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flow: fix struct initialization bug
[smatch.git] / smatch_ranges.c
blobf66b89b9490126d0ba3b247e939e015dcf418347
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 char *show_rl(struct range_list *list)
21 {
22 struct data_range *tmp;
23 char full[256];
24 int i = 0;
25
26 full[0] = '\0';
27 full[255] = '\0';
28 FOR_EACH_PTR(list, tmp) {
29 if (i++)
30 strncat(full, ",", 254 - strlen(full));
31 if (sval_cmp(tmp->min, tmp->max) == 0) {
32 strncat(full, sval_to_str(tmp->min), 254 - strlen(full));
33 continue;
34 }
35 strncat(full, sval_to_str(tmp->min), 254 - strlen(full));
36 strncat(full, "-", 254 - strlen(full));
37 strncat(full, sval_to_str(tmp->max), 254 - strlen(full));
38 } END_FOR_EACH_PTR(tmp);
39 return alloc_sname(full);
40 }
41
42 static int str_to_comparison_arg_helper(const char *str,
43 struct expression *call, int *comparison,
44 struct expression **arg, char **endp)
45 {
46 int param;
47 char *c = (char *)str;
48
49 if (*c != '[')
50 return 0;
51 c++;
52
53 if (*c == '<') {
54 c++;
55 if (*c == '=') {
56 *comparison = SPECIAL_LTE;
57 c++;
58 } else {
59 *comparison = '<';
60 }
61 } else if (*c == '=') {
62 c++;
63 c++;
64 *comparison = SPECIAL_EQUAL;
65 } else if (*c == '>') {
66 c++;
67 if (*c == '=') {
68 *comparison = SPECIAL_GTE;
69 c++;
70 } else {
71 *comparison = '>';
72 }
73 } else {
74 return 0;
75 }
76
77 if (*c != 'p')
78 return 0;
79 c++;
80
81 param = strtoll(c, &c, 10);
82 c++; /* skip the ']' character */
83 if (endp)
84 *endp = (char *)c;
85
86 if (!call)
87 return 0;
88 *arg = get_argument_from_call_expr(call->args, param);
89 if (!*arg)
90 return 0;
91 return 1;
92 }
93
94 int str_to_comparison_arg(const char *str, struct expression *call, int *comparison, struct expression **arg)
95 {
96 while (1) {
97 if (!*str)
98 return 0;
99 if (*str == '[')
100 break;
101 str++;
102 }
103 return str_to_comparison_arg_helper(str, call, comparison, arg, NULL);
104 }
105
106 static sval_t get_val_from_key(int use_max, struct symbol *type, char *c, struct expression *call, char **endp)
107 {
108 struct expression *arg;
109 int comparison;
110 sval_t ret, tmp;
111
112 if (use_max)
113 ret = sval_type_max(type);
114 else
115 ret = sval_type_min(type);
116
117 if (!str_to_comparison_arg_helper(c, call, &comparison, &arg, endp))
118 return ret;
119
120 if (use_max && get_implied_max(arg, &tmp)) {
121 ret = tmp;
122 if (comparison == '<') {
123 tmp.value = 1;
124 ret = sval_binop(ret, '-', tmp);
125 }
126 }
127 if (!use_max && get_implied_min(arg, &tmp)) {
128 ret = tmp;
129 if (comparison == '>') {
130 tmp.value = 1;
131 ret = sval_binop(ret, '+', tmp);
132 }
133 }
134
135 return ret;
136 }
137
138 static sval_t parse_val(int use_max, struct expression *call, struct symbol *type, char *c, char **endp)
139 {
140 char *start = c;
141 sval_t ret;
142
143 if (!strncmp(start, "max", 3)) {
144 ret = sval_type_max(type);
145 c += 3;
146 } else if (!strncmp(start, "u64max", 6)) {
147 ret = sval_type_val(type, ULLONG_MAX);
148 c += 6;
149 } else if (!strncmp(start, "s64max", 6)) {
150 ret = sval_type_val(type, LLONG_MAX);
151 c += 6;
152 } else if (!strncmp(start, "u32max", 6)) {
