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1181 giacomo 1 
/*
2 
 * Project: S.Ha.R.K.
3 
 *
4 
 * Coordinators:
5 
 *   Giorgio Buttazzo    <giorgio@sssup.it>
6 
 *   Paolo Gai           <pj@gandalf.sssup.it>
7 
 *
8 
 * Authors     :
9 
 *   Giacomo Guidi       <giacomo@gandalf.sssup.it>
10 
 *   (see the web pages for full authors list)
11 
 *
12 
 * ReTiS Lab (Scuola Superiore S.Anna - Pisa - Italy)
13 
 *
14 
 * http://www.sssup.it
15 
 * http://retis.sssup.it
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 * http://shark.sssup.it
17 
 */
18 
 
19 
/*
20 
 * Copyright (C) 2002 Paolo Gai
21 
 *
22 
 * This program is free software; you can redistribute it and/or modify
23 
 * it under the terms of the GNU General Public License as published by
24 
 * the Free Software Foundation; either version 2 of the License, or
25 
 * (at your option) any later version.
26 
 *
27 
 * This program is distributed in the hope that it will be useful,
28 
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
29 
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
30 
 * GNU General Public License for more details.
31 
 *
32 
 * You should have received a copy of the GNU General Public License
33 
 * along with this program; if not, write to the Free Software
34 
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
35 
 *
36 
 */
37 
 
38 
#include "kernel/kern.h"
39 
 
40 
#include "modules/edf.h"
41 
#include "modules/cbs.h"
42 
 
43 
#include "pthread.h"
1186 giacomo 44 
#include "posix.h"
1181 giacomo 45 
 
46 
#include "fsf_contract.h"
1186 giacomo 47 
#include "cbsstar.h"
1181 giacomo 48 
 
49 
#include "modules/dummy.h"
50 
 
51 
#include "modules/sem.h"
52 
#include "modules/pi.h"
53 
#include "modules/pc.h"
54 
 
55 
#include "modules/hartport.h"
56 
#include "modules/cabs.h"
57 
 
58 
#include "drivers/keyb.h"
59 
#include <stdlib.h>
60 
 
61 
// --------------------------------------------------
62 
// --------------------------------------------------
63 
// Init Part
64 
// --------------------------------------------------
65 
// --------------------------------------------------
66 
 
67 
/*+ sysyem tick in us +*/
68 
#define TICK 0
69 
 
70 
/*+ RR tick in us +*/
71 
#define RRTICK 10000
72 
 
73 
TIME __kernel_register_levels__(void *arg)
74 
{
75 
  struct multiboot_info *mb = (struct multiboot_info *)arg;
1186 giacomo 76 
  int cbsstar_level;
1181 giacomo 77 
 
78 
  EDF_register_level(EDF_ENABLE_ALL);
1186 giacomo 79 
  POSIX_register_level(RRTICK, 1, mb, 32);
1182 giacomo 80 
  cbsstar_level = CBSSTAR_register_level(4, 0);
1186 giacomo 81 
  FSF_register_module(cbsstar_level);
1181 giacomo 82 
  dummy_register_level();
83 
 
84 
  // for the keyboard...
85 
  CBS_register_level(CBS_ENABLE_ALL, 0);
86 
 
87 
  PI_register_module();
88 
  PC_register_module();
89 
 
90 
  SEM_register_module();
91 
 
92 
  PTHREAD_register_module(1, 0, 1);
93 
 
94 
  return TICK;
95 
}
96 
 
97 
 
98 
TASK __init__(void *arg)
99 
{
100 
  struct multiboot_info *mb = (struct multiboot_info *)arg;
101 
 
102 
  HARTPORT_init();
103 
 
104 
  KEYB_init(NULL);
105 
 
106 
  __call_main__(mb);
107 
 
108 
  return (void *)0;
109 
 
110 
}
111 
 
112 
// --------------------------------------------------
113 
// --------------------------------------------------
114 
// The Test
115 
// --------------------------------------------------
116 
// --------------------------------------------------
117 
 
