struct_assignment: handle pointer to pointer assignments better
[smatch.git] / smatch_bits.c
blobb21fb52de5dd386fd2f996e950534699ae808de6
1 /*
2 * Copyright (C) 2015 Oracle.
4 * This program is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU General Public License
6 * as published by the Free Software Foundation; either version 2
7 * of the License, or (at your option) any later version.
9 * This program is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 * GNU General Public License for more details.
14 * You should have received a copy of the GNU General Public License
15 * along with this program; if not, see http://www.gnu.org/copyleft/gpl.txt
19 * This is to track when variables are masked away.
23 #include "smatch.h"
24 #include "smatch_extra.h"
25 #include "smatch_slist.h"
27 static int my_id;
29 ALLOCATOR(bit_info, "bit data");
30 struct bit_info *alloc_bit_info(unsigned long long set, unsigned long long possible)
32 struct bit_info *bit_info = __alloc_bit_info(0);
34 bit_info->set = set;
35 bit_info->possible = possible;
37 return bit_info;
40 void set_bits_modified_expr(struct expression *expr, struct smatch_state *state)
42 __set_param_modified_helper(expr, state);
43 set_state_expr(my_id, expr, state);
46 void set_bits_modified_expr_sym(const char *name, struct symbol *sym, struct smatch_state *state)
48 __set_param_modified_helper_sym(name, sym, state);
49 set_state(my_id, name, sym, state);
51 struct smatch_state *alloc_bstate(unsigned long long set, unsigned long long possible)
53 struct smatch_state *state;
54 char buf[64];
56 state = __alloc_smatch_state(0);
57 snprintf(buf, sizeof(buf), "0x%llx + 0x%llx", set, possible);
58 state->name = alloc_sname(buf);
59 state->data = alloc_bit_info(set, possible);
61 return state;
64 struct bit_info *rl_to_binfo(struct range_list *rl)
66 struct bit_info *ret = __alloc_bit_info(0);
67 sval_t sval;
69 if (rl_to_sval(rl, &sval)) {
70 ret->set = sval.uvalue;
71 ret->possible = sval.uvalue;
73 return ret;
76 ret->set = 0;
77 ret->possible = sval_fls_mask(rl_max(rl));
78 // FIXME: what about negatives?
80 return ret;
83 static int is_unknown_binfo(struct symbol *type, struct bit_info *binfo)
85 if (!type)
86 type = &ullong_ctype;
88 if (binfo->set != 0)
89 return 0;
90 if (binfo->possible < (-1ULL >> (64 - type_bits(type))))
91 return 0;
93 return 1;
96 static struct smatch_state *unmatched_state(struct sm_state *sm)
98 struct smatch_state *estate;
99 struct symbol *type;
100 unsigned long long possible;
101 struct bit_info *p;
103 estate = get_state(SMATCH_EXTRA, sm->name, sm->sym);
104 if (estate_rl(estate)) {
105 p = rl_to_binfo(estate_rl(estate));
106 return alloc_bstate(p->set, p->possible);
109 type = estate_type(estate);
110 if (!type)
111 return alloc_bstate(0, -1ULL);
113 if (type_bits(type) == 64)
114 possible = -1ULL;
115 else
116 possible = (1ULL << type_bits(type)) - 1;
118 return alloc_bstate(0, possible);
121 static bool is_loop_iterator(struct expression *expr)
123 struct statement *pre_stmt, *loop_stmt;
125 pre_stmt = expr_get_parent_stmt(expr);
126 if (!pre_stmt || pre_stmt->type != STMT_EXPRESSION)
127 return false;
129 loop_stmt = stmt_get_parent_stmt(pre_stmt);
130 if (!loop_stmt || loop_stmt->type != STMT_ITERATOR)
131 return false;
132 if (loop_stmt->iterator_pre_statement != pre_stmt)
