd(ercd, E_OK);
check_point(27);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(51);
ercd = chg_pri(TASK1, HIGH_PRIORITY);
check_ercd(ercd, E_OK);
ercd = wup_tsk(TASK1);
check_ercd(ercd, E_OK);
check_point(65);
ercd = rot_rdq(MID_PRIORITY);
check_ercd(ercd, E_OK);
check_point(68);
ercd = ext_tsk();
check_point(0);
}
// params: int pid, int new_prio
void
chg_prio(int argc, char *argv[])
{
int pid, prio, res;
if (argc < 3)
{
print("Need two arguments (pid and new priority)\n");
exit(-1);
}
pid = stoi(get_arg(argv, 1));
prio = stoi(get_arg(argv, 2));
res = chg_pri(pid, prio);
if (res < 0)
{
print("An error occured! (code:");
printi(res);
print(")\n");
}
exit(0);
}
/*
* タスクコマンド
*/
static UW
task_command(B *command)
{
INT point=0;
B cmd=-1;
UW w;
int no, count;
BOOL result=TRUE;
ER ercd = E_OK;
if(current_tskid == MONTASK){ /* モニタ自体の制御はできない */
printf(" Can't control the monitor!!\n");
return 0;
}
count = sizeof(mon_task) / sizeof(struct SUBCOMMAND_TABLE);
if(command[point]){
for(no = 0 ; no < count ; no++){
if(compare_word(mon_task[no].subcommand, command, 0)){
skip_word(command, &point);
cmd = mon_task[no].type;
break;
}
}
}
switch(cmd){
case MONTASK_ACTIVE: /* 起動要求(act_tsk) */
ercd = act_tsk(current_tskid);
printf(" execute act_tsk(%d)", current_tskid);
break;
case MONTASK_TERM: /* 強制終了(ter_tsk) */
ercd = ter_tsk(current_tskid);
printf(" execute ter_tsk(%d)", current_tskid);
break;
case MONTASK_SUSPEND: /* 待ち要求(sus_tsk) */
ercd = sus_tsk(current_tskid);
printf(" execute sus_tsk(%d)", current_tskid);
break;
case MONTASK_RESUME: /* 待ち再開(rsm_tsk) */
ercd = rsm_tsk(current_tskid);
printf(" execute rsm_tsk(%d)", current_tskid);
break;
case MONTASK_RELEASE: /* 待ち解除(rel_wai) */
ercd = rel_wai(current_tskid);
printf(" execute rel_wai(%d)", current_tskid);
break;
case MONTASK_WAKEUP: /* タスク起床(wup_tsk) */
ercd = wup_tsk(current_tskid);
printf(" execute wup_tsk(%d)", current_tskid);
break;
case MONTASK_PRIORITY: /* 優先度変更(chg_pri) */
if(get_value(command, &point, &w, DEC_BASE)){
ercd = chg_pri(current_tskid, w);
printf(" execute chg_pri(%d, %d)", current_tskid, w);
}
else
result = FALSE;
break;
default:
result = FALSE;
break;
}
if(result){
printf(" :: result = %s !\n", (VP_INT)itron_strerror(ercd));
tslp_tsk(100); /* スイッチング */
}
return 0;
}
/*
* メインタスク
*/
void main_task(intptr_t exinf)
{
char c;
ID tskid = TASK1;
int_t tskno = 1;
ER_UINT ercd;
PRI tskpri;
#ifndef TASK_LOOP
volatile ulong_t i;
SYSTIM stime1, stime2;
#endif /* TASK_LOOP */
HRTCNT hrtcnt1, hrtcnt2;
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_INFO), LOG_UPTO(LOG_EMERG)));
syslog(LOG_NOTICE, "Sample program starts (exinf = %d).", (int_t) exinf);
/*
* シリアルポートの初期化
*
* システムログタスクと同じシリアルポートを使う場合など,シリアル
* ポートがオープン済みの場合にはここでE_OBJエラーになるが,支障は
* ない.
*/
ercd = serial_opn_por(TASK_PORTID);
if (ercd < 0 && MERCD(ercd) != E_OBJ) {
syslog(LOG_ERROR, "%s (%d) reported by `serial_opn_por'.",
itron_strerror(ercd), SERCD(ercd));
}
SVC_PERROR(serial_ctl_por(TASK_PORTID,
(IOCTL_CRLF | IOCTL_FCSND | IOCTL_FCRCV)));
/*
* ループ回数の設定
*
* 並行実行されるタスク内での空ループの回数(task_loop)は,空ルー
* プの実行時間が約0.4秒になるように設定する.この設定のために,
* LOOP_REF回の空ループの実行時間を,その前後でget_timを呼ぶことで
* 測定し,その測定結果から空ループの実行時間が0.4秒になるループ回
* 数を求め,task_loopに設定する.
*
* LOOP_REFは,デフォルトでは1,000,000に設定しているが,想定したよ
* り遅いプロセッサでは,サンプルプログラムの実行開始に時間がかか
* りすぎるという問題を生じる.逆に想定したより速いプロセッサでは,
* LOOP_REF回の空ループの実行時間が短くなり,task_loopに設定する値
* の誤差が大きくなるという問題がある.
*
* そこで,そのようなターゲットでは,target_test.hで,LOOP_REFを適
* 切な値に定義するのが望ましい.
*
* また,task_loopの値を固定したい場合には,その値をTASK_LOOPにマ
* クロ定義する.TASK_LOOPがマクロ定義されている場合,上記の測定を
* 行わずに,TASK_LOOPに定義された値を空ループの回数とする.
*
* ターゲットによっては,空ループの実行時間の1回目の測定で,本来よ
* りも長めになるものがある.このようなターゲットでは,MEASURE_TWICE
* をマクロ定義することで,1回目の測定結果を捨てて,2回目の測定結果
* を使う.
*/
#ifdef TASK_LOOP
task_loop = TASK_LOOP;
#else /* TASK_LOOP */
#ifdef MEASURE_TWICE
task_loop = LOOP_REF;
SVC_PERROR(get_tim(&stime1));
for (i = 0; i < task_loop; i++);
SVC_PERROR(get_tim(&stime2));
#endif /* MEASURE_TWICE */
task_loop = LOOP_REF;
SVC_PERROR(get_tim(&stime1));
for (i = 0; i < task_loop; i++);
SVC_PERROR(get_tim(&stime2));
task_loop = LOOP_REF * 400LU / (ulong_t)(stime2 - stime1) * 1000LU;
#endif /* TASK_LOOP */
/*
* タスクの起動
*/
SVC_PERROR(act_tsk(TASK1));
SVC_PERROR(act_tsk(TASK2));
SVC_PERROR(act_tsk(TASK3));
/*
* メインループ
*/
do {
SVC_PERROR(serial_rea_dat(TASK_PORTID, &c, 1));
switch (c) {
case 'e':
case 's':
case 'S':
case 'd':
case 'y':
case 'Y':
case 'z':
case 'Z':
message[tskno-1] = c;
break;
case '1':
tskno = 1;
tskid = TASK1;
break;
case '2':
tskno = 2;
tskid = TASK2;
break;
case '3':
tskno = 3;
tskid = TASK3;
break;
case 'a':
syslog(LOG_INFO, "#act_tsk(%d)", tskno);
SVC_PERROR(act_tsk(tskid));
break;
case 'A':
syslog(LOG_INFO, "#can_act(%d)", tskno);
SVC_PERROR(ercd = can_act(tskid));
if (ercd >= 0) {
syslog(LOG_NOTICE, "can_act(%d) returns %d", tskno, ercd);
}
break;
case 't':
syslog(LOG_INFO, "#ter_tsk(%d)", tskno);
SVC_PERROR(ter_tsk(tskid));
break;
case '>':
syslog(LOG_INFO, "#chg_pri(%d, HIGH_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, HIGH_PRIORITY));
break;
case '=':
syslog(LOG_INFO, "#chg_pri(%d, MID_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, MID_PRIORITY));
break;
case '<':
syslog(LOG_INFO, "#chg_pri(%d, LOW_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, LOW_PRIORITY));
break;
case 'G':
syslog(LOG_INFO, "#get_pri(%d, &tskpri)", tskno);
SVC_PERROR(ercd = get_pri(tskid, &tskpri));
if (ercd >= 0) {
syslog(LOG_NOTICE, "priority of task %d is %d", tskno, tskpri);
}
break;
case 'w':
syslog(LOG_INFO, "#wup_tsk(%d)", tskno);
SVC_PERROR(wup_tsk(tskid));
break;
case 'W':
syslog(LOG_INFO, "#can_wup(%d)", tskno);
SVC_PERROR(ercd = can_wup(tskid));
if (ercd >= 0) {
syslog(LOG_NOTICE, "can_wup(%d) returns %d", tskno, ercd);
}
break;
case 'l':
syslog(LOG_INFO, "#rel_wai(%d)", tskno);
SVC_PERROR(rel_wai(tskid));
break;
case 'u':
syslog(LOG_INFO, "#sus_tsk(%d)", tskno);
SVC_PERROR(sus_tsk(tskid));
break;
case 'm':
syslog(LOG_INFO, "#rsm_tsk(%d)", tskno);
SVC_PERROR(rsm_tsk(tskid));
break;
case 'x':
syslog(LOG_INFO, "#ras_ter(%d)", tskno);
SVC_PERROR(ras_ter(tskid));
break;
case 'r':
syslog(LOG_INFO, "#rot_rdq(three priorities)");
SVC_PERROR(rot_rdq(HIGH_PRIORITY));
SVC_PERROR(rot_rdq(MID_PRIORITY));
SVC_PERROR(rot_rdq(LOW_PRIORITY));
break;
case 'c':
syslog(LOG_INFO, "#sta_cyc(1)");
SVC_PERROR(sta_cyc(CYCHDR1));
break;
case 'C':
syslog(LOG_INFO, "#stp_cyc(1)");
SVC_PERROR(stp_cyc(CYCHDR1));
break;
case 'b':
syslog(LOG_INFO, "#sta_alm(1, 5000000)");
SVC_PERROR(sta_alm(ALMHDR1, 5000000));
break;
case 'B':
syslog(LOG_INFO, "#stp_alm(1)");
SVC_PERROR(stp_alm(ALMHDR1));
break;
case 'V':
hrtcnt1 = fch_hrt();
hrtcnt2 = fch_hrt();
syslog(LOG_NOTICE, "hrtcnt1 = %tu, hrtcnt2 = %tu",
hrtcnt1, hrtcnt2);
break;
case 'o':
#ifdef TOPPERS_SUPPORT_OVRHDR
syslog(LOG_INFO, "#sta_ovr(%d, 2000000)", tskno);
SVC_PERROR(sta_ovr(tskid, 2000000));
#else /* TOPPERS_SUPPORT_OVRHDR */
syslog(LOG_NOTICE, "sta_ovr is not supported.");
#endif /* TOPPERS_SUPPORT_OVRHDR */
break;
case 'O':
#ifdef TOPPERS_SUPPORT_OVRHDR
syslog(LOG_INFO, "#stp_ovr(%d)", tskno);
SVC_PERROR(stp_ovr(tskid));
#else /* TOPPERS_SUPPORT_OVRHDR */
syslog(LOG_NOTICE, "stp_ovr is not supported.");
#endif /* TOPPERS_SUPPORT_OVRHDR */
break;
case 'v':
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_INFO),
LOG_UPTO(LOG_EMERG)));
break;
case 'q':
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_NOTICE),
LOG_UPTO(LOG_EMERG)));
break;
#ifdef BIT_KERNEL
case ' ':
SVC_PERROR(loc_cpu());
{
extern ER bit_kernel(void);
SVC_PERROR(ercd = bit_kernel());
if (ercd >= 0) {
syslog(LOG_NOTICE, "bit_kernel passed.");
}
}
SVC_PERROR(unl_cpu());
break;
#endif /* BIT_KERNEL */
default:
break;
}
} while (c != '\003' && c != 'Q');
syslog(LOG_NOTICE, "Sample program ends.");
SVC_PERROR(ext_ker());
assert(0);
}
void
task1(intptr_t exinf)
{
ER_UINT ercd;
PRI tskpri;
test_start(__FILE__);
set_bit_func(bit_mutex);
check_point(1);
ercd = dis_dsp();
check_ercd(ercd, E_OK);
check_point(2);
ercd = act_tsk(TASK2);
check_ercd(ercd, E_OK);
ercd = act_tsk(TASK4);
check_ercd(ercd, E_OK);
check_point(3);
ercd = ploc_mtx(MTX2);
check_ercd(ercd, E_OK);
ercd = get_pri(TSK_SELF, &tskpri);
check_ercd(ercd, E_OK);
check_assert(tskpri == HIGH_PRIORITY);
check_point(4);
ercd = ena_dsp();
check_ercd(ercd, E_OK);
check_point(5);
ercd = unl_mtx(MTX2);
check_ercd(ercd, E_OK);
check_point(8);
ercd = get_pri(TSK_SELF, &tskpri);
check_ercd(ercd, E_OK);
check_assert(tskpri == MID_PRIORITY);
check_point(9);
ercd = dis_dsp();
check_ercd(ercd, E_OK);
check_point(10);
ercd = rot_rdq(MID_PRIORITY);
check_ercd(ercd, E_OK);
check_point(11);
ercd = act_tsk(TASK3);
check_ercd(ercd, E_OK);
check_point(12);
ercd = ploc_mtx(MTX1);
check_ercd(ercd, E_OK);
ercd = get_pri(TSK_SELF, &tskpri);
check_ercd(ercd, E_OK);
check_assert(tskpri == MID_PRIORITY);
check_point(13);
ercd = ena_dsp();
check_ercd(ercd, E_OK);
check_point(15);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(18);
ercd = wup_tsk(TASK2);
check_ercd(ercd, E_OK);
check_point(19);
ercd = dis_dsp();
check_ercd(ercd, E_OK);
check_point(20);
ercd = rot_rdq(MID_PRIORITY);
check_ercd(ercd, E_OK);
check_point(21);
ercd = wup_tsk(TASK3);
check_ercd(ercd, E_OK);
check_point(22);
ercd = unl_mtx(MTX1);
check_ercd(ercd, E_OK);
ercd = get_pri(TSK_SELF, &tskpri);
check_ercd(ercd, E_OK);
check_assert(tskpri == MID_PRIORITY);
check_point(23);
ercd = ena_dsp();
check_ercd(ercd, E_OK);
check_point(25);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(28);
ercd = dis_dsp();
check_ercd(ercd, E_OK);
check_point(29);
ercd = wup_tsk(TASK4);
check_ercd(ercd, E_OK);
check_point(30);
ercd = ploc_mtx(MTX2);
check_ercd(ercd, E_OK);
check_point(31);
ercd = rot_rdq(HIGH_PRIORITY);