118 
pthread_t j1 = -1;
119 
pthread_t j2 = -1;
120 
pthread_t j3 = -1;
121 
pthread_t j4 = -1;
122 
fsf_server_id_t server1 = -1;
123 
fsf_server_id_t server2 = -1;
124 
fsf_server_id_t server3 = -1;
125 
fsf_server_id_t server4 = -1;
126 
fsf_contract_parameters_t contract1, contract2;
127 
 
128 
pthread_mutex_t mux;
129 
 
130 
#define TASK_PERIOD 1000000
131 
 
132 
void *periodic_star(void *arg)
133 
{
134 
  struct timespec actual,end,next_time;
135 
  int actpersecond,act,cycle;
136 
  int mean,nmean;
137 
  bool was_deadline_missed, was_budget_overran;
138 
 
139 
  act = 0;
140 
  actpersecond = 0;
141 
  mean = 0;
142 
  nmean = 0;
143 
  cycle = 0;
144 
  for (;;) {
145 
 
146 
    kern_gettime(&actual);
147 
    cycle++;
148 
 
149 
    if (act == 0) {
150 
      TIMESPEC_ASSIGN(&end,&actual);
151 
      end.tv_sec++;
152 
    }
153 
 
154 
    if (TIMESPEC_A_LT_B(&actual,&end)) {
155 
      act++;
156 
    } else {
157 
      actpersecond = act;
158 
      act = 0;
159 
      mean = (mean * nmean + actpersecond) / (nmean+1);
160 
      nmean++;
161 
    }
162 
 
163 
    pthread_mutex_lock(&mux);
164 
      printf_xy(0,exec_shadow,WHITE,"Thread %3d Act_per_Second = %8d Mean = %8d Cycle = %8d",
165 
                                        exec_shadow,actpersecond,mean,cycle);
166 
    pthread_mutex_unlock(&mux);
167 
 
168 
    kern_gettime(&next_time);
169 
    ADDUSEC2TIMESPEC(TASK_PERIOD, &next_time);
170 
    fsf_schedule_next_timed_job(NULL, NULL, NULL, &was_deadline_missed, &was_budget_overran);
171 
 
172 
  }
173 
 
174 
  return NULL;
175 
 
176 
}
177 
 
178 
void *star(void *arg)
179 
{
180 
  struct timespec actual,end;
181 
  int actpersecond,act;
182 
  int mean,nmean,cycle;
183 
 
184 
  act = 0;
185 
  actpersecond = 0;
186 
  mean = 0;
187 
  nmean = 0;
188 
  cycle = 0;
189 
  for (;;) {
190 
 
191 
    cycle++;
192 
    kern_gettime(&actual);
193 
 
194 
    if (act == 0) {
195 
      TIMESPEC_ASSIGN(&end,&actual);
196 
      end.tv_sec++;
197 
    }
198 
 
199 
    if (TIMESPEC_A_LT_B(&actual,&end)) {
200 
      act++;
201 
    } else {
202 
      actpersecond = act;
203 
      act = 0;
204 
      mean = (mean * nmean + actpersecond) / (nmean+1);
205 
      nmean++;
206 
    }
207 
 
208 
    pthread_mutex_lock(&mux);
209 
      printf_xy(0,exec_shadow,WHITE,"Thread %3d Act_per_Second = %8d Mean = %8d Cycle = %8d",
210 
                                    exec_shadow,actpersecond,mean,cycle);
211 
    pthread_mutex_unlock(&mux);
212 
 
213 
  }
214 
 
215 
  return NULL;
216 
 
217 
}
218 
 
219 
void *edftask(void *arg)
220 
{
221 
  int i,j;
222 
  while(1) {
223 
  for (i=0;i<5; i++) {
224 
    for (j=0; j<10; j++);
225 
    //cputc('#');
226 
    //cputs((char *)(arg));
227 
  }
228 
 
229 
  task_endcycle();
230 
  }
231 
 
232 
  return NULL;
233 
}
234 
 
235 
 
236 
void create()
237 
{
238 
  HARD_TASK_MODEL mhard;
239 
 
240 
  struct timespec period1 = {0,100000000};
241 
  struct timespec period2 = {0,100000000};
242 
  struct timespec budget1 = {0,30000000};
243 
  struct timespec budget2 = {0,30000000};
244 
 