153 ret = sval_type_val(type, UINT_MAX);
154 c += 6;
155 } else if (!strncmp(start, "s32max", 6)) {
156 ret = sval_type_val(type, INT_MAX);
157 c += 6;
158 } else if (!strncmp(start, "u16max", 6)) {
159 ret = sval_type_val(type, USHRT_MAX);
160 c += 6;
161 } else if (!strncmp(start, "s16max", 6)) {
162 ret = sval_type_val(type, SHRT_MAX);
163 c += 6;
164 } else if (!strncmp(start, "min", 3)) {
165 ret = sval_type_min(type);
166 c += 3;
167 } else if (!strncmp(start, "s64min", 6)) {
168 ret = sval_type_val(type, LLONG_MIN);
169 c += 6;
170 } else if (!strncmp(start, "s32min", 6)) {
171 ret = sval_type_val(type, INT_MIN);
172 c += 6;
173 } else if (!strncmp(start, "s16min", 6)) {
174 ret = sval_type_val(type, SHRT_MIN);
175 c += 6;
176 } else if (start[0] == '[') {
177 /* this parses [==p0] comparisons */
178 ret = get_val_from_key(1, type, start, call, &c);
179 } else {
180 ret = sval_type_val(type, strtoll(start, &c, 10));
181 }
182 *endp = c;
183 return ret;
184 }
185
186 static void str_to_rl_helper(struct expression *call, struct symbol *type, char *value, struct range_list **rl)
187 {
188 sval_t min, max, arg_max;
189 char *c;
190
191 if (!type)
192 type = &llong_ctype;
193 *rl = NULL;
194
195 if (value && strcmp(value, "empty") == 0)
196 return;
197
198 if (strncmp(value, "[==p", 4) == 0) {
199 struct expression *arg;
200 int comparison;
201
202 if (!str_to_comparison_arg(value, call, &comparison, &arg))
203 goto out;
204 get_implied_rl(arg, rl);
205 goto out;
206 }
207
208 c = value;
209 while (*c) {
210 if (*c == '(')
211 c++;
212 min = parse_val(0, call, type, c, &c);
213 if (*c == ')')
214 c++;
215 if (*c == '\0' || *c == '[') {
216 add_range(rl, min, min);
217 break;
218 }
219 if (*c == ',') {
220 add_range(rl, min, min);
221 c++;
222 continue;
223 }
224 if (*c != '-') {
225 sm_msg("debug XXX: trouble parsing %s ", value);
226 break;
227 }
228 c++;
229 if (*c == '(')
230 c++;
231 max = parse_val(1, call, type, c, &c);
232 if (*c == ')')
233 c++;
234 if (*c == '[') {
235 arg_max = get_val_from_key(1, type, c, call, &c);
236 if (sval_cmp(arg_max, max) < 0)
237 max = arg_max;
238 }
239 add_range(rl, min, max);
240 if (!*c)
241 break;
242 if (*c != ',') {
243 sm_msg("debug YYY: trouble parsing %s %s", value, c);
244 break;
245 }
246 c++;
247 }
248
249 out:
250 *rl = cast_rl(type, *rl);
251 }
252
253 void str_to_rl(struct symbol *type, char *value, struct range_list **rl)
254 {
255 return str_to_rl_helper(NULL, type, value, rl);
256 }
257
258 void call_results_to_rl(struct expression *expr, struct symbol *type, char *value, struct range_list **rl)
259 {
260 return str_to_rl_helper(strip_expr(expr), type, value, rl);
261 }
262
263 int is_whole_rl(struct range_list *rl)
264 {
265 struct data_range *drange;
266
267 if (ptr_list_empty(rl))
268 return 0;
269 drange = first_ptr_list((struct ptr_list *)rl);
270 if (sval_is_min(drange->min) && sval_is_max(drange->max))
271 return 1;
272 return 0;
273 }
274
275 sval_t rl_min(struct range_list *rl)
276 {
277 struct data_range *drange;
278 sval_t ret;
279
280 ret.type = &llong_ctype;
281 ret.value = LLONG_MIN;
282 if (ptr_list_empty(rl))
283 return ret;
284 drange = first_ptr_list((struct ptr_list *)rl);
285 return drange->min;
286 }
