conditions: handle comma condtions

[smatch.git] / smatch_extra.c

/*
 * Copyright (C) 2008 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
 */

/*
 * smatch_extra.c is supposed to track the value of every variable.
 *
 */

#include <stdlib.h>
#include <errno.h>
#ifndef __USE_ISOC99
#define __USE_ISOC99
#endif
#include <limits.h>
#include "parse.h"
#include "smatch.h"
#include "smatch_slist.h"
#include "smatch_extra.h"

static int my_id;

struct string_list *__ignored_macros = NULL;
static int in_warn_on_macro(void)
{
        struct statement *stmt;
        char *tmp;
        char *macro;

        stmt = get_current_statement();
        if (!stmt)
                return 0;
        macro = get_macro_name(stmt->pos);
        if (!macro)
                return 0;

        FOR_EACH_PTR(__ignored_macros, tmp) {
                if (!strcmp(tmp, macro))
                        return 1;
        } END_FOR_EACH_PTR(tmp);
        return 0;
}

typedef void (mod_hook)(const char *name, struct symbol *sym, struct smatch_state *state);
DECLARE_PTR_LIST(void_fn_list, mod_hook *);
static struct void_fn_list *extra_mod_hooks;
void add_extra_mod_hook(mod_hook *fn)
{
        mod_hook **p = malloc(sizeof(mod_hook *));
        *p = fn;
        add_ptr_list(&extra_mod_hooks, p);
}

void call_extra_mod_hooks(const char *name, struct symbol *sym, struct smatch_state *state)
{
        mod_hook **fn;

        FOR_EACH_PTR(extra_mod_hooks, fn) {
                (*fn)(name, sym, state);
        } END_FOR_EACH_PTR(fn);
}

struct sm_state *set_extra_mod(const char *name, struct symbol *sym, struct smatch_state *state)
{
        if (in_warn_on_macro())
                return NULL;
        remove_from_equiv(name, sym);
        call_extra_mod_hooks(name, sym, state);
        return set_state(SMATCH_EXTRA, name, sym, state);
}

struct sm_state *set_extra_expr_mod(struct expression *expr, struct smatch_state *state)
{
        struct symbol *sym;
        char *name;
        struct sm_state *ret = NULL;

        expr = strip_expr(expr);
        name = expr_to_var_sym(expr, &sym);
        if (!name || !sym)
                goto free;
        ret = set_extra_mod(name, sym, state);
free:
        free_string(name);
        return ret;
}

void set_extra_nomod(const char *name, struct symbol *sym, struct smatch_state *state)
{
        struct relation *rel;
        struct smatch_state *orig_state;

        orig_state = get_state(SMATCH_EXTRA, name, sym);

        if (!estate_related(orig_state)) {
                set_state(SMATCH_EXTRA, name, sym, state);
                return;
        }

        set_related(state, estate_related(orig_state));
        FOR_EACH_PTR(estate_related(orig_state), rel) {
                if (option_debug_related)
                        sm_msg("%s updating related %s to %s", name, rel->name, state->name);
                set_state(SMATCH_EXTRA, rel->name, rel->sym, state);
        } END_FOR_EACH_PTR(rel);
}

/*
 * This is for return_implies_state() hooks which modify a SMATCH_EXTRA state
 */
void set_extra_expr_nomod(struct expression *expr, struct smatch_state *state)
{
        char *name;
        struct symbol *sym;

        name = expr_to_var_sym(expr, &sym);
        if (!name || !sym)
                goto free;
        set_extra_nomod(name, sym, state);
free:
        free_string(name);

}

static void set_extra_true_false(const char *name, struct symbol *sym,
                        struct smatch_state *true_state,
                        struct smatch_state *false_state)
{
        struct relation *rel;
        struct smatch_state *orig_state;

        if (in_warn_on_macro())
                return;

        orig_state = get_state(SMATCH_EXTRA, name, sym);

        if (!estate_related(orig_state)) {
                set_true_false_states(SMATCH_EXTRA, name, sym, true_state, false_state);
                return;
        }

        if (true_state)
                set_related(true_state, estate_related(orig_state));
        if (false_state)
                set_related(false_state, estate_related(orig_state));

        FOR_EACH_PTR(estate_related(orig_state), rel) {
                set_true_false_states(SMATCH_EXTRA, rel->name, rel->sym,
                                true_state, false_state);
        } END_FOR_EACH_PTR(rel);
}

static void set_extra_expr_true_false(struct expression *expr,
                struct smatch_state *true_state,
                struct smatch_state *false_state)
{
        char *name;
        struct symbol *sym;

        expr = strip_expr(expr);
        name = expr_to_var_sym(expr, &sym);
        if (!name || !sym)
                goto free;
        set_extra_true_false(name, sym, true_state, false_state);
free:
        free_string(name);
}

static struct sm_state *handle_canonical_while_count_down(struct statement *loop)
{
        struct expression *iter_var;
        struct expression *condition;
        struct sm_state *sm;
        struct smatch_state *estate;
        sval_t start;

        condition = strip_expr(loop->iterator_pre_condition);
        if (!condition)
                return NULL;
        if (condition->type != EXPR_PREOP && condition->type != EXPR_POSTOP)
                return NULL;
        if (condition->op != SPECIAL_DECREMENT)
                return NULL;

        iter_var = condition->unop;
        sm = get_sm_state_expr(SMATCH_EXTRA, iter_var);
        if (!sm)
                return NULL;
        if (sval_cmp_val(estate_min(sm->state), 0) < 0)
                return NULL;
        start = estate_max(sm->state);
        if  (sval_cmp_val(start, 0) <= 0)
                return NULL;
        if (!sval_is_max(start))
                start.value--;

        if (condition->type == EXPR_PREOP) {
                estate = alloc_estate_range(sval_type_val(start.type, 1), start);
                if (estate_has_hard_max(sm->state))
                        estate_set_hard_max(estate);
                estate_copy_fuzzy_max(estate, sm->state);
                set_extra_expr_mod(iter_var, estate);
        }
        if (condition->type == EXPR_POSTOP) {
                estate = alloc_estate_range(sval_type_val(start.type, 0), start);
                if (estate_has_hard_max(sm->state))
                        estate_set_hard_max(estate);
                estate_copy_fuzzy_max(estate, sm->state);
                set_extra_expr_mod(iter_var, estate);
        }
        return get_sm_state_expr(SMATCH_EXTRA, iter_var);
}

static struct sm_state *handle_canonical_for_inc(struct expression *iter_expr,
                                                struct expression *condition)
{
        struct expression *iter_var;
        struct sm_state *sm;
        struct smatch_state *estate;
        sval_t start, end, max;

        iter_var = iter_expr->unop;
        sm = get_sm_state_expr(SMATCH_EXTRA, iter_var);
        if (!sm)
                return NULL;
        if (!estate_get_single_value(sm->state, &start))
                return NULL;
        if (get_implied_max(condition->right, &end))
                end = sval_cast(get_type(iter_var), end);
        else
                end = sval_type_max(get_type(iter_var));

        if (get_sm_state_expr(SMATCH_EXTRA, condition->left) != sm)
                return NULL;

