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create alloc_extra_state_empty()
[smatch.git] / smatch_flow.c
blobbe06688264fe4663c3846b0a52ffc671929cc4ee
1 /*
2 * sparse/smatch_flow.c
3 *
4 * Copyright (C) 2006,2008 Dan Carpenter.
5 *
6 * Licensed under the Open Software License version 1.1
7 *
8 */
9
10 #include <stdio.h>
11 #include "token.h"
12 #include "smatch.h"
13 #include "smatch_expression_stacks.h"
14
15 static int __smatch_lineno = 0;
16
17 static char *filename;
18 static char *cur_func;
19 static int line_func_start;
20 static struct expression_stack *switch_expr_stack = NULL;
21
22 char *get_filename(void) { return filename; }
23 char *get_function(void) { return cur_func; }
24 int get_lineno(void) { return __smatch_lineno; }
25 int get_func_pos(void) { return __smatch_lineno - line_func_start; }
26
27 static void split_symlist(struct symbol_list *sym_list);
28 static void split_declaration(struct symbol_list *sym_list);
29 static void split_expr_list(struct expression_list *expr_list);
30
31 unsigned int __get_allocations();
32
33 int option_assume_loops = 0;
34 int option_known_conditions = 0;
35
36 void __split_expr(struct expression *expr)
37 {
38 if (!expr)
39 return;
40
41 // printf("%d Debug expr_type %d\n", get_lineno(), expr->type);
42
43 __smatch_lineno = expr->pos.line;
44 __pass_to_client(expr, EXPR_HOOK);
45
46 switch (expr->type) {
47 case EXPR_PREOP:
48 case EXPR_POSTOP:
49 __pass_to_client(expr, OP_HOOK);
50 __split_expr(expr->unop);
51 return;
52 case EXPR_STATEMENT:
53 __split_statements(expr->statement);
54 return;
55 case EXPR_LOGICAL:
56 __split_whole_condition(expr);
57 __push_true_states();
58 __use_false_states();
59 __merge_true_states();
60 __pop_false_only_stack();
61 return;
62
63 return;
64 case EXPR_BINOP:
65 case EXPR_COMMA:
66 case EXPR_COMPARE:
67 __split_expr(expr->left);
68 __split_expr(expr->right);
69 return;
70 case EXPR_ASSIGNMENT: {
71 struct expression *tmp;
72
73 __split_expr(expr->right);
74 __pass_to_client(expr, ASSIGNMENT_HOOK);
75 tmp = strip_expr(expr->right);
76 if (tmp->type == EXPR_CALL)
77 __pass_to_client(expr, CALL_ASSIGNMENT_HOOK);
78 __split_expr(expr->left);
79 return;
80 }
81 case EXPR_DEREF:
82 __pass_to_client(expr, DEREF_HOOK);
83 __split_expr(expr->deref);
84 return;
85 case EXPR_SLICE:
86 __split_expr(expr->base);
87 return;
88 case EXPR_CAST:
89 __split_expr(expr->cast_expression);
90 return;
91 case EXPR_SIZEOF:
92 /* there isn't anything to pass a client from inside a sizeof() */
93 return;
94 case EXPR_CONDITIONAL:
95 case EXPR_SELECT:
96 __split_whole_condition(expr->conditional);
97 __split_expr(expr->cond_true);
98 __push_true_states();
99 __use_false_states();
100 __split_expr(expr->cond_false);
101 __merge_true_states();
102 __pop_false_only_stack();
103 return;
104 case EXPR_CALL:
105 split_expr_list(expr->args);
106 __split_expr(expr->fn);
107 __pass_to_client(expr, FUNCTION_CALL_HOOK);
108 return;
109 case EXPR_INITIALIZER:
110 split_expr_list(expr->expr_list);
111 return;
112 case EXPR_IDENTIFIER:
113 __split_expr(expr->ident_expression);
114 return;
115 case EXPR_INDEX:
116 __split_expr(expr->idx_expression);
117 return;
118 case EXPR_POS:
119 __split_expr(expr->init_expr);
120 return;
121 default:
122 return;
123 };
124 }
125
126 static int is_forever_loop(struct statement *stmt)
127 {
128
129 struct expression *expr;
130
131 expr = strip_expr(stmt->iterator_pre_condition);
132 if (!expr)
133 expr = stmt->iterator_post_condition;
134 if (!expr) {
135 /* this is a for(;;) loop... */
136 return 1;
137 }
138
139 if (expr->type == EXPR_VALUE && expr->value == 1) {
140 return 1;
141 }
142
143 return 0;
144 }
145
146 /*
147 * Pre Loops are while and for loops.
