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dma_on_stack: &foo means it's an error too
[smatch.git] / smatch_ranges.c
blobd7fb6add47381ab25f3b89f3a2adb4bd79b94d65
1 /*
2 * sparse/smatch_ranges.c
3 *
4 * Copyright (C) 2009 Dan Carpenter.
5 *
6 * Licensed under the Open Software License version 1.1
7 *
8 */
9
10 #include "parse.h"
11 #include "smatch.h"
12 #include "smatch_extra.h"
13 #include "smatch_slist.h"
14
15 ALLOCATOR(data_info, "smatch extra data");
16 ALLOCATOR(data_range, "data range");
17 __DO_ALLOCATOR(struct data_range, sizeof(struct data_range), __alignof__(struct data_range),
18 "permanent ranges", perm_data_range);
19
20 static char *show_num(long long num)
21 {
22 static char buff[256];
23
24 if (num == whole_range.min) {
25 snprintf(buff, 255, "min");
26 } else if (num == whole_range.max) {
27 snprintf(buff, 255, "max");
28 } else if (num < 0) {
29 snprintf(buff, 255, "(%lld)", num);
30 } else {
31 snprintf(buff, 255, "%lld", num);
32 }
33 buff[255] = '\0';
34 return buff;
35 }
36
37 char *show_ranges(struct range_list *list)
38 {
39 struct data_range *tmp;
40 char full[256];
41 int i = 0;
42
43 full[0] = '\0';
44 full[255] = '\0';
45 FOR_EACH_PTR(list, tmp) {
46 if (i++)
47 strncat(full, ",", 254 - strlen(full));
48 if (tmp->min == tmp->max) {
49 strncat(full, show_num(tmp->min), 254 - strlen(full));
50 continue;
51 }
52 strncat(full, show_num(tmp->min), 254 - strlen(full));
53 strncat(full, "-", 254 - strlen(full));
54 strncat(full, show_num(tmp->max), 254 - strlen(full));
55 } END_FOR_EACH_PTR(tmp);
56 return alloc_sname(full);
57 }
58
59 static struct data_range range_zero = {
60 .min = 0,
61 .max = 0,
62 };
63
64 static struct data_range range_one = {
65 .min = 1,
66 .max = 1,
67 };
68
69 struct data_range *alloc_range(long long min, long long max)
70 {
71 struct data_range *ret;
72
73 if (min > max) {
74 printf("Error invalid range %lld to %lld\n", min, max);
75 }
76 if (min == whole_range.min && max == whole_range.max)
77 return &whole_range;
78 if (min == 0 && max == 0)
79 return &range_zero;
80 if (min == 1 && max == 1)
81 return &range_one;
82 ret = __alloc_data_range(0);
83 ret->min = min;
84 ret->max = max;
85 return ret;
86 }
87
88 struct data_range *alloc_range_perm(long long min, long long max)
89 {
90 struct data_range *ret;
91
92 if (min > max) {
93 printf("Error invalid range %lld to %lld\n", min, max);
94 }
95 if (min == whole_range.min && max == whole_range.max)
96 return &whole_range;
97 if (min == 0 && max == 0)
98 return &range_zero;
99 if (min == 1 && max == 1)
100 return &range_one;
101 ret = __alloc_perm_data_range(0);
102 ret->min = min;
103 ret->max = max;
104 return ret;
105 }
106
107 struct data_info *alloc_dinfo_range(long long min, long long max)
108 {
109 struct data_info *ret;
110
111 ret = __alloc_data_info(0);
112 ret->type = DATA_RANGE;
113 ret->value_ranges = NULL;
114 add_range(&ret->value_ranges, min, max);
115 return ret;
116 }
117
118 struct data_info *alloc_dinfo_range_list(struct range_list *rl)
119 {
120 struct data_info *ret;
121
122 ret = __alloc_data_info(0);
123 ret->type = DATA_RANGE;
124 ret->value_ranges = rl;
125 return ret;
126 }
127
128 void add_range(struct range_list **list, long long min, long long max)
129 {
130 struct data_range *tmp = NULL;
131 struct data_range *new = NULL;
132 int check_next = 0;
133
134 FOR_EACH_PTR(*list, tmp) {
135 if (check_next) {
136 /* Sometimes we overlap with more than one range