133 return false;
135 return true;
138 static bool handled_by_assign_hook(struct expression *expr)
140 if (!expr || expr->type != EXPR_ASSIGNMENT)
141 return false;
142 if (__in_fake_assign)
143 return false;
144 if (is_loop_iterator(expr))
145 return false;
147 if (expr->op == '=' ||
148 expr->op == SPECIAL_OR_ASSIGN ||
149 expr->op == SPECIAL_AND_ASSIGN)
150 return true;
152 return false;
155 static void match_modify(struct sm_state *sm, struct expression *mod_expr)
157 // FIXME: we really need to store the type
159 if (handled_by_assign_hook(mod_expr))
160 return;
162 set_bits_modified_expr_sym(sm->name, sm->sym, alloc_bstate(0, -1ULL));
165 int binfo_equiv(struct bit_info *one, struct bit_info *two)
167 if (one->set == two->set &&
168 one->possible == two->possible)
169 return 1;
170 return 0;
173 struct smatch_state *merge_bstates(struct smatch_state *one_state, struct smatch_state *two_state)
175 struct bit_info *one, *two;
177 one = one_state->data;
178 two = two_state->data;
180 if (binfo_equiv(one, two))
181 return one_state;
183 return alloc_bstate(one->set & two->set, one->possible | two->possible);
187 * The combine_bit_info() takes two bit_infos and takes creates the most
188 * accurate picture we can assuming both are true. Or it returns unknown if
189 * the information is logically impossible.
191 * Which means that it takes the | of the ->set bits and the & of the possibly
192 * set bits, which is the opposite of what merge_bstates() does.
195 static struct bit_info *combine_bit_info(struct bit_info *one, struct bit_info *two)
197 struct bit_info *ret = __alloc_bit_info(0);
199 if ((one->set & two->possible) != one->set)
200 return alloc_bit_info(0, -1ULL);
201 if ((two->set & one->possible) != two->set)
202 return alloc_bit_info(0, -1ULL);
204 ret->set = one->set | two->set;
205 ret->possible = one->possible & two->possible;
207 return ret;
210 static struct bit_info *binfo_AND(struct bit_info *left, struct bit_info *right)
212 unsigned long long set = 0;
213 unsigned long long possible = -1ULL;
215 if (!left && !right) {
216 /* nothing */
217 } else if (!left) {
218 possible = right->possible;
219 } else if (!right) {
220 possible = left->possible;
221 } else {
222 set = left->set & right->set;
223 possible = left->possible & right->possible;
226 return alloc_bit_info(set, possible);
229 static struct bit_info *binfo_OR(struct bit_info *left, struct bit_info *right)
231 unsigned long long set = 0;
232 unsigned long long possible = -1ULL;
234 if (!left && !right) {
235 /* nothing */
236 } else if (!left) {
237 set = right->set;
238 } else if (!right) {
239 set = left->set;
240 } else {
241 set = left->set | right->set;
242 possible = left->possible | right->possible;
245 return alloc_bit_info(set, possible);
248 static unsigned long long get_type_possible(struct symbol *type)
250 if (!type)
251 type = &ullong_ctype;
253 if (type_bits(type) == 64)
254 return -1ULL;
256 return (1ULL << type_bits(type)) - 1;
259 struct bit_info *get_bit_info(struct expression *expr)
261 struct range_list *rl;
262 struct smatch_state *bstate;
263 struct bit_info *extra_info;
264 struct bit_info *bit_info;
265 struct bit_info unknown_bit_info = { };
266 sval_t known;
268 expr = strip_parens(expr);
270 if (get_implied_value(expr, &known))
271 return alloc_bit_info(known.value, known.value);