148 */
149
150 static void handle_pre_loop(struct statement *stmt)
151 {
152 int once_through; /* we go through the loop at least once */
153
154 __split_statements(stmt->iterator_pre_statement);
155
156 once_through = implied_condition_true(stmt->iterator_pre_condition);
157 if (option_assume_loops)
158 once_through = 1;
159
160 __push_continues();
161 __push_breaks();
162
163 __split_whole_condition(stmt->iterator_pre_condition);
164
165 __split_statements(stmt->iterator_statement);
166 __warn_on_silly_pre_loops();
167 if (is_forever_loop(stmt)) {
168 __pop_false_only_stack();
169 /* forever loops don't have an iterator_post_statement */
170 __pop_continues();
171 __pop_false_states();
172 __use_breaks();
173 } else if (once_through) {
174 __merge_continues();
175 __split_statements(stmt->iterator_post_statement);
176 __pop_false_states();
177 __use_false_only_stack();
178 __merge_breaks();
179 } else {
180 __merge_continues();
181 __split_statements(stmt->iterator_post_statement);
182 __merge_false_states();
183 __use_false_only_stack();
184 __merge_breaks();
185 }
186 }
187
188 /*
189 * Post loops are do {} while();
190 */
191 static void handle_post_loop(struct statement *stmt)
192 {
193 __push_continues();
194 __push_breaks();
195 __split_statements(stmt->iterator_statement);
196 if (is_forever_loop(stmt)) {
197 __pop_continues();
198 __use_breaks();
199
200 } else {
201 __merge_continues();
202 __split_whole_condition(stmt->iterator_post_condition);
203 __use_false_states();
204 __merge_breaks();
205 }
206 __pop_false_only_stack();
207 }
208
209 static void print_unreached(struct statement *stmt)
210 {
211
212 /*
213 * GCC insists on a return statement even where it is never
214 * reached. Also BUG() sometimes is a forever loop and
215 * sometimes not so people put code after a BUG(). There
216 * are way to many false positives.
217 */
218 #ifdef KERNEL
219 return;
220 #endif
221 if (__path_is_null()) {
222 switch(stmt->type) {
223 case STMT_COMPOUND: /* after a switch before a case stmt */
224 case STMT_CASE:
225 case STMT_LABEL:
226 case STMT_DECLARATION: /* switch(x) { int a; case foo: ... */
227 break;
228 default:
229 smatch_msg("unreachable code. %d", stmt->type);
230 }
231 }
232 }
233
234 void __split_statements(struct statement *stmt)
235 {
236 if (!stmt)
237 return;
238
239 if (__get_allocations() > MAXSMSTATES) {
240 static char *printed = NULL;
241
242 if (printed != cur_func)
243 smatch_msg("Function too big. Giving up.");
244 printed = cur_func;
245 return;
246 }
247
248 __smatch_lineno = stmt->pos.line;
249 print_unreached(stmt);
250 __pass_to_client(stmt, STMT_HOOK);
251
252 switch (stmt->type) {
253 case STMT_DECLARATION:
254 split_declaration(stmt->declaration);
255 return;
256 case STMT_RETURN:
257 __split_expr(stmt->ret_value);
258 __pass_to_client(stmt, RETURN_HOOK);
259 nullify_path();
260 return;
261 case STMT_EXPRESSION:
262 __split_expr(stmt->expression);
263 return;
264 case STMT_COMPOUND: {
265 struct statement *s;
266 FOR_EACH_PTR(stmt->stmts, s) {
267 __split_statements(s);
268 } END_FOR_EACH_PTR(s);
269 return;
270 }
271 case STMT_IF:
272 if (known_condition_true(stmt->if_conditional)) {
273 __split_statements(stmt->if_true);
274 return;
275 }
276 if (known_condition_false(stmt->if_conditional)) {
277 __split_statements(stmt->if_false);
278 return;
279 }
280 if (option_known_conditions &&
281 implied_condition_true(stmt->if_conditional)) {
282 smatch_msg("info: this condition is true.");
283 __split_statements(stmt->if_true);
284 return;
285 }
286 if (option_known_conditions &&
287 implied_condition_false(stmt->if_conditional)) {
288 smatch_msg("info: this condition is false.");
289 __split_statements(stmt->if_false);
290 return;
291 }
292 __split_whole_condition(stmt->if_conditional);
293 __split_statements(stmt->if_true);
294 __push_true_states();
295 __use_false_states();
296 __split_statements(stmt->if_false);
297 __merge_true_states();
298 __pop_false_only_stack();
299 return;
300 case STMT_ITERATOR:
301 if (stmt->iterator_pre_condition)
302 handle_pre_loop(stmt);
303 else if (stmt->iterator_post_condition)
304 handle_post_loop(stmt);
305 else {
306 // these are for(;;) type loops.
