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/*
* Project: S.Ha.R.K.
*
* Coordinators:
* Giorgio Buttazzo <giorgio@sssup.it>
* Paolo Gai <pj@gandalf.sssup.it>
*
* Authors :
* Giacomo Guidi <giacomo@gandalf.sssup.it>
* Anton Cervin
*
* ReTiS Lab (Scuola Superiore S.Anna - Pisa - Italy)
*
* http://www.sssup.it
* http://retis.sssup.it
* http://shark.sssup.it
*/
/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "kernel/kern.h"
#include "time.h"
#include "modules/elastic.h"
#include <drivers/shark_keyb26.h>
#define MAX_TASKS 7
/* A task that scrolls a number (the task number) across the screen */
TASK elastic_test
(void *arg
) {
int y
= (int)arg
;
int x
= 0;
char str
[2];
str
[0] = '0' + y
+ 1;
str
[1] = '\0';
while(1) {
puts_xy
(x
,y
,LIGHTGRAY
," ");
x
= (x
+ 1) % 80;
puts_xy
(x
,y
,LIGHTGRAY
,str
);
task_testcancel
();
task_endcycle
();
}
}
/* A simple keyboard string input routine */
void myinput
(char *query
, char *buf
, int len
) {
BYTE c
;
int n
= 0;
cprintf
(query
);
do {
c
= keyb_getch
(NON_BLOCK
);
if (c
== '\r') break;
if (c
== '\b') {
if (n
> 0) {
cprintf
("%c", '\b');
n
--;
}
} else if ((c
>= '0' && c
<= '9') || (c
>= 'a' && c
<= 'z')) {
cprintf
("%c", c
);
buf
[n
++] = c
;
}
} while (n
< len
);
buf
[n
] = '\0';
cprintf
("\n");
}
/* The main program */
int main
(int argc
, char **argv
)
{
ELASTIC_TASK_MODEL e
;
PID el_pid
;
PID pidvec
[MAX_TASKS
];
int quit
= 0;
char buf
[80];
int y
;
int Tmin
, Tmax
, C
, E
, T
, nbr
, i
;
double U
, Umax
;
for (i
=0; i
<MAX_TASKS
; i
++) pidvec
[i
] = NIL
;
clear
();
/* Create predefined task 1 */
elastic_task_default_model
(e
);
elastic_task_def_period
(e
, 50000, 200000);
elastic_task_def_wcet
(e
, 25000);
elastic_task_def_param
(e
, 5, PERIOD_SCALING
);
elastic_task_def_arg
(e
, (void *)0);
el_pid
= task_create
("Elastic",elastic_test
,&e
,NULL
);
if (el_pid
== NIL
) {
cprintf
("ELASTIC_public_create failed!\n");
} else {
pidvec
[0] = el_pid
;
task_activate
(el_pid
);
}
/* Create predefined task 2 */
elastic_task_default_model
(e
);
elastic_task_def_period
(e
, 100000, 150000);
elastic_task_def_wcet
(e
, 40000);
elastic_task_def_param
(e
, 10, PERIOD_SCALING
);
elastic_task_def_arg
(e
, (void *)1);
el_pid
= task_create
("Elastic",elastic_test
,&e
,NULL
);
if (el_pid
== NIL
) {
cprintf
("ELASTIC_public_create failed!\n");
} else {
pidvec
[1] = el_pid
;
task_activate
(el_pid
);
}
do {
/* Print task table */
for (y
= 7; y
<=15; y
++) {
puts_xy
(0,y
,LIGHTGRAY
," ");
}
place
(0,7);
U
= 0.0;
Umax
= 0.0;
cprintf
("Nbr Tmin Tmax C E T \n");
for (i
=0; i
<MAX_TASKS
; i
++) {
if (pidvec
[i
] != NIL
) {
Tmin
= ELASTIC_get_Tmin
(pidvec
[i
]);
Tmax
= ELASTIC_get_Tmax
(pidvec
[i
]);
C
= ELASTIC_get_C
(pidvec
[i
]);
E
= ELASTIC_get_E
(pidvec
