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nest-open-source / nest-cam / 4320010 / selinux / 84611b88a457ada0e571c2222a747ffa5b71164a / . / selinux / libsepol / cil / src / cil_resolve_ast.c
blob: 70e4462b1fdcdef2c71238ec66649c1bf3cce831 [file] [log] [blame]
/*
* Copyright 2011 Tresys Technology, LLC. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY TRESYS TECHNOLOGY, LLC ``AS IS'' AND ANY EXPRESS
* OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
* EVENT SHALL TRESYS TECHNOLOGY, LLC OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation are those
* of the authors and should not be interpreted as representing official policies,
* either expressed or implied, of Tresys Technology, LLC.
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <sepol/policydb/conditional.h>
#include "cil_internal.h"
#include "cil_flavor.h"
#include "cil_log.h"
#include "cil_mem.h"
#include "cil_tree.h"
#include "cil_list.h"
#include "cil_build_ast.h"
#include "cil_resolve_ast.h"
#include "cil_reset_ast.h"
#include "cil_copy_ast.h"
#include "cil_verify.h"
#include "cil_strpool.h"
#include "cil_symtab.h"
struct cil_args_resolve {
struct cil_db *db;
enum cil_pass pass;
uint32_t *changed;
char *last_resolved_name;
struct cil_tree_node *optstack;
struct cil_tree_node *boolif;
struct cil_tree_node *macro;
struct cil_tree_node *blockstack;
struct cil_list *sidorder_lists;
struct cil_list *classorder_lists;
struct cil_list *unordered_classorder_lists;
struct cil_list *catorder_lists;
struct cil_list *sensitivityorder_lists;
struct cil_list *in_list;
};
static struct cil_name * __cil_insert_name(struct cil_db *db, hashtab_key_t key, struct cil_tree_node *ast_node)
{
/* Currently only used for typetransition file names.
But could be used for any string that is passed as a parameter.
*/
struct cil_tree_node *parent = ast_node->parent;
struct cil_macro *macro = NULL;
struct cil_name *name;
symtab_t *symtab;
enum cil_sym_index sym_index;
struct cil_symtab_datum *datum = NULL;
cil_flavor_to_symtab_index(CIL_NAME, &sym_index);
symtab = &((struct cil_root *)db->ast->root->data)->symtab[sym_index];
cil_symtab_get_datum(symtab, key, &datum);
if (datum != NULL) {
return (struct cil_name *)datum;
}
if (parent->flavor == CIL_CALL) {
struct cil_call *call = parent->data;
macro = call->macro;
} else if (parent->flavor == CIL_MACRO) {
macro = parent->data;
}
if (macro != NULL) {
struct cil_list_item *item;
cil_list_for_each(item, macro->params) {
if (((struct cil_param*)item->data)->str == key) {
return NULL;
}
}
}
cil_name_init(&name);
cil_symtab_insert(symtab, key, (struct cil_symtab_datum *)name, ast_node);
cil_list_append(db->names, CIL_NAME, name);
return name;
}
static int __cil_resolve_perms(symtab_t *class_symtab, symtab_t *common_symtab, struct cil_list *perm_strs, struct cil_list **perm_datums)
{
int rc = SEPOL_ERR;
struct cil_list_item *curr;
cil_list_init(perm_datums, perm_strs->flavor);
cil_list_for_each(curr, perm_strs) {
if (curr->flavor == CIL_LIST) {
struct cil_list *sub_list;
rc = __cil_resolve_perms(class_symtab, common_symtab, curr->data, &sub_list);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to resolve permission list\n");
goto exit;
}
cil_list_append(*perm_datums, CIL_LIST, sub_list);
} else if (curr->flavor == CIL_STRING) {
struct cil_symtab_datum *perm_datum = NULL;
rc = cil_symtab_get_datum(class_symtab, curr->data, &perm_datum);
if (rc == SEPOL_ENOENT) {
if (common_symtab) {
rc = cil_symtab_get_datum(common_symtab, curr->data, &perm_datum);
}
}
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to resolve permission %s\n", (char*)curr->data);
goto exit;
}
cil_list_append(*perm_datums, CIL_DATUM, perm_datum);
} else {
cil_list_append(*perm_datums, curr->flavor, curr->data);
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_classperms(struct cil_tree_node *current, struct cil_classperms *cp, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_symtab_datum *datum = NULL;
symtab_t *common_symtab = NULL;
struct cil_class *class;
rc = cil_resolve_name(current, cp->class_str, CIL_SYM_CLASSES, extra_args, &datum);
if (rc != SEPOL_OK) {
goto exit;
}
class = (struct cil_class *)datum;
if (class->common != NULL) {
common_symtab = &class->common->perms;
}
cp->class = class;
rc = __cil_resolve_perms(&class->perms, common_symtab, cp->perm_strs, &cp->perms);
if (rc != SEPOL_OK) {
goto exit;
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_classperms_set(struct cil_tree_node *current, struct cil_classperms_set *cp_set, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_symtab_datum *datum = NULL;