245 
  PID t1, t2;
246 
 
247 
  kern_printf("(Start Create)");
248 
 
249 
  hard_task_default_model(mhard);
250 
  hard_task_def_ctrl_jet(mhard);
251 
  hard_task_def_mit(mhard,32000);
252 
  hard_task_def_wcet(mhard,3000);
253 
  hard_task_def_arg(mhard,(void *)"X");
254 
  hard_task_def_group(mhard,1);
255 
  hard_task_def_periodic(mhard);
256 
 
257 
  t1 = task_create("X", edftask, &mhard, NULL);
258 
  if (t1 == NIL) {
259 
    perror("Could not create task X ...");
260 
    sys_end();
261 
  }
262 
 
263 
  hard_task_def_mit(mhard,32000);
264 
  hard_task_def_wcet(mhard,3000);
265 
  hard_task_def_arg(mhard,(void *)"Y");
266 
  t2 = task_create("Y", edftask, &mhard, NULL);
267 
  if (t2 == NIL) {
268 
    perror("Could not create task Y ...");
269 
    sys_end();
270 
  }
271 
 
272 
  group_activate(1);
273 
 
274 
  fsf_initialize_contract(&contract1);
275 
  fsf_set_contract_basic_parameters(&contract1,&budget1,&period1,NULL,NULL,FSF_DEFAULT_WORKLOAD);
276 
  fsf_initialize_contract(&contract2);
277 
  fsf_set_contract_basic_parameters(&contract2,&budget2,&period2,NULL,NULL,FSF_DEFAULT_WORKLOAD);
278 
 
279 
  kern_printf("(End Create)");
280 
 
281 
}
282 
 
283 
int main(int argc, char **argv)
284 
{
285 
 
286 
  char ch = 0;
287 
  int err;
288 
 
289 
  pthread_mutex_init(&mux,NULL);
290 
 
291 
  create();
292 
 
293 
  do {
294 
    ch = keyb_getch(BLOCK);
295 
 
296 
    switch(ch) {
297 
      case '1':
1186 giacomo 298 
        err = fsf_create_thread(server1,&j1,NULL,star,NULL,NULL);
1181 giacomo 299 
        kern_printf("(%d)",err);
300 
        break;
301 
      case '2':
1186 giacomo 302 
        err = fsf_create_thread(server2,&j2,NULL,star,NULL,NULL);
1181 giacomo 303 
        kern_printf("(%d)",err);
304 
        break;
305 
      case '3':
1186 giacomo 306 
        err = fsf_create_thread(server1,&j3,NULL,star,NULL,NULL);
1181 giacomo 307 
        kern_printf("(%d)",err);
308 
        break;
309 
      case '4':
1186 giacomo 310 
        err = fsf_create_thread(server2,&j4,NULL,star,NULL,NULL);
1181 giacomo 311 
        kern_printf("(%d)",err);
312 
        break;
313 
      case 'q':
314 
        err = fsf_negotiate_contract(&contract1,&server1);
315 
        cprintf("(%d)",err);
316 
        break;
317 
      case 'w':
318 
        err = fsf_negotiate_contract(&contract2,&server2);
319 
        kern_printf("(%d)",err);
320 
        break;
321 
      case 'e':
322 
        err = fsf_negotiate_contract(&contract1,&server3);
323 
        kern_printf("(%d)",err);
324 
        break;
325 
      case 'r':
326 
        err = fsf_cancel_contract(&server1);
327 
        kern_printf("(%d)",err);
328 
        break;
329 
      case 't':
330 
        err = fsf_cancel_contract(&server2);
331 
        kern_printf("(%d)",err);
332 
        break;
333 
      case 'y':
334 
        err = fsf_cancel_contract(&server3);
335 
        kern_printf("(%d)",err);
336 
        break;
337 
 
338 
    }
339 
 
340 
  } while(ch != ESC);
341 
 
342 
  sys_end();
343 
 
344 
  return 0;
345 
 
346 
}
347