137 so we have to delete or modify the next range. */
138 if (max + 1 == tmp->min) {
139 /* join 2 ranges here */
140 new->max = tmp->max;
141 DELETE_CURRENT_PTR(tmp);
142 return;
143 }
144
145 /* Doesn't overlap with the next one. */
146 if (max < tmp->min)
147 return;
148 /* Partially overlaps with the next one. */
149 if (max < tmp->max) {
150 tmp->min = max + 1;
151 return;
152 }
153 /* Completely overlaps with the next one. */
154 if (max >= tmp->max) {
155 DELETE_CURRENT_PTR(tmp);
156 /* there could be more ranges to delete */
157 continue;
158 }
159 }
160 if (max != whole_range.max && max + 1 == tmp->min) {
161 /* join 2 ranges into a big range */
162 new = alloc_range(min, tmp->max);
163 REPLACE_CURRENT_PTR(tmp, new);
164 return;
165 }
166 if (max < tmp->min) { /* new range entirely below */
167 new = alloc_range(min, max);
168 INSERT_CURRENT(new, tmp);
169 return;
170 }
171 if (min < tmp->min) { /* new range partially below */
172 if (max < tmp->max)
173 max = tmp->max;
174 else
175 check_next = 1;
176 new = alloc_range(min, max);
177 REPLACE_CURRENT_PTR(tmp, new);
178 if (!check_next)
179 return;
180 continue;
181 }
182 if (max <= tmp->max) /* new range already included */
183 return;
184 if (min <= tmp->max) { /* new range partially above */
185 min = tmp->min;
186 new = alloc_range(min, max);
187 REPLACE_CURRENT_PTR(tmp, new);
188 check_next = 1;
189 continue;
190 }
191 if (min != whole_range.min && min - 1 == tmp->max) {
192 /* join 2 ranges into a big range */
193 new = alloc_range(tmp->min, max);
194 REPLACE_CURRENT_PTR(tmp, new);
195 check_next = 1;
196 continue;
197 }
198 /* the new range is entirely above the existing ranges */
199 } END_FOR_EACH_PTR(tmp);
200 if (check_next)
201 return;
202 new = alloc_range(min, max);
203 add_ptr_list(list, new);
204 }
205
206 struct range_list *clone_range_list(struct range_list *list)
207 {
208 struct data_range *tmp;
209 struct range_list *ret = NULL;
210
211 FOR_EACH_PTR(list, tmp) {
212 add_ptr_list(&ret, tmp);
213 } END_FOR_EACH_PTR(tmp);
214 return ret;
215 }
216
217 struct range_list *range_list_union(struct range_list *one, struct range_list *two)
218 {
219 struct data_range *tmp;
220 struct range_list *ret = NULL;
221
222 if (!one || !two) /*having nothing in a list means everything is in */
223 return NULL;
224
225 FOR_EACH_PTR(one, tmp) {
226 add_range(&ret, tmp->min, tmp->max);
227 } END_FOR_EACH_PTR(tmp);
228 FOR_EACH_PTR(two, tmp) {
229 add_range(&ret, tmp->min, tmp->max);
230 } END_FOR_EACH_PTR(tmp);
231 return ret;
232 }
233
234 struct range_list *remove_range(struct range_list *list, long long min, long long max)
235 {
236 struct data_range *tmp;
237 struct range_list *ret = NULL;
238
239 FOR_EACH_PTR(list, tmp) {
240 if (tmp->max < min) {
241 add_range(&ret, tmp->min, tmp->max);
242 continue;
243 }
244 if (tmp->min > max) {
245 add_range(&ret, tmp->min, tmp->max);
246 continue;
247 }
248 if (tmp->min >= min && tmp->max <= max)
249 continue;
250 if (tmp->min >= min) {
251 add_range(&ret, max + 1, tmp->max);
252 } else if (tmp->max <= max) {
253 add_range(&ret, tmp->min, min - 1);
254 } else {
255 add_range(&ret, tmp->min, min - 1);
256 add_range(&ret, max + 1, tmp->max);
257 }
258 } END_FOR_EACH_PTR(tmp);
259 return ret;
260 }
261
262 long long get_dinfo_min(struct data_info *dinfo)
263 {
264 struct data_range *drange;
265
266 if (!dinfo || !dinfo->value_ranges)
267 return whole_range.min;
268 drange = first_ptr_list((struct ptr_list *)dinfo->value_ranges);
269 return drange->min;