        switch (condition->op) {
        case SPECIAL_UNSIGNED_LT:
        case SPECIAL_NOTEQUAL:
        case '<':
                if (!sval_is_min(end))
                        end.value--;
                break;
        case SPECIAL_UNSIGNED_LTE:
        case SPECIAL_LTE:
                break;
        default:
                return NULL;
        }
        if (sval_cmp(end, start) < 0)
                return NULL;
        estate = alloc_estate_range(start, end);
        if (get_hard_max(condition->right, &max)) {
                estate_set_hard_max(estate);
                if (condition->op == '<' ||
                    condition->op == SPECIAL_UNSIGNED_LT ||
                    condition->op == SPECIAL_NOTEQUAL)
                        max.value--;
                estate_set_fuzzy_max(estate, max);
        }
        set_extra_expr_mod(iter_var, estate);
        return get_sm_state_expr(SMATCH_EXTRA, iter_var);
}

static struct sm_state *handle_canonical_for_dec(struct expression *iter_expr,
                                                struct expression *condition)
{
        struct expression *iter_var;
        struct sm_state *sm;
        struct smatch_state *estate;
        sval_t start, end;

        iter_var = iter_expr->unop;
        sm = get_sm_state_expr(SMATCH_EXTRA, iter_var);
        if (!sm)
                return NULL;
        if (!estate_get_single_value(sm->state, &start))
                return NULL;
        if (!get_implied_min(condition->right, &end))
                end = sval_type_min(get_type(iter_var));
        if (get_sm_state_expr(SMATCH_EXTRA, condition->left) != sm)
                return NULL;

        switch (condition->op) {
        case SPECIAL_NOTEQUAL:
        case '>':
                if (!sval_is_min(end) && !sval_is_max(end))
                        end.value++;
                break;
        case SPECIAL_GTE:
                break;
        default:
                return NULL;
        }
        if (sval_cmp(end, start) > 0)
                return NULL;
        estate = alloc_estate_range(end, start);
        estate_set_hard_max(estate);
        estate_set_fuzzy_max(estate, estate_get_fuzzy_max(estate));
        set_extra_expr_mod(iter_var, estate);
        return get_sm_state_expr(SMATCH_EXTRA, iter_var);
}

static struct sm_state *handle_canonical_for_loops(struct statement *loop)
{
        struct expression *iter_expr;
        struct expression *condition;

        if (!loop->iterator_post_statement)
                return NULL;
        if (loop->iterator_post_statement->type != STMT_EXPRESSION)
                return NULL;
        iter_expr = loop->iterator_post_statement->expression;
        if (!loop->iterator_pre_condition)
                return NULL;
        if (loop->iterator_pre_condition->type != EXPR_COMPARE)
                return NULL;
        condition = loop->iterator_pre_condition;

        if (iter_expr->op == SPECIAL_INCREMENT)
                return handle_canonical_for_inc(iter_expr, condition);
        if (iter_expr->op == SPECIAL_DECREMENT)
                return handle_canonical_for_dec(iter_expr, condition);
        return NULL;
}

struct sm_state *__extra_handle_canonical_loops(struct statement *loop, struct stree **stree)
{
        struct sm_state *ret;

        __push_fake_cur_stree();
        if (!loop->iterator_post_statement)
                ret = handle_canonical_while_count_down(loop);
        else
                ret = handle_canonical_for_loops(loop);
        *stree = __pop_fake_cur_stree();
        return ret;
}

int __iterator_unchanged(struct sm_state *sm)
{
        if (!sm)
                return 0;
        if (get_sm_state(my_id, sm->name, sm->sym) == sm)
                return 1;
        return 0;
}

static void while_count_down_after(struct sm_state *sm, struct expression *condition)
{
        sval_t after_value;

        /* paranoid checking.  prolly not needed */
        condition = strip_expr(condition);
        if (!condition)
                return;
        if (condition->type != EXPR_PREOP && condition->type != EXPR_POSTOP)
                return;
        if (condition->op != SPECIAL_DECREMENT)
                return;
        after_value = estate_min(sm->state);
        after_value.value--;
        set_extra_mod(sm->name, sm->sym, alloc_estate_sval(after_value));
}

void __extra_pre_loop_hook_after(struct sm_state *sm,
                                struct statement *iterator,
                                struct expression *condition)
{
        struct expression *iter_expr;
        sval_t limit;
        struct smatch_state *state;

        if (!iterator) {
                while_count_down_after(sm, condition);
                return;
        }

        iter_expr = iterator->expression;

        if (condition->type != EXPR_COMPARE)
                return;
        if (iter_expr->op == SPECIAL_INCREMENT) {
                limit = sval_binop(estate_max(sm->state), '+',
                                   sval_type_val(estate_type(sm->state), 1));
        } else {
                limit = sval_binop(estate_min(sm->state), '-',
                                   sval_type_val(estate_type(sm->state), 1));
        }
        if (!estate_has_hard_max(sm->state) && !__has_breaks()) {
                if (iter_expr->op == SPECIAL_INCREMENT)
                        state = alloc_estate_range(estate_min(sm->state), limit);
                else
                        state = alloc_estate_range(limit, estate_max(sm->state));
        } else {
                state = alloc_estate_sval(limit);
        }
        if (!estate_has_hard_max(sm->state)) {
                estate_clear_hard_max(state);
        }
        if (estate_has_fuzzy_max(sm->state)) {
                sval_t hmax = estate_get_fuzzy_max(sm->state);
                sval_t max = estate_max(sm->state);

                if (sval_cmp(hmax, max) != 0)
                        estate_clear_fuzzy_max(state);
        } else if (!estate_has_fuzzy_max(sm->state)) {
                estate_clear_fuzzy_max(state);
        }

        set_extra_mod(sm->name, sm->sym, state);
}

static struct stree *unmatched_stree;
static struct smatch_state *unmatched_state(struct sm_state *sm)
{
        struct smatch_state *state;

        if (unmatched_stree) {
                state = get_state_stree(unmatched_stree, SMATCH_EXTRA, sm->name, sm->sym);
                if (state)
                        return state;
        }
        if (parent_is_gone_var_sym(sm->name, sm->sym))
                return alloc_estate_empty();
        return alloc_estate_whole(estate_type(sm->state));
}

static void clear_the_pointed_at(struct expression *expr)
{
        struct stree *stree;
        char *name;
        struct symbol *sym;
        struct sm_state *tmp;

        name = expr_to_var_sym(expr, &sym);
        if (!name || !sym)
                goto free;

        stree = __get_cur_stree();
        FOR_EACH_MY_SM(SMATCH_EXTRA, stree, tmp) {
                if (tmp->name[0] != '*')
                        continue;
                if (tmp->sym != sym)
                        continue;
                if (strcmp(tmp->name + 1, name) != 0)
                        continue;
                set_extra_mod(tmp->name, tmp->sym, alloc_estate_whole(estate_type(tmp->state)));
        } END_FOR_EACH_SM(tmp);

free:
        free_string(name);
}

static void match_function_call(struct expression *expr)
{
        struct expression *arg;
        struct expression *tmp;

