2 * Copyright (C) 2006 Dan Carpenter.
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
27 struct hook_container
{
29 enum data_type data_type
;
32 ALLOCATOR(hook_container
, "hook functions");
33 DECLARE_PTR_LIST(hook_func_list
, struct hook_container
);
34 static struct hook_func_list
*merge_funcs
;
35 static struct hook_func_list
*unmatched_state_funcs
;
36 static struct hook_func_list
*hook_array
[NUM_HOOKS
] = {};
37 void (**pre_merge_hooks
)(struct sm_state
*sm
);
39 struct scope_container
{
43 ALLOCATOR(scope_container
, "scope hook functions");
44 DECLARE_PTR_LIST(scope_hook_list
, struct scope_container
);
45 DECLARE_PTR_LIST(scope_hook_stack
, struct scope_hook_list
);
46 static struct scope_hook_stack
*scope_hooks
;
48 void add_hook(void *func
, enum hook_type type
)
50 struct hook_container
*container
= __alloc_hook_container(0);
52 container
->hook_type
= type
;
56 container
->data_type
= EXPR_PTR
;
59 container
->data_type
= STMT_PTR
;
62 container
->data_type
= STMT_PTR
;
65 container
->data_type
= EXPR_PTR
;
68 container
->data_type
= EXPR_PTR
;
70 case DECLARATION_HOOK
:
71 container
->data_type
= SYMBOL_PTR
;
74 container
->data_type
= EXPR_PTR
;
76 case RAW_ASSIGNMENT_HOOK
:
77 container
->data_type
= EXPR_PTR
;
79 case GLOBAL_ASSIGNMENT_HOOK
:
80 container
->data_type
= EXPR_PTR
;
82 case CALL_ASSIGNMENT_HOOK
:
83 container
->data_type
= EXPR_PTR
;
85 case MACRO_ASSIGNMENT_HOOK
:
86 container
->data_type
= EXPR_PTR
;
89 container
->data_type
= EXPR_PTR
;
92 container
->data_type
= EXPR_PTR
;
95 container
->data_type
= EXPR_PTR
;
98 container
->data_type
= STMT_PTR
;
101 container
->data_type
= EXPR_PTR
;
104 container
->data_type
= EXPR_PTR
;
106 case WHOLE_CONDITION_HOOK
:
107 container
->data_type
= EXPR_PTR
;
109 case FUNCTION_CALL_HOOK
:
110 container
->data_type
= EXPR_PTR
;
112 case CALL_HOOK_AFTER_INLINE
:
113 container
->data_type
= EXPR_PTR
;
115 case FUNCTION_CALL_HOOK_AFTER_DB
:
116 container
->data_type
= EXPR_PTR
;
119 container
->data_type
= EXPR_PTR
;
125 container
->data_type
= STMT_PTR
;
128 container
->data_type
= EXPR_PTR
;
131 container
->data_type
= EXPR_PTR
;
134 container
->data_type
= SYMBOL_PTR
;
137 container
->data_type
= SYMBOL_PTR
;
140 container
->data_type
= SYMBOL_PTR
;
143 container
->data_type
= SYMBOL_PTR
;
145 case AFTER_FUNC_HOOK
:
146 container
->data_type
= SYMBOL_PTR
;
149 container
->data_type
= EXPR_PTR
;
151 case INLINE_FN_START
:
152 container
->data_type
= EXPR_PTR
;
155 container
->data_type
= EXPR_PTR
;
158 container
->data_type
= SYM_LIST_PTR
;
161 add_ptr_list(&hook_array
[type
], container
);
164 void add_merge_hook(int client_id
, merge_func_t
*func
)
166 struct hook_container
*container
= __alloc_hook_container(0);
167 container
->data_type
= client_id
;
168 container
->fn
= func
;
169 add_ptr_list(&merge_funcs
, container
);
172 void add_unmatched_state_hook(int client_id
, unmatched_func_t
*func
)
174 struct hook_container
*container
= __alloc_hook_container(0);
175 container
->data_type
= client_id
;
176 container
->fn
= func
;
177 add_ptr_list(&unmatched_state_funcs
, container
);
180 void add_pre_merge_hook(int client_id
, void (*hook
)(struct sm_state
*sm
))
182 pre_merge_hooks
[client_id
] = hook
;
185 static void pass_to_client(void *fn
)
187 typedef void (expr_func
)();
188 ((expr_func
*) fn
)();
191 static void pass_expr_to_client(void *fn
, void *data
)
193 typedef void (expr_func
)(struct expression
*expr
);
194 ((expr_func
*) fn
)((struct expression
*) data
);
197 static void pass_stmt_to_client(void *fn
, void *data
)
199 typedef void (stmt_func
)(struct statement
*stmt
);
200 ((stmt_func
*) fn
)((struct statement
*) data
);
203 static void pass_sym_to_client(void *fn
