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1085 pj 1
/*****************************************************************************
2
* Filename: test_bec.c                                                        *
3
* Author: Marco Ziglioli (Doctor Stein)                                      *
4
* Date: 20/06/2001                                                           *
5
* Description: Test program for buffered gated event counting using PCI6025E *
6
*              board                                                         *
7
*----------------------------------------------------------------------------*
8
* Notes: FOUT are enabled to provide a frequency of 6250 Hz. You could       *
9
*        connect PFI3 (pin 41) and PFI6 (pin 45) to this source for counting *
10
*        edges. Gated counting are enabled and PFI4 (pin 42) is gate pin for *
11
*        counter 0 and PFI5 (pin 44) is gate pin for counter 0. DIO 7 and 6  *
12
*        are als configured to switch between 0 and 5 V. Connect DIO 7 to    *
13
*        gate 0 and DIO 6 to gate 1. Use 'g' (counter 0) and 'h' (counter 1) *
14
*        to change DIO lines value. On left area of the screen you should    *
15
*        see counter while counting and on the right area you should lock    *
16
*        counter values by pressing 's' key.                                 *
17
*        Notice that line parameters are enabled and accept inital value     *
18
*        for the two counters. If they aren't specified or they are wrong    *
19
*        counters start from 0x00FFFFFF (counter 0 which counts down) and    *
20
*        0x00000000 (counter 1 which counts up).                             *
21
*****************************************************************************/
22
 
23
/* This file is part of the S.Ha.R.K. Project - http://shark.sssup.it
24
 *
25
 * Copyright (C) 2001 Marco Ziglioli
26
 *
27
 * This program is free software; you can redistribute it and/or modify
28
 * it under the terms of the GNU General Public License as published by
29
 * the Free Software Foundation; either version 2 of the License, or
30
 * (at your option) any later version.
31
 *
32
 * This program is distributed in the hope that it will be useful,
33
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
34
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
35
 * GNU General Public License for more details.
36
 *
37
 * You should have received a copy of the GNU General Public License
38
 * along with this program; if not, write to the Free Software
39
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
40
 *
41
 */
42
 
43
#include <kernel/kern.h>
44
 
1436 giacomo 45
#include <drivers/shark_keyb26.h>
46
#include <drivers/shark_fb26.h>
47
 
1085 pj 48
#include <drivers/pci6025e/timer.h>
49
#include <drivers/pci6025e/dio_ppi.h>
50
 
51
BYTE sys = 0;
52
 
53
PID show_aper_pid;
54
BYTE out = 0x00;
55
 
56
int black = rgb16(0, 0, 0),
57
    white = rgb16(255, 255, 255);
58
 
59
void endfun(KEY_EVT *);
60
void close_event(void *);
61
void show_evt(KEY_EVT *k);
62
void gate_change(KEY_EVT *k);
63
 
64
void drawInterface(void);
65
 
66
TASK show_per(int);
67
TASK show_aper(int);
68
 
69
int main(int argc, char **argv)
70
{
71
   KEY_EVT k;
72
   SOFT_TASK_MODEL show_per_mod, show_aper_mod;
73
   PID show_per_pid;
1436 giacomo 74
   int result;
1085 pj 75
   DWORD init_val_c0, init_val_c1;
76
 
77
   if(argc >= 3){
78
      if( (result = sscanf(argv[1], "%ld", &init_val_c0)) != 1)
79
         init_val_c0 = 0x00FFFFFF;
80
      if( (result = sscanf(argv[2], "%ld", &init_val_c1)) != 1)
81
         init_val_c1 = 0x00000000;
82
   }
83
   if(argc == 2){
84
      if( (result = sscanf(argv[1], "%ld", &init_val_c0)) != 1)
85
         init_val_c0 = 0x00FFFFFF;
86
      init_val_c1 = 0x00000000;
87
   }
88
   if(argc == 1){
89
      init_val_c0 = 0x00FFFFFF;
90
      init_val_c1 = 0x00000000;
91
   }
92
 