273 if (expr->type == EXPR_BINOP) {
274 if (expr->op == '&')
275 return binfo_AND(get_bit_info(expr->left),
276 get_bit_info(expr->right));
277 if (expr->op == '|')
278 return binfo_OR(get_bit_info(expr->left),
279 get_bit_info(expr->right));
282 unknown_bit_info.possible = get_type_possible(get_type(expr));
284 if (get_implied_rl(expr, &rl))
285 extra_info = rl_to_binfo(rl);
286 else
287 extra_info = &unknown_bit_info;
289 bstate = get_state_expr(my_id, expr);
290 if (bstate)
291 bit_info = bstate->data;
292 else
293 bit_info = &unknown_bit_info;
295 return combine_bit_info(extra_info, bit_info);
298 static int is_single_bit(sval_t sval)
300 int i;
301 int count = 0;
303 for (i = 0; i < 64; i++) {
304 if (sval.uvalue & 1ULL << i &&
305 count++)
306 return 0;
308 if (count == 1)
309 return 1;
310 return 0;
313 static void match_compare(struct expression *expr)
315 sval_t val;
317 if (expr->type != EXPR_COMPARE)
318 return;
319 if (expr->op != SPECIAL_EQUAL &&
320 expr->op != SPECIAL_NOTEQUAL)
321 return;
323 if (!get_implied_value(expr->right, &val))
324 return;
326 set_true_false_states_expr(my_id, expr->left,
327 (expr->op == SPECIAL_EQUAL) ? alloc_bstate(val.uvalue, val.uvalue) : NULL,
328 (expr->op == SPECIAL_EQUAL) ? NULL : alloc_bstate(val.uvalue, val.uvalue));
331 static void match_assign(struct expression *expr)
333 struct bit_info *start, *binfo;
334 struct bit_info new;
335 unsigned long long mask;
337 if (!handled_by_assign_hook(expr))
338 return;
340 binfo = get_bit_info(expr->right);
341 if (expr->op == '=') {
342 new.set = binfo->set;
343 new.possible = binfo->possible;
344 } else if (expr->op == SPECIAL_OR_ASSIGN) {
345 start = get_bit_info(expr->left);
346 new.set = start->set | binfo->set;
347 new.possible = start->possible | binfo->possible;
348 goto done;
349 } else if (expr->op == SPECIAL_AND_ASSIGN) {
350 start = get_bit_info(expr->left);
351 new.set = start->set & binfo->set;
352 new.possible = start->possible & binfo->possible;
353 goto done;
356 done:
357 mask = get_type_possible(get_type(expr->left));
358 new.set &= mask;
359 new.possible &= mask;
361 if (is_unknown_binfo(get_type(expr->left), &new) &&
362 !get_state_expr(my_id, expr->left))
363 return;
365 set_bits_modified_expr(expr->left, alloc_bstate(new.set, new.possible));
368 static void match_condition(struct expression *expr)
370 struct bit_info *orig;
371 struct bit_info true_info;
372 struct bit_info false_info;
373 sval_t right;
375 if (expr->type != EXPR_BINOP ||
376 expr->op != '&')
377 return;
379 if (!get_value(expr->right, &right))
380 return;
382 orig = get_bit_info(expr->left);
383 true_info = *orig;
384 false_info = *orig;
386 if (right.uvalue == 0 || is_single_bit(right))
387 true_info.set &= right.uvalue;
389 true_info.possible &= right.uvalue;
390 false_info.possible &= ~right.uvalue;
392 set_true_false_states_expr(my_id, expr->left,
393 alloc_bstate(true_info.set, true_info.possible),
394 alloc_bstate(false_info.set, false_info.possible));
397 static void match_call_info(struct expression *expr)
399 struct bit_info *binfo, *rl_binfo;
400 struct expression *arg;
401 struct range_list *rl;
402 char buf[64];
403 int i;
405 i = -1;
406 FOR_EACH_PTR(expr->args, arg) {
407 i++;
408 binfo = get_bit_info(arg);
409 if (!binfo)
410 continue;
411 if (is_unknown_binfo(get_type(arg), binfo))