287
288 sval_t rl_max(struct range_list *rl)
289 {
290 struct data_range *drange;
291 sval_t ret;
292
293 ret.type = &llong_ctype;
294 ret.value = LLONG_MAX;
295 if (ptr_list_empty(rl))
296 return ret;
297 drange = last_ptr_list((struct ptr_list *)rl);
298 return drange->max;
299 }
300
301 int rl_to_sval(struct range_list *rl, sval_t *sval)
302 {
303 sval_t min, max;
304
305 if (!rl)
306 return 0;
307
308 min = rl_min(rl);
309 max = rl_max(rl);
310 if (sval_cmp(min, max) != 0)
311 return 0;
312 *sval = min;
313 return 1;
314 }
315
316 struct symbol *rl_type(struct range_list *rl)
317 {
318 if (!rl)
319 return NULL;
320 return rl_min(rl).type;
321 }
322
323 static struct data_range *alloc_range_helper_sval(sval_t min, sval_t max, int perm)
324 {
325 struct data_range *ret;
326
327 if (perm)
328 ret = __alloc_perm_data_range(0);
329 else
330 ret = __alloc_data_range(0);
331 ret->min = min;
332 ret->max = max;
333 return ret;
334 }
335
336 struct data_range *alloc_range(sval_t min, sval_t max)
337 {
338 return alloc_range_helper_sval(min, max, 0);
339 }
340
341 struct data_range *alloc_range_perm(sval_t min, sval_t max)
342 {
343 return alloc_range_helper_sval(min, max, 1);
344 }
345
346 struct range_list *alloc_rl(sval_t min, sval_t max)
347 {
348 struct range_list *rl = NULL;
349
350 if (sval_cmp(min, max) > 0)
351 return alloc_whole_rl(min.type);
352
353 add_range(&rl, min, max);
354 return rl;
355 }
356
357 struct range_list *alloc_whole_rl(struct symbol *type)
358 {
359 if (!type || type_positive_bits(type) < 0)
360 type = &llong_ctype;
361
362 return alloc_rl(sval_type_min(type), sval_type_max(type));
363 }
364
365 void add_range(struct range_list **list, sval_t min, sval_t max)
366 {
367 struct data_range *tmp = NULL;
368 struct data_range *new = NULL;
369 int check_next = 0;
370
371 /*
372 * FIXME: This has a problem merging a range_list like: min-0,3-max
373 * with a range like 1-2. You end up with min-2,3-max instead of
374 * just min-max.
375 */
376 FOR_EACH_PTR(*list, tmp) {
377 if (check_next) {
378 /* Sometimes we overlap with more than one range
379 so we have to delete or modify the next range. */
380 if (max.value + 1 == tmp->min.value) {
381 /* join 2 ranges here */
382 new->max = tmp->max;
383 DELETE_CURRENT_PTR(tmp);
384 return;
385 }
386
387 /* Doesn't overlap with the next one. */
388 if (sval_cmp(max, tmp->min) < 0)
389 return;
390 /* Partially overlaps with the next one. */
391 if (sval_cmp(max, tmp->max) < 0) {
392 tmp->min.value = max.value + 1;
393 return;
394 }
395 /* Completely overlaps with the next one. */
396 if (sval_cmp(max, tmp->max) >= 0) {
397 DELETE_CURRENT_PTR(tmp);
398 /* there could be more ranges to delete */
399 continue;
400 }
401 }
402 if (!sval_is_max(max) && max.value + 1 == tmp->min.value) {
403 /* join 2 ranges into a big range */
404 new = alloc_range(min, tmp->max);
405 REPLACE_CURRENT_PTR(tmp, new);
406 return;
407 }
408 if (sval_cmp(max, tmp->min) < 0) { /* new range entirely below */
409 new = alloc_range(min, max);
410 INSERT_CURRENT(new, tmp);
411 return;
412 }
413 if (sval_cmp(min, tmp->min) < 0) { /* new range partially below */
414 if (sval_cmp(max, tmp->max) < 0)
415 max = tmp->max;
416 else
417 check_next = 1;
