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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [tests/] [itrontests/] [itronsem01/] [init.c] - Blame information for rev 30

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/*  Init
2
 *
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 *  This routine is the initialization task for this test program.
4
 *  It is called from init_exec and has the responsibility for creating
5
 *  and starting the tasks that make up the test.  If the time of day
6
 *  clock is required for the test, it should also be set to a known
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 *  value by this function.
8
 *
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 *  Input parameters:  NONE
10
 *
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 *  Output parameters:  NONE
12
 *
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 *  COPYRIGHT (c) 1989-1999.
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 *  On-Line Applications Research Corporation (OAR).
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 *
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 *  The license and distribution terms for this file may be
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 *  found in the file LICENSE in this distribution or at
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 *  http://www.OARcorp.com/rtems/license.html.
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 *
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 *  $Id: init.c,v 1.2 2001-09-27 12:02:10 chris Exp $
21
 */
22
 
23
#define TEST_INIT
24
#include "system.h"
25
#include <stdio.h>
26
 
27
/*
28
 *  The following is hopefully temporary.
29
 */
30
 
31
#include <time.h>
32
 
33
#define put_time(_s) \
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  do { \
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    time_t a_time_t; \
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    a_time_t = time( 0 ); \
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    printf( "%s%s", _s, ctime( &a_time_t ) ); \
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  } while(0)
39
 
40
void ITRON_Init( void )
41
{
42
  ER      status;
43
  T_CSEM  pk_csem;
44
  T_RSEM  pk_rsem;
45
 
46
  printf( "\n\n*** ITRONSEM01 -- ITRON SEMAPHORE TEST ***\n" );
47
 
48
  /*
49
   *  Exercise cre_sem - this code seems to exercise every path.
50
   */
51
 
52
  puts( "Init - cre_sem - NULL pk_sem returns E_PAR" );
53
  status = cre_sem( 1, NULL );
54
  assert( status == E_PAR );
55
 
56
  puts( "Init - cre_sem - isemcnt > maxsem returns E_PAR" );
57
  pk_csem.sematr = 0;
58
  pk_csem.isemcnt = 3;
59
  pk_csem.maxsem  = 2;
60
  status = cre_sem( 1, &pk_csem );
61
  assert( status == E_PAR );
62
 
63
  puts( "Init - cre_sem - maxsem of 0 returns E_PAR" );
64
  pk_csem.isemcnt = 0;
65
  pk_csem.maxsem  = 0;
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  status = cre_sem( 1, &pk_csem );
67
  assert( status == E_PAR );
68
 
69
  /*
70
   *  Now run through all the bad ID errors
71
   */
72
 
73
  pk_csem.isemcnt = 2;
74
  pk_csem.maxsem  = 3;
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  puts( "Init - cre_sem - bad id (less than -4) - E_OACV" );
76
  status = cre_sem( -5, &pk_csem );
77
  assert( status == E_OACV );
78
 
79
  puts( "Init - cre_sem - bad id (between 0 and -4) - E_ID" );
80
  status = cre_sem( -4, &pk_csem );
81
  assert( status == E_ID );
82
 
83
  puts( "Init - cre_sem - bad id (0) - E_ID" );
84
  status = cre_sem( 0, &pk_csem );
85
  assert( status == E_ID );
86
 
87
  puts( "Init - cre_sem - bad id (too great) - E_ID" );
88
  status = cre_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1, &pk_csem );
89
  assert( status == E_ID );
90
 
91
  puts( "Init - cre_sem - create semaphore 1 TA_TFIFO - E_OK" );
92
  pk_csem.isemcnt = 2;
93
  pk_csem.maxsem  = 3;
94
  pk_csem.sematr  = TA_TFIFO;
95
  status = cre_sem( 1, &pk_csem );
96
  assert( status == E_OK );
97
 
98
  puts( "Init - cre_sem - create semaphore 1 again - E_OBJ" );
99
  status = cre_sem( 1, &pk_csem );
100
  assert( status == E_OBJ );
101
 
102
  puts( "Init - cre_sem - create semaphore 2 TA_TPRI - E_OK" );
103
  pk_csem.isemcnt = 2;
104
  pk_csem.maxsem  = 3;
105
  pk_csem.sematr  = TA_TPRI;
106
  status = cre_sem( 2, &pk_csem );
107
  assert( status == E_OK );
108
 
109
  /*
110
   *  Generate all the bad id errors for del_sem
111
   */
112
 
113
  puts( "Init - del_sem - bad id (less than -4) - E_OACV" );
114
  status = del_sem( -5 );
115
  assert( status == E_OACV );
116
 
