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1173 giacomo 1 
/*
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 * Project: S.Ha.R.K.
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 *
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 * Coordinators:
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 *   Giorgio Buttazzo    <giorgio@sssup.it>
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 *   Paolo Gai           <pj@gandalf.sssup.it>
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 *
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 * Authors     :
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 *   Giacomo Guidi       <giacomo@gandalf.sssup.it>
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 *
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 * ReTiS Lab (Scuola Superiore S.Anna - Pisa - Italy)
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 *
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 * http://www.sssup.it
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 * http://retis.sssup.it
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 * http://shark.sssup.it
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 */
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/*
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 * This program is free software; you can redistribute it and/or modify
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 * it under the terms of the GNU General Public License as published by
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 * the Free Software Foundation; either version 2 of the License, or
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 * (at your option) any later version.
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 *
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 * This program is distributed in the hope that it will be useful,
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 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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 * GNU General Public License for more details.
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 *
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 * You should have received a copy of the GNU General Public License
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 * along with this program; if not, write to the Free Software
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 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
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 */
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/*
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 * Advanced Timer Demo
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 *
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 */
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#include "kernel/kern.h"
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#include "ll/i386/cons.h"
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#include "ll/i386/advtimer.h"
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1360 giacomo 43 
#include "drivers/shark_keyb26.h"
1512 giacomo 44 
#include "drivers/shark_cpu26.h"
1173 giacomo 45 
 
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#define UPDATE_PERIOD   10000
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#define UPDATE_WCET     1000
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1211 giacomo 49 
extern unsigned int clk_per_msec;
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extern unsigned int apic_clk_per_msec;
1173 giacomo 51 
 
1512 giacomo 52 
int freq_number = 0;
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int cur_frequency = 0;
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int cur_freq_number = 0;
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int dvs_status = 0;
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1173 giacomo 57 
TASK Update(void *arg)
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{  
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  struct timespec actual_timer;
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  long nsec,sec,min,hrs,day;
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  long mean_delay,tot_delay,num_delay;
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  signed long long start,end,res;
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  struct timespec s_test,startts,endts;
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1512 giacomo 67 
  /* Get the DVS status */
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  int i;
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  char dvs_frequencies[1000];
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  dvs_status = CPU26_DVS_status();
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  if (dvs_status > 0) {
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        printf_xy(0,11,WHITE,"Dynamic Frequency Scaling Supported");
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        printf_xy(0,12,WHITE,"Press \"q\" to raise or \"a\" to lower CPU freq");
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        CPU26_show_frequencies(dvs_frequencies);
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        freq_number = CPU26_get_frequencies(cpu26_freqs);
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        printf_xy(0,13,WHITE,"Supported Frequencies [ %s: %d ]",dvs_frequencies,freq_number);
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        cur_frequency = CPU26_get_cur_frequency();
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        printf_xy(0,14,WHITE,"Current Frequency [ %10d ]",cur_frequency);
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        for (i=0;i<freq_number;i++)
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                if (cpu26_freqs[i] == cur_frequency) break;
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        cur_freq_number = i;
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88 
  } else {
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        printf_xy(0,11,WHITE,"Dynamic Frequency Scaling NOT Supported");
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92 
  }
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1173 giacomo 94 
  task_nopreempt();
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  num_delay = tot_delay = mean_delay = 0;
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  while (1) {
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        if (clk_per_msec != 0) {
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          rdtscll(start);
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          sys_gettime(&actual_timer);
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          rdtscll(end);
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          res = end - start;
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          rdtscll(start);
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          rdtscll(end);
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          res -= (end - start);
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          s_test.tv_nsec = res * 1000000 / clk_per_msec;
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111 
 