        /* if we have the db this is handled in smatch_function_hooks.c */
        if (!option_no_db)
                return;
        if (inlinable(expr->fn))
                return;

        FOR_EACH_PTR(expr->args, arg) {
                tmp = strip_expr(arg);
                if (tmp->type == EXPR_PREOP && tmp->op == '&')
                        set_extra_expr_mod(tmp->unop, alloc_estate_whole(get_type(tmp->unop)));
                else
                        clear_the_pointed_at(tmp);
        } END_FOR_EACH_PTR(arg);
}

static int types_equiv_or_pointer(struct symbol *one, struct symbol *two)
{
        if (!one || !two)
                return 0;
        if (one->type == SYM_PTR && two->type == SYM_PTR)
                return 1;
        return types_equiv(one, two);
}

static bool is_non_null_array(struct expression *expr)
{
        struct symbol *type;
        struct symbol *sym;
        struct symbol *tmp;
        char *name;
        int i;

        type = get_type(expr);
        if (!type || type->type != SYM_ARRAY)
                return 0;
        if (expr->type == EXPR_SYMBOL)
                return 1;
        if (implied_not_equal(expr, 0))
                return 1;

        /* verify that it's not the first member of the struct */
        if (expr->type != EXPR_DEREF || !expr->member)
                return 0;
        name = expr_to_var_sym(expr, &sym);
        free_string(name);
        if (!name || !sym)
                return 0;
        type = get_real_base_type(sym);
        if (!type || type->type != SYM_PTR)
                return 0;
        type = get_real_base_type(type);
        if (type->type != SYM_STRUCT)
                return 0;

        i = 0;
        FOR_EACH_PTR(type->symbol_list, tmp) {
                i++;
                if (!tmp->ident)
                        continue;
                if (strcmp(expr->member->name, tmp->ident->name) == 0) {
                        if (i == 1)
                                return 0;
                        return 1;
                }
        } END_FOR_EACH_PTR(tmp);

        return 0;
}

static void match_vanilla_assign(struct expression *left, struct expression *right)
{
        struct range_list *rl = NULL;
        struct symbol *right_sym;
        struct symbol *left_type;
        struct symbol *right_type;
        char *right_name = NULL;
        struct symbol *sym;
        char *name;
        sval_t max;
        struct smatch_state *state;

        if (is_struct(left))
                return;

        name = expr_to_var_sym(left, &sym);
        if (!name)
                return;

        left_type = get_type(left);
        right_type = get_type(right);

        right_name = expr_to_var_sym(right, &right_sym);

        if (!(right->type == EXPR_PREOP && right->op == '&') &&
            right_name && right_sym &&
            types_equiv_or_pointer(left_type, right_type) &&
            !has_symbol(right, sym)) {
                set_equiv(left, right);
                goto free;
        }

        if (is_non_null_array(right)) {
                state = alloc_estate_range(array_min_sval, array_max_sval);
        } else if (get_implied_rl(right, &rl)) {
                rl = cast_rl(left_type, rl);
                state = alloc_estate_rl(rl);
                if (get_hard_max(right, &max)) {
                        estate_set_hard_max(state);
                        estate_set_fuzzy_max(state, max);
                }
        } else {
                rl = alloc_whole_rl(right_type);
                rl = cast_rl(left_type, rl);
                state = alloc_estate_rl(rl);
        }
        set_extra_mod(name, sym, state);
free:
        free_string(right_name);
}

static int op_remove_assign(int op)
{
        switch (op) {
        case SPECIAL_ADD_ASSIGN:
                return '+';
        case SPECIAL_SUB_ASSIGN:
                return '-';
        case SPECIAL_MUL_ASSIGN:
                return '*';
        case SPECIAL_DIV_ASSIGN:
                return '/';
        case SPECIAL_MOD_ASSIGN:
                return '%';
        case SPECIAL_AND_ASSIGN:
                return '&';
        case SPECIAL_OR_ASSIGN:
                return '|';
        case SPECIAL_XOR_ASSIGN:
                return '^';
        case SPECIAL_SHL_ASSIGN:
                return SPECIAL_LEFTSHIFT;
        case SPECIAL_SHR_ASSIGN:
                return SPECIAL_RIGHTSHIFT;
        default:
                return op;
        }
}

static void match_assign(struct expression *expr)
{
        struct range_list *rl = NULL;
        struct expression *left;
        struct expression *right;
        struct expression *binop_expr;
        struct symbol *left_type;
        struct symbol *right_type;
        struct symbol *sym;
        char *name;
        sval_t left_min, left_max;
        sval_t right_min, right_max;
        sval_t res_min, res_max;

        left = strip_expr(expr->left);

        right = strip_expr(expr->right);
        while (right->type == EXPR_ASSIGNMENT && right->op == '=')
                right = strip_expr(right->left);

        if (is_condition(expr->right))
                return; /* handled in smatch_condition.c */
        if (expr->op == '=' && right->type == EXPR_CALL)
                return; /* handled in smatch_function_hooks.c */
        if (expr->op == '=') {
                match_vanilla_assign(left, right);
                return;
        }

        name = expr_to_var_sym(left, &sym);
        if (!name)
                return;

        left_type = get_type(left);
        right_type = get_type(right);

        res_min = sval_type_min(left_type);
        res_max = sval_type_max(left_type);

        switch (expr->op) {
        case SPECIAL_ADD_ASSIGN:
                get_absolute_max(left, &left_max);
                get_absolute_max(right, &right_max);
                if (sval_binop_overflows(left_max, '+', right_max))
                        break;
                if (get_implied_min(left, &left_min) &&
                    !sval_is_negative_min(left_min) &&
                    get_implied_min(right, &right_min) &&
                    !sval_is_negative_min(right_min)) {
                        res_min = sval_binop(left_min, '+', right_min);
                        res_min = sval_cast(right_type, res_min);
                }
                if (inside_loop())  /* we are assuming loops don't lead to wrapping */
                        break;
                res_max = sval_binop(left_max, '+', right_max);
                res_max = sval_cast(right_type, res_max);
                break;
        case SPECIAL_SUB_ASSIGN:
                if (get_implied_max(left, &left_max) &&
                    !sval_is_max(left_max) &&
                    get_implied_min(right, &right_min) &&
                    !sval_is_min(right_min)) {
                        res_max = sval_binop(left_max, '-', right_min);
                        res_max = sval_cast(right_type, res_max);
                }
                if (inside_loop())
                        break;
                if (get_implied_min(left, &left_min) &&
                    !sval_is_min(left_min) &&
                    get_implied_max(right, &right_max) &&
                    !sval_is_max(right_max)) {
                        res_min = sval_binop(left_min, '-', right_max);
                        res_min = sval_cast(right_type, res_min);
                }
                break;
        case SPECIAL_AND_ASSIGN:
        case SPECIAL_MOD_ASSIGN:
        case SPECIAL_SHL_ASSIGN:
        case SPECIAL_SHR_ASSIGN:
        case SPECIAL_OR_ASSIGN:
        case SPECIAL_XOR_ASSIGN:
        case SPECIAL_MUL_ASSIGN:
        case SPECIAL_DIV_ASSIGN:
                binop_expr = binop_expression(expr->left,
                                              op_remove_assign(expr->op),
                                              expr->right);
                if (get_absolute_rl(binop_expr, &rl)) {
                        rl = cast_rl(left_type, rl);
                        set_extra_mod(name, sym, alloc_estate_rl(rl));
                        goto free;
                }
                break;
        }
        rl = cast_rl(left_type, alloc_rl(res_min, res_max));
        set_extra_mod(name, sym, alloc_estate_rl(rl));
free:
        free_string(name);
}