117
  puts( "Init - del_sem - bad id (between 0 and -4) - E_ID" );
118
  status = del_sem( -4 );
119
  assert( status == E_ID );
120
 
121
  puts( "Init - del_sem - bad id (0) - E_ID" );
122
  status = del_sem( 0 );
123
  assert( status == E_ID );
124
 
125
  puts( "Init - del_sem - bad id (too great) - E_ID" );
126
  status = del_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1 );
127
  assert( status == E_ID );
128
 
129
  /*
130
   *  Generate all the bad id errors for sig_sem
131
   */
132
 
133
  puts( "Init - sig_sem - bad id (less than -4) - E_OACV" );
134
  status = sig_sem( -5 );
135
  assert( status == E_OACV );
136
 
137
  puts( "Init - sig_sem - bad id (between 0 and -4) - E_ID" );
138
  status = sig_sem( -4 );
139
  assert( status == E_ID );
140
 
141
  puts( "Init - sig_sem - bad id (0) - E_ID" );
142
  status = sig_sem( 0 );
143
  assert( status == E_ID );
144
 
145
  puts( "Init - sig_sem - bad id (too great) - E_ID" );
146
  status = wai_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1 );
147
  assert( status == E_ID );
148
 
149
  /*
150
   *  Generate all the bad id errors for preq_sem
151
   */
152
 
153
  puts( "Init - preq_sem - bad id (less than -4) - E_OACV" );
154
  status = preq_sem( -5 );
155
  assert( status == E_OACV );
156
 
157
  puts( "Init - preq_sem - bad id (between 0 and -4) - E_ID" );
158
  status = preq_sem( -4 );
159
  assert( status == E_ID );
160
 
161
  puts( "Init - preq_sem - bad id (0) - E_ID" );
162
  status = preq_sem( 0 );
163
  assert( status == E_ID );
164
 
165
  puts( "Init - preq_sem - bad id (too great) - E_ID" );
166
  status = preq_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1 );
167
  assert( status == E_ID );
168
 
169
  /*
170
   *  Generate all the bad id errors for wai_sem
171
   */
172
 
173
  puts( "Init - wai_sem - bad id (less than -4) - E_OACV" );
174
  status = wai_sem( -5 );
175
  assert( status == E_OACV );
176
 
177
  puts( "Init - wai_sem - bad id (between 0 and -4) - E_ID" );
178
  status = wai_sem( -4 );
179
  assert( status == E_ID );
180
 
181
  puts( "Init - wai_sem - bad id (0) - E_ID" );
182
  status = wai_sem( 0 );
183
  assert( status == E_ID );
184
 
185
  puts( "Init - wai_sem - bad id (too great) - E_ID" );
186
  status = wai_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1 );
187
  assert( status == E_ID );
188
 
189
  /*
190
   *  Generate all the bad id errors for twai_sem
191
   */
192
 
193
  puts( "Init - twai_sem - bad id (less than -4) - E_OACV" );
194
  status = twai_sem( -5, 1000 );
195
  assert( status == E_OACV );
196
 
197
  puts( "Init - twai_sem - bad id (between 0 and -4) - E_ID" );
198
  status = twai_sem( -4, 1000 );
199
  assert( status == E_ID );
200
 
201
  puts( "Init - twai_sem - bad id (0) - E_ID" );
202
  status = twai_sem( 0, 1000 );
203
  assert( status == E_ID );
204
 
205
  puts( "Init - twai_sem - bad id (too great) - E_ID" );
206
  status = twai_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1, 1000 );
207
  assert( status == E_ID );
208
 
209
  /*
210
   *  Generate all the bad id errors for ref_sem
211
   */
212
 
213
  puts( "Init - ref_sem - bad id (less than -4) - E_OACV" );
214
  status = ref_sem( -5, &pk_rsem );
215
  assert( status == E_OACV );
216
 
217
  puts( "Init - ref_sem - bad id (between 0 and -4) - E_ID" );
218
  status = ref_sem( -4, &pk_rsem );
219
  assert( status == E_ID );
220
 
221
  puts( "Init - ref_sem - bad id (0) - E_ID" );
222
  status = ref_sem( 0, &pk_rsem );
223
  assert( status == E_ID );
224
 
225
  puts( "Init - ref_sem - bad id (too great) - E_ID" );
226
  status = ref_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1, &pk_rsem );
227
  assert( status == E_ID );
228
 