418 new = alloc_range(min, max);
419 REPLACE_CURRENT_PTR(tmp, new);
420 if (!check_next)
421 return;
422 continue;
423 }
424 if (sval_cmp(max, tmp->max) <= 0) /* new range already included */
425 return;
426 if (sval_cmp(min, tmp->max) <= 0) { /* new range partially above */
427 min = tmp->min;
428 new = alloc_range(min, max);
429 REPLACE_CURRENT_PTR(tmp, new);
430 check_next = 1;
431 continue;
432 }
433 if (!sval_is_min(min) && min.value - 1 == tmp->max.value) {
434 /* join 2 ranges into a big range */
435 new = alloc_range(tmp->min, max);
436 REPLACE_CURRENT_PTR(tmp, new);
437 check_next = 1;
438 continue;
439 }
440 /* the new range is entirely above the existing ranges */
441 } END_FOR_EACH_PTR(tmp);
442 if (check_next)
443 return;
444 new = alloc_range(min, max);
445 add_ptr_list(list, new);
446 }
447
448 struct range_list *clone_rl(struct range_list *list)
449 {
450 struct data_range *tmp;
451 struct range_list *ret = NULL;
452
453 FOR_EACH_PTR(list, tmp) {
454 add_ptr_list(&ret, tmp);
455 } END_FOR_EACH_PTR(tmp);
456 return ret;
457 }
458
459 struct range_list *clone_rl_permanent(struct range_list *list)
460 {
461 struct data_range *tmp;
462 struct data_range *new;
463 struct range_list *ret = NULL;
464
465 FOR_EACH_PTR(list, tmp) {
466 new = alloc_range_perm(tmp->min, tmp->max);
467 add_ptr_list(&ret, new);
468 } END_FOR_EACH_PTR(tmp);
469 return ret;
470 }
471
472 struct range_list *rl_union(struct range_list *one, struct range_list *two)
473 {
474 struct data_range *tmp;
475 struct range_list *ret = NULL;
476
477 FOR_EACH_PTR(one, tmp) {
478 add_range(&ret, tmp->min, tmp->max);
479 } END_FOR_EACH_PTR(tmp);
480 FOR_EACH_PTR(two, tmp) {
481 add_range(&ret, tmp->min, tmp->max);
482 } END_FOR_EACH_PTR(tmp);
483 return ret;
484 }
485
486 struct range_list *remove_range(struct range_list *list, sval_t min, sval_t max)
487 {
488 struct data_range *tmp;
489 struct range_list *ret = NULL;
490
491 FOR_EACH_PTR(list, tmp) {
492 if (sval_cmp(tmp->max, min) < 0) {
493 add_range(&ret, tmp->min, tmp->max);
494 continue;
495 }
496 if (sval_cmp(tmp->min, max) > 0) {
497 add_range(&ret, tmp->min, tmp->max);
498 continue;
499 }
500 if (sval_cmp(tmp->min, min) >= 0 && sval_cmp(tmp->max, max) <= 0)
501 continue;
502 if (sval_cmp(tmp->min, min) >= 0) {
503 max.value++;
504 add_range(&ret, max, tmp->max);
505 } else if (sval_cmp(tmp->max, max) <= 0) {
506 min.value--;
507 add_range(&ret, tmp->min, min);
508 } else {
509 min.value--;
510 max.value++;
511 add_range(&ret, tmp->min, min);
512 add_range(&ret, max, tmp->max);
513 }
514 } END_FOR_EACH_PTR(tmp);
515 return ret;
516 }
517
518 int ranges_equiv(struct data_range *one, struct data_range *two)
519 {
520 if (!one && !two)
521 return 1;
522 if (!one || !two)
523 return 0;
524 if (sval_cmp(one->min, two->min) != 0)
525 return 0;
526 if (sval_cmp(one->max, two->max) != 0)
527 return 0;
528 return 1;
529 }
530
531 int rl_equiv(struct range_list *one, struct range_list *two)
532 {
533 struct data_range *one_range;
534 struct data_range *two_range;
535
536 if (one == two)
537 return 1;
538
539 PREPARE_PTR_LIST(one, one_range);
540 PREPARE_PTR_LIST(two, two_range);
541 for (;;) {
542 if (!one_range && !two_range)