check_ercd(ercd, E_OK);
check_point(32);
ercd = act_tsk(TASK5);
check_ercd(ercd, E_OK);
check_point(33);
ercd = ploc_mtx(MTX1);
check_ercd(ercd, E_OK);
ercd = get_pri(TSK_SELF, &tskpri);
check_ercd(ercd, E_OK);
check_assert(tskpri == HIGH_PRIORITY);
check_point(34);
ercd = ena_dsp();
check_ercd(ercd, E_OK);
check_point(36);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(39);
ercd = dis_dsp();
check_ercd(ercd, E_OK);
check_point(40);
ercd = wup_tsk(TASK4);
check_ercd(ercd, E_OK);
check_point(41);
ercd = rot_rdq(HIGH_PRIORITY);
check_ercd(ercd, E_OK);
check_point(42);
ercd = wup_tsk(TASK5);
check_ercd(ercd, E_OK);
check_point(43);
ercd = unl_mtx(MTX1);
check_ercd(ercd, E_OK);
ercd = get_pri(TSK_SELF, &tskpri);
check_ercd(ercd, E_OK);
check_assert(tskpri == HIGH_PRIORITY);
check_point(44);
ercd = ena_dsp();
check_ercd(ercd, E_OK);
check_point(46);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(49);
ercd = wup_tsk(TASK2);
check_ercd(ercd, E_OK);
ercd = wup_tsk(TASK3);
check_ercd(ercd, E_OK);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(52);
ercd = unl_mtx(MTX2);
check_ercd(ercd, E_OK);
ercd = get_pri(TASK2, &tskpri);
check_ercd(ercd, E_OK);
check_assert(tskpri == HIGH_PRIORITY);
check_point(53);
ercd = loc_mtx(MTX3);
check_ercd(ercd, E_OK);
ercd = chg_pri(TASK1, TPRI_INI);
check_ercd(ercd, E_OK);
check_point(54);
ercd = loc_mtx(MTX1);
check_ercd(ercd, E_OK);
check_point(55);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(58);
ercd = unl_mtx(MTX1);
check_ercd(ercd, E_OK);
ercd = get_pri(TASK2, &tskpri);
check_ercd(ercd, E_OK);
check_assert(tskpri == HIGH_PRIORITY);
check_point(59);
ercd = unl_mtx(MTX3);
check_ercd(ercd, E_OK);
check_point(64);
ercd = loc_mtx(MTX1);
check_ercd(ercd, E_OK);
check_finish(69);
check_point(0);
}
/*
* メインタスク
*/
void main_task(intptr_t exinf)
{
char_t c;
ER_UINT ercd;
PRI tskpri;
ID prcid = exinf;
ID tskid = sample_tskid[(exinf - 1) * 3 ];
int_t tskno = (exinf-1) * 3 + 1;
ID cycid = sample_cycid[(int_t)exinf-1];
ID almid = sample_almid[(int_t)exinf-1];
bool_t update_select = true;
uint_t tme_select = exinf;
uint_t prc_select = exinf;
uint32_t server_req;
#ifndef TASK_LOOP
volatile ulong_t i;
SYSTIM stime1, stime2;
#endif /* TASK_LOOP */
#ifdef G_SYSLOG
uint_t e;
#endif /* G_SYSLOG */
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_INFO), LOG_UPTO(LOG_EMERG)));
syslog(LOG_NOTICE, "Sample program starts (exinf = %d).", (int_t) exinf);
/*
* シリアルポートの初期化
*
* システムログタスクと同じシリアルポートを使う場合など,シリアル
* ポートがオープン済みの場合にはここでE_OBJエラーになるが,支障は
* ない.
*/
ercd = serial_opn_por(((int_t)serial_port[exinf-1]));
if (ercd < 0 && MERCD(ercd) != E_OBJ) {
syslog(LOG_ERROR, "%s (%d) reported by `serial_opn_por'.",
itron_strerror(ercd), SERCD(ercd));
}
SVC_PERROR(serial_ctl_por(serial_port[exinf-1],
(IOCTL_CRLF | IOCTL_FCSND | IOCTL_FCRCV)));
/*
* ループ回数の設定
*
* TASK_LOOPがマクロ定義されている場合,測定せずに,TASK_LOOPに定
* 義された値を,タスク内でのループ回数とする.
*
* MEASURE_TWICEがマクロ定義されている場合,1回目の測定結果を捨て
* て,2回目の測定結果を使う.1回目の測定は長めの時間が出るため.
*/
#ifdef TASK_LOOP
task_loop = TASK_LOOP;
#else /* TASK_LOOP */
#ifdef MEASURE_TWICE
task_loop = LOOP_REF;
SVC_PERROR(get_tim(&stime1));
for (i = 0; i < task_loop; i++);
SVC_PERROR(get_tim(&stime2));
#endif /* MEASURE_TWICE */
task_loop = LOOP_REF;
SVC_PERROR(get_tim(&stime1));
for (i = 0; i < task_loop; i++);
SVC_PERROR(get_tim(&stime2));
task_loop = LOOP_REF * 400UL / (stime2 - stime1);
#endif /* TASK_LOOP */
/*
* タスクの起動
*/
SVC_PERROR(act_tsk(tskid));
/*
* メインループ
*/
do {
if (update_select) {
prcid = prc_select;
cycid = sample_cycid[tme_select-1];
almid = sample_almid[tme_select-1];
tsk_mig_prc = prcid;
update_select = false;
syslog(LOG_INFO, "select tskno 0x%x", tskno);
syslog(LOG_INFO, "select cycid %d", cycid);
syslog(LOG_INFO, "select almid %d", almid);
syslog(LOG_INFO, "select processor %d", prcid);
}
SVC_PERROR(serial_rea_dat(serial_port[exinf-1], &c, 1));
switch (c) {
case 'e':
case 's':
case 'S':
case 'd':
case 'g':
message[tskno - 1] = c;
break;
case '1':
tskno = 1;
tskid = TASK1;
update_select = true;
break;
case '2':
tskno = 2;
tskid = TASK2;
update_select = true;
break;
case '3':
tskno = 3;
tskid = TASK3;
update_select = true;
break;
case '4':
tskno = 4;
tskid = TASK4;
update_select = true;
break;
case '5':
tskno = 5;
tskid = TASK5;
update_select = true;
break;
case '6':
tskno = 6;
tskid = TASK6;
update_select = true;
break;
case '8':
prc_select = 1;
update_select = true;
break;
case '9':
prc_select = 2;
update_select = true;
break;
case 'a':
syslog(LOG_INFO, "#act_tsk(0x%x)", tskno);
SVC_PERROR(act_tsk(tskid));
break;
case 'A':
syslog(LOG_INFO, "#can_act(0x%x)", tskno);
SVC_PERROR(ercd = can_act(tskid));
if (ercd >= 0) {
syslog(LOG_NOTICE, "can_act(0x%x) returns %d", tskno, ercd);
}
break;
case '>':
syslog(LOG_INFO, "#chg_pri(0x%x, HIGH_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, HIGH_PRIORITY));
break;
case '=':
syslog(LOG_INFO, "#chg_pri(0x%x, MID_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, MID_PRIORITY));
break;
case '<':
syslog(LOG_INFO, "#chg_pri(0x%x, LOW_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, LOW_PRIORITY));
break;
case 'G':
syslog(LOG_INFO, "#get_pri(0x%x, &tskpri)", tskno);
SVC_PERROR(ercd = get_pri(tskid, &tskpri));
if (ercd >= 0) {
syslog(LOG_NOTICE, "priority of task 0x%x is %d", tskno, tskpri);
}
break;
case 'w':
syslog(LOG_INFO, "#wup_tsk(0x%x)", tskno);
SVC_PERROR(wup_tsk(tskid));
break;
case 'W':
syslog(LOG_INFO, "#can_wup(0x%x)", tskno);
SVC_PERROR(ercd = can_wup(tskid));
if (ercd >= 0) {
syslog(LOG_NOTICE, "can_wup(0x%x) returns %d", tskno, ercd);
}
break;
case 'c':
syslog(LOG_INFO, "#sta_cyc(%d)", cycid);
SVC_PERROR(sta_cyc(cycid));
break;
case 'C':
syslog(LOG_INFO, "#stp_cyc(%d)", cycid);
SVC_PERROR(stp_cyc(cycid));
break;
case 'b':
syslog(LOG_INFO, "#sta_alm(%d, %d)", almid, ALM_TIME);
SVC_PERROR(sta_alm(almid, ALM_TIME));
break;
case 'B':
syslog(LOG_INFO, "#stp_alm(%d)", almid);
SVC_PERROR(stp_alm(almid));
break;
case 'f':
syslog(LOG_INFO, "#mact_tsk(%d, %d)", tskid, prcid);
SVC_PERROR(mact_tsk(tskid, prcid));
break;
default:
break;
}
} while (c != '\003' && c != 'Q');
syslog(LOG_NOTICE, "Sample program ends.");
SVC_PERROR(ext_ker());
assert(0);
}
void task1( unsigned int arg )
{
ER ercd;
int tests = 0;
CYG_TEST_INFO( "Task 1 running" );
ercd = dis_dsp();
CYG_TEST_CHECK( E_OK == ercd, "dis_dsp bad ercd" );
ercd = sta_tsk( 2, 22222 );
CYG_TEST_CHECK( E_OK == ercd, "sta_tsk bad ercd" );
ercd = chg_pri( 2, 5 );
CYG_TEST_CHECK( E_OK == ercd, "chg_pri bad ercd" );
ercd = ena_dsp();
CYG_TEST_CHECK( E_OK == ercd, "ena_dsp bad ercd" );
ercd = dly_tsk( 10 );
CYG_TEST_CHECK( E_OK == ercd, "dly_tsk bad ercd" );
#ifdef CYGPKG_UITRON_MEMPOOLFIXED_CREATE_DELETE
tests++;
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
ercd = del_mpf( -6 );
CYG_TEST_CHECK( E_ID == ercd, "del_mpf bad ercd !E_ID" );
ercd = del_mpf( 99 );
CYG_TEST_CHECK( E_ID == ercd, "del_mpf bad ercd !E_ID" );
ercd = cre_mpf( -6, &t_cmpf );
CYG_TEST_CHECK( E_ID == ercd, "cre_mpf bad ercd !E_ID" );
ercd = cre_mpf( 99, &t_cmpf );
CYG_TEST_CHECK( E_ID == ercd, "cre_mpf bad ercd !E_ID" );
#endif // we can test bad param error returns
// try a pre-existing object
// [first get a valid block from it for the freeing test later]
ercd = pget_blf( &vp, 3 );
CYG_TEST_CHECK( E_OK == ercd, "pget_blf bad ercd" );
ercd = cre_mpf( 3, &t_cmpf );
CYG_TEST_CHECK( E_OBJ == ercd, "cre_mpf bad ercd !E_OBJ" );
// delete it so we can play
ercd = del_mpf( 3 );
CYG_TEST_CHECK( E_OK == ercd, "del_mpf bad ercd" );
// check it is deleted
ercd = rel_blf( 3, vp ); // vp did come from this pool
CYG_TEST_CHECK( E_NOEXS == ercd, "rel_blf bad ercd !E_NOEXS" );
ercd = pget_blf( &vp, 3 );
CYG_TEST_CHECK( E_NOEXS == ercd, "pget_blf bad ercd !E_NOEXS" );
ercd = tget_blf( &vp, 3, 10 );
CYG_TEST_CHECK( E_NOEXS == ercd, "tget_blf bad ercd !E_NOEXS" );
ercd = get_blf( &vp, 3 );
CYG_TEST_CHECK( E_NOEXS == ercd, "get_blf bad ercd !E_NOEXS" );
ercd = ref_mpf( &t_rmpf, 3 );
CYG_TEST_CHECK( E_NOEXS == ercd, "ref_mpf bad ercd !E_NOEXS" );
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
// now try creating it (badly)
#ifndef CYGSEM_UITRON_PARAMS_NULL_IS_GOOD_PTR
ercd = cre_mpf( 3, NULL );
CYG_TEST_CHECK( E_PAR == ercd, "cre_mpf bad ercd !E_PAR" );
#endif
ercd = cre_mpf( 3, NADR );
CYG_TEST_CHECK( E_PAR == ercd, "cre_mpf bad ercd !E_PAR" );
t_cmpf.mpfatr = 0xfff;
ercd = cre_mpf( 3, &t_cmpf );
CYG_TEST_CHECK( E_RSATR == ercd, "cre_mpf bad ercd !E_RSATR" );
#endif // we can test bad param error returns
t_cmpf.mpfatr = 0;
t_cmpf.mpfcnt = 10000;
t_cmpf.blfsz = 100;
ercd = cre_mpf( 3, &t_cmpf );
CYG_TEST_CHECK( E_NOMEM == ercd, "cre_mpf bad ercd" );
t_cmpf.mpfcnt = 100;
t_cmpf.blfsz = 100000;
ercd = cre_mpf( 3, &t_cmpf );
CYG_TEST_CHECK( E_NOMEM == ercd, "cre_mpf bad ercd" );
// now create it well
t_cmpf.mpfatr = 0;
t_cmpf.mpfcnt = 10;
t_cmpf.blfsz = 100;
ercd = cre_mpf( 3, &t_cmpf );
CYG_TEST_CHECK( E_OK == ercd, "cre_mpf bad ercd" );
// and check we can use it
ercd = pget_blf( &vp, 3 );
CYG_TEST_CHECK( E_OK == ercd, "pget_blf bad ercd" );
ercd = tget_blf( &vp, 3, 10 );
CYG_TEST_CHECK( E_OK == ercd, "tget_blf bad ercd" );
ercd = get_blf( &vp, 3 );
CYG_TEST_CHECK( E_OK == ercd, "get_blf bad ercd" );
ercd = rel_blf( 3, vp ); // vp did come from new pool
CYG_TEST_CHECK( E_OK == ercd, "rel_blf bad ercd" );
ercd = rel_blf( 3, vp ); // vp already freed
CYG_TEST_CHECK( E_PAR == ercd, "rel_blf bad ercd !E_PAR" );
ercd = ref_mpf( &t_rmpf, 3 );
CYG_TEST_CHECK( E_OK == ercd, "ref_mpf bad ercd" );
// In order to wait on the pools, we must first consume all they have:
while ( E_OK == (ercd = pget_blf( &vp, 1 )) ) /* nothing */;
CYG_TEST_CHECK( E_TMOUT == ercd, "pget_blf bad ercd !E_TMOUT" );