229
  /*
230
   *  Exercise preq_sem (and sig_sem a little)
231
   */
232
 
233
 
234
  puts( "Init - preq_sem - semaphore 1 available (count --> 1) - E_OK" );
235
  status = preq_sem( 1 );
236
  assert( status == E_OK );
237
 
238
  puts( "Init - preq_sem - semaphore 1 available (count --> 0) - E_OK" );
239
  status = preq_sem( 1 );
240
  assert( status == E_OK );
241
 
242
  puts( "Init - preq_sem - semaphore 1 unavailable - E_TMOUT" );
243
  status = preq_sem( 1 );
244
  assert( status == E_TMOUT );
245
 
246
  puts( "Init - sig_sem - semaphore 1 (count --> 1) - E_OK" );
247
  status = sig_sem( 1 );
248
  assert( status == E_OK );
249
 
250
  puts("Init - twai_sem(TMO_POL) - semaphore 1 available (count --> 0) - E_OK");
251
  status = twai_sem( 1, TMO_POL );
252
  assert( status == E_OK );
253
 
254
  puts( "Init - twai_sem(TMO_POL) - semaphore 1 available - E_TMOUT" );
255
  status = twai_sem( 1, TMO_POL );
256
  assert( status == E_TMOUT );
257
 
258
  /*
259
   *  Exercise twai_sem
260
   */
261
 
262
  puts( "Init - twai_sem - semaphore 1 unavailable - 1 second E_TMOUT" );
263
  put_time( "Init - starting to block at ");
264
  status = twai_sem( 1, 1000 );
265
  assert( status == E_TMOUT );
266
  put_time( "Init - timed out at ");
267
  puts( "Init - twai_sem - semaphore 1 unavailable - timeout completed" );
268
 
269
  /*
270
   *  Now let's test exceed the maximum count of semaphore 1
271
   */
272
 
273
  puts( "Init - sig_sem - semaphore 1 (count --> 1) - E_OK" );
274
  status = sig_sem( 1 );
275
  assert( status == E_OK );
276
 
277
  puts( "Init - sig_sem - semaphore 1 (count --> 2) - E_OK" );
278
  status = sig_sem( 1 );
279
  assert( status == E_OK );
280
 
281
  puts( "Init - sig_sem - semaphore 1 (count --> 3) - E_OK" );
282
  status = sig_sem( 1 );
283
  assert( status == E_OK );
284
 
285
  puts( "Init - sig_sem - semaphore 1 (count > maximum) - E_QOVR" );
286
  status = sig_sem( 1 );
287
  assert( status == E_OK );
288
 
289
  /*
290
   *  Exercise ref_sem
291
   */
292
 
293
  puts( "Init - ref_sem - NULL pk_sem returns E_PAR" );
294
  status = ref_sem( 1, NULL );
295
  assert( status == E_PAR );
296
 
297
  puts( "Init - ref_sem - semaphore 1 - E_OK" );
298
  status = ref_sem( 1, &pk_rsem );
299
  assert( status == E_OK );
300
  printf( "Init - semaphore 1 count = %d\n", pk_rsem.semcnt );
301
  printf( "Init - semaphore 1 waiting tasks = %d\n", pk_rsem.wtsk );
302
 
303
  puts( "Init - preq_sem - semaphore 1 (count --> 2) - E_OK" );
304
  status = preq_sem( 1 );
305
  assert( status == E_OK );
306
 
307
  puts( "Init - ref_sem - semaphore 1 - E_OK" );
308
  status = ref_sem( 1, &pk_rsem );
309
  assert( status == E_OK );
310
  printf( "Init - semaphore 1 count = %d\n", pk_rsem.semcnt );
311
  printf( "Init - semaphore 1 waiting tasks = %d\n", pk_rsem.wtsk );
312
 
313
 
314
  /*
315
   *  Exercise del_sem
316
   */
317
 
318
  /* XXX really want another task blocking on the semaphore XXX */
319
 
320
  puts( "Init - del_sem - semaphore 1 deleted - E_OK" );
321
  status = del_sem( 1 );
322
  assert( status == E_OK );
323
 
324
  puts( "Init - XXX need other tasks to complete the test XXX" );
325
 
326
  puts( "Init - dly_tsk - 1 second to let other task run" );
327
  status = dly_tsk( 1000 );
328
  assert( status == E_OK );
329
 
330
  printf( "*** END OF ITRONSEM01 -- ITRON SEMAPHORE TEST ***\n" );
331
  exit( 0 );
332
}

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