, void *data
)
205 typedef void (sym_func
)(struct symbol
*sym
);
206 ((sym_func
*) fn
)((struct symbol
*) data
);
209 static void pass_sym_list_to_client(void *fn
, void *data
)
211 typedef void (sym_func
)(struct symbol_list
*sym_list
);
212 ((sym_func
*) fn
)((struct symbol_list
*) data
);
215 void __pass_to_client(void *data
, enum hook_type type
)
217 struct hook_container
*container
;
220 FOR_EACH_PTR(hook_array
[type
], container
) {
221 switch (container
->data_type
) {
223 pass_expr_to_client(container
->fn
, data
);
226 pass_stmt_to_client(container
->fn
, data
);
229 pass_sym_to_client(container
->fn
, data
);
232 pass_sym_list_to_client(container
->fn
, data
);
235 } END_FOR_EACH_PTR(container
);
238 void __pass_to_client_no_data(enum hook_type type
)
240 struct hook_container
*container
;
242 FOR_EACH_PTR(hook_array
[type
], container
) {
243 pass_to_client(container
->fn
);
244 } END_FOR_EACH_PTR(container
);
247 void __pass_case_to_client(struct expression
*switch_expr
,
248 struct expression
*case_expr
)
250 typedef void (case_func
)(struct expression
*switch_expr
,
251 struct expression
*case_expr
);
252 struct hook_container
*container
;
254 FOR_EACH_PTR(hook_array
[CASE_HOOK
], container
) {
255 ((case_func
*) container
->fn
)(switch_expr
, case_expr
);
256 } END_FOR_EACH_PTR(container
);
259 int __has_merge_function(int client_id
)
261 struct hook_container
*tmp
;
263 FOR_EACH_PTR(merge_funcs
, tmp
) {
264 if (tmp
->data_type
== client_id
)
266 } END_FOR_EACH_PTR(tmp
);
270 struct smatch_state
*__client_merge_function(int owner
,
271 struct smatch_state
*s1
,
272 struct smatch_state
*s2
)
274 struct smatch_state
*tmp_state
;
275 struct hook_container
*tmp
;
277 /* Pass NULL states first and the rest alphabetically by name */
278 if (!s2
|| (s1
&& strcmp(s2
->name
, s1
->name
) < 0)) {
284 FOR_EACH_PTR(merge_funcs
, tmp
) {
285 if (tmp
->data_type
== owner
)
286 return ((merge_func_t
*) tmp
->fn
)(s1
, s2
);
287 } END_FOR_EACH_PTR(tmp
);
291 struct smatch_state
*__client_unmatched_state_function(struct sm_state
*sm
)
293 struct hook_container
*tmp
;
295 FOR_EACH_PTR(unmatched_state_funcs
, tmp
) {
296 if (tmp
->data_type
== sm
->owner
)
297 return ((unmatched_func_t
*) tmp
->fn
)(sm
);
298 } END_FOR_EACH_PTR(tmp
);
302 void call_pre_merge_hook(struct sm_state
*sm
)
304 if (sm
->owner
>= num_checks
)
307 if (pre_merge_hooks
[sm
->owner
])
308 pre_merge_hooks
[sm
->owner
](sm
);
311 static struct scope_hook_list
*pop_scope_hook_list(struct scope_hook_stack
**stack
)
313 struct scope_hook_list
*hook_list
;
315 hook_list
= last_ptr_list((struct ptr_list
*)*stack
);
316 delete_ptr_list_last((struct ptr_list
**)stack
);
320 static void push_scope_hook_list(struct scope_hook_stack
**stack
, struct scope_hook_list
*l
)
322 add_ptr_list(stack
, l
);
325 void add_scope_hook(scope_hook
*fn
, void *data
)
327 struct scope_hook_list
*hook_list
;
328 struct scope_container
*new;
332 hook_list
= pop_scope_hook_list(&scope_hooks
);
333 new = __alloc_scope_container(0);
336 add_ptr_list(&hook_list
, new);
337 push_scope_hook_list(&scope_hooks
, hook_list
);
340 void __push_scope_hooks(void)
342 push_scope_hook_list(&scope_hooks
, NULL
);
345 void __call_scope_hooks(void)
347 struct scope_hook_list
*hook_list
;
348 struct scope_container
*tmp
;
353 hook_list
= pop_scope_hook_list(&scope_hooks
);
354 FOR_EACH_PTR(hook_list
, tmp
) {
355 ((scope_hook
*) tmp
->fn
)(tmp
->data
);
356 __free_scope_container(tmp
);
357 } END_FOR_EACH_PTR(tmp
);
360 void allocate_hook_memory(void)
362 pre_merge_hooks
= malloc(num_checks
* sizeof(*pre_merge_hooks
));
363 memset(pre_merge_hooks
, 0, num_checks
* sizeof(*pre_merge_hooks
));