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        } else {
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          sys_gettime(&startts);
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          sys_gettime(&actual_timer);
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          sys_gettime(&endts);
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          SUBTIMESPEC(&endts,&startts,&s_test);
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          sys_gettime(&startts);
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          sys_gettime(&endts);
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          SUBTIMESPEC(&endts,&startts,&endts);
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          SUBTIMESPEC(&s_test,&endts,&s_test);
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        }
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        if (tot_delay < 1000000000) {
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          tot_delay += s_test.tv_nsec;
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          num_delay ++;
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          mean_delay = tot_delay / num_delay;
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        }
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        nsec = actual_timer.tv_nsec;
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        sec = actual_timer.tv_sec;
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        min = sec / 60;
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        sec %= 60;
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        hrs = min / 60;
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        min %= 60;
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        day = hrs / 24;
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        hrs %= 24;
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1211 giacomo 140 
        printf_xy(0,5,WHITE,"Actual CPU Clk/msec:  %12d",clk_per_msec);
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        printf_xy(0,6,WHITE,"Actual APIC Clk/msec: %12d",apic_clk_per_msec);  
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        printf_xy(0,7,WHITE,"Actual Timer: %2ld d %2ld h %2ld m %2ld s %12ld ns",day,hrs,min,sec,(long)nsec);
1173 giacomo 143 
 
1211 giacomo 144 
        printf_xy(0,9,WHITE,"Timer Access Delay: %12ld ns",mean_delay);
1512 giacomo 145 
 
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        if (dvs_status > 0)
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          printf_xy(0,14,WHITE,"Current Frequency [ %10d ]",CPU26_get_cur_frequency());
1173 giacomo 148 
 
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        task_endcycle();
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151 
  }
152 
 
153 
}
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void set_screen()
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{
157 
 
1524 giacomo 158 
        //clear();
1394 giacomo 159 
 
1173 giacomo 160 
        printf_xy(20,0,WHITE,"          Advanced Timer Demo           ");
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        printf_xy(20,1,WHITE,"Giacomo Guidi <giacomo@gandalf.sssup.it>");
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        printf_xy(20,2,WHITE,"         Press Alt + c to exit          ");
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164 
}
1394 giacomo 165 
 
166 
void program_key_end(KEY_EVT* e)
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{
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        sys_end();
1512 giacomo 169 
}
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171 
void up_freq(KEY_EVT* e)
172 
{
173 
 
1524 giacomo 174 
        if (dvs_status > 0 && freq_number > 0) {
1512 giacomo 175 
          cur_freq_number++;
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          if (cur_freq_number >= freq_number) cur_freq_number--;
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          CPU26_set_frequency(cpu26_freqs[cur_freq_number],DVS_RELATION_H);
178 
        }
179 
}
180 
 
181 
void down_freq(KEY_EVT* e)
182 
{
1524 giacomo 183 
        if (dvs_status > 0 && freq_number > 0) {
1512 giacomo 184 
          cur_freq_number--;
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          if (cur_freq_number < 0) cur_freq_number++;
186 
          CPU26_set_frequency(cpu26_freqs[cur_freq_number],DVS_RELATION_L);
187 
        }
188 
}
1173 giacomo 189 
 
190 
int main(int argc, char **argv)
191 
{
192 
 
193 
  HARD_TASK_MODEL   mp; //Show current setting
194 
  PID               update;
195 
  KEY_EVT           k;
1374 giacomo 196 
 
1173 giacomo 197 
  k.flag = ALTL_BIT;
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  k.scan = KEY_C;
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  k.ascii = 'c';
1360 giacomo 200 
  k.status = KEY_PRESSED;
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  keyb_hook(k,program_key_end,FALSE);
1173 giacomo 202 
 
1512 giacomo 203 
  k.flag = 0;
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  k.scan = KEY_Q;
205 
  k.ascii = 'q';
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  k.status = KEY_PRESSED;
207 
  keyb_hook(k,up_freq,FALSE);
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209 
  k.flag = 0;
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  k.scan = KEY_A;
211 
  k.ascii = 'a';
212 
  k.status = KEY_PRESSED;
213 
  keyb_hook(k,down_freq,FALSE);
214 
 
1173 giacomo 215 
  set_screen();
216 
 
217 
  hard_task_default_model(mp);
218 
  hard_task_def_ctrl_jet(mp);
219 
  hard_task_def_group(mp, 1);
220 
  hard_task_def_wcet(mp,UPDATE_WCET);
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  hard_task_def_mit(mp,UPDATE_PERIOD);
222 
  hard_task_def_usemath(mp);
223 
  update = task_create("Update", Update, &mp, NULL);
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  if (update != NIL) task_activate(update);
225 
 
226 
  return 0;
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228 
}