static struct smatch_state *increment_state(struct smatch_state *state)
{
        sval_t min = estate_min(state);
        sval_t max = estate_max(state);

        if (!estate_rl(state))
                return NULL;

        if (inside_loop())
                max = sval_type_max(max.type);

        if (!sval_is_min(min) && !sval_is_max(min))
                min.value++;
        if (!sval_is_min(max) && !sval_is_max(max))
                max.value++;
        return alloc_estate_range(min, max);
}

static struct smatch_state *decrement_state(struct smatch_state *state)
{
        sval_t min = estate_min(state);
        sval_t max = estate_max(state);

        if (!estate_rl(state))
                return NULL;

        if (inside_loop())
                min = sval_type_min(min.type);

        if (!sval_is_min(min) && !sval_is_max(min))
                min.value--;
        if (!sval_is_min(max) && !sval_is_max(max))
                max.value--;
        return alloc_estate_range(min, max);
}

static void unop_expr(struct expression *expr)
{
        struct smatch_state *state;

        if (expr->smatch_flags & Handled)
                return;

        switch (expr->op) {
        case SPECIAL_INCREMENT:
                state = get_state_expr(SMATCH_EXTRA, expr->unop);
                state = increment_state(state);
                if (!state)
                        state = alloc_estate_whole(get_type(expr));
                set_extra_expr_mod(expr->unop, state);
                break;
        case SPECIAL_DECREMENT:
                state = get_state_expr(SMATCH_EXTRA, expr->unop);
                state = decrement_state(state);
                if (!state)
                        state = alloc_estate_whole(get_type(expr));
                set_extra_expr_mod(expr->unop, state);
                break;
        default:
                return;
        }
}

static void asm_expr(struct statement *stmt)
{

        struct expression *expr;
        struct symbol *type;
        int state = 0;

        FOR_EACH_PTR(stmt->asm_outputs, expr) {
                switch (state) {
                case 0: /* identifier */
                case 1: /* constraint */
                        state++;
                        continue;
                case 2: /* expression */
                        state = 0;
                        type = get_type(strip_expr(expr));
                        set_extra_expr_mod(expr, alloc_estate_whole(type));
                        continue;
                }
        } END_FOR_EACH_PTR(expr);
}

static void delete_state_tracker(struct tracker *t)
{
        remove_from_equiv(t->name, t->sym);
        delete_state(t->owner, t->name, t->sym);
}

static void scoped_state_extra(const char *name, struct symbol *sym)
{
        struct tracker *t;

        t = alloc_tracker(SMATCH_EXTRA, name, sym);
        add_scope_hook((scope_hook *)&delete_state_tracker, t);
}

static void match_declarations(struct symbol *sym)
{
        const char *name;

        if (sym->ident) {
                name = sym->ident->name;
                if (!sym->initializer) {
                        set_state(SMATCH_EXTRA, name, sym, alloc_estate_whole(get_real_base_type(sym)));
                        scoped_state_extra(name, sym);
                }
        }
}

static void check_dereference(struct expression *expr)
{
        if (outside_of_function())
                return;
        set_extra_expr_nomod(expr, alloc_estate_range(valid_ptr_min_sval, valid_ptr_max_sval));
}

static void match_dereferences(struct expression *expr)
{
        if (expr->type != EXPR_PREOP)
                return;
        check_dereference(expr->unop);
}

static void match_pointer_as_array(struct expression *expr)
{
        if (!is_array(expr))
                return;
        check_dereference(expr->unop->left);
}

static void set_param_dereferenced(struct expression *arg, char *key, char *unused)
{
        struct symbol *sym;
        char *name;

        name = get_variable_from_key(arg, key, &sym);
        if (!name || !sym)
                goto free;

        set_extra_nomod(name, sym, alloc_estate_range(valid_ptr_min_sval, valid_ptr_max_sval));

free:
        free_string(name);
}

static void match_function_def(struct symbol *sym)
{
        struct symbol *arg;

        FOR_EACH_PTR(sym->ctype.base_type->arguments, arg) {
                if (!arg->ident)
                        continue;
                set_state(my_id, arg->ident->name, arg, alloc_estate_whole(get_real_base_type(arg)));
        } END_FOR_EACH_PTR(arg);
}

static sval_t add_one(sval_t sval)
{
        sval.value++;
        return sval;
}

static sval_t sub_one(sval_t sval)
{
        sval.value--;
        return sval;
}

static void handle_comparison(struct symbol *type, struct expression *left, int op, struct expression *right)
{
        struct range_list *left_orig;
        struct range_list *left_true;
        struct range_list *left_false;
        struct range_list *right_orig;
        struct range_list *right_true;
        struct range_list *right_false;
        struct smatch_state *left_true_state;
        struct smatch_state *left_false_state;
        struct smatch_state *right_true_state;
        struct smatch_state *right_false_state;
        sval_t min, max, dummy, hard_max;
        int left_postop = 0;
        int right_postop = 0;

        if (left->op == SPECIAL_INCREMENT || left->op == SPECIAL_DECREMENT) {
                if (left->type == EXPR_POSTOP) {
                        left->smatch_flags |= Handled;
                        left_postop = left->op;
                }
                left = strip_expr(left->unop);
        }
        while (left->type == EXPR_ASSIGNMENT)
                left = strip_expr(left->left);

        if (right->op == SPECIAL_INCREMENT || right->op == SPECIAL_DECREMENT) {
                if (right->type == EXPR_POSTOP) {
                        right->smatch_flags |= Handled;
                        right_postop = right->op;
                }
                right = strip_expr(right->unop);
        }

        if (get_implied_rl(left, &left_orig)) {
                left_orig = cast_rl(type, left_orig);
        } else {
                min = sval_type_min(get_type(left));
                max = sval_type_max(get_type(left));
                left_orig = cast_rl(type, alloc_rl(min, max));
        }

        if (get_implied_rl(right, &right_orig)) {
                right_orig = cast_rl(type, right_orig);
        } else {
                min = sval_type_min(get_type(right));
                max = sval_type_max(get_type(right));
                right_orig = cast_rl(type, alloc_rl(min, max));
        }
        min = sval_type_min(type);
        max = sval_type_max(type);

        left_true = clone_rl(left_orig);
        left_false = clone_rl(left_orig);
        right_true = clone_rl(right_orig);
        right_false = clone_rl(right_orig);