while ( E_OK == (ercd = tget_blf( &vp, 2, 1 )) ) /* nothing */;
CYG_TEST_CHECK( E_TMOUT == ercd, "tget_blf bad ercd !E_TMOUT" );
// now wait while task 2 deletes the wait objects
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = get_blf( &vp, 1 );
CYG_TEST_CHECK( E_DLT == ercd, "get_blf bad ercd !E_DLT" );
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = tget_blf( &vp, 2, 20 );
CYG_TEST_CHECK( E_DLT == ercd, "tget_blf bad ercd !E_DLT" );
// check they are deleted
ercd = get_blf( &vp, 1 );
CYG_TEST_CHECK( E_NOEXS == ercd, "get_blf bad ercd !E_NOEXS" );
ercd = pget_blf( &vp, 2 );
CYG_TEST_CHECK( E_NOEXS == ercd, "pget_blf bad ercd !E_NOEXS" );
// re-create and do it again
t_cmpf.mpfcnt = 90;
t_cmpf.blfsz = 20;
ercd = cre_mpf( 1, &t_cmpf );
CYG_TEST_CHECK( E_OK == ercd, "cre_mpf bad ercd" );
t_cmpf.mpfcnt = 5;
t_cmpf.blfsz = 200;
ercd = cre_mpf( 2, &t_cmpf );
CYG_TEST_CHECK( E_OK == ercd, "cre_mpf bad ercd" );
// In order to wait on the pools, we must first consume all they have:
while ( E_OK == (ercd = pget_blf( &vp, 1 )) ) /* nothing */;
CYG_TEST_CHECK( E_TMOUT == ercd, "pget_blf bad ercd !E_TMOUT" );
while ( E_OK == (ercd = tget_blf( &vp, 2, 1 )) ) /* nothing */;
CYG_TEST_CHECK( E_TMOUT == ercd, "tget_blf bad ercd !E_TMOUT" );
// now wait while task 2 deletes the wait objects
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = get_blf( &vp, 1 );
CYG_TEST_CHECK( E_DLT == ercd, "get_blf bad ercd !E_DLT" );
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = tget_blf( &vp, 2, 10 );
CYG_TEST_CHECK( E_DLT == ercd, "tget_blf bad ercd !E_DLT" );
// check they are deleted
ercd = tget_blf( &vp, 1, 1 );
CYG_TEST_CHECK( E_NOEXS == ercd, "get_blf bad ercd !E_NOEXS" );
ercd = get_blf( &vp, 2 );
CYG_TEST_CHECK( E_NOEXS == ercd, "pget_blf bad ercd !E_NOEXS" );
CYG_TEST_PASS("create/delete fixed mempools");
#endif // CYGPKG_UITRON_MEMPOOLFIXED_CREATE_DELETE
#ifdef CYGPKG_UITRON_MEMPOOLVAR_CREATE_DELETE
tests++;
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
ercd = del_mpl( -6 );
CYG_TEST_CHECK( E_ID == ercd, "del_mpl bad ercd !E_ID" );
ercd = del_mpl( 99 );
CYG_TEST_CHECK( E_ID == ercd, "del_mpl bad ercd !E_ID" );
ercd = cre_mpl( -6, &t_cmpl );
CYG_TEST_CHECK( E_ID == ercd, "cre_mpl bad ercd !E_ID" );
ercd = cre_mpl( 99, &t_cmpl );
CYG_TEST_CHECK( E_ID == ercd, "cre_mpl bad ercd !E_ID" );
#endif // we can test bad param error returns
// try a pre-existing object
// [first get a valid block from it for the freeing test later]
ercd = pget_blk( &vp, 3, 100 );
CYG_TEST_CHECK( E_OK == ercd, "pget_blk bad ercd" );
ercd = cre_mpl( 3, &t_cmpl );
CYG_TEST_CHECK( E_OBJ == ercd, "cre_mpl bad ercd !E_OBJ" );
// delete it so we can play
ercd = del_mpl( 3 );
CYG_TEST_CHECK( E_OK == ercd, "del_mpl bad ercd" );
// check it is deleted
ercd = rel_blk( 3, vp ); // vp did come from this pool
CYG_TEST_CHECK( E_NOEXS == ercd, "rel_blk bad ercd !E_NOEXS" );
ercd = pget_blk( &vp, 3, 100 );
CYG_TEST_CHECK( E_NOEXS == ercd, "pget_blk bad ercd !E_NOEXS" );
ercd = tget_blk( &vp, 3, 100, 10 );
CYG_TEST_CHECK( E_NOEXS == ercd, "tget_blk bad ercd !E_NOEXS" );
ercd = get_blk( &vp, 3, 100 );
CYG_TEST_CHECK( E_NOEXS == ercd, "get_blk bad ercd !E_NOEXS" );
ercd = ref_mpl( &t_rmpl, 3 );
CYG_TEST_CHECK( E_NOEXS == ercd, "ref_mpl bad ercd !E_NOEXS" );
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
// now try creating it (badly)
#ifndef CYGSEM_UITRON_PARAMS_NULL_IS_GOOD_PTR
ercd = cre_mpl( 3, NULL );
CYG_TEST_CHECK( E_PAR == ercd, "cre_mpl bad ercd !E_PAR" );
#endif
ercd = cre_mpl( 3, NADR );
CYG_TEST_CHECK( E_PAR == ercd, "cre_mpl bad ercd !E_PAR" );
t_cmpl.mplatr = 0xfff;
ercd = cre_mpl( 3, &t_cmpl );
CYG_TEST_CHECK( E_RSATR == ercd, "cre_mpl bad ercd !E_RSATR" );
#endif // we can test bad param error returns
t_cmpl.mplatr = 0;
t_cmpl.mplsz = 100000000;
ercd = cre_mpl( 3, &t_cmpl );
CYG_TEST_CHECK( E_NOMEM == ercd, "cre_mpl bad ercd" );
// now create it well
t_cmpl.mplatr = 0;
t_cmpl.mplsz = 1000;
ercd = cre_mpl( 3, &t_cmpl );
CYG_TEST_CHECK( E_OK == ercd, "cre_mpl bad ercd" );
// and check we can use it
ercd = pget_blk( &vp, 3, 100 );
CYG_TEST_CHECK( E_OK == ercd, "pget_blk bad ercd" );
ercd = pget_blk( &vp, 3, 100000000 ); // way too large
CYG_TEST_CHECK( E_TMOUT == ercd, "pget_blk bad ercd !E_TMOUT" );
ercd = tget_blk( &vp, 3, 100, 10 );
CYG_TEST_CHECK( E_OK == ercd, "tget_blk bad ercd" );
ercd = get_blk( &vp, 3, 100 );
CYG_TEST_CHECK( E_OK == ercd, "get_blk bad ercd" );
ercd = rel_blk( 3, vp ); // vp did come from new pool
CYG_TEST_CHECK( E_OK == ercd, "rel_blk bad ercd" );
ercd = rel_blk( 3, vp ); // vp already freed
CYG_TEST_CHECK( E_PAR == ercd, "rel_blk bad ercd !E_PAR" );
ercd = ref_mpl( &t_rmpl, 3 );
CYG_TEST_CHECK( E_OK == ercd, "ref_mpl bad ercd" );
// In order to wait on the pools, we must first consume all they have:
while ( E_OK == (ercd = pget_blk( &vp, 1, 100 )) ) /* nothing */;
CYG_TEST_CHECK( E_TMOUT == ercd, "pget_blk bad ercd !E_TMOUT" );
while ( E_OK == (ercd = tget_blk( &vp, 2, 100, 1 )) ) /* nothing */;
CYG_TEST_CHECK( E_TMOUT == ercd, "tget_blk bad ercd !E_TMOUT" );
// now wait while task 2 deletes the wait objects
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = get_blk( &vp, 1, 200 );
CYG_TEST_CHECK( E_DLT == ercd, "get_blk bad ercd !E_DLT" );
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = tget_blk( &vp, 2, 100, 20 );
CYG_TEST_CHECK( E_DLT == ercd, "tget_blk bad ercd !E_DLT" );
// check they are deleted
ercd = get_blk( &vp, 1, 200 );
CYG_TEST_CHECK( E_NOEXS == ercd, "get_blk bad ercd !E_NOEXS" );
ercd = pget_blk( &vp, 2, 20 );
CYG_TEST_CHECK( E_NOEXS == ercd, "pget_blk bad ercd !E_NOEXS" );
// re-create and do it again
ercd = cre_mpl( 1, &t_cmpl );
CYG_TEST_CHECK( E_OK == ercd, "cre_mpl bad ercd" );
ercd = cre_mpl( 2, &t_cmpl );
CYG_TEST_CHECK( E_OK == ercd, "cre_mpl bad ercd" );
// In order to wait on the pools, we must first consume all they have:
while ( E_OK == (ercd = pget_blk( &vp, 1, 20 )) ) /* nothing */;
CYG_TEST_CHECK( E_TMOUT == ercd, "pget_blk bad ercd !E_TMOUT" );
while ( E_OK == (ercd = tget_blk( &vp, 2, 400, 1 )) ) /* nothing */;
CYG_TEST_CHECK( E_TMOUT == ercd, "tget_blk bad ercd !E_TMOUT" );
// now wait while task 2 deletes the wait objects
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = get_blk( &vp, 1, 200 );
CYG_TEST_CHECK( E_DLT == ercd, "get_blk bad ercd !E_DLT" );
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = tget_blk( &vp, 2, 500, 20 );
CYG_TEST_CHECK( E_DLT == ercd, "tget_blk bad ercd !E_DLT" );
// check they are deleted
ercd = tget_blk( &vp, 1, 200, 1 );
CYG_TEST_CHECK( E_NOEXS == ercd, "get_blk bad ercd !E_NOEXS" );
ercd = get_blk( &vp, 2, 20 );
CYG_TEST_CHECK( E_NOEXS == ercd, "pget_blk bad ercd !E_NOEXS" );
CYG_TEST_PASS("create/delete variable mempools");
#endif // CYGPKG_UITRON_MEMPOOLVAR_CREATE_DELETE
ercd = ter_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "ter_tsk bad ercd" );
ercd = dly_tsk( 5 );
CYG_TEST_CHECK( E_OK == ercd, "dly_tsk bad ercd" );
// all done
if ( 0 == tests ) {
CYG_TEST_NA( "No objects have create/delete enabled" );
}
else {
CYG_TEST_EXIT( "All done" );
}
ext_tsk();
}
void task1( unsigned int arg )
{
ER ercd;
int i;
T_RSYS rsys;
CYG_TEST_INFO( "Task 1 running" );
// check initial state
ercd = ref_sys( &rsys );
CYG_TEST_CHECK( E_OK == ercd, "ref_sys bad ercd" );
CYG_TEST_CHECK( TSS_TSK == rsys.sysstat, "system state not TSS_TSK" );
// disable intrs and check state
ercd = loc_cpu();
CYG_TEST_CHECK( E_OK == ercd, "loc_cpu bad ercd" );
ercd = ref_sys( &rsys );
CYG_TEST_CHECK( E_OK == ercd, "ref_sys bad ercd" );
CYG_TEST_CHECK( TSS_LOC == rsys.sysstat, "system state not TSS_LOC" );
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
// try an illegal op
ercd = dly_tsk( 10 );
CYG_TEST_CHECK( E_CTX == ercd, "dly_tsk bad ercd !E_CTX" );
#endif // CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
// enable intrs and check state and a legal sleep
ercd = unl_cpu();
CYG_TEST_CHECK( E_OK == ercd, "unl_cpu bad ercd" );
ercd = ref_sys( &rsys );
CYG_TEST_CHECK( E_OK == ercd, "ref_sys bad ercd" );
CYG_TEST_CHECK( TSS_TSK == rsys.sysstat, "system state not TSS_TSK" );
ercd = dly_tsk( 1 );
CYG_TEST_CHECK( E_OK == ercd, "dly_tsk bad ercd" );
// disable intrs and try scheduler illegal ops
ercd = loc_cpu();
CYG_TEST_CHECK( E_OK == ercd, "loc_cpu bad ercd" );
ercd = ref_sys( &rsys );
CYG_TEST_CHECK( E_OK == ercd, "ref_sys bad ercd" );
CYG_TEST_CHECK( TSS_LOC == rsys.sysstat, "system state not TSS_LOC" );
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
ercd = dis_dsp();
CYG_TEST_CHECK( E_CTX == ercd, "dis_dsp bad ercd !E_CTX" );
ercd = ena_dsp();
CYG_TEST_CHECK( E_CTX == ercd, "ena_dsp bad ercd !E_CTX" );
#endif // CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
// enable again and check state
ercd = unl_cpu();
CYG_TEST_CHECK( E_OK == ercd, "unl_cpu bad ercd" );
ercd = ref_sys( &rsys );
CYG_TEST_CHECK( E_OK == ercd, "ref_sys bad ercd" );
CYG_TEST_CHECK( TSS_TSK == rsys.sysstat, "system state not TSS_TSK" );
// disable the scheduler and check state
ercd = dis_dsp();
CYG_TEST_CHECK( E_OK == ercd, "dis_dsp bad ercd" );
ercd = ref_sys( &rsys );
CYG_TEST_CHECK( E_OK == ercd, "ref_sys bad ercd" );
CYG_TEST_CHECK( TSS_DDSP == rsys.sysstat, "system state not TSS_DDSP" );
// disable intrs and check state
ercd = loc_cpu();
CYG_TEST_CHECK( E_OK == ercd, "loc_cpu bad ercd" );
ercd = ref_sys( &rsys );
CYG_TEST_CHECK( E_OK == ercd, "ref_sys bad ercd" );
CYG_TEST_CHECK( TSS_LOC == rsys.sysstat, "system state not TSS_LOC" );
// then unlock and check state
ercd = unl_cpu();
CYG_TEST_CHECK( E_OK == ercd, "unl_cpu bad ercd" );
ercd = ref_sys( &rsys );
CYG_TEST_CHECK( E_OK == ercd, "ref_sys bad ercd" );
