/* * Copyright (C) 2009 Dan Carpenter. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see http://www.gnu.org/copyleft/gpl.txt */ /* * There are several types of function hooks: * add_function_hook() - For any time a function is called. * add_function_assign_hook() - foo = the_function(). * add_implied_return_hook() - Calculates the implied return value. * add_macro_assign_hook() - foo = the_macro(). * return_implies_state() - For when a return value of 1 implies locked * and 0 implies unlocked. etc. etc. * */ #include #include #include "smatch.h" #include "smatch_slist.h" #include "smatch_extra.h" #include "smatch_function_hashtable.h" struct fcall_back { int type; struct data_range *range; union { func_hook *call_back; implication_hook *ranged; implied_return_hook *implied_return; } u; void *info; }; ALLOCATOR(fcall_back, "call backs"); DECLARE_PTR_LIST(call_back_list, struct fcall_back); DEFINE_FUNCTION_HASHTABLE_STATIC(callback, struct fcall_back, struct call_back_list); static struct hashtable *func_hash; int __in_fake_parameter_assign; #define REGULAR_CALL 0 #define RANGED_CALL 1 #define ASSIGN_CALL 2 #define IMPLIED_RETURN 3 #define MACRO_ASSIGN 4 #define MACRO_ASSIGN_EXTRA 5 struct return_implies_callback { int type; return_implies_hook *callback; }; ALLOCATOR(return_implies_callback, "return_implies callbacks"); DECLARE_PTR_LIST(db_implies_list, struct return_implies_callback); static struct db_implies_list *db_return_states_list; typedef void (void_fn)(void); DECLARE_PTR_LIST(void_fn_list, void_fn *); static struct void_fn_list *return_states_before; static struct void_fn_list *return_states_after; static struct fcall_back *alloc_fcall_back(int type, void *call_back, void *info) { struct fcall_back *cb; cb = __alloc_fcall_back(0); cb->type = type; cb->u.call_back = call_back; cb->info = info; return cb; } void add_function_hook(const char *look_for, func_hook *call_back, void *info) { struct fcall_back *cb; cb = alloc_fcall_back(REGULAR_CALL, call_back, info); add_callback(func_hash, look_for, cb); } void add_function_assign_hook(const char *look_for, func_hook *call_back, void *info) { struct fcall_back *cb; cb = alloc_fcall_back(ASSIGN_CALL, call_back, info); add_callback(func_hash, look_for, cb); } void add_implied_return_hook(const char *look_for, implied_return_hook *call_back, void *info) { struct fcall_back *cb; cb = alloc_fcall_back(IMPLIED_RETURN, call_back, info); add_callback(func_hash, look_for, cb); } void add_macro_assign_hook(const char *look_for, func_hook *call_back, void *info) { struct fcall_back *cb; cb = alloc_fcall_back(MACRO_ASSIGN, call_back, info); add_callback(func_hash, look_for, cb); } void add_macro_assign_hook_extra(const char *look_for, func_hook *call_back, void *info) { struct fcall_back *cb; cb = alloc_fcall_back(MACRO_ASSIGN_EXTRA, call_back, info); add_callback(func_hash, look_for, cb); } void return_implies_state(const char *look_for, long long start, long long end, implication_hook *call_back, void *info) { struct fcall_back *cb; cb = alloc_fcall_back(RANGED_CALL, call_back, info); cb->range = alloc_range_perm(ll_to_sval(start), ll_to_sval(end)); add_callback(func_hash, look_for, cb); } void return_implies_state_sval(const char *look_for, sval_t start, sval_t end, implication_hook *call_back, void *info) { struct fcall_back *cb; cb = alloc_fcall_back(RANGED_CALL, call_back, info); cb->range = alloc_range_perm(start, end); add_callback(func_hash, look_for, cb); } void select_return_states_hook(int type, return_implies_hook *callback) { struct return_implies_callback *cb = __alloc_return_implies_callback(0); cb->type = type; cb->callback = callback; add_ptr_list(&db_return_states_list, cb); } void select_return_states_before(void_fn *fn) { void_fn **p = malloc(sizeof(void_fn *)); *p = fn; add_ptr_list(&return_states_before, p); } void select_return_states_after(void_fn *fn) { void_fn **p = malloc(sizeof(void_fn *)); *p = fn; add_ptr_list(&return_states_after, p); } static void call_return_states_before_hooks(void) { void_fn **fn; FOR_EACH_PTR(return_states_before, fn) { (*fn)(); } END_FOR_EACH_PTR(fn); } static void call_return_states_after_hooks(struct expression *expr) { void_fn **fn; FOR_EACH_PTR(return_states_after, fn) { (*fn)(); } END_FOR_EACH_PTR(fn); __pass_to_client(expr, FUNCTION_CALL_HOOK_AFTER_DB); } static int call_call_backs(struct call_back_list *list, int type, const char *fn, struct expression *expr) { struct fcall_back *tmp; int handled = 0; FOR_EACH_PTR(list, tmp) { if (tmp->type == type) { (tmp->u.call_back)(fn, expr, tmp->info); handled = 1; } } END_FOR_EACH_PTR(tmp); return handled; } static void call_ranged_call_backs(struct call_back_list *list, const char *fn, struct expression *call_expr, struct expression *assign_expr) { struct fcall_back *tmp; FOR_EACH_PTR(list, tmp) { (tmp->u.ranged)(fn, call_expr, assign_expr, tmp->info); } END_FOR_EACH_PTR(tmp); } static struct call_back_list *get_same_ranged_call_backs(struct call_back_list *list, struct data_range *drange) { struct call_back_list *ret = NULL; struct fcall_back *tmp; FOR_EACH_PTR(list, tmp) { if (tmp->type != RANGED_CALL) continue; if (ranges_equiv(tmp->range, drange)) add_ptr_list(&ret, tmp); } END_FOR_EACH_PTR(tmp); return ret; } static int in_list_exact_sval(struct range_list *list, struct data_range *drange) { struct data_range *tmp; FOR_EACH_PTR(list, tmp) { if (ranges_equiv(tmp, drange)) return 1; } END_FOR_EACH_PTR(tmp); return 0; } static int assign_ranged_funcs(const char *fn, struct expression *expr, struct call_back_list *call_backs) { struct fcall_back *tmp; struct sm_state *sm; char *var_name; struct symbol *sym; struct smatch_state *estate; struct stree *tmp_stree; struct stree *final_states = NULL; struct range_list *handled_ranges = NULL; struct call_back_list *same_range_call_backs = NULL; struct range_list *rl; int handled = 0; if (!call_backs) return 0; var_name = expr_to_var_sym(expr->left, &sym); if (!var_name || !sym) goto free; FOR_EACH_PTR(call_backs, tmp) { if (tmp->type != RANGED_CALL) continue; if (in_list_exact_sval(handled_ranges, tmp->range)) continue; __push_fake_cur_stree(); tack_on(&handled_ranges, tmp->range); same_range_call_backs = get_same_ranged_call_backs(call_backs, tmp->range); call_ranged_call_backs(same_range_call_backs, fn, expr->right, expr); __free_ptr_list((struct ptr_list **)&same_range_call_backs); rl = alloc_rl(tmp->range->min, tmp->range->max); rl = cast_rl(get_type(expr->left), rl); estate = alloc_estate_rl(rl); set_extra_mod(var_name, sym, expr->left, estate); tmp_stree = __pop_fake_cur_stree(); merge_fake_stree(&final_states, tmp_stree); free_stree(&tmp_stree); handled = 1; } END_FOR_EACH_PTR(tmp); FOR_EACH_SM(final_states, sm) { __set_sm(sm); } END_FOR_EACH_SM(sm); free_stree(&final_states); free: free_string(var_name); return handled; } static void call_implies_callbacks(int comparison, struct expression *expr, sval_t sval, int left, struct stree **implied_true, struct stree **implied_false) { struct call_back_list *call_backs; struct fcall_back *tmp; const char *fn; struct data_range *value_range; struct stree *true_states = NULL; struct stree *false_states = NULL; struct stree *tmp_stree; *implied_true = NULL; *implied_false = NULL; if (expr->fn->type != EXPR_SYMBOL || !expr->fn->symbol) return; fn = expr->fn->symbol->ident->name; call_backs = search_callback(func_hash, (char *)expr->fn->symbol->ident->name); if (!call_backs) return; value_range = alloc_range(sval, sval); /* set true states */ __push_fake_cur_stree(); FOR_EACH_PTR(call_backs, tmp) { if (tmp->type != RANGED_CALL) continue; if (!true_comparison_range_LR(comparison, tmp->range, value_range, left)) continue; (tmp->u.ranged)(fn, expr, NULL, tmp->info); } END_FOR_EACH_PTR(tmp); tmp_stree = __pop_fake_cur_stree(); merge_fake_stree(&true_states, tmp_stree); free_stree(&tmp_stree); /* set