        switch (op) {
        case '<':
        case SPECIAL_UNSIGNED_LT:
                left_true = remove_range(left_orig, rl_max(right_orig), max);
                if (!sval_is_min(rl_min(right_orig))) {
                        left_false = remove_range(left_orig, min, sub_one(rl_min(right_orig)));
                }

                right_true = remove_range(right_orig, min, rl_min(left_orig));
                if (!sval_is_max(rl_max(left_orig)))
                        right_false = remove_range(right_orig, add_one(rl_max(left_orig)), max);
                break;
        case SPECIAL_UNSIGNED_LTE:
        case SPECIAL_LTE:
                if (!sval_is_max(rl_max(right_orig)))
                        left_true = remove_range(left_orig, add_one(rl_max(right_orig)), max);
                left_false = remove_range(left_orig, min, rl_min(right_orig));

                if (!sval_is_min(rl_min(left_orig)))
                        right_true = remove_range(right_orig, min, sub_one(rl_min(left_orig)));
                right_false = remove_range(right_orig, rl_max(left_orig), max);

                if (sval_cmp(rl_min(left_orig), rl_min(right_orig)) == 0)
                        left_false = remove_range(left_false, rl_min(left_orig), rl_min(left_orig));
                if (sval_cmp(rl_max(left_orig), rl_max(right_orig)) == 0)
                        right_false = remove_range(right_false, rl_max(left_orig), rl_max(left_orig));
                break;
        case SPECIAL_EQUAL:
                if (!sval_is_max(rl_max(right_orig))) {
                        left_true = remove_range(left_true, add_one(rl_max(right_orig)), max);
                }
                if (!sval_is_min(rl_min(right_orig))) {
                        left_true = remove_range(left_true, min, sub_one(rl_min(right_orig)));
                }
                if (sval_cmp(rl_min(right_orig), rl_max(right_orig)) == 0)
                        left_false = remove_range(left_orig, rl_min(right_orig), rl_min(right_orig));

                if (!sval_is_max(rl_max(left_orig)))
                        right_true = remove_range(right_true, add_one(rl_max(left_orig)), max);
                if (!sval_is_min(rl_min(left_orig)))
                        right_true = remove_range(right_true, min, sub_one(rl_min(left_orig)));
                if (sval_cmp(rl_min(left_orig), rl_max(left_orig)) == 0)
                        right_false = remove_range(right_orig, rl_min(left_orig), rl_min(left_orig));
                break;
        case SPECIAL_UNSIGNED_GTE:
        case SPECIAL_GTE:
                if (!sval_is_min(rl_min(right_orig)))
                        left_true = remove_range(left_orig, min, sub_one(rl_min(right_orig)));
                left_false = remove_range(left_orig, rl_max(right_orig), max);

                if (!sval_is_max(rl_max(left_orig)))
                        right_true = remove_range(right_orig, add_one(rl_max(left_orig)), max);
                right_false = remove_range(right_orig, min, rl_min(left_orig));

                if (sval_cmp(rl_min(left_orig), rl_min(right_orig)) == 0)
                        right_false = remove_range(right_false, rl_min(left_orig), rl_min(left_orig));
                if (sval_cmp(rl_max(left_orig), rl_max(right_orig)) == 0)
                        left_false = remove_range(left_false, rl_max(left_orig), rl_max(left_orig));
                break;
        case '>':
        case SPECIAL_UNSIGNED_GT:
                left_true = remove_range(left_orig, min, rl_min(right_orig));
                if (!sval_is_max(rl_max(right_orig)))
                        left_false = remove_range(left_orig, add_one(rl_max(right_orig)), max);

                right_true = remove_range(right_orig, rl_max(left_orig), max);
                if (!sval_is_min(rl_min(left_orig)))
                        right_false = remove_range(right_orig, min, sub_one(rl_min(left_orig)));
                break;
        case SPECIAL_NOTEQUAL:
                if (!sval_is_max(rl_max(right_orig)))
                        left_false = remove_range(left_false, add_one(rl_max(right_orig)), max);
                if (!sval_is_min(rl_min(right_orig)))
                        left_false = remove_range(left_false, min, sub_one(rl_min(right_orig)));
                if (sval_cmp(rl_min(right_orig), rl_max(right_orig)) == 0)
                        left_true = remove_range(left_orig, rl_min(right_orig), rl_min(right_orig));

                if (!sval_is_max(rl_max(left_orig)))
                        right_false = remove_range(right_false, add_one(rl_max(left_orig)), max);
                if (!sval_is_min(rl_min(left_orig)))
                        right_false = remove_range(right_false, min, sub_one(rl_min(left_orig)));
                if (sval_cmp(rl_min(left_orig), rl_max(left_orig)) == 0)
                        right_true = remove_range(right_orig, rl_min(left_orig), rl_min(left_orig));
                break;
        default:
                return;
        }

        left_true = rl_truncate_cast(get_type(left), left_true);
        left_false = rl_truncate_cast(get_type(left), left_false);
        right_true = rl_truncate_cast(get_type(right), right_true);
        right_false = rl_truncate_cast(get_type(right), right_false);

        left_true_state = alloc_estate_rl(left_true);
        left_false_state = alloc_estate_rl(left_false);
        right_true_state = alloc_estate_rl(right_true);
        right_false_state = alloc_estate_rl(right_false);

        switch (op) {
        case '<':
        case SPECIAL_UNSIGNED_LT:
        case SPECIAL_UNSIGNED_LTE:
        case SPECIAL_LTE:
                if (get_hard_max(right, &dummy))
                        estate_set_hard_max(left_true_state);
                if (get_hard_max(left, &dummy))
                        estate_set_hard_max(right_false_state);
                break;
        case '>':
        case SPECIAL_UNSIGNED_GT:
        case SPECIAL_UNSIGNED_GTE:
        case SPECIAL_GTE:
                if (get_hard_max(left, &dummy))
                        estate_set_hard_max(right_true_state);
                if (get_hard_max(right, &dummy))
                        estate_set_hard_max(left_false_state);
                break;
        }

