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handle USER_INCLUDES via the CPPFLAGS
[AROS.git] / compiler / arossupport / purify.c
blobd53c1a6611687aaab65549a854c1285e7074b68a
1 /*
2 Copyright © 1995-2007, The AROS Development Team. All rights reserved.
3 $Id$
4
5 Desc: Support files for purify (incomplete)
6 Lang: english
7 */
8
9 /* Local prototypes */
10 #include <exec/lists.h>
11 #include <exec/execbase.h>
12 #include <string.h>
13 #include <stdlib.h>
14 #include <proto/arossupport.h>
15 #include <proto/exec.h>
16 #include <aros/purify.h>
17 #include <aros/rt.h>
18
19 struct PNode
20 {
21 struct Node Node;
22 UBYTE * Memory;
23 ULONG Size;
24 UBYTE State[0];
25 };
26
27 static const char * pmsNames[] =
28 {
29 "free", "empty", "init.", "ro"
30 };
31
32 static struct List P_Memory;
33 static int InitWasCalled;
34
35 static struct PNode * FindNode (APTR memPtr);
36 static int FindNextNodes (APTR memPtr, struct PNode **, struct PNode **);
37
38 extern void RT_ShowRTStack (void);
39
40 /*****************************************************************************
41
42 NAME */
43 #include <aros/purify.h>
44
45 void Purify_Init (
46
47 /* SYNOPSIS */
48 void)
49
50 /* FUNCTION
51 Initialize purify.
52
53 INPUTS
54 none
55
56 RESULT
57 none
58
59 NOTES
60 This function is not part of any library and may thus be called at
61 any time.
62
63 EXAMPLE
64
65 BUGS
66
67 SEE ALSO
68
69 INTERNALS
70
71 HISTORY
72
73 ******************************************************************************/
74 {
75 NEWLIST (&P_Memory);
76 } /* Purify_Init */
77
78
79 /*****************************************************************************
80
81 NAME */
82 #include <aros/purify.h>
83
84 void Purify_AddMemory (
85
86 /* SYNOPSIS */
87 APTR memPtr,
88 ULONG size)
89
90 /* FUNCTION
91 Add size bytes of memory at memPtr to watch. Any access to this
92 memory will be checked after this call.
93
94 INPUTS
95 memPtr - Start of the memory block
96 size - The size of the memory block
97
98 RESULT
99 none
100
101 NOTES
102 This function is not part of any library and may thus be called at
103 any time.
104
105 EXAMPLE
106
107 BUGS
108
109 SEE ALSO
110
111 INTERNALS
112
113 HISTORY
114
115 ******************************************************************************/
116 {
117 struct PNode * node;
118
119 if (!InitWasCalled)
120 Purify_Init ();
121
122 if (!(node = malloc (sizeof (struct PNode) + size)) )
123 return;
124
125 node->Memory = memPtr;
126 node->Size = size;
127 memset (node->State, PMS_FREE, size);
128
129 AddHead (&P_Memory, (struct Node *)node);
130 } /* Purify_AddMemory */
131
132
133 /*****************************************************************************
134
135 NAME */
136 #include <aros/purify.h>
137
138 void Purify_SetState (
139
140 /* SYNOPSIS */
141 APTR memPtr,
142 ULONG size,
143 ULONG state)
144
145 /* FUNCTION
146 Brings a block of memory into a certain state (eg. empty, initialized,
147 read-only). memPtr and size must be within a block beforehand
148 declared with Purify_AddMemory().
149
150 INPUTS
151 memPtr - Where to start
152 size - How many bytes after memPtr
153 state - The new state of the memory:
154 PMS_EMPTY - The memory may be read from and written to,
155 but any read before the first write will yield an
156 error (read from uninitialized memory).
157 PMS_INITIALIZED - The memory has been initialized and may
158 be read and writen to.