false states */ __push_fake_cur_stree(); FOR_EACH_PTR(call_backs, tmp) { if (tmp->type != RANGED_CALL) continue; if (!false_comparison_range_LR(comparison, tmp->range, value_range, left)) continue; (tmp->u.ranged)(fn, expr, NULL, tmp->info); } END_FOR_EACH_PTR(tmp); tmp_stree = __pop_fake_cur_stree(); merge_fake_stree(&false_states, tmp_stree); free_stree(&tmp_stree); *implied_true = true_states; *implied_false = false_states; } struct db_callback_info { int true_side; int comparison; struct expression *expr; struct range_list *rl; int left; struct stree *stree; struct stree *implied; struct db_implies_list *callbacks; int prev_return_id; int cull; int has_states; char *ret_str; struct smatch_state *ret_state; struct expression *var_expr; int handled; }; static void set_implied_states(struct db_callback_info *db_info) { struct sm_state *sm; FOR_EACH_SM(db_info->implied, sm) { __set_sm(sm); } END_FOR_EACH_SM(sm); free_stree(&db_info->implied); } static void store_return_state(struct db_callback_info *db_info, const char *ret_str, struct smatch_state *state) { db_info->ret_str = alloc_sname(ret_str), db_info->ret_state = state; } static bool fake_a_param_assignment(struct expression *expr, const char *return_str, struct smatch_state *orig) { struct expression *arg, *left, *right, *tmp, *fake_assign; char *p; int param; char buf[256]; char *str; if (expr->type != EXPR_ASSIGNMENT || expr->op != '=') return false; left = expr->left; right = expr->right; while (right->type == EXPR_ASSIGNMENT) right = strip_expr(right->right); if (!right || right->type != EXPR_CALL) return false; p = strchr(return_str, '['); if (!p) return false; p++; if (p[0] == '=' && p[1] == '=') p += 2; if (p[0] != '$') return false; snprintf(buf, sizeof(buf), "%s", p); p = buf; p += 1; param = strtol(p, &p, 10); p = strchr(p, ']'); if (!p || *p != ']') return false; *p = '\0'; arg = get_argument_from_call_expr(right->args, param); if (!arg) return false; /* There should be a get_other_name() function which returns an expr */ tmp = get_assigned_expr(arg); if (tmp) arg = tmp; /* * This is a sanity check to prevent side effects from evaluating stuff * twice. */ str = expr_to_chunk_sym_vsl(arg, NULL, NULL); if (!str) return false; free_string(str); right = gen_expression_from_key(arg, buf); if (!right) /* Mostly fails for binops like [$0 + 4032] */ return false; fake_assign = assign_expression(left, '=', right); __in_fake_parameter_assign++; __split_expr(fake_assign); __in_fake_parameter_assign--; /* * If the return is "0-65531[$0->nla_len - 4]" the faked expression * is maybe (-4)-65531 but we know it is in the 0-65531 range so both * parts have to be considered. We use _nomod() because it's not really * another modification, it's just a clarification. * */ if (estate_rl(orig)) { struct smatch_state *faked; struct range_list *rl; faked = get_extra_state(left); if (estate_rl(faked)) { rl = rl_intersection(estate_rl(faked), estate_rl(orig)); if (rl) set_extra_expr_nomod(expr, alloc_estate_rl(rl)); } } return true; } static void set_fresh_mtag_returns(struct db_callback_info *db_info) { struct expression *expr = db_info->expr->left; struct smatch_state *state; if (!db_info->ret_state) return; state = alloc_estate_rl(cast_rl(get_type(expr), clone_rl(estate_rl(db_info->ret_state)))); state = get_mtag_return(db_info->expr, state); if (!state) return; set_real_absolute(expr, state); set_extra_expr_mod(expr, state); db_info->ret_state = NULL; db_info->ret_str = NULL; } static void set_return_assign_state(struct db_callback_info *db_info) { struct expression *expr = db_info->expr->left; struct smatch_state *state; if (!db_info->ret_state) return; state = alloc_estate_rl(cast_rl(get_type(expr), clone_rl(estate_rl(db_info->ret_state)))); if (!fake_a_param_assignment(db_info->expr, db_info->ret_str, state)) set_extra_expr_mod(expr, state); db_info->ret_state = NULL; db_info->ret_str = NULL; } static void set_other_side_state(struct db_callback_info *db_info) { struct expression *expr = db_info->var_expr; struct smatch_state *state; if (!db_info->ret_state) return; state = alloc_estate_rl(cast_rl(get_type(expr), clone_rl(estate_rl(db_info->ret_state)))); set_extra_expr_nomod(expr, state); db_info->ret_state = NULL; db_info->ret_str = NULL; } static void handle_ret_equals_param(char *ret_string, struct range_list *rl, struct expression *call) { char *str; long long param; struct expression *arg; struct range_list *orig; str = strstr(ret_string, "==$"); if (!str) return; str += 3; param = strtoll(str, NULL, 10); arg = get_argument_from_call_expr(call->args, param); if (!arg) return; get_absolute_rl(arg, &orig); rl = rl_intersection(orig, rl); if (!rl) return; set_extra_expr_nomod(arg, alloc_estate_rl(rl)); } static int impossible_limit(struct expression *expr, int param, char *key, char *value) { struct expression *arg; struct smatch_state *state; struct range_list *passed; struct range_list *limit; struct symbol *compare_type; while (expr->type == EXPR_ASSIGNMENT) expr = strip_expr(expr->right); if (expr->type != EXPR_CALL) return 0; arg = get_argument_from_call_expr(expr->args, param); if (!arg) return 0; if (strcmp(key, "$") == 0) { if (!get_implied_rl(arg, &passed)) return 0; compare_type = get_arg_type(expr->fn, param); } else { char *name; struct symbol *sym; name = get_variable_from_key(arg, key, &sym); if (!name || !sym) return 0; state = get_state(SMATCH_EXTRA, name, sym); if (!state) { free_string(name); return 0; } passed = estate_rl(state); if (!passed || is_whole_rl(passed)) { free_string(name); return 0; } compare_type = get_member_type_from_key(arg, key); } passed = cast_rl(compare_type, passed); call_results_to_rl(expr, compare_type, value, &limit); if (!limit || is_whole_rl(limit)) return 0; if (possibly_true_rl(passed, SPECIAL_EQUAL, limit)) return 0; if (option_debug || local_debug) sm_msg("impossible: %d '%s' limit '%s' == '%s'", param, key, show_rl(passed), value); return 1; } static int is_impossible_data(int type, struct expression *expr, int param, char *key, char *value) { if (type == PARAM_LIMIT && impossible_limit(expr, param, key, value)) return 1; if (type == COMPARE_LIMIT && param_compare_limit_is_impossible(expr, param, key, value)) { if (local_debug) sm_msg("param_compare_limit_is_impossible: %d %s %s", param, key, value); return 1; } return 0; } static int func_type_mismatch(struct expression *expr, const char *value) { struct symbol *type; /* This makes faking returns easier */ if (!value || value[0] == '\0') return 0; while (expr->type == EXPR_ASSIGNMENT) expr = strip_expr(expr->right); /* * Short cut: We only care about function pointers that are struct * members. * */ if (expr->fn->type == EXPR_SYMBOL) return 0; type = get_type(expr->fn); if (!type) return 0; if (type->type == SYM_PTR) type = get_real_base_type(type); if (strcmp(type_to_str(type), value) == 0) return 0; return 1; } static int db_compare_callback(void *_info, int argc, char **argv, char **azColName) { struct db_callback_info *db_info = _info; struct range_list *var_rl = db_info->rl; struct range_list *ret_range; int type, param; char *ret_str, *key, *value; struct return_implies_callback *tmp; struct stree *stree; int return_id; int comparison; if (argc != 6) return 0; return_id = atoi(argv[0]); ret_str = argv[1]; type = atoi(argv[2]); param = atoi(argv[3]); key = argv[4]; value = argv[5]; db_info->has_states = 1; if (db_info->prev_return_id != -1 && type == INTERNAL) { set_other_side_state(db_info); set_implied_states(db_info); stree = __pop_fake_cur_stree(); if (!db_info->cull) merge_fake_stree(&db_info->stree, stree); free_stree(&stree); __push_fake_cur_stree(); db_info->cull = 0; } db_info->prev_return_id = return_id; if (type == INTERNAL && func_type_mismatch(db_info->expr, value)) db_info->cull = 1; if (db_info->cull) return 