270 }
271
272 long long get_dinfo_max(struct data_info *dinfo)
273 {
274 struct data_range *drange;
275
276 if (!dinfo || !dinfo->value_ranges)
277 return whole_range.max;
278 drange = first_ptr_list((struct ptr_list *)dinfo->value_ranges);
279 return drange->max;
280 }
281
282 /*
283 * if it can be only one and only value return 1, else return 0
284 */
285 int get_single_value_from_range(struct data_info *dinfo, long long *val)
286 {
287 struct data_range *tmp;
288 int count = 0;
289
290 if (dinfo->type != DATA_RANGE)
291 return 0;
292
293 FOR_EACH_PTR(dinfo->value_ranges, tmp) {
294 if (!count++) {
295 if (tmp->min != tmp->max)
296 return 0;
297 *val = tmp->min;
298 } else {
299 return 0;
300 }
301 } END_FOR_EACH_PTR(tmp);
302 return count;
303 }
304
305 int true_comparison_range(struct data_range *left, int comparison, struct data_range *right)
306 {
307 switch(comparison){
308 case '<':
309 case SPECIAL_UNSIGNED_LT:
310 if (left->min < right->max)
311 return 1;
312 return 0;
313 case SPECIAL_UNSIGNED_LTE:
314 case SPECIAL_LTE:
315 if (left->min <= right->max)
316 return 1;
317 return 0;
318 case SPECIAL_EQUAL:
319 if (left->max < right->min)
320 return 0;
321 if (left->min > right->max)
322 return 0;
323 return 1;
324 case SPECIAL_UNSIGNED_GTE:
325 case SPECIAL_GTE:
326 if (left->max >= right->min)
327 return 1;
328 return 0;
329 case '>':
330 case SPECIAL_UNSIGNED_GT:
331 if (left->max > right->min)
332 return 1;
333 return 0;
334 case SPECIAL_NOTEQUAL:
335 if (left->min != left->max)
336 return 1;
337 if (right->min != right->max)
338 return 1;
339 if (left->min != right->min)
340 return 1;
341 return 0;
342 default:
343 sm_msg("unhandled comparison %d\n", comparison);
344 return 0;
345 }
346 return 0;
347 }
348
349 int true_comparison_range_lr(int comparison, struct data_range *var, struct data_range *val, int left)
350 {
351 if (left)
352 return true_comparison_range(var, comparison, val);
353 else
354 return true_comparison_range(val, comparison, var);
355 }
356
357 static int false_comparison_range(struct data_range *left, int comparison, struct data_range *right)
358 {
359 switch(comparison){
360 case '<':
361 case SPECIAL_UNSIGNED_LT:
362 if (left->max >= right->min)
363 return 1;
364 return 0;
365 case SPECIAL_UNSIGNED_LTE:
366 case SPECIAL_LTE:
367 if (left->max > right->min)
368 return 1;
369 return 0;
370 case SPECIAL_EQUAL:
371 if (left->min != left->max)
372 return 1;
373 if (right->min != right->max)
374 return 1;
375 if (left->min != right->min)
376 return 1;
377 return 0;
378 case SPECIAL_UNSIGNED_GTE:
379 case SPECIAL_GTE:
380 if (left->min < right->max)
381 return 1;
382 return 0;
383 case '>':
384 case SPECIAL_UNSIGNED_GT:
385 if (left->min <= right->max)
386 return 1;
387 return 0;
388 case SPECIAL_NOTEQUAL:
389 if (left->max < right->min)
390 return 0;
391 if (left->min > right->max)
392 return 0;
393 return 1;
394 default:
395 sm_msg("unhandled comparison %d\n", comparison);
396 return 0;
397 }
398 return 0;
399 }
400
401 int false_comparison_range_lr(int comparison, struct data_range *var, struct data_range *val, int left)
402 {
403 if (left)
404 return false_comparison_range(var, comparison, val);
405 else
406 return false_comparison_range(val, comparison, var);
407 }
408
409 int possibly_true(int comparison, struct data_info *dinfo, int num, int left)
410 {
411 struct data_range *tmp;
412 struct data_range drange;
413
414 drange.min = num;
415 drange.max = num;
416