CYG_TEST_CHECK( TSS_TSK == rsys.sysstat, "system state not TSS_TSK" );
CYG_TEST_PASS( "Interrupt dis/enabling and interactions" );
// and now we can do the rest of the test
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
ercd = rel_wai( 2 );
CYG_TEST_CHECK( E_OBJ == ercd, "rel_wai bad ercd !E_OBJ" );
ercd = rel_wai( 1 );
CYG_TEST_CHECK( E_OBJ == ercd, "rel_wai(me) bad ercd !E_OBJ" );
ercd = rel_wai( -6 );
CYG_TEST_CHECK( E_ID == ercd, "rel_wai bad ercd !E_ID" );
ercd = rel_wai( 99 );
CYG_TEST_CHECK( E_ID == ercd, "rel_wai bad ercd !E_ID" );
#endif // we can test bad param error returns
ercd = dis_dsp();
CYG_TEST_CHECK( E_OK == ercd, "dis_dsp bad ercd" );
ercd = sta_tsk( 2, 22222 );
CYG_TEST_CHECK( E_OK == ercd, "sta_tsk bad ercd" );
ercd = chg_pri( 2, 5 );
CYG_TEST_CHECK( E_OK == ercd, "chg_pri bad ercd" );
ercd = ena_dsp();
CYG_TEST_CHECK( E_OK == ercd, "ena_dsp bad ercd" );
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
ercd = rel_wai( 2 );
CYG_TEST_CHECK( E_OBJ == ercd, "rel_wai bad ercd !E_OBJ" );
ercd = rel_wai( 1 );
CYG_TEST_CHECK( E_OBJ == ercd, "rel_wai(me) bad ercd !E_OBJ" );
#endif // we can test bad param error returns
ercd = wai_sem( 1 );
CYG_TEST_CHECK( E_RLWAI == ercd, "wai_sem bad ercd !E_RLWAI" );
ercd = twai_sem( 1, 20 );
CYG_TEST_CHECK( E_RLWAI == ercd, "twai_sem bad ercd !E_RLWAI" );
ercd = wai_flg( &scratch, 1, 9999, 0 );
CYG_TEST_CHECK( E_RLWAI == ercd, "wai_flg bad ercd !E_RLWAI" );
ercd = twai_flg( &scratch, 1, 9999, 0, 10 );
CYG_TEST_CHECK( E_RLWAI == ercd, "twai_flg bad ercd !E_RLWAI" );
ercd = rcv_msg( &t_msg, 1 );
CYG_TEST_CHECK( E_RLWAI == ercd, "rcv_msg bad ercd !E_RLWAI" );
ercd = trcv_msg( &t_msg, 1, 10 );
CYG_TEST_CHECK( E_RLWAI == ercd, "trcv_msg bad ercd !E_RLWAI" );
// these are loops so as to consume the whole of the mempool
// in order to wait at the end
for ( i = 0; i < 10; i++ )
if ( E_OK != (ercd = get_blf( &vp, 3 ) ) )
break;
CYG_TEST_CHECK( E_RLWAI == ercd, "get_blf bad ercd !E_RLWAI" );
for ( i = 0; i < 10; i++ )
if ( E_OK != (ercd = tget_blf( &vp, 3, 10 ) ) )
break;
CYG_TEST_CHECK( E_RLWAI == ercd, "tget_blf bad ercd !E_RLWAI" );
for ( i = 0; i < 10; i++ )
if ( E_OK != (ercd = get_blk( &vp, 1, 1000 ) ) )
break;
CYG_TEST_CHECK( E_RLWAI == ercd, "get_blk bad ercd !E_RLWAI" );
for ( i = 0; i < 10; i++ )
if ( E_OK != (ercd = tget_blk( &vp, 1, 1000, 10 ) ) )
break;
CYG_TEST_CHECK( E_RLWAI == ercd, "tget_blk bad ercd !E_RLWAI" );
ercd = dly_tsk( 10 );
CYG_TEST_CHECK( E_RLWAI == ercd, "dly_tsk bad ercd !E_RLWAI" );
ercd = tslp_tsk( 10 );
CYG_TEST_CHECK( E_RLWAI == ercd, "tslp_tsk bad ercd !E_RLWAI" );
ercd = slp_tsk();
CYG_TEST_CHECK( E_RLWAI == ercd, "slp_tsk bad ercd !E_RLWAI" );
ercd = ter_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "ter_tsk bad ercd" );
ercd = dly_tsk( 10 );
CYG_TEST_CHECK( E_OK == ercd, "dly_tsk bad ercd" );
CYG_TEST_PASS("release wait: various waiting calls");
// all done
CYG_TEST_EXIT( "All done" );
ext_tsk();
}
/*
* メインタスク
*/
void main_task(intptr_t exinf)
{
char c;
ID tskid = TASK1;
int_t tskno = 1;
ER_UINT ercd;
PRI tskpri;
#ifndef TASK_LOOP
volatile ulong_t i;
SYSTIM stime1, stime2;
#endif /* TASK_LOOP */
#ifdef TOPPERS_SUPPORT_GET_UTM
SYSUTM utime1, utime2;
#endif /* TOPPERS_SUPPORT_GET_UTM */
T_CTSK ctsk;
T_DTEX dtex;
ID TASK3 = -1;
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_INFO), LOG_UPTO(LOG_EMERG)));
syslog(LOG_NOTICE, "Sample program starts (exinf = %d).", (int_t) exinf);
/*
* シリアルポートの初期化
*
* システムログタスクと同じシリアルポートを使う場合など,シリアル
* ポートがオープン済みの場合にはここでE_OBJエラーになるが,支障は
* ない.
*/
ercd = serial_opn_por(TASK_PORTID);
if (ercd < 0 && MERCD(ercd) != E_OBJ) {
syslog(LOG_ERROR, "%s (%d) reported by `serial_opn_por'.",
itron_strerror(ercd), SERCD(ercd));
}
SVC_PERROR(serial_ctl_por(TASK_PORTID,
(IOCTL_CRLF | IOCTL_FCSND | IOCTL_FCRCV)));
/*
* ループ回数の設定
*
* 並行実行されるタスク内での空ループの回数(task_loop)は,空ルー
* プの実行時間が約0.4秒になるように設定する.この設定のために,
* LOOP_REF回の空ループの実行時間を,その前後でget_timを呼ぶことで
* 測定し,その測定結果から空ループの実行時間が0.4秒になるループ回
* 数を求め,task_loopに設定する.
*
* LOOP_REFは,デフォルトでは1,000,000に設定しているが,想定したよ
* り遅いプロセッサでは,サンプルプログラムの実行開始に時間がかか
* りすぎるという問題を生じる.逆に想定したより速いプロセッサでは,
* LOOP_REF回の空ループの実行時間が短くなり,task_loopに設定する値
* の誤差が大きくなるという問題がある.
*
* そこで,そのようなターゲットでは,target_test.hで,LOOP_REFを適
* 切な値に定義するのが望ましい.
*
* また,task_loopの値を固定したい場合には,その値をTASK_LOOPにマ
* クロ定義する.TASK_LOOPがマクロ定義されている場合,上記の測定を
* 行わずに,TASK_LOOPに定義された値を空ループの回数とする.
*
* ターゲットによっては,空ループの実行時間の1回目の測定で,本来よ
* りも長めになるものがある.このようなターゲットでは,MEASURE_TWICE
* をマクロ定義することで,1回目の測定結果を捨てて,2回目の測定結果
* を使う.
*
* タスク例外処理ルーチン内での空ループの回数(tex_loop)は,
* task_loopの4分の1の値(空ループの実行時間が0.1秒になるループ回
* 数)に設定する.
*/
#ifdef TASK_LOOP
task_loop = TASK_LOOP;
#else /* TASK_LOOP */
#ifdef MEASURE_TWICE
task_loop = LOOP_REF;
SVC_PERROR(get_tim(&stime1));
for (i = 0; i < task_loop; i++);
SVC_PERROR(get_tim(&stime2));
#endif /* MEASURE_TWICE */
task_loop = LOOP_REF;
SVC_PERROR(get_tim(&stime1));
for (i = 0; i < task_loop; i++);
SVC_PERROR(get_tim(&stime2));
task_loop = LOOP_REF * 400UL / (stime2 - stime1);
#endif /* TASK_LOOP */
tex_loop = task_loop / 4;
/*
* タスクの起動
*/
SVC_PERROR(act_tsk(TASK1));
SVC_PERROR(act_tsk(TASK2));
/*
* メインループ
*/
do {
SVC_PERROR(serial_rea_dat(TASK_PORTID, &c, 1));
switch (c) {
case 'e':
case 's':
case 'S':
case 'd':
case 'y':
case 'Y':
case 'z':
case 'Z':
message[tskno-1] = c;
break;
case '1':
tskno = 1;
tskid = TASK1;
break;
case '2':
tskno = 2;
tskid = TASK2;
break;
case '3':
tskno = 3;
tskid = TASK3;
break;
case 'a':
syslog(LOG_INFO, "#act_tsk(%d)", tskno);
SVC_PERROR(act_tsk(tskid));
break;
case 'A':
syslog(LOG_INFO, "#can_act(%d)", tskno);
SVC_PERROR(ercd = can_act(tskid));
if (ercd >= 0) {
syslog(LOG_NOTICE, "can_act(%d) returns %d", tskno, ercd);
}
break;
case 't':
syslog(LOG_INFO, "#ter_tsk(%d)", tskno);
SVC_PERROR(ter_tsk(tskid));
break;
case '>':
syslog(LOG_INFO, "#chg_pri(%d, HIGH_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, HIGH_PRIORITY));
break;
case '=':
syslog(LOG_INFO, "#chg_pri(%d, MID_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, MID_PRIORITY));
break;
case '<':
syslog(LOG_INFO, "#chg_pri(%d, LOW_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, LOW_PRIORITY));
break;
case 'G':
syslog(LOG_INFO, "#get_pri(%d, &tskpri)", tskno);
SVC_PERROR(ercd = get_pri(tskid, &tskpri));
if (ercd >= 0) {
syslog(LOG_NOTICE, "priority of task %d is %d", tskno, tskpri);
}
break;
case 'w':
syslog(LOG_INFO, "#wup_tsk(%d)", tskno);
SVC_PERROR(wup_tsk(tskid));
break;
case 'W':
syslog(LOG_INFO, "#can_wup(%d)", tskno);
SVC_PERROR(ercd = can_wup(tskid));
if (ercd >= 0) {
syslog(LOG_NOTICE, "can_wup(%d) returns %d", tskno, ercd);
}
break;
case 'l':
syslog(LOG_INFO, "#rel_wai(%d)", tskno);
SVC_PERROR(rel_wai(tskid));
break;
case 'u':
syslog(LOG_INFO, "#sus_tsk(%d)", tskno);
SVC_PERROR(sus_tsk(tskid));
break;
case 'm':
syslog(LOG_INFO, "#rsm_tsk(%d)", tskno);
SVC_PERROR(rsm_tsk(tskid));
break;
case 'x':
syslog(LOG_INFO, "#ras_tex(%d, 0x0001U)", tskno);
SVC_PERROR(ras_tex(tskid, 0x0001U));
break;
case 'X':
syslog(LOG_INFO, "#ras_tex(%d, 0x0002U)", tskno);
SVC_PERROR(ras_tex(tskid, 0x0002U));
break;
case 'r':
syslog(LOG_INFO, "#rot_rdq(three priorities)");
SVC_PERROR(rot_rdq(HIGH_PRIORITY));
SVC_PERROR(rot_rdq(MID_PRIORITY));
SVC_PERROR(rot_rdq(LOW_PRIORITY));
break;
case 'c':
syslog(LOG_INFO, "#sta_cyc(1)");
SVC_PERROR(sta_cyc(CYCHDR1));
break;
case 'C':
syslog(LOG_INFO, "#stp_cyc(1)");
SVC_PERROR(stp_cyc(CYCHDR1));
break;
case 'b':
syslog(LOG_INFO, "#sta_alm(1, 5000)");
SVC_PERROR(sta_alm(ALMHDR1, 5000));
break;
case 'B':
syslog(LOG_INFO, "#stp_alm(1)");
SVC_PERROR(stp_alm(ALMHDR1));
break;
case '@':
ctsk.tskatr = TA_NULL;
ctsk.exinf = 3;
ctsk.task = task;
ctsk.itskpri = MID_PRIORITY;
ctsk.stksz = STACK_SIZE;
ctsk.stk = NULL;
SVC_PERROR(TASK3 = acre_tsk(&ctsk));
dtex.texatr = TA_NULL;
dtex.texrtn = tex_routine;
SVC_PERROR(def_tex(TASK3, &dtex));
syslog(LOG_NOTICE, "task3 is created with tskid = %d.",
(int_t) TASK3);
break;
case '!':
syslog(LOG_INFO, "#del_tsk(%d)", tskno);
SVC_PERROR(del_tsk(tskid));
break;
case 'V':
#ifdef TOPPERS_SUPPORT_GET_UTM
SVC_PERROR(get_utm(&utime1));
SVC_PERROR(get_utm(&utime2));
syslog(LOG_NOTICE, "utime1 = %ld, utime2 = %ld",
(ulong_t) utime1, (ulong_t) utime2);
#else /* TOPPERS_SUPPORT_GET_UTM */
syslog(LOG_NOTICE, "get_utm is not supported.");
#endif /* TOPPERS_SUPPORT_GET_UTM */
break;
case 'v':
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_INFO),
LOG_UPTO(LOG_EMERG)));
break;
case 'q':
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_NOTICE),
LOG_UPTO(LOG_EMERG)));
break;
#ifdef BIT_KERNEL
case ' ':
SVC_PERROR(loc_cpu());
{
extern ER bit_kernel(void);
SVC_PERROR(ercd = bit_kernel());
if (ercd >= 0) {
syslog(LOG_NOTICE, "bit_kernel passed.");
}
}
SVC_PERROR(unl_cpu());
break;
#endif /* BIT_KERNEL */
case '$':
syslog(LOG_INFO, "#%d#twai_sem(10000)", tskno);
SVC_PERROR(twai_sem(TEST_SEM, 10000));
break;
default:
break;
}
} while (c != '\003' && c != 'Q');
syslog(LOG_NOTICE, "Sample program ends.");
SVC_PERROR(ext_ker());
assert(0);
}
/*
* main task
*/
void main_task(intptr_t exinf)
{
char_t c;
ID tskid = TASK1;
int_t tskno = 1;
ER_UINT ercd;
PRI tskpri;
#ifndef TASK_LOOP
volatile ulong_t i;
SYSTIM stime1, stime2;
#endif /* TASK_LOOP */
#ifdef TOPPERS_SUPPORT_GET_UTM
SYSUTM utime1, utime2;
#endif /* TOPPERS_SUPPORT_GET_UTM */
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_INFO), LOG_UPTO(LOG_EMERG)));
syslog(LOG_NOTICE, "Sample program starts (exinf = %d).", (int_t) exinf);
/*
* initialize the serial port
*
* If the same serial port is shared between main task and system
* log task. As this serial port is already opened in system log
* task, serial_opn_por will return E_OBJ which is not a real
* error.