        switch (op) {
        case '<':
        case SPECIAL_UNSIGNED_LT:
        case SPECIAL_UNSIGNED_LTE:
        case SPECIAL_LTE:
                if (get_hard_max(right, &hard_max)) {
                        if (op == '<' || op == SPECIAL_UNSIGNED_LT)
                                hard_max.value--;
                        estate_set_fuzzy_max(left_true_state, hard_max);
                }
                if (get_implied_value(right, &hard_max)) {
                        if (op == SPECIAL_UNSIGNED_LTE ||
                            op == SPECIAL_LTE)
                                hard_max.value++;
                        estate_set_fuzzy_max(left_false_state, hard_max);
                }
                if (get_hard_max(left, &hard_max)) {
                        if (op == SPECIAL_UNSIGNED_LTE ||
                            op == SPECIAL_LTE)
                                hard_max.value--;
                        estate_set_fuzzy_max(right_false_state, hard_max);
                }
                if (get_implied_value(left, &hard_max)) {
                        if (op == '<' || op == SPECIAL_UNSIGNED_LT)
                                hard_max.value++;
                        estate_set_fuzzy_max(right_true_state, hard_max);
                }
                break;
        case '>':
        case SPECIAL_UNSIGNED_GT:
        case SPECIAL_UNSIGNED_GTE:
        case SPECIAL_GTE:
                if (get_hard_max(left, &hard_max)) {
                        if (op == '>' || op == SPECIAL_UNSIGNED_GT)
                                hard_max.value--;
                        estate_set_fuzzy_max(right_true_state, hard_max);
                }
                if (get_implied_value(left, &hard_max)) {
                        if (op == SPECIAL_UNSIGNED_GTE ||
                            op == SPECIAL_GTE)
                                hard_max.value++;
                        estate_set_fuzzy_max(right_false_state, hard_max);
                }
                if (get_hard_max(right, &hard_max)) {
                        if (op == SPECIAL_UNSIGNED_LTE ||
                            op == SPECIAL_LTE)
                                hard_max.value--;
                        estate_set_fuzzy_max(left_false_state, hard_max);
                }
                if (get_implied_value(right, &hard_max)) {
                        if (op == '>' ||
                            op == SPECIAL_UNSIGNED_GT)
                                hard_max.value++;
                        estate_set_fuzzy_max(left_true_state, hard_max);
                }
                break;
        case SPECIAL_EQUAL:
                if (get_hard_max(left, &hard_max))
                        estate_set_fuzzy_max(right_true_state, hard_max);
                if (get_hard_max(right, &hard_max))
                        estate_set_fuzzy_max(left_true_state, hard_max);
                break;
        }

        if (get_hard_max(left, &hard_max)) {
                estate_set_hard_max(left_true_state);
                estate_set_hard_max(left_false_state);
        }
        if (get_hard_max(right, &hard_max)) {
                estate_set_hard_max(right_true_state);
                estate_set_hard_max(right_false_state);
        }

        if (left_postop == SPECIAL_INCREMENT) {
                left_true_state = increment_state(left_true_state);
                left_false_state = increment_state(left_false_state);
        }
        if (left_postop == SPECIAL_DECREMENT) {
                left_true_state = decrement_state(left_true_state);
                left_false_state = decrement_state(left_false_state);
        }
        if (right_postop == SPECIAL_INCREMENT) {
                right_true_state = increment_state(right_true_state);
                right_false_state = increment_state(right_false_state);
        }
        if (right_postop == SPECIAL_DECREMENT) {
                right_true_state = decrement_state(right_true_state);
                right_false_state = decrement_state(right_false_state);
        }

        set_extra_expr_true_false(left, left_true_state, left_false_state);
        set_extra_expr_true_false(right, right_true_state, right_false_state);
}

static int opposite_op(int op)
{
        switch (op) {
        case '+':
                return '-';
        case '-':
                return '+';
        case '*':
                return '/';
        }
        return 0;
}

static int is_simple_math(struct expression *expr)
{
        if (!expr)
                return 0;
        if (expr->type != EXPR_BINOP)
                return 0;
        if (!opposite_op(expr->op))
                return 0;
        return 1;
}

static void move_known_values(struct expression **left_p, struct expression **right_p)
{
        struct expression *left = *left_p;
        struct expression *right = *right_p;
        sval_t sval;

        if (get_implied_value(left, &sval)) {
                if (!is_simple_math(right))
                        return;
                if (right->op == '*') {
                        sval_t divisor;

                        if (!get_value(right->right, &divisor))
                                return;
                        if (divisor.value == 0 && sval.value % divisor.value)
                                return;
                        *left_p = binop_expression(left, opposite_op(right->op), right->right);
                        *right_p = right->left;
                        return;
                }
                if (right->op == '+' && get_value(right->left, &sval)) {
                        *left_p = binop_expression(left, opposite_op(right->op), right->left);
                        *right_p = right->right;
                        return;
                }
                if (get_value(right->right, &sval)) {
                        *left_p = binop_expression(left, opposite_op(right->op), right->right);
                        *right_p = right->left;
                        return;
                }
                return;
        }
        if (get_implied_value(right, &sval)) {
                if (!is_simple_math(left))
                        return;
                if (left->op == '*') {
                        sval_t divisor;

                        if (!get_value(left->right, &divisor))
                                return;
                        if (divisor.value == 0 && sval.value % divisor.value)
                                return;
                        *right_p = binop_expression(right, opposite_op(left->op), left->right);
                        *left_p = left->left;
                        return;
                }
                if (left->op == '+' && get_value(left->left, &sval)) {
                        *right_p = binop_expression(right, opposite_op(left->op), left->left);
                        *left_p = left->right;
                        return;
                }

                if (get_value(left->right, &sval)) {
                        *right_p = binop_expression(right, opposite_op(left->op), left->right);
                        *left_p = left->left;
                        return;
                }
                return;
        }
}

static int match_func_comparison(struct expression *expr)
{
        struct expression *left = strip_expr(expr->left);
        struct expression *right = strip_expr(expr->right);
        sval_t sval;

        /*
         * fixme: think about this harder. We should always be trying to limit
         * the non-call side as well.  If we can't determine the limitter does
         * that mean we aren't querying the database and are missing important
         * information?
         */

        if (left->type == EXPR_CALL) {
                if (get_implied_value(left, &sval)) {
                        handle_comparison(get_type(expr), left, expr->op, right);
                        return 1;
                }
                if (!get_implied_value(right, &sval))
                        return 1;
                function_comparison(expr->op, left, sval, 1);
                return 1;
        }

        if (right->type == EXPR_CALL) {
                if (get_implied_value(right, &sval)) {
                        handle_comparison(get_type(expr), left, expr->op, right);
                        return 1;
                }
                if (!get_implied_value(left, &sval))
                        return 1;
                function_comparison(expr->op, right, sval, 0);
                return 1;
        }

        return 0;
}

static void match_comparison(struct expression *expr)
{
        struct expression *left_orig = strip_expr(expr->left);
        struct expression *right_orig = strip_expr(expr->right);
        struct expression *left, *right;
        struct expression *prev;
        struct symbol *type;

        if (match_func_comparison(expr))
                return;

        type = get_type(expr);
        if (!type)
                type = &llong_ctype;

        left = left_orig;
        right = right_orig;
        move_known_values(&left, &right);
        handle_comparison(type, left, expr->op, right);

        prev = get_assigned_expr(left_orig);
        if (is_simple_math(prev) && has_variable(prev, left_orig) == 0) {
                left = prev;
                right = right_orig;
                move_known_values(&left, &right);
                handle_comparison(type, left, expr->op, right);
        }

        prev = get_assigned_expr(right_orig);
        if (is_simple_math(prev) && has_variable(prev, right_orig) == 0) {
                left = left_orig;
                right = prev;
                move_known_values(&left, &right);
                handle_comparison(type, left, expr->op, right);
        }
}

static void handle_AND_condition(struct expression *expr)
{
        struct range_list *rl = NULL;
        sval_t known;

        if (get_implied_value(expr->left, &known) && known.value > 0) {
                known.value--;
                get_absolute_rl(expr->right, &rl);
                rl = remove_range(rl, sval_type_val(known.type, 0), known);
                set_extra_expr_true_false(expr->right, alloc_estate_rl(rl), NULL);
                return;
        }

        if (get_implied_value(expr->right, &known) && known.value > 0) {
                known.value--;
                get_absolute_rl(expr->left, &rl);
                rl = remove_range(rl, sval_type_val(known.type, 0), known);
                set_extra_expr_true_false(expr->left, alloc_estate_rl(rl), NULL);
                return;
        }
}