543 return 1;
544 if (!ranges_equiv(one_range, two_range))
545 return 0;
546 NEXT_PTR_LIST(one_range);
547 NEXT_PTR_LIST(two_range);
548 }
549 FINISH_PTR_LIST(two_range);
550 FINISH_PTR_LIST(one_range);
551
552 return 1;
553 }
554
555 int true_comparison_range(struct data_range *left, int comparison, struct data_range *right)
556 {
557 switch (comparison) {
558 case '<':
559 case SPECIAL_UNSIGNED_LT:
560 if (sval_cmp(left->min, right->max) < 0)
561 return 1;
562 return 0;
563 case SPECIAL_UNSIGNED_LTE:
564 case SPECIAL_LTE:
565 if (sval_cmp(left->min, right->max) <= 0)
566 return 1;
567 return 0;
568 case SPECIAL_EQUAL:
569 if (sval_cmp(left->max, right->min) < 0)
570 return 0;
571 if (sval_cmp(left->min, right->max) > 0)
572 return 0;
573 return 1;
574 case SPECIAL_UNSIGNED_GTE:
575 case SPECIAL_GTE:
576 if (sval_cmp(left->max, right->min) >= 0)
577 return 1;
578 return 0;
579 case '>':
580 case SPECIAL_UNSIGNED_GT:
581 if (sval_cmp(left->max, right->min) > 0)
582 return 1;
583 return 0;
584 case SPECIAL_NOTEQUAL:
585 if (sval_cmp(left->min, left->max) != 0)
586 return 1;
587 if (sval_cmp(right->min, right->max) != 0)
588 return 1;
589 if (sval_cmp(left->min, right->min) != 0)
590 return 1;
591 return 0;
592 default:
593 sm_msg("unhandled comparison %d\n", comparison);
594 return 0;
595 }
596 return 0;
597 }
598
599 int true_comparison_range_LR(int comparison, struct data_range *var, struct data_range *val, int left)
600 {
601 if (left)
602 return true_comparison_range(var, comparison, val);
603 else
604 return true_comparison_range(val, comparison, var);
605 }
606
607 static int false_comparison_range_sval(struct data_range *left, int comparison, struct data_range *right)
608 {
609 switch (comparison) {
610 case '<':
611 case SPECIAL_UNSIGNED_LT:
612 if (sval_cmp(left->max, right->min) >= 0)
613 return 1;
614 return 0;
615 case SPECIAL_UNSIGNED_LTE:
616 case SPECIAL_LTE:
617 if (sval_cmp(left->max, right->min) > 0)
618 return 1;
619 return 0;
620 case SPECIAL_EQUAL:
621 if (sval_cmp(left->min, left->max) != 0)
622 return 1;
623 if (sval_cmp(right->min, right->max) != 0)
624 return 1;
625 if (sval_cmp(left->min, right->min) != 0)
626 return 1;
627 return 0;
628 case SPECIAL_UNSIGNED_GTE:
629 case SPECIAL_GTE:
630 if (sval_cmp(left->min, right->max) < 0)
631 return 1;
632 return 0;
633 case '>':
634 case SPECIAL_UNSIGNED_GT:
635 if (sval_cmp(left->min, right->max) <= 0)
636 return 1;
637 return 0;
638 case SPECIAL_NOTEQUAL:
639 if (sval_cmp(left->max, right->min) < 0)
640 return 0;
641 if (sval_cmp(left->min, right->max) > 0)
642 return 0;
643 return 1;
644 default:
645 sm_msg("unhandled comparison %d\n", comparison);
646 return 0;
647 }
648 return 0;
649 }
650
651 int false_comparison_range_LR(int comparison, struct data_range *var, struct data_range *val, int left)
652 {
653 if (left)
654 return false_comparison_range_sval(var, comparison, val);
655 else
656 return false_comparison_range_sval(val, comparison, var);
657 }
658
659 int possibly_true(struct expression *left, int comparison, struct expression *right)
660 {
661 struct range_list *rl_left, *rl_right;
662 struct data_range *tmp_left, *tmp_right;
663
664 if (!get_implied_rl(left, &rl_left))
665 return 1;