*/
ercd = serial_opn_por(TASK_PORTID);
if (ercd < 0 && MERCD(ercd) != E_OBJ) {
syslog(LOG_ERROR, "%s (%d) reported by `serial_opn_por'.",
itron_strerror(ercd), SERCD(ercd));
}
SVC_PERROR(serial_ctl_por(TASK_PORTID,
(IOCTL_CRLF | IOCTL_FCSND | IOCTL_FCRCV)));
/*
* adjustment of task_loop.
*
* If TASK_LOOP is defined, the adjustment of task_loop will not be
* done.
*
* If MEASURE_TWICE is defined, 2 measurements are made. The 2nd
* result is adopted as the 1st is a little longer than the 2nd.
*/
#ifdef TASK_LOOP
task_loop = TASK_LOOP;
#else /* TASK_LOOP */
#ifdef MEASURE_TWICE
task_loop = LOOP_REF;
SVC_PERROR(get_tim(&stime1));
for (i = 0; i < task_loop; i++);
SVC_PERROR(get_tim(&stime2));
#endif /* MEASURE_TWICE */
task_loop = LOOP_REF;
SVC_PERROR(get_tim(&stime1));
for (i = 0; i < task_loop; i++);
SVC_PERROR(get_tim(&stime2));
task_loop = LOOP_REF * 400UL / (stime2 - stime1);
#endif /* TASK_LOOP */
tex_loop = task_loop / 5;
/*
* activate the target tasks
*/
SVC_PERROR(act_tsk(TASK1));
SVC_PERROR(act_tsk(TASK2));
SVC_PERROR(act_tsk(TASK3));
/*
* main loop
*/
do {
SVC_PERROR(serial_rea_dat(TASK_PORTID, &c, 1));
switch (c) {
case 'e':
case 's':
case 'S':
case 'd':
case 'y':
case 'Y':
case 'z':
case 'Z':
message[tskno-1] = c;
break;
case '1':
tskno = 1;
tskid = TASK1;
break;
case '2':
tskno = 2;
tskid = TASK2;
break;
case '3':
tskno = 3;
tskid = TASK3;
break;
case 'a':
syslog(LOG_INFO, "#act_tsk(%d)", tskno);
SVC_PERROR(act_tsk(tskid));
break;
case 'A':
syslog(LOG_INFO, "#can_act(%d)", tskno);
SVC_PERROR(ercd = can_act(tskid));
if (ercd >= 0) {
syslog(LOG_NOTICE, "can_act(%d) returns %d", tskno, ercd);
}
break;
case 't':
syslog(LOG_INFO, "#ter_tsk(%d)", tskno);
SVC_PERROR(ter_tsk(tskid));
break;
case '>':
syslog(LOG_INFO, "#chg_pri(%d, HIGH_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, HIGH_PRIORITY));
break;
case '=':
syslog(LOG_INFO, "#chg_pri(%d, MID_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, MID_PRIORITY));
break;
case '<':
syslog(LOG_INFO, "#chg_pri(%d, LOW_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, LOW_PRIORITY));
break;
case 'G':
syslog(LOG_INFO, "#get_pri(%d, &tskpri)", tskno);
SVC_PERROR(ercd = get_pri(tskid, &tskpri));
if (ercd >= 0) {
syslog(LOG_NOTICE, "priority of task %d is %d", tskno, tskpri);
}
break;
case 'w':
syslog(LOG_INFO, "#wup_tsk(%d)", tskno);
SVC_PERROR(wup_tsk(tskid));
break;
case 'W':
syslog(LOG_INFO, "#can_wup(%d)", tskno);
SVC_PERROR(ercd = can_wup(tskid));
if (ercd >= 0) {
syslog(LOG_NOTICE, "can_wup(%d) returns %d", tskno, ercd);
}
break;
case 'l':
syslog(LOG_INFO, "#rel_wai(%d)", tskno);
SVC_PERROR(rel_wai(tskid));
break;
case 'u':
syslog(LOG_INFO, "#sus_tsk(%d)", tskno);
SVC_PERROR(sus_tsk(tskid));
break;
case 'm':
syslog(LOG_INFO, "#rsm_tsk(%d)", tskno);
SVC_PERROR(rsm_tsk(tskid));
break;
case 'x':
syslog(LOG_INFO, "#ras_tex(%d, 0x0001U)", tskno);
SVC_PERROR(ras_tex(tskid, 0x0001U));
break;
case 'X':
syslog(LOG_INFO, "#ras_tex(%d, 0x0002U)", tskno);
SVC_PERROR(ras_tex(tskid, 0x0002U));
break;
case 'r':
syslog(LOG_INFO, "#rot_rdq(three priorities)");
SVC_PERROR(rot_rdq(HIGH_PRIORITY));
SVC_PERROR(rot_rdq(MID_PRIORITY));
SVC_PERROR(rot_rdq(LOW_PRIORITY));
break;
case 'c':
syslog(LOG_INFO, "#sta_cyc(1)");
SVC_PERROR(sta_cyc(CYCHDR1));
break;
case 'C':
syslog(LOG_INFO, "#stp_cyc(1)");
SVC_PERROR(stp_cyc(CYCHDR1));
break;
case 'b':
syslog(LOG_INFO, "#sta_alm(1, 5000)");
SVC_PERROR(sta_alm(ALMHDR1, 5000));
break;
case 'B':
syslog(LOG_INFO, "#stp_alm(1)");
SVC_PERROR(stp_alm(ALMHDR1));
break;
case 'V':
#ifdef TOPPERS_SUPPORT_GET_UTM
SVC_PERROR(get_utm(&utime1));
SVC_PERROR(get_utm(&utime2));
syslog(LOG_NOTICE, "utime1 = %ld, utime2 = %ld",
(ulong_t) utime1, (ulong_t) utime2);
#else /* TOPPERS_SUPPORT_GET_UTM */
syslog(LOG_NOTICE, "get_utm is not supported.");
#endif /* TOPPERS_SUPPORT_GET_UTM */
break;
case 'v':
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_INFO),
LOG_UPTO(LOG_EMERG)));
break;
case 'q':
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_NOTICE),
LOG_UPTO(LOG_EMERG)));
break;
#ifdef BIT_KERNEL
case ' ':
SVC_PERROR(loc_cpu());
{
extern ER bit_kernel(void);
SVC_PERROR(ercd = bit_kernel());
if (ercd >= 0) {
syslog(LOG_NOTICE, "bit_kernel passed.");
}
}
SVC_PERROR(unl_cpu());
break;
#endif /* BIT_KERNEL */
default:
break;
}
} while (c != '\003' && c != 'Q');
syslog(LOG_NOTICE, "Sample program ends.");
SVC_PERROR(ext_ker());
assert(0);
}
void
task4(intptr_t exinf)
{
ER_UINT ercd;
ID somid;
check_point(17);
ercd = get_som(&somid);
check_ercd(ercd, E_OK);
check_assert(somid == TSOM_STP);
ercd = stp_cyc(CYC1);
check_ercd(ercd, E_OK);
ercd = dly_tsk(TEST_TIME_PROC);
check_ercd(ercd, E_OK);
check_point(18);
ercd = chg_som(SOM1);
check_ercd(ercd, E_OK);
check_point(22);
ercd = get_som(&somid);
check_ercd(ercd, E_OK);
check_assert(somid == TSOM_STP);
ercd = stp_cyc(CYC1);
check_ercd(ercd, E_OK);
ercd = chg_pri(TSK_SELF, HIGH_PRIORITY);
check_ercd(ercd, E_OK);
check_point(23);
ercd = chg_som(SOM1);
check_ercd(ercd, E_OK);
check_point(24);
ercd = sta_cyc(CYC1);
check_ercd(ercd, E_OK);
ercd = get_som(&somid);
check_ercd(ercd, E_OK);
check_assert(somid == SOM1);
ercd = chg_pri(TSK_SELF, LOW_PRIORITY);
check_ercd(ercd, E_OK);
check_point(28);
ercd = get_som(&somid);
check_ercd(ercd, E_OK);
check_assert(somid == TSOM_STP);
ercd = stp_cyc(CYC1);
check_ercd(ercd, E_OK);
ercd = dis_dsp();
check_ercd(ercd, E_OK);
check_point(29);
ercd = chg_som(SOM1);
check_ercd(ercd, E_OK);
ercd = sta_cyc(CYC1);
check_ercd(ercd, E_OK);
ercd = get_som(&somid);
check_ercd(ercd, E_OK);
check_assert(check_somid(somid));
ercd = ena_dsp();
check_ercd(ercd, E_OK);
check_point(0);
}
void
task1(intptr_t exinf)
{
ER ercd;
T_RMTX rmtx;
set_bit_func(bit_mutex);
check_point(1);
ercd = act_tsk(TASK2);
check_ercd(ercd, E_OK);
check_point(2);
ercd = rot_rdq(TPRI_SELF);
check_ercd(ercd, E_OK);
check_point(5);
ercd = ref_mtx(MTX1, &rmtx);
check_ercd(ercd, E_OK);
check_assert(rmtx.htskid == TSK_NONE);
check_assert(rmtx.wtskid == TSK_NONE);
check_point(6);
ercd = act_tsk(TASK2);
check_ercd(ercd, E_OK);
ercd = act_tsk(TASK3);
check_ercd(ercd, E_OK);
check_point(7);
ercd = rot_rdq(TPRI_SELF);
check_ercd(ercd, E_OK);
check_point(11);
ercd = wup_tsk(TASK2);
check_ercd(ercd, E_OK);
check_point(14);
ercd = act_tsk(TASK2);
check_ercd(ercd, E_OK);
check_point(15);
ercd = rot_rdq(TPRI_SELF);
check_ercd(ercd, E_OK);
check_point(18);
ercd = ref_mtx(MTX1, &rmtx);
check_ercd(ercd, E_OK);
check_assert(rmtx.htskid == TSK_NONE);
check_assert(rmtx.wtskid == TSK_NONE);
ercd = ref_mtx(MTX2, &rmtx);
check_ercd(ercd, E_OK);
check_assert(rmtx.htskid == TSK_NONE);
check_assert(rmtx.wtskid == TSK_NONE);
check_point(19);
ercd = act_tsk(TASK2);
check_ercd(ercd, E_OK);
ercd = wup_tsk(TASK3);
check_ercd(ercd, E_OK);
ercd = act_tsk(TASK4);
check_ercd(ercd, E_OK);
check_point(20);
ercd = rot_rdq(TPRI_SELF);
check_ercd(ercd, E_OK);
check_point(25);
ercd = chg_pri(TSK_SELF, TPRI_INI);
check_ercd(ercd, E_OK);
check_point(28);
ercd = wup_tsk(TASK2);
check_ercd(ercd, E_OK);
check_finish(32);
check_point(0);
}
void
task4(intptr_t exinf)
{
ER_UINT ercd;
T_RMBF rmbf;
check_point(3);
ercd = wup_tsk(TASK1);
check_ercd(ercd, E_OK);
check_point(5);
ercd = ref_mbf(MBF1, &rmbf);
check_ercd(ercd, E_OK);
check_assert(rmbf.stskid == TASK1);
check_assert(rmbf.rtskid == TSK_NONE);
check_assert(rmbf.smbfcnt == 0);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 25);
check_point(8);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 26);
check_point(15);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 26);
check_point(19);
ercd = chg_pri(TASK2, LOW_PRIORITY);
check_ercd(ercd, E_OK);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 26);
check_point(23);
ercd = wup_tsk(TASK1);
check_ercd(ercd, E_OK);
check_point(27);
ercd = chg_pri(TASK3, LOW_PRIORITY);
check_ercd(ercd, E_OK);
check_point(30);
ercd = chg_pri(TASK2, HIGH_PRIORITY);
check_ercd(ercd, E_OK);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 26);
check_point(33);
ercd = wup_tsk(TASK1);
check_ercd(ercd, E_OK);
check_point(37);
ercd = chg_pri(TASK2, HIGH_PRIORITY);