159 PMS_READONLY - The memory may be read but not written to.
160 PMS_FREE - The memory may not be read from or written to.
161
162 RESULT
163 none
164
165 NOTES
166
167 EXAMPLE
168
169 BUGS
170
171 SEE ALSO
172
173 INTERNALS
174
175 HISTORY
176
177 ******************************************************************************/
178 {
179 struct PNode * node, * nodeBefore, * nodeAfter;
180 UBYTE * mem;
181
182 if (!InitWasCalled)
183 Purify_Init ();
184
185 /* Look for a node which contains memPtr */
186 node = FindNode (memPtr);
187
188 mem = memPtr;
189
190 /* Is there one ? */
191 if (!node)
192 {
193 /* Look for the node we know about which comes least before and
194 right next after memPtr. This will _not_ return any node
195 which contains memPtr because there is none. If there are
196 none or the area we look for is in none of them, print a
197 message and exit. */
198 if (!FindNextNodes (memPtr, &nodeBefore, &nodeAfter)
199 || mem+size <= nodeAfter->Memory
200 )
201 {
202 kprintf ("Purify: Tried to set state %s for unpurifed memory at %p:%ld\n"
203 , pmsNames[state]
204 , memPtr
205 , size
206 );
207 return;
208 }
209
210 /* If we get here, we have found a node which comes after memPtr
211 but memPtr is not inside the node */
212 }
213 else
214 {
215 if (mem+size <= node->Memory+node->Size)
216 memset (&node->State[mem - node->Memory], state, size);
217 else
218 kprintf ("Purify: %p:%ld exceeds PNode %p:%ld\n"
219 , mem
220 , size
221 , node->Memory
222 , node->Size
223 );
224 }
225 } /* Purify_SetState */
226
227
228 /*****************************************************************************
229
230 NAME */
231 #include <aros/purify.h>
232
233 void Purify_CheckAccess (
234
235 /* SYNOPSIS */
236 APTR memPtr,
237 ULONG size,
238 ULONG type)
239
240 /* FUNCTION
241 Checks a specific kind of access to memPtr[0...size-1].
242
243 INPUTS
244 memPtr - Where the access happens
245 size - How many bytes are accessed
246 type - Kind of access (PMA_READ, PMA_WRITE or PMA_MODIFY)
247
248 RESULT
249 none
250
251 NOTES
252
253 EXAMPLE
254
255 BUGS
256
257 SEE ALSO
258
259 INTERNALS
260
261 HISTORY
262
263 ******************************************************************************/
264 {
265 struct PNode * node;
266 UBYTE * mem;
267
268 if (!InitWasCalled)
269 Purify_Init ();
270
271 /* Look for a node which contains memPtr */
272 node = FindNode (memPtr);
273
274 mem = memPtr;
275
276 /* Is there one ? */
277 if (!node)
278 {
279 kprintf ("Purify: Illegal access %p:%ld\n"
280 , mem
281 , size
282 );
283 RT_ShowRTStack ();
284 }
285 else
286 {
287 if (mem+size > node->Memory+node->Size)
288 kprintf ("Purify: Access %p:%ld beyond bounds %p:%ld\n"
289 , mem
290 , size
291 , node->Memory
292 , node->Size
293 );
294 else
295 {
296 switch (type)
297 {
298 case PMA_READ:
299 mem = &node->State[mem - node->Memory];
300
301 for ( ; size; size --)
302 {
303 switch (*mem)
304 {
305 case PMS_EMPTY:
306 kprintf ("Purify: Read of undefined memory at %p (%ld bytes from the beginning of the block)\n"
307 , node->Memory - node->State + mem
308 , mem - node->State
309 );
310 RT_ShowRTStack ();
311 size = 1;
312 break;
313
314 case PMS_INITIALIZED:
315 break;
316
317 case PMS_READONLY:
318 break;
319
320 case PMS_FREE:
321 kprintf ("Purify: Read of freed memory at %p (%ld bytes from the beginning of the block)\n"
322 , node->Memory - node->State + mem
323 , mem - node->State
324 );
325 RT_ShowRTStack ();
326 size = 1;
327 break;
328 } /* switch */
329 } /* for */
330
331 break;
332
333 case PMA_WRITE:
334 mem = &node->State[mem - node->Memory];
335
336 for ( ; size; size --)
337 {
338 switch (*mem)
339 {
340 case PMS_EMPTY:
341 *mem = PMS_INITIALIZED;
342 break;
343
344 case PMS_INITIALIZED:
345 break;
346
347 case PMS_READONLY:
348 kprintf ("Purify: Write to readonly memory at %p (%ld bytes from the beginning of the block)\n"
349 , node->Memory - node->State + mem
350 , mem - node->State
351 );
352 RT_ShowRTStack ();
353 size = 1;
354 break;
355 break;
356
357 case PMS_FREE:
358 kprintf ("Purify: Write to freed memory at %p (%ld bytes from the beginning of the block)\n"
359 , node->Memory - node->State + mem
360 , mem - node->State
361 );
362 RT_ShowRTStack ();