/* this is actually hooked from smatch_implied.c...  it's hacky, yes */
void __extra_match_condition(struct expression *expr)
{
        struct symbol *sym;
        char *name;
        struct smatch_state *pre_state;
        struct smatch_state *true_state;
        struct smatch_state *false_state;

        expr = strip_expr(expr);
        switch (expr->type) {
        case EXPR_CALL:
                function_comparison(SPECIAL_NOTEQUAL, expr, ll_to_sval(0), 1);
                return;
        case EXPR_PREOP:
        case EXPR_SYMBOL:
        case EXPR_DEREF: {
                sval_t zero;

                zero = sval_blank(expr);
                zero.value = 0;

                name = expr_to_var_sym(expr, &sym);
                if (!name)
                        return;
                pre_state = get_state(my_id, name, sym);
                true_state = estate_filter_sval(pre_state, zero);
                if (possibly_true(expr, SPECIAL_EQUAL, zero_expr()))
                        false_state = alloc_estate_sval(zero);
                else
                        false_state = alloc_estate_empty();
                set_extra_true_false(name, sym, true_state, false_state);
                free_string(name);
                return;
        }
        case EXPR_COMPARE:
                match_comparison(expr);
                return;
        case EXPR_ASSIGNMENT:
                __extra_match_condition(expr->left);
                return;
        case EXPR_BINOP:
                if (expr->op == '&')
                        handle_AND_condition(expr);
                return;
        }
}

static void assume_indexes_are_valid(struct expression *expr)
{
        struct expression *array_expr;
        int array_size;
        struct expression *offset;
        struct symbol *offset_type;
        struct range_list *rl_before;
        struct range_list *rl_after;
        struct range_list *filter = NULL;
        sval_t size;

        expr = strip_expr(expr);
        if (!is_array(expr))
                return;

        offset = get_array_offset(expr);
        offset_type = get_type(offset);
        if (offset_type && type_signed(offset_type)) {
                filter = alloc_rl(sval_type_min(offset_type),
                                  sval_type_val(offset_type, -1));
        }

        array_expr = strip_parens(expr->unop->left);
        array_size = get_real_array_size(array_expr);
        if (array_size > 1) {
                size = sval_type_val(offset_type, array_size);
                add_range(&filter, size, sval_type_max(offset_type));
        }

        if (!filter)
                return;
        get_absolute_rl(offset, &rl_before);
        rl_after = rl_filter(rl_before, filter);
        if (rl_equiv(rl_before, rl_after))
                return;
        set_extra_expr_nomod(offset, alloc_estate_rl(rl_after));
}

/* returns 1 if it is not possible for expr to be value, otherwise returns 0 */
int implied_not_equal(struct expression *expr, long long val)
{
        return !possibly_false(expr, SPECIAL_NOTEQUAL, value_expr(val));
}

int implied_not_equal_name_sym(char *name, struct symbol *sym, long long val)
{
        struct smatch_state *estate;

        estate = get_state(SMATCH_EXTRA, name, sym);
        if (!estate)
                return 0;
        if (!rl_has_sval(estate_rl(estate), sval_type_val(estate_type(estate), 0)))
                return 1;
        return 0;
}

int parent_is_null_var_sym(const char *name, struct symbol *sym)
{
        char buf[256];
        char *start;
        char *end;
        struct smatch_state *state;

        strncpy(buf, name, sizeof(buf) - 1);
        buf[sizeof(buf) - 1] = '\0';

        start = &buf[0];
        while ((*start == '&'))
                start++;

        while ((end = strrchr(start, '-'))) {
                *end = '\0';
                state = get_state(SMATCH_EXTRA, start, sym);
                if (!state)
                        continue;
                if (estate_min(state).value == 0 &&
                    estate_max(state).value == 0)
                        return 1;
        }
        return 0;
}

int parent_is_null(struct expression *expr)
{
        struct symbol *sym;
        char *var;
        int ret = 0;

        expr = strip_expr(expr);
        var = expr_to_var_sym(expr, &sym);
        if (!var || !sym)
                goto free;
        ret = parent_is_null_var_sym(var, sym);
free:
        free_string(var);
        return ret;
}

static void struct_member_callback(struct expression *call, int param, char *printed_name, struct smatch_state *state)
{
        if (estate_is_whole(state))
                return;
        sql_insert_caller_info(call, PARAM_VALUE, param, printed_name, state->name);
        if (estate_has_fuzzy_max(state))
                sql_insert_caller_info(call, FUZZY_MAX, param, printed_name,
                                       sval_to_str(estate_get_fuzzy_max(state)));
}

static void db_limited_before(void)
{
        unmatched_stree = clone_stree(__get_cur_stree());
}

static void db_limited_after(void)
{
        free_stree(&unmatched_stree);
}

static void db_param_limit_filter(struct expression *expr, int param, char *key, char *value, int mod)
{
        struct expression *arg;
        char *name;
        struct symbol *sym;
        struct sm_state *sm;
        struct symbol *compare_type, *var_type;
        struct range_list *rl;
        struct range_list *limit;
        struct range_list *new;

        while (expr->type == EXPR_ASSIGNMENT)
                expr = strip_expr(expr->right);
        if (expr->type != EXPR_CALL)
                return;

        arg = get_argument_from_call_expr(expr->args, param);
        if (!arg)
                return;

        name = get_variable_from_key(arg, key, &sym);
        if (!name || !sym)
                goto free;

        if (strcmp(key, "$") == 0)
                compare_type = get_arg_type(expr->fn, param);
        else
                compare_type = get_member_type_from_key(arg, key);

        sm = get_sm_state(SMATCH_EXTRA, name, sym);
        if (sm)
                rl = estate_rl(sm->state);
        else
                rl = alloc_whole_rl(compare_type);

        call_results_to_rl(expr, compare_type, value, &limit);
        new = rl_intersection(rl, limit);

        var_type = get_member_type_from_key(arg, key);
        new = cast_rl(var_type, new);