307 handle_pre_loop(stmt);
308 }
309 return;
310 case STMT_SWITCH:
311 __split_expr(stmt->switch_expression);
312 push_expression(&switch_expr_stack, stmt->switch_expression);
313 __save_switch_states();
314 __push_default();
315 __push_breaks();
316 __split_statements(stmt->switch_statement);
317 if (!__pop_default())
318 __merge_switches();
319 __pop_switches();
320 __merge_breaks();
321 pop_expression(&switch_expr_stack);
322 return;
323 case STMT_CASE:
324 __merge_switches();
325 __pass_case_to_client(top_expression(switch_expr_stack),
326 stmt->case_expression);
327 if (!stmt->case_expression)
328 __set_default();
329 __split_expr(stmt->case_expression);
330 __split_expr(stmt->case_to);
331 __split_statements(stmt->case_statement);
332 return;
333 case STMT_LABEL:
334 if (stmt->label &&
335 stmt->label->type == SYM_LABEL &&
336 stmt->label->ident) {
337 __merge_gotos(stmt->label->ident->name);
338 }
339 __split_statements(stmt->label_statement);
340 return;
341 case STMT_GOTO:
342 __split_expr(stmt->goto_expression);
343 if (stmt->goto_label && stmt->goto_label->type == SYM_NODE) {
344 if (!strcmp(stmt->goto_label->ident->name, "break")) {
345 __process_breaks();
346 } else if (!strcmp(stmt->goto_label->ident->name,
347 "continue")) {
348 __process_continues();
349 }
350 } else if (stmt->goto_label &&
351 stmt->goto_label->type == SYM_LABEL &&
352 stmt->goto_label->ident) {
353 __save_gotos(stmt->goto_label->ident->name);
354 }
355 nullify_path();
356 return;
357 case STMT_NONE:
358 return;
359 case STMT_ASM:
360 __split_expr(stmt->asm_string);
361 //__split_expr(stmt->asm_outputs);
362 //__split_expr(stmt->asm_inputs);
363 //__split_expr(stmt->asm_clobbers);
364 return;
365 case STMT_CONTEXT:
366 return;
367 case STMT_RANGE:
368 __split_expr(stmt->range_expression);
369 __split_expr(stmt->range_low);
370 __split_expr(stmt->range_high);
371 return;
372 }
373 }
374
375 static void split_expr_list(struct expression_list *expr_list)
376 {
377 struct expression *expr;
378 FOR_EACH_PTR(expr_list, expr) {
379 __split_expr(expr);
380 } END_FOR_EACH_PTR(expr);
381 }
382
383
384 static void split_sym(struct symbol *sym)
385 {
386 if (!sym)
387 return;
388 if (!(sym->namespace & NS_SYMBOL))
389 return;
390
391 __pass_to_client(sym, SYM_HOOK);
392 __split_statements(sym->stmt);
393 __split_expr(sym->array_size);
394 split_symlist(sym->arguments);
395 split_symlist(sym->symbol_list);
396 __split_statements(sym->inline_stmt);
397 split_symlist(sym->inline_symbol_list);
398 __split_expr(sym->initializer);
399 }
400
401 static void split_symlist(struct symbol_list *sym_list)
402 {
403 struct symbol *sym;
404
405 FOR_EACH_PTR(sym_list, sym) {
406 split_sym(sym);
407 } END_FOR_EACH_PTR(sym);
408 }
409
410 static void split_declaration(struct symbol_list *sym_list)
411 {
412 struct symbol *sym;
413
414 FOR_EACH_PTR(sym_list, sym) {
415 __pass_to_client(sym, DECLARATION_HOOK);
416 __split_expr(sym->initializer);
417 if(sym->initializer && sym->initializer->type == EXPR_CALL) {
418 __match_initializer_call(sym);
419 }
420 split_sym(sym);
421 } END_FOR_EACH_PTR(sym);
422 }
423
424 static void split_functions(struct symbol_list *sym_list)
425 {
426 struct symbol *sym;
427
428 FOR_EACH_PTR(sym_list, sym) {
429 struct symbol *base_type;
430 base_type = get_base_type(sym);
431 if (sym->type == SYM_NODE && base_type->type == SYM_FN) {
432 if (base_type->stmt)
433 line_func_start = base_type->stmt->pos.line;
434 if (sym->ident)
435 cur_func = sym->ident->name;
436 __smatch_lineno = sym->pos.line;
437 SM_DEBUG("new function: %s\n", cur_func);
438 __unnullify_path();
439 __pass_to_client(sym, FUNC_DEF_HOOK);
440 __split_statements(base_type->stmt);
441 __pass_to_client(sym, END_FUNC_HOOK);
442 cur_func = NULL;
443 line_func_start = 0;
444 clear_all_states();
445 free_expression_stack(&switch_expr_stack);
446 } else {
447 __pass_to_client(sym, BASE_HOOK);
448 }
449 } END_FOR_EACH_PTR(sym);
450 __pass_to_client_no_data(END_FILE_HOOK);
451 }
452
453 void smatch (int argc, char **argv)
454 {
455
456 struct string_list *filelist = NULL;
457 struct symbol_list *sym_list;
458
459 if (argc < 2) {
460 printf("Usage: smatch [--debug] <filename.c>\n");
461 exit(1);
462 }
463 sparse_initialize(argc, argv, &filelist);
464 FOR_EACH_PTR_NOTAG(filelist, filename) {
465 sym_list = __sparse(filename);
466 split_functions(sym_list);
467 } END_FOR_EACH_PTR_NOTAG(filename);
468 }
Static analysis for C