666 if (!get_implied_rl(right, &rl_right))
667 return 1;
668
669 FOR_EACH_PTR(rl_left, tmp_left) {
670 FOR_EACH_PTR(rl_right, tmp_right) {
671 if (true_comparison_range(tmp_left, comparison, tmp_right))
672 return 1;
673 } END_FOR_EACH_PTR(tmp_right);
674 } END_FOR_EACH_PTR(tmp_left);
675 return 0;
676 }
677
678 int possibly_false(struct expression *left, int comparison, struct expression *right)
679 {
680 struct range_list *rl_left, *rl_right;
681 struct data_range *tmp_left, *tmp_right;
682
683 if (!get_implied_rl(left, &rl_left))
684 return 1;
685 if (!get_implied_rl(right, &rl_right))
686 return 1;
687
688 FOR_EACH_PTR(rl_left, tmp_left) {
689 FOR_EACH_PTR(rl_right, tmp_right) {
690 if (false_comparison_range_sval(tmp_left, comparison, tmp_right))
691 return 1;
692 } END_FOR_EACH_PTR(tmp_right);
693 } END_FOR_EACH_PTR(tmp_left);
694 return 0;
695 }
696
697 int possibly_true_rl(struct range_list *left_ranges, int comparison, struct range_list *right_ranges)
698 {
699 struct data_range *left_tmp, *right_tmp;
700
701 if (!left_ranges || !right_ranges)
702 return 1;
703
704 FOR_EACH_PTR(left_ranges, left_tmp) {
705 FOR_EACH_PTR(right_ranges, right_tmp) {
706 if (true_comparison_range(left_tmp, comparison, right_tmp))
707 return 1;
708 } END_FOR_EACH_PTR(right_tmp);
709 } END_FOR_EACH_PTR(left_tmp);
710 return 0;
711 }
712
713 int possibly_false_rl(struct range_list *left_ranges, int comparison, struct range_list *right_ranges)
714 {
715 struct data_range *left_tmp, *right_tmp;
716
717 if (!left_ranges || !right_ranges)
718 return 1;
719
720 FOR_EACH_PTR(left_ranges, left_tmp) {
721 FOR_EACH_PTR(right_ranges, right_tmp) {
722 if (false_comparison_range_sval(left_tmp, comparison, right_tmp))
723 return 1;
724 } END_FOR_EACH_PTR(right_tmp);
725 } END_FOR_EACH_PTR(left_tmp);
726 return 0;
727 }
728
729 /* FIXME: the _rl here stands for right left so really it should be _lr */
730 int possibly_true_rl_LR(int comparison, struct range_list *a, struct range_list *b, int left)
731 {
732 if (left)
733 return possibly_true_rl(a, comparison, b);
734 else
735 return possibly_true_rl(b, comparison, a);
736 }
737
738 int possibly_false_rl_LR(int comparison, struct range_list *a, struct range_list *b, int left)
739 {
740 if (left)
741 return possibly_false_rl(a, comparison, b);
742 else
743 return possibly_false_rl(b, comparison, a);
744 }
745
746 int rl_has_sval(struct range_list *rl, sval_t sval)
747 {
748 struct data_range *tmp;
749
750 FOR_EACH_PTR(rl, tmp) {
751 if (sval_cmp(tmp->min, sval) <= 0 &&
752 sval_cmp(tmp->max, sval) >= 0)
753 return 1;
754 } END_FOR_EACH_PTR(tmp);
755 return 0;
756 }
757
758 void tack_on(struct range_list **list, struct data_range *drange)
759 {
760 add_ptr_list(list, drange);
761 }
762
763 void push_rl(struct range_list_stack **rl_stack, struct range_list *rl)
764 {
765 add_ptr_list(rl_stack, rl);
766 }
767
768 struct range_list *pop_rl(struct range_list_stack **rl_stack)
769 {
770 struct range_list *rl;
771
772 rl = last_ptr_list((struct ptr_list *)*rl_stack);
773 delete_ptr_list_last((struct ptr_list **)rl_stack);
774 return rl;
775 }
776
777 struct range_list *top_rl(struct range_list_stack *rl_stack)
778 {
779 struct range_list *rl;
780