        /* We want to preserve the implications here */
        if (sm && rl_equiv(estate_rl(sm->state), new)) {
                __set_sm(sm);
        } else {
                if (mod)
                        set_extra_mod(name, sym, alloc_estate_rl(new));
                else
                        set_extra_nomod(name, sym, alloc_estate_rl(new));
        }

free:
        free_string(name);
}

static void db_param_limit(struct expression *expr, int param, char *key, char *value)
{
        db_param_limit_filter(expr, param, key, value, 0);
}

static void db_param_filter(struct expression *expr, int param, char *key, char *value)
{
        db_param_limit_filter(expr, param, key, value, 1);
}

static void db_param_add(struct expression *expr, int param, char *key, char *value)
{
        struct expression *arg;
        char *name;
        struct symbol *sym;
        struct symbol *type;
        struct smatch_state *state;
        struct range_list *added = NULL;
        struct range_list *new;

        while (expr->type == EXPR_ASSIGNMENT)
                expr = strip_expr(expr->right);
        if (expr->type != EXPR_CALL)
                return;

        arg = get_argument_from_call_expr(expr->args, param);
        if (!arg)
                return;
        name = get_variable_from_key(arg, key, &sym);
        if (!name || !sym)
                goto free;

        type = get_member_type_from_key(arg, key);
        state = get_state(SMATCH_EXTRA, name, sym);
        if (state) {
                call_results_to_rl(expr, type, value, &added);
                new = rl_union(estate_rl(state), added);
        } else {
                new = alloc_whole_rl(type);
        }

        set_extra_mod(name, sym, alloc_estate_rl(new));
free:
        free_string(name);
}

static void db_returned_member_info(struct expression *expr, int param, char *key, char *value)
{
        struct symbol *type;
        struct symbol *sym;
        char *name;
        struct range_list *rl;

        if (expr->type != EXPR_ASSIGNMENT)
                return;

        name = return_state_to_var_sym(expr, param, key, &sym);
        if (!name || !sym)
                goto free;
        type = get_member_type_from_key(expr->left, key);
        if (!type)
                return;
        call_results_to_rl(expr->right, type, value, &rl);
        set_extra_mod(name, sym, alloc_estate_rl(rl));

free:
        free_string(name);
}

static char *in_terms_of_param_math(struct expression *expr, char *printed_name)
{
        struct symbol *sym;
        char *var;
        char buf[256];
        char *ret = NULL;

        var = expr_to_var_sym(expr, &sym);
        if (!var || !sym)
                goto free;
        snprintf(buf, sizeof(buf), "%s%s", var, printed_name + 2);

        ret = get_value_in_terms_of_parameter_math_var_sym(buf, sym);

free:
        free_string(var);
        return ret;
}

static void returned_member_callback(int return_id, char *return_ranges, struct expression *expr, char *printed_name, struct smatch_state *state)
{
        char buf[256];
        char *math_str;
        sval_t sval;

        /* these are handled in smatch_param_filter/set/limit.c */
        if (printed_name[0] != '*' &&
            !strchr(printed_name, '.') && !strchr(printed_name, '-'))
                return;

        if (estate_get_single_value(state, &sval)) {
                sql_insert_return_states(return_id, return_ranges, RETURN_VALUE, -1,
                                printed_name, sval_to_str(sval));
                return;
        }

        math_str = in_terms_of_param_math(expr, printed_name);
        if (math_str) {
                snprintf(buf, sizeof(buf), "%s[%s]", state->name, math_str);
                sql_insert_return_states(return_id, return_ranges, RETURN_VALUE, -1,
                                printed_name, buf);
                return;
        }

        if (estate_is_whole(state))
                return;

        sql_insert_return_states(return_id, return_ranges, RETURN_VALUE, -1,
                        printed_name, state->name);
}

static void match_call_info(struct expression *expr)
{
        struct smatch_state *state;
        struct range_list *rl = NULL;
        struct expression *arg;
        struct symbol *type;
        int i = 0;

        FOR_EACH_PTR(expr->args, arg) {
                type = get_arg_type(expr->fn, i);

                if (get_implied_rl(arg, &rl))
                        rl = cast_rl(type, rl);
                else
                        rl = cast_rl(type, alloc_whole_rl(get_type(arg)));

                if (!is_whole_rl(rl))
                        sql_insert_caller_info(expr, PARAM_VALUE, i, "$", show_rl(rl));
                state = get_state_expr(SMATCH_EXTRA, arg);
                if (estate_has_fuzzy_max(state)) {
                        sql_insert_caller_info(expr, FUZZY_MAX, i, "$",
                                               sval_to_str(estate_get_fuzzy_max(state)));
                }
                i++;
        } END_FOR_EACH_PTR(arg);
}

static void set_param_value(const char *name, struct symbol *sym, char *key, char *value)
{
        struct range_list *rl = NULL;
        struct smatch_state *state;
        struct symbol *type;
        char fullname[256];

        if (strcmp(key, "*$") == 0)
                snprintf(fullname, sizeof(fullname), "*%s", name);
        else if (strncmp(key, "$", 1) == 0)
                snprintf(fullname, 256, "%s%s", name, key + 1);
        else
                return;

        type = get_member_type_from_key(symbol_expression(sym), key);
        str_to_rl(type, value, &rl);
        state = alloc_estate_rl(rl);
        set_state(SMATCH_EXTRA, fullname, sym, state);
}

static void set_param_hard_max(const char *name, struct symbol *sym, char *key, char *value)
{
        struct range_list *rl = NULL;
        struct smatch_state *state;
        struct symbol *type;
        char fullname[256];
        sval_t max;

        if (strcmp(key, "*$") == 0)
                snprintf(fullname, sizeof(fullname), "*%s", name);
        else if (strncmp(key, "$", 1) == 0)
                snprintf(fullname, 256, "%s%s", name, key + 1);
        else
                return;

        state = get_state(SMATCH_EXTRA, fullname, sym);
        if (!state)
                return;
        type = get_member_type_from_key(symbol_expression(sym), key);
        str_to_rl(type, value, &rl);
        if (!rl_to_sval(rl, &max))
                return;
        estate_set_fuzzy_max(state, max);
}

void register_smatch_extra(int id)
{
        my_id = id;

        add_merge_hook(my_id, &merge_estates);
        add_unmatched_state_hook(my_id, &unmatched_state);
        add_hook(&match_function_def, FUNC_DEF_HOOK);
        add_hook(&match_declarations, DECLARATION_HOOK);
        select_caller_info_hook(set_param_value, PARAM_VALUE);
        select_caller_info_hook(set_param_hard_max, FUZZY_MAX);
        select_return_states_hook(RETURN_VALUE, &db_returned_member_info);
        select_return_states_before(&db_limited_before);
        select_return_states_hook(LIMITED_VALUE, &db_param_limit);
        select_return_states_hook(FILTER_VALUE, &db_param_filter);
        select_return_states_hook(ADDED_VALUE, &db_param_add);
        select_return_states_after(&db_limited_after);
}

void register_smatch_extra_late(int id)
{
        add_hook(&match_dereferences, DEREF_HOOK);
        add_hook(&match_pointer_as_array, OP_HOOK);
        select_call_implies_hook(DEREFERENCE, &set_param_dereferenced);
        add_hook(&match_function_call, FUNCTION_CALL_HOOK);
        add_hook(&match_assign, ASSIGNMENT_HOOK);
        add_hook(&match_assign, GLOBAL_ASSIGNMENT_HOOK);
        add_hook(&unop_expr, OP_HOOK);
        add_hook(&asm_expr, ASM_HOOK);

        add_hook(&match_call_info, FUNCTION_CALL_HOOK);
        add_member_info_callback(my_id, struct_member_callback);
        add_returned_member_callback(my_id, returned_member_callback);

        add_hook(&assume_indexes_are_valid, OP_HOOK);
}