[i
]);
T
= ELASTIC_get_period
(pidvec
[i
]);
U
+= (double)C
/(double)T
;
Umax
+= (double)C
/(double)Tmin
;
cprintf
(" %1d %4d %4d %4d %4d %4d\n", i
+1, Tmin
/1000, Tmax
/1000, C
/1000, E
, T
/1000);
}
}
cprintf
("Maximum utilization: %5.3f Actual utilization: %5.3f\n", Umax
, U
);
puts_xy
(0,16,LIGHTGRAY
," ");
place
(0,16);
myinput
("(q)uit, (c)reate, (k)ill, force (p)eriod, change (e)lasticity? ", buf
, 10);
for (y
= 17; y
<=24; y
++) {
puts_xy
(0,y
,LIGHTGRAY
," ");
}
switch (buf
[0]) {
/* Quit */
case 'q':
quit
= 1;
break;
/* Create task */
case 'c':
cprintf
("Create task");
for (i
=0; i
<MAX_TASKS
; i
++) {
if (pidvec
[i
] == NIL
) break;
}
if (i
== MAX_TASKS
) {
cprintf
("\nNo more task slots available!\n");
break;
} else {
cprintf
(" %d\n", i
+1);
}
myinput
("Tmin (ms): ", buf
, 10);
Tmin
= 1000*atoi(buf
);
myinput
("Tmax (ms): ", buf
, 10);
Tmax
= 1000*atoi(buf
);
myinput
("C (ms): ", buf
, 10);
C
= 1000*atoi(buf
);
myinput
("E: ", buf
, 10);
E
= atoi(buf
);
elastic_task_default_model
(e
);
elastic_task_def_period
(e
, Tmin
, Tmax
);
elastic_task_def_wcet
(e
, C
);
elastic_task_def_param
(e
, E
, PERIOD_SCALING
);
elastic_task_def_arg
(e
, (void *)i
);
el_pid
= task_create
("Elastic",elastic_test
,&e
,NULL
);
if (el_pid
== NIL
) {
cprintf
("ELASTIC_public_create failed!\n");
} else {
pidvec
[i
] = el_pid
;
task_activate
(el_pid
);
}
break;
/* Force period */
case 'p':
myinput
("Force period\nTask nbr: ", buf
, 10);
nbr
= atoi(buf
);
if (nbr
< 1 || nbr
> MAX_TASKS
) {
cprintf
("Invalid task number!\n");
break;
}
el_pid
= pidvec
[nbr
-1];
if (el_pid
== NIL
) {
cprintf
("Task does not exist!\n");
break;
}
myinput
("T (ms): ", buf
, 10);
T
= 1000*atoi(buf
);
if (ELASTIC_set_period
(el_pid
, T
) == -1) {
cprintf
("ELASTIC_set_period failed!\n");
}
break;
/* Kill task */
case 'k':
myinput
("Kill task\nTask nbr: ", buf
, 10);
nbr
= atoi(buf
);
if (nbr
< 1 || nbr
> MAX_TASKS
) {
cprintf
("Invalid task number!\n");
break;
}
el_pid
= pidvec
[nbr
-1];
if (el_pid
== NIL
) {
cprintf
("Task does not exist!\n");
break;
}
task_kill
(el_pid
);
pidvec
[nbr
-1] = NIL
;
usleep
(500000); // wait half a second before redrawing the task table!!!
/* also erase task number */
puts_xy
(0,nbr
-1,LIGHTGRAY
," ");
break;
/* Set elasticity */
case 'e':
myinput
("Set elasticity\nTask nbr: ", buf
, 10);
nbr
= atoi(buf
);
if (nbr
< 1 || nbr
> MAX_TASKS
) {
cprintf
("Invalid task number!\n");
break;
}
el_pid
= pidvec
[nbr
-1];
if (el_pid
== NIL
) {
cprintf
("Task does not exist!\n");
break;
}
myinput
("E: ", buf
, 10);
E
= atoi(buf
);
if (ELASTIC_set_E
(el_pid
, E
) == -1) {
cprintf
("ELASTIC_set_E failed!\n");
}
break;
default:
cprintf
("Unknown command\n");
break;
}
} while (!quit
);
exit(1);
return 0;
}