781 rl = last_ptr_list((struct ptr_list *)rl_stack);
782 return rl;
783 }
784
785 void filter_top_rl(struct range_list_stack **rl_stack, sval_t sval)
786 {
787 struct range_list *rl;
788
789 rl = pop_rl(rl_stack);
790 rl = remove_range(rl, sval, sval);
791 push_rl(rl_stack, rl);
792 }
793
794 static int sval_too_big(struct symbol *type, sval_t sval)
795 {
796 if (type_bits(type) == 64)
797 return 0;
798 if (sval.uvalue > ((1ULL << type_bits(type)) - 1))
799 return 1;
800 return 0;
801 }
802
803 static void add_range_t(struct symbol *type, struct range_list **rl, sval_t min, sval_t max)
804 {
805 /* If we're just adding a number, cast it and add it */
806 if (sval_cmp(min, max) == 0) {
807 add_range(rl, sval_cast(type, min), sval_cast(type, max));
808 return;
809 }
810
811 /* If the range is within the type range then add it */
812 if (sval_fits(type, min) && sval_fits(type, max)) {
813 add_range(rl, sval_cast(type, min), sval_cast(type, max));
814 return;
815 }
816
817 /*
818 * If the range we are adding has more bits than the range type then
819 * add the whole range type. Eg:
820 * 0x8000000000000000 - 0xf000000000000000 -> cast to int
821 * This isn't totally the right thing to do. We could be more granular.
822 */
823 if (sval_too_big(type, min) || sval_too_big(type, max)) {
824 add_range(rl, sval_type_min(type), sval_type_max(type));
825 return;
826 }
827
828 /* Cast negative values to high positive values */
829 if (sval_is_negative(min) && type_unsigned(type)) {
830 if (sval_is_positive(max)) {
831 if (sval_too_high(type, max)) {
832 add_range(rl, sval_type_min(type), sval_type_max(type));
833 return;
834 }
835 add_range(rl, sval_type_val(type, 0), sval_cast(type, max));
836 max = sval_type_max(type);
837 } else {
838 max = sval_cast(type, max);
839 }
840 min = sval_cast(type, min);
841 add_range(rl, min, max);
842 }
843
844 /* Cast high positive numbers to negative */
845 if (sval_unsigned(max) && sval_is_negative(sval_cast(type, max))) {
846 if (!sval_is_negative(sval_cast(type, min))) {
847 add_range(rl, sval_cast(type, min), sval_type_max(type));
848 min = sval_type_min(type);
849 } else {
850 min = sval_cast(type, min);
851 }
852 max = sval_cast(type, max);
853 add_range(rl, min, max);
854 }
855
856 return;
857 }
858
859 struct range_list *rl_truncate_cast(struct symbol *type, struct range_list *rl)
860 {
861 struct data_range *tmp;
862 struct range_list *ret = NULL;
863 sval_t min, max;
864
865 if (!rl)
866 return NULL;
867
868 if (!type || type == rl_type(rl))
869 return rl;
870
871 FOR_EACH_PTR(rl, tmp) {
872 min = tmp->min;
873 max = tmp->max;
874 if (type_bits(type) < type_bits(rl_type(rl))) {
875 min.uvalue = tmp->min.uvalue & ((1ULL << type_bits(type)) - 1);
876 max.uvalue = tmp->max.uvalue & ((1ULL << type_bits(type)) - 1);
877 }
878 if (sval_cmp(min, max) > 0) {
879 min = sval_cast(type, min);
880 max = sval_cast(type, max);
881 }
882 add_range_t(type, &ret, min, max);
883 } END_FOR_EACH_PTR(tmp);
884
885 return ret;
886 }
887
888 static int rl_is_sane(struct range_list *rl)
889 {
890 struct data_range *tmp;
891 struct symbol *type;
892
893 type = rl_type(rl);
894 FOR_EACH_PTR(rl, tmp) {
895 if (!sval_fits(type, tmp->min))
896 return 0;