0; if (type == CULL_PATH) { db_info->cull = 1; return 0; } if (is_impossible_data(type, db_info->expr, param, key, value)) { db_info->cull = 1; return 0; } call_results_to_rl(db_info->expr, get_type(strip_expr(db_info->expr)), ret_str, &ret_range); ret_range = cast_rl(get_type(db_info->expr), ret_range); if (!ret_range) ret_range = alloc_whole_rl(get_type(db_info->expr)); comparison = db_info->comparison; if (db_info->left) comparison = flip_comparison(comparison); if (db_info->true_side) { if (!possibly_true_rl(var_rl, comparison, ret_range)) return 0; if (type == PARAM_LIMIT) param_limit_implications(db_info->expr, param, key, value, &db_info->implied); filter_by_comparison(&var_rl, comparison, ret_range); filter_by_comparison(&ret_range, flip_comparison(comparison), var_rl); } else { if (!possibly_false_rl(var_rl, comparison, ret_range)) return 0; if (type == PARAM_LIMIT) param_limit_implications(db_info->expr, param, key, value, &db_info->implied); filter_by_comparison(&var_rl, negate_comparison(comparison), ret_range); filter_by_comparison(&ret_range, flip_comparison(negate_comparison(comparison)), var_rl); } handle_ret_equals_param(ret_str, ret_range, db_info->expr); if (type == INTERNAL) { set_state(-1, "unnull_path", NULL, &true_state); __add_return_comparison(strip_expr(db_info->expr), ret_str); __add_return_to_param_mapping(db_info->expr, ret_str); store_return_state(db_info, ret_str, alloc_estate_rl(clone_rl(var_rl))); } FOR_EACH_PTR(db_info->callbacks, tmp) { if (tmp->type == type) tmp->callback(db_info->expr, param, key, value); } END_FOR_EACH_PTR(tmp); return 0; } static void compare_db_return_states_callbacks(struct expression *left, int comparison, struct expression *right, struct stree *implied_true, struct stree *implied_false) { struct stree *orig_states; struct stree *stree; struct stree *true_states; struct stree *false_states; struct sm_state *sm; struct db_callback_info db_info = {}; struct expression *var_expr; struct expression *call_expr; struct range_list *rl; int call_on_left; orig_states = clone_stree(__get_cur_stree()); /* legacy cruft. need to fix call_implies_callbacks(). */ call_on_left = 1; call_expr = left; var_expr = right; if (left->type != EXPR_CALL) { call_on_left = 0; call_expr = right; var_expr = left; } get_absolute_rl(var_expr, &rl); db_info.comparison = comparison; db_info.expr = call_expr; db_info.rl = rl; db_info.left = call_on_left; db_info.callbacks = db_return_states_list; db_info.var_expr = var_expr; call_return_states_before_hooks(); db_info.true_side = 1; db_info.stree = NULL; db_info.prev_return_id = -1; __push_fake_cur_stree(); sql_select_return_states("return_id, return, type, parameter, key, value", call_expr, db_compare_callback, &db_info); set_other_side_state(&db_info); set_implied_states(&db_info); stree = __pop_fake_cur_stree(); if (!db_info.cull) merge_fake_stree(&db_info.stree, stree); free_stree(&stree); true_states = db_info.stree; if (!true_states && db_info.has_states) { __push_fake_cur_stree(); set_path_impossible(); true_states = __pop_fake_cur_stree(); } nullify_path(); __unnullify_path(); FOR_EACH_SM(orig_states, sm) { __set_sm_cur_stree(sm); } END_FOR_EACH_SM(sm); db_info.true_side = 0; db_info.stree = NULL; db_info.prev_return_id = -1; db_info.cull = 0; __push_fake_cur_stree(); sql_select_return_states("return_id, return, type, parameter, key, value", call_expr, db_compare_callback, &db_info); set_other_side_state(&db_info); set_implied_states(&db_info); stree = __pop_fake_cur_stree(); if (!db_info.cull) merge_fake_stree(&db_info.stree, stree); free_stree(&stree); false_states = db_info.stree; if (!false_states && db_info.has_states) { __push_fake_cur_stree(); set_path_impossible(); false_states = __pop_fake_cur_stree(); } nullify_path(); __unnullify_path(); FOR_EACH_SM(orig_states, sm) { __set_sm_cur_stree(sm); } END_FOR_EACH_SM(sm); free_stree(&orig_states); FOR_EACH_SM(true_states, sm) { __set_true_false_sm(sm, NULL); } END_FOR_EACH_SM(sm); FOR_EACH_SM(false_states, sm) { __set_true_false_sm(NULL, sm); } END_FOR_EACH_SM(sm); free_stree(&true_states); free_stree(&false_states); call_return_states_after_hooks(call_expr); FOR_EACH_SM(implied_true, sm) { __set_true_false_sm(sm, NULL); } END_FOR_EACH_SM(sm); FOR_EACH_SM(implied_false, sm) { __set_true_false_sm(NULL, sm); } END_FOR_EACH_SM(sm); } void function_comparison(struct expression *left, int comparison, struct expression *right) { struct expression *var_expr; struct expression *call_expr; struct stree *implied_true = NULL; struct stree *implied_false = NULL; struct range_list *rl; sval_t sval; int call_on_left; if (unreachable()) return; /* legacy cruft. need to fix call_implies_callbacks(). */ call_on_left = 1; call_expr = left; var_expr = right; if (left->type != EXPR_CALL) { call_on_left = 0; call_expr = right; var_expr = left; } get_absolute_rl(var_expr, &rl); if (rl_to_sval(rl, &sval)) call_implies_callbacks(comparison, call_expr, sval, call_on_left, &implied_true, &implied_false); compare_db_return_states_callbacks(left, comparison, right, implied_true, implied_false); free_stree(&implied_true); free_stree(&implied_false); } static void call_ranged_return_hooks(struct db_callback_info *db_info) { struct call_back_list *call_backs; struct expression *expr; struct fcall_back *tmp; char *fn; expr = strip_expr(db_info->expr); while (expr->type == EXPR_ASSIGNMENT) expr = strip_expr(expr->right); if (expr->type != EXPR_CALL || expr->fn->type != EXPR_SYMBOL) return; fn = expr->fn->symbol_name->name; call_backs = search_callback(func_hash, fn); FOR_EACH_PTR(call_backs, tmp) { struct range_list *range_rl; if (tmp->type != RANGED_CALL) continue; range_rl = alloc_rl(tmp->range->min, tmp->range->max); range_rl = cast_rl(estate_type(db_info->ret_state), range_rl); if (possibly_true_rl(range_rl, SPECIAL_EQUAL, estate_rl(db_info->ret_state))) (tmp->u.ranged)(fn, expr, db_info->expr, tmp->info); } END_FOR_EACH_PTR(tmp); } static int db_assign_return_states_callback(void *_info, int argc, char **argv, char **azColName) { struct db_callback_info *db_info = _info; struct range_list *ret_range; int type, param; char *ret_str, *key, *value; struct return_implies_callback *tmp; struct stree *stree; int return_id; if (argc != 6) return 0; return_id = atoi(argv[0]); ret_str = argv[1]; type = atoi(argv[2]); param = atoi(argv[3]); key = argv[4]; value = argv[5]; if (db_info->prev_return_id != -1 && type == INTERNAL) { call_ranged_return_hooks(db_info); set_return_assign_state(db_info); set_implied_states(db_info); stree = __pop_fake_cur_stree(); if (!db_info->cull) merge_fake_stree(&db_info->stree, stree); free_stree(&stree); __push_fake_cur_stree(); db_info->cull = 0; } db_info->prev_return_id = return_id; if (type == INTERNAL && func_type_mismatch(db_info->expr, value)) db_info->cull = 1; if (db_info->cull) return 0; if (type == CULL_PATH) { db_info->cull = 1; return 0; } if (is_impossible_data(type, db_info->expr, param, key, value)) { db_info->cull = 1; return 0; } if (type == PARAM_LIMIT) param_limit_implications(db_info->expr, param, key, value, &db_info->implied); db_info->handled = 1; call_results_to_rl(db_info->expr->right, get_type(strip_expr(db_info->expr->right)), ret_str, &ret_range); if (!ret_range) ret_range = alloc_whole_rl(get_type(strip_expr(db_info->expr->right))); ret_range = cast_rl(get_type(db_info->expr->right), ret_range); if (type == INTERNAL) { set_state(-1, "unnull_path", NULL, &true_state); __add_return_comparison(strip_expr(db_info->expr->right), ret_str); __add_comparison_info(db_info->expr->left, strip_expr(db_info->expr->right), ret_str); __add_return_to_param_mapping(db_info->expr, ret_str); store_return_state(db_info, ret_str, alloc_estate_rl(ret_range)); set_fresh_mtag_returns(db_info); } FOR_EACH_PTR(db_return_states_list, tmp) { if (tmp->type == type) tmp->callback(db_info->expr, param, key, value); } END_FOR_EACH_PTR(tmp); return 0; } static int db_return_states_assign(struct expression *expr) { struct expression *right; struct sm_state *sm; struct stree *stree; struct db_callback_info db_info = {}; right = strip_expr(expr->right); db_info.prev_return_id = -1; db_info.expr = expr; db_info.stree = NULL; db_info.handled = 0; call_return_states_before_hooks(); __push_fake_cur_stree(); sql_select_return_states("return_id, return, type, parameter, key, value", right, db_assign_return_states_callback, &db_info); if (option_debug) { sm_msg("%s return_id %d return_ranges %s", db_info.cull ? "culled" : "merging", db_info.prev_return_id, db_info.ret_state ? db_info.ret_state->name : "''"); } if (db_info.handled) call_ranged_return_hooks(&db_info); set_return_assign_state(&db_info); set_implied_states(&db_info); stree = __pop_fake_cur_stree(); if (!db_info.cull) merge_fake_stree(&db_info.stree, stree); free_stree(&stree); if (!db_info.stree && db_info.cull) { /* this means we culled everything */ set_extra_expr_mod(expr->left, alloc_estate_whole(get_type(expr->left))); set_path_impossible(); } FOR_EACH_SM(db_info.stree, sm) { __set_sm(sm); } END_FOR_EACH_SM(sm); free_stree(&db_info.stree); call_return_states_after_hooks(right); return db_info.handled; } static int handle_implied_return(struct expression *expr) { struct range_list *rl; if (!get_implied_return(expr->right, &rl)) return 0; rl = cast_rl(get_type(expr->left), rl); set_extra_expr_mod(expr->left, alloc_estate_rl(rl)); return 1; } static void match_assign_call(struct expression *expr) { struct call_back_list *call_backs; const char *fn; struct expression *right; int handled = 0; struct range_list *rl; if (expr->op != '=') return; right = strip_expr(expr->right); if (right->fn->type != EXPR_SYMBOL || !right->fn->symbol) { handled |= db_return_states_assign(expr); if (!handled) goto assigned_unknown; return; } if (is_fake_call(right)) { set_extra_expr_mod(expr->left, alloc_estate_whole(get_type(expr->left))); return; } fn = right->fn->symbol->ident->name; call_backs = search_callback(func_hash, (char *)fn); /* * The ordering here is sort of important. * One example, of how this matters is that when we do: * * len = strlen(str); * * That is handled by smatch_common_functions.c and smatch_strlen.c. * They use implied_return and function_assign_hook respectively. * We want to get the implied return first before we do the function * assignment hook otherwise we end up writing the wrong thing for len * in smatch_extra.c because we assume that it already holds the * strlen() when we haven't set it yet. */ if (db_return_states_assign(expr) == 1) handled = 1; else handled = assign_ranged_funcs(fn, expr, call_backs); handled |= handle_implied_return(expr); call_call_backs(call_backs, ASSIGN_CALL, fn, expr); if (handled) return; assigned_unknown: get_absolute_rl(expr->right, &rl); rl = cast_rl(get_type(expr->left), rl); set_extra_expr_mod(expr->left, alloc_estate_rl(rl)); } static int db_return_states_callback(void *_info, int argc, char **argv, char **azColName) { struct db_callback_info *db_info = _info; struct range_list *ret_range; int type, param; char *ret_str, *key, *value; struct return_implies_callback *tmp; struct stree *stree; int return_id; char buf[64]; if (argc != 6) return 0; return_id = atoi(argv[0]); ret_str = argv[1]; type = atoi(argv[2]); param = atoi(argv[3]); key = argv[4]; value = argv[5]; if (db_info->prev_return_id != -1 && type == INTERNAL) { call_ranged_return_hooks(db_info); set_implied_states(db_info); stree = __pop_fake_cur_stree(); if (!db_info->cull) merge_fake_stree(&db_info->stree, stree); free_stree(&stree); __push_fake_cur_stree(); __unnullify_path(); db_info->cull = 0; } db_info->prev_return_id = return_id; if (type == INTERNAL && func_type_mismatch(db_info->expr, value)) db_info->cull = 1; if (db_info->cull) return 0; if (type == CULL_PATH) { db_info->cull = 1; return 0; } if (is_impossible_data(type, db_info->expr, param, key, value)) { db_info->cull = 1; return 0; } if (type == PARAM_LIMIT) param_limit_implications(db_info->expr, param, key, value, &db_info->implied); call_results_to_rl(db_info->expr, get_type(strip_expr(db_info->expr)), ret_str, &ret_range); ret_range = cast_rl(get_type(db_info->expr), ret_range); if (type == INTERNAL) { struct smatch_state *state; set_state(-1, "unnull_path", NULL, &true_state); __add_return_comparison(strip_expr(db_info->expr), ret_str); __add_return_to_param_mapping(db_info->expr, ret_str); /* * We want to store the return values so that we can split the strees * in smatch_db.c. This uses set_state() directly because it's not a * real smatch_extra state. */ snprintf(buf, sizeof(buf), "return %p", db_info->expr); state = alloc_estate_rl(ret_range); set_state(SMATCH_EXTRA, buf, NULL, state); store_return_state(db_info, ret_str, state); } FOR_EACH_PTR(db_return_states_list, tmp) { if (tmp->type == type) tmp->callback(db_info->expr, param, key, value); } END_FOR_EACH_PTR(tmp); return 0; } static void db_return_states(struct expression *expr) { struct sm_state *sm; struct stree *stree; struct db_callback_info db_info = {}; if (!__get_cur_stree()) /* no return functions */ return; db_info.prev_return_id = -1; db_info.expr = expr; db_info.stree = NULL; call_return_states_before_hooks(); __push_fake_cur_stree(); __unnullify_path(); sql_select_return_states("return_id, return, type, parameter, key, value", expr, db_return_states_callback, &db_info); call_ranged_return_hooks(&db_info); set_implied_states(&db_info); stree = __pop_fake_cur_stree(); if (!db_info.cull) merge_fake_stree(&db_info.stree, stree); free_stree(&stree); FOR_EACH_SM(db_info.stree, sm) { __set_sm(sm); } END_FOR_EACH_SM(sm); free_stree(&db_info.stree); call_return_states_after_hooks(expr); } static int is_condition_call(struct expression *expr) { struct expression *tmp; FOR_EACH_PTR_REVERSE(big_condition_stack, tmp) { if (expr == tmp || expr_get_parent_expr(expr) == tmp) return 1; if (tmp->pos.line < expr->pos.line) return 0; } END_FOR_EACH_PTR_REVERSE(tmp); return 0; } static void db_return_states_call(struct expression *expr) { if (unreachable()) return; if (is_assigned_call(expr)) return; if (is_condition_call(expr)) return; db_return_states(expr); } static void match_function_call(struct expression *expr) { struct call_back_list *call_backs; struct expression *fn; fn = strip_expr(expr->fn); if (fn->type == EXPR_SYMBOL && fn->symbol) { call_backs = search_callback(func_hash, (char *)fn->symbol->ident->name); if (call_backs) call_call_backs(call_backs, REGULAR_CALL, fn->symbol->ident->name, expr); } db_return_states_call(expr); } static void match_macro_assign(struct expression *expr) { struct call_back_list *call_backs; const char *macro; struct expression *right; right = strip_expr(expr->right); macro = get_macro_name(right->pos); call_backs = search_callback(func_hash, (char *)macro); if (!call_backs) return; call_call_backs(call_backs, MACRO_ASSIGN, macro, expr); call_call_backs(call_backs, MACRO_ASSIGN_EXTRA, macro, expr); } int get_implied_return(struct expression *expr, struct range_list **rl) { struct call_back_list *call_backs; struct fcall_back *tmp; int handled = 0; char *fn; *rl = NULL; expr = strip_expr(expr); fn = expr_to_var(expr->fn); if (!fn) goto out; call_backs = search_callback(func_hash, fn); FOR_EACH_PTR(call_backs, tmp) { if (tmp->type == IMPLIED_RETURN) { (tmp->u.implied_return)(expr, tmp->info, rl); handled = 1; } } END_FOR_EACH_PTR(tmp); out: free_string(fn); return handled; } void create_function_hook_hash(void) { func_hash = create_function_hashtable(5000); } void register_function_hooks(int id) { add_hook(&match_function_call, CALL_HOOK_AFTER_INLINE); add_hook(&match_assign_call, CALL_ASSIGNMENT_HOOK); add_hook(&match_macro_assign, MACRO_ASSIGNMENT_HOOK); }