417 FOR_EACH_PTR(dinfo->value_ranges, tmp) {
418 if (true_comparison_range_lr(comparison, tmp, &drange, left))
419 return 1;
420 } END_FOR_EACH_PTR(tmp);
421 return 0;
422 }
423
424 int possibly_false(int comparison, struct data_info *dinfo, int num, int left)
425 {
426 struct data_range *tmp;
427 struct data_range drange;
428
429 drange.min = num;
430 drange.max = num;
431
432 FOR_EACH_PTR(dinfo->value_ranges, tmp) {
433 if (false_comparison_range_lr(comparison, tmp, &drange, left))
434 return 1;
435 } END_FOR_EACH_PTR(tmp);
436 return 0;
437 }
438
439 int possibly_true_range_list(int comparison, struct data_info *dinfo, struct range_list *values, int left)
440 {
441 struct data_range *tmp, *tmp2;
442
443 FOR_EACH_PTR(dinfo->value_ranges, tmp) {
444 FOR_EACH_PTR(values, tmp2) {
445 if (true_comparison_range_lr(comparison, tmp, tmp2, left))
446 return 1;
447 } END_FOR_EACH_PTR(tmp2);
448 } END_FOR_EACH_PTR(tmp);
449 return 0;
450 }
451
452 int possibly_false_range_list(int comparison, struct data_info *dinfo, struct range_list *values, int left)
453 {
454 struct data_range *tmp, *tmp2;
455
456 FOR_EACH_PTR(dinfo->value_ranges, tmp) {
457 FOR_EACH_PTR(values, tmp2) {
458 if (false_comparison_range_lr(comparison, tmp, tmp2, left))
459 return 1;
460 } END_FOR_EACH_PTR(tmp2);
461 } END_FOR_EACH_PTR(tmp);
462 return 0;
463 }
464
465 void tack_on(struct range_list **list, struct data_range *drange)
466 {
467 add_ptr_list(list, drange);
468 }
469
470 int in_list_exact(struct range_list *list, struct data_range *drange)
471 {
472 struct data_range *tmp;
473
474 FOR_EACH_PTR(list, tmp) {
475 if (tmp->min == drange->min && tmp->max == drange->max)
476 return 1;
477 } END_FOR_EACH_PTR(tmp);
478 return 0;
479
480 }
481
482 void push_range_list(struct range_list_stack **rl_stack, struct range_list *rl)
483 {
484 add_ptr_list(rl_stack, rl);
485 }
486
487 struct range_list *pop_range_list(struct range_list_stack **rl_stack)
488 {
489 struct range_list *rl;
490
491 rl = last_ptr_list((struct ptr_list *)*rl_stack);
492 delete_ptr_list_last((struct ptr_list **)rl_stack);
493 return rl;
494 }
495
496 struct range_list *top_range_list(struct range_list_stack *rl_stack)
497 {
498 struct range_list *rl;
499
500 rl = last_ptr_list((struct ptr_list *)rl_stack);
501 return rl;
502 }
503
504 void filter_top_range_list(struct range_list_stack **rl_stack, long long num)
505 {
506 struct range_list *rl;
507
508 rl = pop_range_list(rl_stack);
509 rl = remove_range(rl, num, num);
510 push_range_list(rl_stack, rl);
511 }
512
513 static void free_single_dinfo(struct data_info *dinfo)
514 {
515 if (dinfo->type == DATA_RANGE)
516 __free_ptr_list((struct ptr_list **)&dinfo->value_ranges);
517 }
518
519 static void free_dinfos(struct allocation_blob *blob)
520 {
521 unsigned int size = sizeof(struct data_info);
522 unsigned int offset = 0;
523
524 while (offset < blob->offset) {
525 free_single_dinfo((struct data_info *)(blob->data + offset));
526 offset += size;
527 }
528 }
529
530 void free_data_info_allocs(void)
531 {
532 struct allocator_struct *desc = &data_info_allocator;
533 struct allocation_blob *blob = desc->blobs;
534
535 desc->blobs = NULL;
536 desc->allocations = 0;
537 desc->total_bytes = 0;
538 desc->useful_bytes = 0;
539 desc->freelist = NULL;
540 while (blob) {
541 struct allocation_blob *next = blob->next;
542 free_dinfos(blob);
543 blob_free(blob, desc->chunking);
544 blob = next;
545 }
546 clear_data_range_alloc();
547 }
548
Static analysis for C