363 size = 1;
364 break;
365 } /* switch */
366 }
367
368 break;
369
370 case PMA_MODIFY:
371 mem = &node->State[mem - node->Memory];
372
373 for ( ; size; size --)
374 {
375 switch (*mem)
376 {
377 case PMS_EMPTY:
378 kprintf ("Purify: Modify of undefined memory at %p (%ld bytes from the beginning of the block)\n"
379 , node->Memory - node->State + mem
380 , mem - node->State
381 );
382 RT_ShowRTStack ();
383 size = 1;
384 break;
385
386 case PMS_INITIALIZED:
387 break;
388
389 case PMS_READONLY:
390 kprintf ("Purify: Modify of readonly memory at %p (%ld bytes from the beginning of the block)\n"
391 , node->Memory - node->State + mem
392 , mem - node->State
393 );
394 RT_ShowRTStack ();
395 size = 1;
396 break;
397
398 case PMS_FREE:
399 kprintf ("Purify: Modify of freed memory at %p (%ld bytes from the beginning of the block)\n"
400 , node->Memory - node->State + mem
401 , mem - node->State
402 );
403 RT_ShowRTStack ();
404 size = 1;
405 break;
406 } /* switch */
407 }
408
409 break;
410
411 } /* switch (access type) */
412 } /* Complete within bounds ? */
413 } /* Node with memPtr found ? */
414 } /* Purify_CheckAccess */
415
416
417 /*****************************************************************************
418
419 NAME */
420 static struct PNode * FindNode (
421
422 /* SYNOPSIS */
423 APTR memPtr)
424
425 /* FUNCTION
426 Searches for the PNode which contains memPtr.
427
428 INPUTS
429 memPtr - A pointer into a piece of memory previously made known
430 with Purify_AddMemory.
431
432 RESULT
433 A pointer to a PNode which contains the memPtr or NULL if there
434 is no such pointer. No error will be printed.
435
436 NOTES
437 Must not be called before Purify_Init().
438
439 EXAMPLE
440
441 BUGS
442
443 SEE ALSO
444
445 INTERNALS
446
447 HISTORY
448
449 ******************************************************************************/
450 {
451 struct PNode * node;
452
453 for (node=(struct PNode *)GetHead(&P_Memory); node; node=(struct PNode *)GetSucc(node))
454 {
455 if (node->Memory <= (UBYTE *)memPtr
456 || (UBYTE *)memPtr < node->Memory+node->Size
457 )
458 break;
459 }
460
461 return node;
462 } /* FindNode */
463
464
465 /*****************************************************************************
466
467 NAME */
468 static int FindNextNodes (
469
470 /* SYNOPSIS */
471 APTR memPtr,
472 struct PNode ** before,
473 struct PNode ** after)
474
475 /* FUNCTION
476 Returns the addresses of the PNodes right before and right right
477 after memPtr.
478
479 INPUTS
480 memPtr - The address to look for
481 before - Pointer to a pointer to PNode where the address of
482 the node right before memPtr will be stored.
483 after - Pointer to a pointer to PNode where the address of
484 the node right after memPtr will be stored.
485
486 RESULT
487 The number of found PNodes. *before will contain a pointer to
488 the PNode which is before memPtr or which contains memPtr or NULL
489 if there is no node before PNode. *after will contain a pointer
490 to the first PNode which comes right after memPtr or NULL if no
491 PNode follows memPtr.
492
493 NOTES
494 Must not be called before Purify_Init().
495
496 EXAMPLE
497
498 BUGS
499
500 SEE ALSO
501
502 INTERNALS
503
504 HISTORY
505
506 ******************************************************************************/
507 {
508 int found = 0;
509 struct PNode * node;
510
511 *before = NULL;
512 *after = NULL;
513
514 for (node=(struct PNode *)GetHead(&P_Memory); node; node=(struct PNode *)GetSucc(node))
515 {
516 if (!*before)
517 {
518 if (node->Memory < (UBYTE *)memPtr)
519 {
520 found |= 1;
521 *before = node;
522 }
523 }
524 else
525 {
526 if (node->Memory < (UBYTE *)memPtr
527 && (*before)->Memory < node->Memory
528 )
529 {
530 found |= 1;
531 *before = node;
532 }
533 }
534
535 if (!*after)
536 {
537 if (node->Memory > (UBYTE *)memPtr)
538 {
539 found |= 2;
540 *after = node;
541 }
542 }
543 else
544 {
545 if (node->Memory > (UBYTE *)memPtr
546 && (*after)->Memory > node->Memory
547 )
548 {
549 found |= 2;
550 *after = node;
551 }
552 }
553 }
554
555 if (found == 2)
556 found = 1;
557 else if (found == 3)
558 found = 2;
559
560 return found;
561 } /* FindNextNodes */
Mirror of AROS' svn.