check_ercd(ercd, E_OK);
check_point(0);
}
void task1( unsigned int arg )
{
ER ercd;
int tests = 0;
CYG_TEST_INFO( "Task 1 running" );
ercd = dis_dsp();
CYG_TEST_CHECK( E_OK == ercd, "dis_dsp bad ercd" );
ercd = sta_tsk( 2, 22222 );
CYG_TEST_CHECK( E_OK == ercd, "sta_tsk bad ercd" );
ercd = chg_pri( 2, 5 );
CYG_TEST_CHECK( E_OK == ercd, "chg_pri bad ercd" );
ercd = ena_dsp();
CYG_TEST_CHECK( E_OK == ercd, "ena_dsp bad ercd" );
ercd = dly_tsk( 10 );
CYG_TEST_CHECK( E_OK == ercd, "dly_tsk bad ercd" );
#ifdef CYGPKG_UITRON_SEMAS_CREATE_DELETE
tests++;
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
ercd = del_sem( -6 );
CYG_TEST_CHECK( E_ID == ercd, "del_sem bad ercd !E_ID" );
ercd = del_sem( 99 );
CYG_TEST_CHECK( E_ID == ercd, "del_sem bad ercd !E_ID" );
ercd = cre_sem( -6, &t_csem );
CYG_TEST_CHECK( E_ID == ercd, "cre_sem bad ercd !E_ID" );
ercd = cre_sem( 99, &t_csem );
CYG_TEST_CHECK( E_ID == ercd, "cre_sem bad ercd !E_ID" );
#endif // we can test bad param error returns
// try a pre-existing object
ercd = cre_sem( 3, &t_csem );
CYG_TEST_CHECK( E_OBJ == ercd, "cre_sem bad ercd !E_OBJ" );
// delete it so we can play
ercd = del_sem( 3 );
CYG_TEST_CHECK( E_OK == ercd, "del_sem bad ercd" );
// check it is deleted
ercd = sig_sem( 3 );
CYG_TEST_CHECK( E_NOEXS == ercd, "sig_sem bad ercd !E_NOEXS" );
ercd = preq_sem( 3 );
CYG_TEST_CHECK( E_NOEXS == ercd, "preq_sem bad ercd !E_NOEXS" );
ercd = twai_sem( 3, 10 );
CYG_TEST_CHECK( E_NOEXS == ercd, "twai_sem bad ercd !E_NOEXS" );
ercd = wai_sem( 3 );
CYG_TEST_CHECK( E_NOEXS == ercd, "wai_sem bad ercd !E_NOEXS" );
ercd = ref_sem( &t_rsem, 3 );
CYG_TEST_CHECK( E_NOEXS == ercd, "ref_sem bad ercd !E_NOEXS" );
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
// now try creating it (badly)
#ifndef CYGSEM_UITRON_PARAMS_NULL_IS_GOOD_PTR
ercd = cre_sem( 3, NULL );
CYG_TEST_CHECK( E_PAR == ercd, "cre_sem bad ercd !E_PAR" );
#endif
ercd = cre_sem( 3, NADR );
CYG_TEST_CHECK( E_PAR == ercd, "cre_sem bad ercd !E_PAR" );
t_csem.sematr = 0xfff;
ercd = cre_sem( 3, &t_csem );
CYG_TEST_CHECK( E_RSATR == ercd, "cre_sem bad ercd !E_RSATR" );
t_csem.sematr = 0;
#endif // we can test bad param error returns
ercd = cre_sem( 3, &t_csem );
CYG_TEST_CHECK( E_OK == ercd, "cre_sem bad ercd" );
// and check we can use it
ercd = sig_sem( 3 );
CYG_TEST_CHECK( E_OK == ercd, "sig_sem bad ercd" );
ercd = wai_sem( 3 );
CYG_TEST_CHECK( E_OK == ercd, "wai_sem bad ercd" );
ercd = preq_sem( 3 );
CYG_TEST_CHECK( E_TMOUT == ercd, "preq_sem bad ercd !E_TMOUT" );
ercd = twai_sem( 3, 2 );
CYG_TEST_CHECK( E_TMOUT == ercd, "twai_sem bad ercd !E_TMOUT" );
ercd = ref_sem( &t_rsem, 3 );
CYG_TEST_CHECK( E_OK == ercd, "ref_sem bad ercd" );
// now wait while task 2 deletes the wait objects
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = wai_sem( 1 );
CYG_TEST_CHECK( E_DLT == ercd, "wai_sem bad ercd !E_DLT" );
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = twai_sem( 2, 20 );
CYG_TEST_CHECK( E_DLT == ercd, "twai_sem bad ercd !E_DLT" );
// check they are deleted
ercd = sig_sem( 1 );
CYG_TEST_CHECK( E_NOEXS == ercd, "sig_sem bad ercd !E_NOEXS" );
ercd = sig_sem( 2 );
CYG_TEST_CHECK( E_NOEXS == ercd, "sig_sem bad ercd !E_NOEXS" );
// re-create and do it again
ercd = cre_sem( 1, &t_csem );
CYG_TEST_CHECK( E_OK == ercd, "cre_sem bad ercd" );
ercd = cre_sem( 2, &t_csem );
CYG_TEST_CHECK( E_OK == ercd, "cre_sem bad ercd" );
// now wait while task 2 deletes the wait objects again
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = wai_sem( 1 );
CYG_TEST_CHECK( E_DLT == ercd, "wai_sem bad ercd !E_DLT" );
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = twai_sem( 2, 20 );
CYG_TEST_CHECK( E_DLT == ercd, "twai_sem bad ercd !E_DLT" );
// check they are deleted
ercd = sig_sem( 1 );
CYG_TEST_CHECK( E_NOEXS == ercd, "sig_sem bad ercd !E_NOEXS" );
ercd = sig_sem( 2 );
CYG_TEST_CHECK( E_NOEXS == ercd, "sig_sem bad ercd !E_NOEXS" );
CYG_TEST_PASS("create/delete semaphores");
#endif // CYGPKG_UITRON_SEMAS_CREATE_DELETE
#ifdef CYGPKG_UITRON_FLAGS_CREATE_DELETE
tests++;
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
ercd = del_flg( -6 );
CYG_TEST_CHECK( E_ID == ercd, "del_flg bad ercd !E_ID" );
ercd = del_flg( 99 );
CYG_TEST_CHECK( E_ID == ercd, "del_flg bad ercd !E_ID" );
ercd = cre_flg( -6, &t_cflg );
CYG_TEST_CHECK( E_ID == ercd, "cre_flg bad ercd !E_ID" );
ercd = cre_flg( 99, &t_cflg );
CYG_TEST_CHECK( E_ID == ercd, "cre_flg bad ercd !E_ID" );
#endif // we can test bad param error returns
// try a pre-existing object
ercd = cre_flg( 3, &t_cflg );
CYG_TEST_CHECK( E_OBJ == ercd, "cre_flg bad ercd !E_OBJ" );
// delete it so we can play
ercd = del_flg( 3 );
CYG_TEST_CHECK( E_OK == ercd, "del_flg bad ercd" );
// check it is deleted
ercd = set_flg( 3, 0x6789 );
CYG_TEST_CHECK( E_NOEXS == ercd, "set_flg bad ercd !E_NOEXS" );
ercd = clr_flg( 3, 0x9876 );
CYG_TEST_CHECK( E_NOEXS == ercd, "clr_flg bad ercd !E_NOEXS" );
ercd = pol_flg( &scratch, 3, 0xdddd, TWF_ANDW );
CYG_TEST_CHECK( E_NOEXS == ercd, "pol_flg bad ercd !E_NOEXS" );
ercd = twai_flg( &scratch, 3, 0x4444, TWF_ORW, 10 );
CYG_TEST_CHECK( E_NOEXS == ercd, "twai_flg bad ercd !E_NOEXS" );
ercd = wai_flg( &scratch, 3, 0xbbbb, TWF_ANDW | TWF_CLR );
CYG_TEST_CHECK( E_NOEXS == ercd, "wai_flg bad ercd !E_NOEXS" );
ercd = ref_flg( &t_rflg, 3 );
CYG_TEST_CHECK( E_NOEXS == ercd, "ref_flg bad ercd !E_NOEXS" );
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
// now try creating it (badly)
#ifndef CYGSEM_UITRON_PARAMS_NULL_IS_GOOD_PTR
ercd = cre_flg( 3, NULL );
CYG_TEST_CHECK( E_PAR == ercd, "cre_flg bad ercd !E_PAR" );
#endif
ercd = cre_flg( 3, NADR );
CYG_TEST_CHECK( E_PAR == ercd, "cre_flg bad ercd !E_PAR" );
t_cflg.flgatr = 0xfff;
ercd = cre_flg( 3, &t_cflg );
CYG_TEST_CHECK( E_RSATR == ercd, "cre_flg bad ercd !E_RSATR" );
#endif // we can test bad param error returns
// now create it well
t_cflg.flgatr = 0;
t_cflg.iflgptn = 0;
ercd = cre_flg( 3, &t_cflg );
CYG_TEST_CHECK( E_OK == ercd, "cre_flg bad ercd" );
// and check we can use it
ercd = clr_flg( 3, 0x7256 );
CYG_TEST_CHECK( E_OK == ercd, "clr_flg bad ercd" );
ercd = set_flg( 3, 0xff );
CYG_TEST_CHECK( E_OK == ercd, "set_flg bad ercd" );
ercd = wai_flg( &scratch, 3, 0xaa, TWF_ANDW | TWF_CLR );
CYG_TEST_CHECK( E_OK == ercd, "wai_flg bad ercd" );
ercd = pol_flg( &scratch, 3, 0xaa, TWF_ANDW | TWF_CLR );
CYG_TEST_CHECK( E_TMOUT == ercd, "pol_flg bad ercd !E_TMOUT" );
ercd = twai_flg( &scratch, 3, 0xaa, TWF_ANDW | TWF_CLR, 2 );
CYG_TEST_CHECK( E_TMOUT == ercd, "twai_flg bad ercd !E_TMOUT" );
ercd = ref_flg( &t_rflg, 3 );
CYG_TEST_CHECK( E_OK == ercd, "ref_flg bad ercd" );
CYG_TEST_CHECK( 0 == t_rflg.flgptn, "ref_flg bad ercd" );
// now create it again with a preset pattern and check that we can
// detect that pattern:
ercd = del_flg( 3 );
CYG_TEST_CHECK( E_OK == ercd, "del_flg bad ercd" );
t_cflg.flgatr = 0;
t_cflg.iflgptn = 0x1234;
ercd = cre_flg( 3, &t_cflg );
CYG_TEST_CHECK( E_OK == ercd, "cre_flg bad ercd" );
// and check we can use it
ercd = wai_flg( &scratch, 3, 0x1200, TWF_ANDW );
CYG_TEST_CHECK( E_OK == ercd, "wai_flg bad ercd" );
ercd = pol_flg( &scratch, 3, 0x0034, TWF_ANDW );
CYG_TEST_CHECK( E_OK == ercd, "pol_flg bad ercd" );
ercd = twai_flg( &scratch, 3, 0x1004, TWF_ANDW, 10 );
CYG_TEST_CHECK( E_OK == ercd, "twai_flg bad ercd" );
ercd = pol_flg( &scratch, 3, 0xffedcb, TWF_ORW );
CYG_TEST_CHECK( E_TMOUT == ercd, "pol_flg bad ercd !E_TMOUT" );
ercd = ref_flg( &t_rflg, 3 );
CYG_TEST_CHECK( E_OK == ercd, "ref_flg bad ercd" );
CYG_TEST_CHECK( 0x1234 == t_rflg.flgptn, "ref_flg bad ercd" );
ercd = clr_flg( 3, 0 );
ercd = ref_flg( &t_rflg, 3 );
CYG_TEST_CHECK( E_OK == ercd, "ref_flg bad ercd" );
CYG_TEST_CHECK( 0 == t_rflg.flgptn, "ref_flg bad ercd" );
// now wait while task 2 deletes the wait objects
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = wai_flg( &scratch, 1, 0xaa, TWF_ANDW );
CYG_TEST_CHECK( E_DLT == ercd, "wai_flg bad ercd !E_DLT" );
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = twai_flg( &scratch, 2, 0x55, TWF_ANDW, 20 );
CYG_TEST_CHECK( E_DLT == ercd, "twai_flg bad ercd !E_DLT" );
// check they are deleted