93
   k.flag = CNTL_BIT;
1599 tullio 94
   k.scan = KEY_C;
95
   k.ascii = 'c';
1436 giacomo 96
   k.status = KEY_PRESSED;
97
   keyb_hook(k, endfun, FALSE);
1085 pj 98
 
99
   k.flag = CNTR_BIT;
1436 giacomo 100
   k.status = KEY_PRESSED;
101
   keyb_hook(k, endfun, FALSE);
1085 pj 102
 
103
   soft_task_default_model(show_aper_mod);
104
   soft_task_def_aperiodic(show_aper_mod);
1436 giacomo 105
   soft_task_def_level(show_aper_mod, 2);
1085 pj 106
   soft_task_def_period(show_aper_mod, 250000);
107
   soft_task_def_met(show_aper_mod, 30000);
108
   soft_task_def_wcet(show_aper_mod, 60000);
109
   if( (show_aper_pid = task_create("Show aperiodic task", show_aper, &show_aper_mod, NULL)) == NIL ){
110
      sys = 10;
1550 pj 111
      exit(1);
1085 pj 112
   }
113
 
114
   k.flag = 0;
115
   k.scan = KEY_S;
116
   k.ascii = 's';
1436 giacomo 117
   k.status = KEY_PRESSED;
118
   keyb_hook(k, show_evt, FALSE);
1085 pj 119
 
120
   k.flag = 0;
121
   k.scan = KEY_G;
122
   k.ascii = 'g';
1436 giacomo 123
   k.status = KEY_PRESSED;
124
   keyb_hook(k, gate_change, FALSE);
1085 pj 125
 
126
   k.scan = KEY_H;
127
   k.ascii = 'h';
1436 giacomo 128
   k.status = KEY_PRESSED;
129
   keyb_hook(k, gate_change, FALSE);
1085 pj 130
 
131
   soft_task_default_model(show_per_mod);
1436 giacomo 132
   soft_task_def_level(show_per_mod, 2);
1085 pj 133
   soft_task_def_met(show_per_mod, 1000);
134
   soft_task_def_period(show_per_mod, 10000);
135
   if( (show_per_pid = task_create("Show periodic task", show_per, &show_per_mod, NULL)) == NIL){
136
      sys = 11;
1550 pj 137
      exit(1);
1085 pj 138
   }
139
 
140
   if(!reMap()){
141
      sys = 21;
1550 pj 142
      exit(1);
1085 pj 143
   }
144
 
145
   drawInterface();
146
 
147
   DIO_init();
148
   DIO_setup(0xFF);
149
   DIO_write(out);
150
 
151
   PFIprogramming(0x0000);
152
   setIntClock(1, 1, 0);
153
   TIM_reset(2); //Reset both two counters
154
 
155
 
156
   //Source PFI3(41); Gate PFI 4(42); Down counting; counts rising edge;
157
   TIM_bufferedEventCounting(C0, 0x04, 0x45, 0x01, init_val_c0);
158
 
159
   //Source PFI6(45); Gate PFI 5(44); Up counting; counts rising edge;
160
   TIM_bufferedEventCounting(C1, 0x87, 0x46, 0x00, init_val_c1);
161
 
162
   TIM_arm(2); //Arm both two counters
163
 
164
   task_activate(show_per_pid);
165
 
166
   return 0;
167
}
168
 
169
void drawInterface(void)
170
{
171
   grx_rect(1, 1, 799, 99, rgb16(105, 0, 0));
172
   grx_rect(2, 2, 798, 98, rgb16(155, 0, 0));
173
   grx_rect(3, 3, 797, 97, rgb16(205, 0, 0));
174
   grx_rect(4, 4, 796, 96, rgb16(255, 0, 0));
175
 