412 continue;
413 if (get_implied_rl(arg, &rl)) {
414 rl_binfo = rl_to_binfo(rl);
415 if (binfo_equiv(rl_binfo, binfo))
416 continue;
418 // If is just non-negative continue
419 // If ->set == ->possible continue
420 snprintf(buf, sizeof(buf), "0x%llx,0x%llx", binfo->set, binfo->possible);
421 sql_insert_caller_info(expr, BIT_INFO, i, "$", buf);
422 } END_FOR_EACH_PTR(arg);
425 static void struct_member_callback(struct expression *call, int param, char *printed_name, struct sm_state *sm)
427 struct bit_info *binfo = sm->state->data;
428 struct smatch_state *estate;
429 struct bit_info *implied_binfo;
430 char buf[64];
432 if (!binfo)
433 return;
435 /* This means it can only be one value, so it's handled by smatch_extra. */
436 if (binfo->set == binfo->possible)
437 return;
439 estate = get_state(SMATCH_EXTRA, sm->name, sm->sym);
440 if (is_unknown_binfo(estate_type(estate), binfo))
441 return;
443 if (estate_rl(estate)) {
444 sval_t sval;
446 if (estate_get_single_value(estate, &sval))
447 return;
449 implied_binfo = rl_to_binfo(estate_rl(estate));
450 if (binfo_equiv(implied_binfo, binfo))
451 return;
454 snprintf(buf, sizeof(buf), "0x%llx,0x%llx", binfo->set, binfo->possible);
455 sql_insert_caller_info(call, BIT_INFO, param, printed_name, buf);
458 static void set_param_bits(const char *name, struct symbol *sym, char *key, char *value)
460 char fullname[256];
461 unsigned long long set, possible;
463 if (strcmp(key, "*$") == 0)
464 snprintf(fullname, sizeof(fullname), "*%s", name);
465 else if (strncmp(key, "$", 1) == 0)
466 snprintf(fullname, 256, "%s%s", name, key + 1);
467 else
468 return;
470 set = strtoull(value, &value, 16);
471 if (*value != ',')
472 return;
473 value++;
474 possible = strtoull(value, &value, 16);
476 set_bits_modified_expr_sym(fullname, sym, alloc_bstate(set, possible));
479 static void returns_bit_set(struct expression *expr, int param, char *key, char *value)
481 char *name;
482 struct symbol *sym;
483 unsigned long long set;
484 char *pEnd;
486 name = get_name_sym_from_param_key(expr, param, key, &sym);
488 if (!name)
489 return;
491 set = strtoull(value, &pEnd, 16);
492 set_state(my_id, name, sym, alloc_bstate(set, -1ULL));
495 static void returns_bit_clear(struct expression *expr, int param, char *key, char *value)
497 char *name;
498 struct symbol *sym;
499 unsigned long long possible;
500 char *pEnd;
501 struct bit_info *binfo;
503 name = get_name_sym_from_param_key(expr, param, key, &sym);
505 if (!name)
506 return;
508 binfo = get_bit_info(expr);
509 possible = strtoull(value, &pEnd, 16);
510 set_state(my_id, name, sym, alloc_bstate(possible & binfo->set,
511 possible & binfo->possible));
514 void register_bits(int id)
516 my_id = id;
518 set_dynamic_states(my_id);
520 add_unmatched_state_hook(my_id, &unmatched_state);
521 add_merge_hook(my_id, &merge_bstates);
523 add_hook(&match_condition, CONDITION_HOOK);
524 add_hook(&match_compare, CONDITION_HOOK);
525 add_hook(&match_assign, ASSIGNMENT_HOOK);
526 add_modification_hook(my_id, &match_modify);
528 add_hook(&match_call_info, FUNCTION_CALL_HOOK);
529 add_member_info_callback(my_id, struct_member_callback);
530 select_caller_info_hook(set_param_bits, BIT_INFO);
532 select_return_states_hook(BIT_SET, &returns_bit_set);
533 select_return_states_hook(BIT_CLEAR, &returns_bit_clear);