897 if (!sval_fits(type, tmp->max))
898 return 0;
899 if (sval_cmp(tmp->min, tmp->max) > 0)
900 return 0;
901 } END_FOR_EACH_PTR(tmp);
902
903 return 1;
904 }
905
906 static int rl_type_consistent(struct range_list *rl)
907 {
908 struct data_range *tmp;
909 struct symbol *type;
910
911 type = rl_type(rl);
912 FOR_EACH_PTR(rl, tmp) {
913 if (type != tmp->min.type || type != tmp->max.type)
914 return 0;
915 } END_FOR_EACH_PTR(tmp);
916 return 1;
917 }
918
919 struct range_list *cast_rl(struct symbol *type, struct range_list *rl)
920 {
921 struct data_range *tmp;
922 struct range_list *ret = NULL;
923
924 if (!rl)
925 return NULL;
926
927 if (!type)
928 return rl;
929 if (!rl_is_sane(rl))
930 return alloc_whole_rl(type);
931 if (type == rl_type(rl) && rl_type_consistent(rl))
932 return rl;
933
934 FOR_EACH_PTR(rl, tmp) {
935 add_range_t(type, &ret, tmp->min, tmp->max);
936 } END_FOR_EACH_PTR(tmp);
937
938 if (!ret)
939 return alloc_whole_rl(type);
940
941 return ret;
942 }
943
944 struct range_list *rl_invert(struct range_list *orig)
945 {
946 struct range_list *ret = NULL;
947 struct data_range *tmp;
948 sval_t gap_min, abs_max, sval;
949
950 if (!orig)
951 return NULL;
952
953 gap_min = sval_type_min(rl_min(orig).type);
954 abs_max = sval_type_max(rl_max(orig).type);
955
956 FOR_EACH_PTR(orig, tmp) {
957 if (sval_cmp(tmp->min, gap_min) > 0) {
958 sval = sval_type_val(tmp->min.type, tmp->min.value - 1);
959 add_range(&ret, gap_min, sval);
960 }
961 gap_min = sval_type_val(tmp->max.type, tmp->max.value + 1);
962 if (sval_cmp(tmp->max, abs_max) == 0)
963 gap_min = abs_max;
964 } END_FOR_EACH_PTR(tmp);
965
966 if (sval_cmp(gap_min, abs_max) < 0)
967 add_range(&ret, gap_min, abs_max);
968
969 return ret;
970 }
971
972 struct range_list *rl_filter(struct range_list *rl, struct range_list *filter)
973 {
974 struct data_range *tmp;
975
976 FOR_EACH_PTR(filter, tmp) {
977 rl = remove_range(rl, tmp->min, tmp->max);
978 } END_FOR_EACH_PTR(tmp);
979
980 return rl;
981 }
982
983 struct range_list *rl_intersection(struct range_list *one, struct range_list *two)
984 {
985 if (!two)
986 return NULL;
987 two = rl_invert(two);
988 return rl_filter(one, two);
989 }
990
991 void free_rl(struct range_list **rlist)
992 {
993 __free_ptr_list((struct ptr_list **)rlist);
994 }
995
996 static void free_single_dinfo(struct data_info *dinfo)
997 {
998 free_rl(&dinfo->value_ranges);
999 }
1000
1001 static void free_dinfos(struct allocation_blob *blob)
1002 {
1003 unsigned int size = sizeof(struct data_info);
1004 unsigned int offset = 0;
1005
1006 while (offset < blob->offset) {
1007 free_single_dinfo((struct data_info *)(blob->data + offset));
1008 offset += size;
1009 }
1010 }
1011
1012 void free_data_info_allocs(void)
1013 {
1014 struct allocator_struct *desc = &data_info_allocator;
1015 struct allocation_blob *blob = desc->blobs;
1016
1017 desc->blobs = NULL;
1018 desc->allocations = 0;
1019 desc->total_bytes = 0;
1020 desc->useful_bytes = 0;
1021 desc->freelist = NULL;
1022 while (blob) {
1023 struct allocation_blob *next = blob->next;
1024 free_dinfos(blob);
1025 blob_free(blob, desc->chunking);
1026 blob = next;
1027 }
1028 clear_data_range_alloc();
1029 }
1030
Static analysis for C