176
   grx_text("Test program for Buffered Event Counting capacity of PCI6025E timers",
177
            7, 10, rgb16(50, 255, 50), black);
178
 
179
   grx_text("This program counting rise edges on counters source (PFI3 & PFI6)",
180
             7, 18, rgb16(0, 255, 255), black);
181
   grx_text("Counter 1 will be resetted every gate falling edge",
182
             7, 26, rgb16(0, 255, 255), black);
183
   grx_text("(PFI 42 & 44) are enabled. Frequency Out (FOUT) is enabled and provides a frequency of 6250 Hz",
184
             7, 34, rgb16(0, 255, 255), black);
185
 
186
   grx_text("Instruction:",7, 43, rgb16(255, 0, 0), black);
187
   grx_text("Use 's' to watch contents of Hardware save registers updated every time gate goes down",
188
            7, 51, rgb16(0, 255, 255), black);
189
   grx_text("Use 'g' to generate an event on counter 0 gate (see top-left square)",
190
             7, 58, rgb16(0, 255, 255), black);
191
 
192
   grx_text("Use 'h' to generate an event on counter 1 gate (see bottom-left square)",
193
             7, 65, rgb16(0, 255, 255), black);
194
 
195
   grx_text("Please connect DIO7 (pin 32) to PFI4 (pin 42) and DIO6 (pin 30) to PFI5 (pin 44)",
196
             7, 78, rgb16(0, 255, 0), black);
1599 tullio 197
   grx_text("CTRL-C for Exit", 7, 88, rgb16(200, 200, 0), black);
1085 pj 198
 
199
   grx_rect(1, 110, 355, 170, rgb16(0, 105, 0));
200
   grx_rect(2, 111, 354, 169, rgb16(0, 155, 0));
201
   grx_rect(3, 112, 353, 168, rgb16(0, 205, 0));
202
   grx_rect(4, 113, 352, 167, rgb16(0, 255, 0));
203
   grx_text("Counter 0 evolution", 7, 120, rgb16(255, 255, 0), black);
204
 
205
   grx_rect(455, 110, 799, 170, rgb16(0, 105, 0));
206
   grx_rect(456, 111, 798, 169, rgb16(0, 155, 0));
207
   grx_rect(457, 112, 797, 168, rgb16(0, 205, 0));
208
   grx_rect(458, 113, 796, 167, rgb16(0, 255, 0));
209
   grx_text("Counter 0 locked value", 461, 120, rgb16(255, 0, 255), black);
210
 
211
   grx_rect(360, 110, 450, 170, rgb16(0, 105, 0));
212
   grx_rect(361, 111, 449, 169, rgb16(0, 155, 0));
213
   grx_rect(362, 112, 448, 168, rgb16(0, 205, 0));
214
   grx_rect(363, 113, 447, 167, rgb16(0, 255, 0));
215
   grx_text("Gate0", 367, 120, rgb16(200, 255, 200), black);
216
   grx_text("0 V", 367, 145, rgb16(255, 0, 0), black);
217
 
218
   grx_rect(1, 190, 355, 260, rgb16(85, 85, 255));
219
   grx_rect(2, 191, 354, 259, rgb16(135, 135, 255));
220
   grx_rect(3, 192, 353, 258, rgb16(190, 190, 255));
221
   grx_rect(4, 193, 352, 257, rgb16(230, 239, 255));
222
   grx_text("Counter 1 evolution", 7, 200, white, black);
223
 
224
   grx_rect(455, 190, 799, 260, rgb16(85, 85, 255));
225
   grx_rect(456, 191, 798, 259, rgb16(135, 135, 255));
226
   grx_rect(457, 192, 797, 258, rgb16(190, 190, 255));
227
   grx_rect(458, 193, 796, 257, rgb16(230, 230, 255));
228
   grx_text("Counter 1 locked value", 461, 200, white, black);
229
 