ercd = set_flg( 1, 0x22 );
CYG_TEST_CHECK( E_NOEXS == ercd, "set_flg bad ercd !E_NOEXS" );
ercd = clr_flg( 2, 0xdd );
CYG_TEST_CHECK( E_NOEXS == ercd, "clr_flg bad ercd !E_NOEXS" );
// re-create and do it again
t_cflg.iflgptn = 0x5555;
ercd = cre_flg( 1, &t_cflg );
CYG_TEST_CHECK( E_OK == ercd, "cre_flg bad ercd" );
t_cflg.iflgptn = 0;
ercd = cre_flg( 2, &t_cflg );
CYG_TEST_CHECK( E_OK == ercd, "cre_flg bad ercd" );
// now wait while task 2 deletes the wait objects again
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = wai_flg( &scratch, 1, 0xaaaa, TWF_ORW | TWF_CLR );
CYG_TEST_CHECK( E_DLT == ercd, "wai_flg bad ercd !E_DLT" );
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = twai_flg( &scratch, 2, 0xffff, TWF_ORW, 20 );
CYG_TEST_CHECK( E_DLT == ercd, "twai_flg bad ercd !E_DLT" );
// check they are deleted
ercd = clr_flg( 1, 0xd00d );
CYG_TEST_CHECK( E_NOEXS == ercd, "clr_flg bad ercd !E_NOEXS" );
ercd = set_flg( 2, 0xfff00 );
CYG_TEST_CHECK( E_NOEXS == ercd, "set_flg bad ercd !E_NOEXS" );
CYG_TEST_PASS("create/delete flags");
#endif // CYGPKG_UITRON_FLAGS_CREATE_DELETE
#ifdef CYGPKG_UITRON_MBOXES_CREATE_DELETE
tests++;
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
ercd = del_mbx( -6 );
CYG_TEST_CHECK( E_ID == ercd, "del_mbx bad ercd !E_ID" );
ercd = del_mbx( 99 );
CYG_TEST_CHECK( E_ID == ercd, "del_mbx bad ercd !E_ID" );
ercd = cre_mbx( -6, &t_cmbx );
CYG_TEST_CHECK( E_ID == ercd, "cre_mbx bad ercd !E_ID" );
ercd = cre_mbx( 99, &t_cmbx );
CYG_TEST_CHECK( E_ID == ercd, "cre_mbx bad ercd !E_ID" );
#endif // we can test bad param error returns
// try a pre-existing object
ercd = cre_mbx( 3, &t_cmbx );
CYG_TEST_CHECK( E_OBJ == ercd, "cre_mbx bad ercd !E_OBJ" );
// delete it so we can play
ercd = del_mbx( 3 );
CYG_TEST_CHECK( E_OK == ercd, "del_mbx bad ercd" );
// check it is deleted
ercd = snd_msg( 3, t_msg );
CYG_TEST_CHECK( E_NOEXS == ercd, "snd_msg bad ercd !E_NOEXS" );
ercd = rcv_msg( &msg, 3 );
CYG_TEST_CHECK( E_NOEXS == ercd, "rcv_msg bad ercd !E_NOEXS" );
ercd = trcv_msg( &msg, 3, 10 );
CYG_TEST_CHECK( E_NOEXS == ercd, "trcv_msg bad ercd !E_NOEXS" );
ercd = prcv_msg( &msg, 3 );
CYG_TEST_CHECK( E_NOEXS == ercd, "prcv_msg bad ercd !E_NOEXS" );
ercd = ref_mbx( &t_rmbx, 3 );
CYG_TEST_CHECK( E_NOEXS == ercd, "ref_mbx bad ercd !E_NOEXS" );
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
// now try creating it (badly)
#ifndef CYGSEM_UITRON_PARAMS_NULL_IS_GOOD_PTR
ercd = cre_mbx( 3, NULL );
CYG_TEST_CHECK( E_PAR == ercd, "cre_mbx bad ercd !E_PAR" );
#endif
ercd = cre_mbx( 3, NADR );
CYG_TEST_CHECK( E_PAR == ercd, "cre_mbx bad ercd !E_PAR" );
t_cmbx.mbxatr = 0xfff;
ercd = cre_mbx( 3, &t_cmbx );
CYG_TEST_CHECK( E_RSATR == ercd, "cre_mbx bad ercd !E_RSATR" );
t_cmbx.mbxatr = 0;
#endif // we can test bad param error returns
ercd = cre_mbx( 3, &t_cmbx );
CYG_TEST_CHECK( E_OK == ercd, "cre_mbx bad ercd" );
// and check we can use it
ercd = snd_msg( 3, t_msg );
CYG_TEST_CHECK( E_OK == ercd, "snd_msg bad ercd" );
ercd = rcv_msg( &msg, 3 );
CYG_TEST_CHECK( E_OK == ercd, "rcv_msg bad ercd" );
ercd = trcv_msg( &msg, 3, 2 );
CYG_TEST_CHECK( E_TMOUT == ercd, "trcv_msg bad ercd !E_TMOUT" );
ercd = prcv_msg( &msg, 3 );
CYG_TEST_CHECK( E_TMOUT == ercd, "prcv_msg bad ercd !E_TMOUT" );
ercd = ref_mbx( &t_rmbx, 3 );
CYG_TEST_CHECK( E_OK == ercd, "ref_mbx bad ercd" );
// now wait while task 2 deletes the wait objects
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = rcv_msg( &msg, 1 );
CYG_TEST_CHECK( E_DLT == ercd, "wai_mbx bad ercd !E_DLT" );
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = trcv_msg( &msg, 2, 20 );
CYG_TEST_CHECK( E_DLT == ercd, "twai_mbx bad ercd !E_DLT" );
// check they are deleted
ercd = snd_msg( 1, t_msg );
CYG_TEST_CHECK( E_NOEXS == ercd, "snd_msg bad ercd !E_NOEXS" );
ercd = snd_msg( 2, t_msg );
CYG_TEST_CHECK( E_NOEXS == ercd, "snd_msg bad ercd !E_NOEXS" );
// re-create and do it again
ercd = cre_mbx( 1, &t_cmbx );
CYG_TEST_CHECK( E_OK == ercd, "cre_mbx bad ercd" );
ercd = cre_mbx( 2, &t_cmbx );
CYG_TEST_CHECK( E_OK == ercd, "cre_mbx bad ercd" );
// now wait while task 2 deletes the wait objects again
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = rcv_msg( &msg, 1 );
CYG_TEST_CHECK( E_DLT == ercd, "wai_mbx bad ercd !E_DLT" );
ercd = wup_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "wup_tsk bad ercd" );
ercd = trcv_msg( &msg, 2, 20 );
CYG_TEST_CHECK( E_DLT == ercd, "twai_mbx bad ercd !E_DLT" );
// check they are deleted
ercd = snd_msg( 1, t_msg );
CYG_TEST_CHECK( E_NOEXS == ercd, "snd_msg bad ercd !E_NOEXS" );
ercd = snd_msg( 2, t_msg );
CYG_TEST_CHECK( E_NOEXS == ercd, "snd_msg bad ercd !E_NOEXS" );
CYG_TEST_PASS("create/delete mboxes");
#endif // CYGPKG_UITRON_MBOXES_CREATE_DELETE
ercd = ter_tsk( 2 );
CYG_TEST_CHECK( E_OK == ercd, "ter_tsk bad ercd" );
ercd = dly_tsk( 5 );
CYG_TEST_CHECK( E_OK == ercd, "dly_tsk bad ercd" );
// all done
if ( 0 == tests ) {
CYG_TEST_NA( "No objects have create/delete enabled" );
}
else {
CYG_TEST_EXIT( "All done" );
}
ext_tsk();
}
void
task2(intptr_t exinf)
{
ER_UINT ercd;
check_point(2);
ercd = snd_mbf(MBF1, string1, 26);
check_ercd(ercd, E_OK);
check_point(9);
check_assert(strncmp(buf1, string1, 26) == 0);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 26);
check_assert(strncmp(buf1, string2, 26) == 0);
check_point(10);
ercd = snd_mbf(MBF1, string3, 10);
check_ercd(ercd, E_OK);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 10);
check_assert(strncmp(buf1, string3, 10) == 0);
check_point(11);
ercd = snd_mbf(MBF1, string1, 26);
check_ercd(ercd, E_OK);
check_point(16);
check_assert(strncmp(buf1, string1, 26) == 0);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 10);
check_assert(strncmp(buf1, string3, 10) == 0);
check_point(17);
ercd = snd_mbf(MBF1, string1, 26);
check_ercd(ercd, E_OK);
check_point(22);
ercd = snd_mbf(MBF1, string2, 10);
check_ercd(ercd, E_OK);
check_point(25);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 10);
check_assert(strncmp(buf1, string2, 10) == 0);
ercd = chg_pri(TASK3, TPRI_INI);
check_ercd(ercd, E_OK);
check_point(26);
ercd = snd_mbf(MBF1, string3, 10);
check_ercd(ercd, E_OK);
check_point(28);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 10);
check_assert(strncmp(buf1, string3, 10) == 0);
ercd = chg_pri(TASK3, TPRI_INI);
check_ercd(ercd, E_OK);
check_point(29);
ercd = snd_mbf(MBF1, string1, 26);
check_ercd(ercd, E_OK);
check_point(31);
check_assert(strncmp(buf1, string1, 26) == 0);
ercd = chg_pri(TSK_SELF, TPRI_INI);
check_ercd(ercd, E_OK);
check_point(32);
ercd = snd_mbf(MBF1, string2, 10);
check_ercd(ercd, E_OK);
check_point(35);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 10);
check_assert(strncmp(buf1, string2, 10) == 0);
ercd = chg_pri(TSK_SELF, TPRI_INI);
check_ercd(ercd, E_OK);
check_point(36);
ercd = snd_mbf(MBF1, string3, 10);
check_ercd(ercd, E_OK);
check_point(38);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 10);
check_assert(strncmp(buf1, string3, 10) == 0);
ercd = rcv_mbf(MBF1, buf1);
check_ercd(ercd, 26);
check_assert(strncmp(buf1, string1, 26) == 0);
check_finish(39);
check_point(0);
}
/*
* メインタスク
*/
void main_task(intptr_t exinf)
{
char_t c;
ID tskid = TASK1;
int_t tskno = 1;
ER_UINT ercd;
PRI tskpri;
#ifndef TASK_LOOP
volatile ulong_t i;
SYSTIM stime1, stime2;
#endif /* TASK_LOOP */
#ifdef TOPPERS_SUPPORT_GET_UTM
SYSUTM utime1, utime2;
#endif /* TOPPERS_SUPPORT_GET_UTM */
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_INFO), LOG_UPTO(LOG_EMERG)));
syslog(LOG_NOTICE, "Sample program starts (exinf = %d).", (int_t) exinf);
/*
* シリアルポートの初期化
*
* システムログタスクと同じシリアルポートを使う場合など,シリアル
* ポートがオープン済みの場合にはここでE_OBJエラーになるが,支障は
* ない.
*/
ercd = serial_opn_por(TASK_PORTID);
if (ercd < 0 && MERCD(ercd) != E_OBJ) {
syslog(LOG_ERROR, "%s (%d) reported by `serial_opn_por'.",
itron_strerror(ercd), SERCD(ercd));
}
SVC_PERROR(serial_ctl_por(TASK_PORTID,
(IOCTL_CRLF | IOCTL_FCSND | IOCTL_FCRCV)));
/*
* ループ回数の設定
*
* TASK_LOOPがマクロ定義されている場合,測定せずに,TASK_LOOPに定
* 義された値を,タスク内でのループ回数とする.
*
* MEASURE_TWICEがマクロ定義されている場合,1回目の測定結果を捨て
* て,2回目の測定結果を使う.1回目の測定は長めの時間が出るため.