230
   grx_rect(360, 190, 450, 260, rgb16(85, 85, 255));
231
   grx_rect(361, 191, 449, 259, rgb16(135, 135, 255));
232
   grx_rect(362, 192, 448, 258, rgb16(190, 190, 255));
233
   grx_rect(363, 193, 447, 257, rgb16(230, 230, 255));
234
   grx_text("Gate1", 367, 200, rgb16(255, 200, 255), black);
235
   grx_text("0 V", 367, 225, rgb16(255, 0, 0), black);
236
}
237
 
238
TASK show_per(int none)
239
{
240
   DWORD val;
241
   char buf[30];
242
 
243
   while(1){
244
      val = TIM_readCounter(C0); //Read from Hardware Save Register
245
      sprintf(buf, "HEX: %08lx DEC: %08ld", val ,val);
246
      grx_text(buf, 7, 145, rgb16(255, 0, 0), black);
247
 
248
      val = TIM_readCounter(C1); //Read from Hardware Save Register
249
      sprintf(buf, "HEX: %08lx DEC: %08ld", val ,val);
250
      grx_text(buf, 7, 225, rgb16(255, 0, 0), black);
251
 
252
      task_endcycle();
253
   }
254
}
255
 
256
TASK show_aper(int dummy)
257
{
258
   DWORD val;
259
   char buf[30];
260
 
261
   while(1){
262
      val = TIM_readHWSaveReg(C0); //Read from Hardware Save Register
263
      sprintf(buf, "HEX: %08lx DEC: %08ld", val, val);
264
      grx_text(buf, 461, 145, rgb16(80, 80, 255), black);
265
 
266
      val = TIM_readHWSaveReg(C1); //Read from Hardware Save Register
267
      sprintf(buf, "HEX: %08lx DEC: %08ld", val, val);
268
      grx_text(buf, 461, 225, rgb16(80, 80, 255), black);
269
 
270
      task_endcycle();
271
   }
272
}
273
 
274
void endfun(KEY_EVT *k)
275
{
1436 giacomo 276
   close_event(NULL);
277
 
1550 pj 278
   exit(1);
1085 pj 279
}
280
 
281
void show_evt(KEY_EVT *k)
282
{
283
   task_activate(show_aper_pid);
284
}
285
 
286
void gate_change(KEY_EVT *k)
287
{
288
   if(k->ascii == 'g'){
289
      if( (out & 0x80) != 0){
290
         out &= 0x7F;
291
         grx_text("0 V", 367, 145, rgb16(255, 0, 0), black);
292
      } else {
293
         out |= 0x80;
294
         grx_text("5 V", 367, 145, rgb16(0, 255, 0), black);
295
      }
296
   } else {
297
      if( (out & 0x40) != 0){
298
         out &= 0xBF;
299
         grx_text("0 V", 367, 225, rgb16(255, 0, 0), black);
300
      } else {
301
         out |= 0x40;
302
         grx_text("5 V", 367, 225, rgb16(0, 255, 0), black);
303
      }
304
   }
305
 
306
   DIO_write(out);
307
}
308
 
309
void close_event(void *arg)
310
{
311
   TIM_disarm(2); //Disable both two counters
312
 
313
   switch(sys){
1436 giacomo 314
      case 0:     sys_shutdown_message("OK\n"); break;
315
      case 10:    sys_shutdown_message("Task <show aperiodic> down\n"); break;
316
      case 11:    sys_shutdown_message("Task <show periodic> down\n"); break;
317
      case 20:    sys_shutdown_message("No PCI bus\n"); break;
318
      case 21:    sys_shutdown_message("No National board on PCI bus\n"); break;
319
      case 30:    sys_shutdown_message("No graphic can be initialized\n"); break;
320
      case 31:    sys_shutdown_message("This graphic mode cannot be supported\n"); break;
321
      default:    sys_shutdown_message("???????????\n"); break;
1085 pj 322
   }
323
}
324
/* End of file: Test_bec.c */