*/
#ifdef TASK_LOOP
task_loop = TASK_LOOP;
#else /* TASK_LOOP */
#ifdef MEASURE_TWICE
task_loop = LOOP_REF;
SVC_PERROR(get_tim(&stime1));
for (i = 0; i < task_loop; i++);
SVC_PERROR(get_tim(&stime2));
#endif /* MEASURE_TWICE */
task_loop = LOOP_REF;
SVC_PERROR(get_tim(&stime1));
for (i = 0; i < task_loop; i++);
SVC_PERROR(get_tim(&stime2));
task_loop = LOOP_REF * 400UL / (stime2 - stime1);
#endif /* TASK_LOOP */
tex_loop = task_loop / 5;
/*
* タスクの起動
*/
SVC_PERROR(act_tsk(TASK1));
SVC_PERROR(act_tsk(TASK2));
SVC_PERROR(act_tsk(TASK3));
/*
* メインループ
*/
do {
SVC_PERROR(serial_rea_dat(TASK_PORTID, &c, 1));
switch (c) {
case 'e':
case 's':
case 'S':
case 'd':
case 'y':
case 'Y':
case 'z':
case 'Z':
message[tskno-1] = c;
break;
case '1':
tskno = 1;
tskid = TASK1;
break;
case '2':
tskno = 2;
tskid = TASK2;
break;
case '3':
tskno = 3;
tskid = TASK3;
break;
case 'a':
syslog(LOG_INFO, "#act_tsk(%d)", tskno);
SVC_PERROR(act_tsk(tskid));
break;
case 'A':
syslog(LOG_INFO, "#can_act(%d)", tskno);
SVC_PERROR(ercd = can_act(tskid));
if (ercd >= 0) {
syslog(LOG_NOTICE, "can_act(%d) returns %d", tskno, ercd);
}
break;
case 't':
syslog(LOG_INFO, "#ter_tsk(%d)", tskno);
SVC_PERROR(ter_tsk(tskid));
break;
case '>':
syslog(LOG_INFO, "#chg_pri(%d, HIGH_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, HIGH_PRIORITY));
break;
case '=':
syslog(LOG_INFO, "#chg_pri(%d, MID_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, MID_PRIORITY));
break;
case '<':
syslog(LOG_INFO, "#chg_pri(%d, LOW_PRIORITY)", tskno);
SVC_PERROR(chg_pri(tskid, LOW_PRIORITY));
break;
case 'G':
syslog(LOG_INFO, "#get_pri(%d, &tskpri)", tskno);
SVC_PERROR(ercd = get_pri(tskid, &tskpri));
if (ercd >= 0) {
syslog(LOG_NOTICE, "priority of task %d is %d", tskno, tskpri);
}
break;
case 'w':
syslog(LOG_INFO, "#wup_tsk(%d)", tskno);
SVC_PERROR(wup_tsk(tskid));
break;
case 'W':
syslog(LOG_INFO, "#can_wup(%d)", tskno);
SVC_PERROR(ercd = can_wup(tskid));
if (ercd >= 0) {
syslog(LOG_NOTICE, "can_wup(%d) returns %d", tskno, ercd);
}
break;
case 'l':
syslog(LOG_INFO, "#rel_wai(%d)", tskno);
SVC_PERROR(rel_wai(tskid));
break;
case 'u':
syslog(LOG_INFO, "#sus_tsk(%d)", tskno);
SVC_PERROR(sus_tsk(tskid));
break;
case 'm':
syslog(LOG_INFO, "#rsm_tsk(%d)", tskno);
SVC_PERROR(rsm_tsk(tskid));
break;
case 'x':
syslog(LOG_INFO, "#ras_tex(%d, 0x0001U)", tskno);
SVC_PERROR(ras_tex(tskid, 0x0001U));
break;
case 'X':
syslog(LOG_INFO, "#ras_tex(%d, 0x0002U)", tskno);
SVC_PERROR(ras_tex(tskid, 0x0002U));
break;
case 'r':
syslog(LOG_INFO, "#rot_rdq(three priorities)");
SVC_PERROR(rot_rdq(HIGH_PRIORITY));
SVC_PERROR(rot_rdq(MID_PRIORITY));
SVC_PERROR(rot_rdq(LOW_PRIORITY));
break;
case 'c':
syslog(LOG_INFO, "#sta_cyc(1)");
SVC_PERROR(sta_cyc(CYCHDR1));
break;
case 'C':
syslog(LOG_INFO, "#stp_cyc(1)");
SVC_PERROR(stp_cyc(CYCHDR1));
break;
case 'b':
syslog(LOG_INFO, "#sta_alm(1, 5000)");
SVC_PERROR(sta_alm(ALMHDR1, 5000));
break;
case 'B':
syslog(LOG_INFO, "#stp_alm(1)");
SVC_PERROR(stp_alm(ALMHDR1));
break;
case 'V':
#ifdef TOPPERS_SUPPORT_GET_UTM
SVC_PERROR(get_utm(&utime1));
SVC_PERROR(get_utm(&utime2));
syslog(LOG_NOTICE, "utime1 = %ld, utime2 = %ld",
(ulong_t) utime1, (ulong_t) utime2);
#else /* TOPPERS_SUPPORT_GET_UTM */
syslog(LOG_NOTICE, "get_utm is not supported.");
#endif /* TOPPERS_SUPPORT_GET_UTM */
break;
case 'v':
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_INFO),
LOG_UPTO(LOG_EMERG)));
break;
case 'q':
SVC_PERROR(syslog_msk_log(LOG_UPTO(LOG_NOTICE),
LOG_UPTO(LOG_EMERG)));
break;
#ifdef BIT_KERNEL
case ' ':
SVC_PERROR(loc_cpu());
{
extern ER bit_kernel(void);
SVC_PERROR(ercd = bit_kernel());
if (ercd >= 0) {
syslog(LOG_NOTICE, "bit_kernel passed.");
}
}
SVC_PERROR(unl_cpu());
break;
#endif /* BIT_KERNEL */
default:
break;
}
} while (c != '\003' && c != 'Q');
syslog(LOG_NOTICE, "Sample program ends.");
SVC_PERROR(ext_ker());
assert(0);
}
void
task2(intptr_t exinf)
{
ER ercd;
switch (++task2_count) {
case 1:
check_point(3);
ercd = loc_mtx(MTX1);
check_ercd(ercd, E_OK);
check_point(4);
ercd = ext_tsk();
check_point(0);
case 2:
check_point(8);
ercd = loc_mtx(MTX1);
check_ercd(ercd, E_OK);
check_point(9);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(12);
ercd = ext_tsk();
check_point(0);
case 3:
check_point(16);
ercd = loc_mtx(MTX1);
check_ercd(ercd, E_OK);
ercd = loc_mtx(MTX2);
check_ercd(ercd, E_OK);
check_point(17);
ercd = ext_tsk();
check_point(0);
case 4:
check_point(21);
ercd = loc_mtx(MTX1);
check_ercd(ercd, E_OK);
ercd = loc_mtx(MTX2);
check_ercd(ercd, E_OK);
check_point(22);
ercd = chg_pri(TASK1, HIGH_PRIORITY);
check_ercd(ercd, E_OK);
check_point(23);
ercd = rot_rdq(TPRI_SELF);
check_ercd(ercd, E_OK);
check_point(24);
ercd = slp_tsk();
check_ercd(ercd, E_OK);
check_point(29);
ercd = ext_tsk();
check_point(0);
}
check_point(0);
}
/*
* メインタスク
*/
void main_task(VP_INT exinf)
{
char c;
ID tskid = TASK1;
volatile UW i;
INT tskno = 1;
ER_UINT ercd;
PRI tskpri;
SYSTIM stime1, stime2;
#ifndef OMIT_VGET_TIM
SYSUTIM utime1, utime2;
#endif /* OMIT_VGET_TIM */
vmsk_log(LOG_UPTO(LOG_INFO), LOG_UPTO(LOG_EMERG));
syslog(LOG_NOTICE, "Sample program starts (exinf = %d).", (int)exinf);
syscall(serial_ctl_por(TASK_PORTID,
(IOCTL_CRLF | IOCTL_FCSND | IOCTL_FCRCV)));
/*
* ループ回数の設定
*/
task_loop = LOOP_REF;
get_tim(&stime1);
for (i = 0; i < task_loop; i++);
get_tim(&stime2);
task_loop = LOOP_REF * 400 / (stime2 - stime1);
tex_loop = task_loop / 5;
/*
* タスクの起動
*/
act_tsk(TASK1);
act_tsk(TASK2);
act_tsk(TASK3);
/*
* メインループ
*/
do {
syscall(serial_rea_dat(TASK_PORTID, &c, 1));
switch (c) {
case 'e':
case 's':
case 'S':
case 'd':
case 'y':
case 'Y':
case 'z':
case 'Z':
message[tskno-1] = c;
break;
case '1':
tskno = 1;
tskid = TASK1;
break;
case '2':
tskno = 2;
tskid = TASK2;
break;
case '3':
tskno = 3;
tskid = TASK3;
break;
case 'a':
syslog(LOG_INFO, "#act_tsk(%d)", tskno);
syscall(act_tsk(tskid));
break;
case 'A':
syslog(LOG_INFO, "#can_act(%d)", tskno);
syscall(ercd = can_act(tskid));
if (ercd >= 0) {
syslog(LOG_NOTICE, "can_act(%d) returns %d",
tskno, ercd);
}
break;
case 't':
syslog(LOG_INFO, "#ter_tsk(%d)", tskno);
syscall(ter_tsk(tskid));
break;
case '>':
syslog(LOG_INFO, "#chg_pri(%d, HIGH_PRIORITY)", tskno);
chg_pri(tskid, HIGH_PRIORITY);
break;
case '=':
syslog(LOG_INFO, "#chg_pri(%d, MID_PRIORITY)", tskno);
chg_pri(tskid, MID_PRIORITY);
break;
case '<':
syslog(LOG_INFO, "#chg_pri(%d, LOW_PRIORITY)", tskno);
chg_pri(tskid, LOW_PRIORITY);
break;
case 'G':
syslog(LOG_INFO, "#get_pri(%d, &tskpri)", tskno);
syscall(ercd = get_pri(tskid, &tskpri));
if (ercd >= 0) {
syslog(LOG_NOTICE, "priority of task %d is %d",
tskno, tskpri);
}
break;
case 'w':
syslog(LOG_INFO, "#wup_tsk(%d)", tskno);
syscall(wup_tsk(tskid));
break;
case 'W':
syslog(LOG_INFO, "#can_wup(%d)", tskno);
syscall(ercd = can_wup(tskid));
if (ercd >= 0) {
syslog(LOG_NOTICE, "can_wup(%d) returns %d",
tskno, ercd);
}
break;
case 'l':
syslog(LOG_INFO, "#rel_wai(%d)", tskno);
syscall(rel_wai(tskid));
break;
case 'u':
syslog(LOG_INFO, "#sus_tsk(%d)", tskno);
syscall(sus_tsk(tskid));
break;
case 'm':
syslog(LOG_INFO, "#rsm_tsk(%d)", tskno);
syscall(rsm_tsk(tskid));
break;
case 'M':
syslog(LOG_INFO, "#frsm_tsk(%d)", tskno);
syscall(frsm_tsk(tskid));
break;
case 'x':
syslog(LOG_INFO, "#ras_tex(%d, 0x0001)", tskno);
syscall(ras_tex(tskid, 0x0001));
break;
case 'X':
syslog(LOG_INFO, "#ras_tex(%d, 0x0002)", tskno);
syscall(ras_tex(tskid, 0x0002));
break;
case 'r':
syslog(LOG_INFO, "#rot_rdq(three priorities)");
rot_rdq(HIGH_PRIORITY);
rot_rdq(MID_PRIORITY);
rot_rdq(LOW_PRIORITY);
break;
case 'c':
sta_cyc(CYCHDR1);
break;
case 'C':
stp_cyc(CYCHDR1);
break;
#ifndef OMIT_VGET_TIM
case 'V':
syscall(vxget_tim(&utime1));
syscall(vxget_tim(&utime2));
syslog(LOG_NOTICE, "utime1 = %d, utime2 = %d",
(UINT) utime1, (UINT) utime2);
break;
#endif /* OMIT_VGET_TIM */
case 'v':
vmsk_log(LOG_UPTO(LOG_INFO), LOG_UPTO(LOG_EMERG));
break;
case 'q':
vmsk_log(LOG_UPTO(LOG_NOTICE), LOG_UPTO(LOG_EMERG));
break;
default:
break;
}
} while (c != '\003' && c != 'Q');
syslog(LOG_NOTICE, "Sample program ends.");
kernel_exit();
}
void
task2(intptr_t exinf)
{
ER_UINT ercd;
T_RTSK rtsk;
switch (++task2_count) {
case 1:
check_point(4);
ercd = loc_mtx(MTX1);
check_ercd(ercd, E_OK);
ercd = ext_tsk();
check_ercd(ercd, E_OK);
check_point(0);
case 2:
check_point(6);
ercd = loc_mtx(MTX1);
check_ercd(ercd, E_OK);
ercd = act_tsk(TASK3);
check_ercd(ercd, E_OK);
check_point(8);
ercd = ext_tsk();
check_ercd(ercd, E_OK);
check_point(0);
case 3:
check_point(11);
ercd = ext_tsk();
check_ercd(ercd, E_OK);
check_point(0);
case 4:
check_point(12);
ercd = ref_tsk(TASK2, &rtsk);
check_ercd(ercd, E_OK);
check_assert(rtsk.tskstat == TTS_RUN);
check_assert(rtsk.actcnt == 0U);
ercd = act_tsk(TASK2);
check_ercd(ercd, E_OK);
ercd = chg_pri(TASK2, TASK3_PRIORITY);
check_ercd(ercd, E_OK);
ercd = act_tsk(TASK3);
check_ercd(ercd, E_OK);
check_point(13);
ercd = ext_tsk();
check_ercd(ercd, E_OK);
check_point(0);
case 5:
check_point(15);
check_assert(sns_loc() == false);
ercd = chg_ipm(TMAX_INTPRI);
check_ercd(ercd, E_OK);
ercd = ext_tsk();
check_ercd(ercd, E_OK);
check_point(0);
case 6:
check_point(17);
ercd = chg_ipm(TMAX_INTPRI);
check_ercd(ercd, E_OK);
ercd = act_tsk(TASK3);
check_ercd(ercd, E_OK);
ercd = act_tsk(TASK4);
check_ercd(ercd, E_OK);
check_point(18);
ercd = ext_tsk();
check_ercd(ercd, E_OK);
check_point(0);
case 7:
check_point(22);
ercd = dis_dsp();
check_ercd(ercd, E_OK);
ercd = ext_tsk();
check_ercd(ercd, E_OK);
check_point(0);
case 8:
check_point(24);
ercd = dis_dsp();
check_ercd(ercd, E_OK);
ercd = act_tsk(TASK3);
check_ercd(ercd, E_OK);
ercd = act_tsk(TASK4);
check_ercd(ercd, E_OK);
check_point(25);
ercd = ext_tsk();
check_ercd(ercd, E_OK);
check_point(0);
default:
check_point(0);
}
check_point(0);
}