rc = cil_resolve_name(current, cp_set->set_str, CIL_SYM_CLASSPERMSETS, extra_args, &datum);
if (rc != SEPOL_OK) {
goto exit;
}
cp_set->set = (struct cil_classpermission*)datum;
/* This could be an anonymous classpermission */
if (datum->name == NULL) {
rc = cil_resolve_classperms_list(current, cp_set->set->classperms, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_classperms_list(struct cil_tree_node *current, struct cil_list *cp_list, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_list_item *curr;
cil_list_for_each(curr, cp_list) {
if (curr->flavor == CIL_CLASSPERMS) {
rc = cil_resolve_classperms(current, curr->data, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
} else {
rc = cil_resolve_classperms_set(current, curr->data, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_classpermissionset(struct cil_tree_node *current, struct cil_classpermissionset *cps, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_args_resolve *args = extra_args;
struct cil_list_item *curr;
struct cil_symtab_datum *datum;
struct cil_classpermission *cp;
rc = cil_resolve_name(current, cps->set_str, CIL_SYM_CLASSPERMSETS, args, &datum);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_resolve_classperms_list(current, cps->classperms, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
cp = (struct cil_classpermission *)datum;
if (cp->classperms == NULL) {
cil_list_init(&cp->classperms, CIL_CLASSPERMS);
}
cil_list_for_each(curr, cps->classperms) {
cil_list_append(cp->classperms, curr->flavor, curr->data);
}
return SEPOL_OK;
exit:
return rc;
}
int cil_type_used(struct cil_symtab_datum *datum)
{
struct cil_typeattribute *attr = NULL;
if (FLAVOR(datum) == CIL_TYPEATTRIBUTE) {
attr = (struct cil_typeattribute*)datum;
attr->used = CIL_TRUE;
}
return 0;
}
int cil_resolve_permissionx(struct cil_tree_node *current, struct cil_permissionx *permx, void *extra_args)
{
struct cil_symtab_datum *obj_datum = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, permx->obj_str, CIL_SYM_CLASSES, extra_args, &obj_datum);
if (rc != SEPOL_OK) {
goto exit;
}
permx->obj = (struct cil_class*)obj_datum;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_avrule(struct cil_tree_node *current, void *extra_args)
{
struct cil_args_resolve *args = extra_args;
struct cil_db *db = NULL;
struct cil_avrule *rule = current->data;
struct cil_symtab_datum *src_datum = NULL;
struct cil_symtab_datum *tgt_datum = NULL;
struct cil_symtab_datum *permx_datum = NULL;
int rc = SEPOL_ERR;
if (args != NULL) {
db = args->db;
}
rc = cil_resolve_name(current, rule->src_str, CIL_SYM_TYPES, args, &src_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rule->src = src_datum;
if (rule->rule_kind != CIL_AVRULE_NEVERALLOW) {
cil_type_used(src_datum);
}
if (rule->tgt_str == CIL_KEY_SELF) {
rule->tgt = db->selftype;
} else {
rc = cil_resolve_name(current, rule->tgt_str, CIL_SYM_TYPES, args, &tgt_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rule->tgt = tgt_datum;
if (rule->rule_kind != CIL_AVRULE_NEVERALLOW) {
cil_type_used(tgt_datum);
}
}
if (!rule->is_extended) {
rc = cil_resolve_classperms_list(current, rule->perms.classperms, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
} else {
if (rule->perms.x.permx_str != NULL) {
rc = cil_resolve_name(current, rule->perms.x.permx_str, CIL_SYM_PERMX, args, &permx_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rule->perms.x.permx = (struct cil_permissionx*)permx_datum;
} else {
rc = cil_resolve_permissionx(current, rule->perms.x.permx, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_type_rule(struct cil_tree_node *current, void *extra_args)
{
struct cil_type_rule *rule = current->data;
struct cil_symtab_datum *src_datum = NULL;
struct cil_symtab_datum *tgt_datum = NULL;
struct cil_symtab_datum *obj_datum = NULL;
struct cil_symtab_datum *result_datum = NULL;
struct cil_tree_node *result_node = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, rule->src_str, CIL_SYM_TYPES, extra_args, &src_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rule->src = src_datum;
cil_type_used(src_datum);
rc = cil_resolve_name(current, rule->tgt_str, CIL_SYM_TYPES, extra_args, &tgt_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rule->tgt = tgt_datum;
cil_type_used(tgt_datum);
rc = cil_resolve_name(current, rule->obj_str, CIL_SYM_CLASSES, extra_args, &obj_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rule->obj = (struct cil_class*)obj_datum;
rc = cil_resolve_name(current, rule->result_str, CIL_SYM_TYPES, extra_args, &result_datum);
if (rc != SEPOL_OK) {
goto exit;
}
result_node = result_datum->nodes->head->data;
if (result_node->flavor != CIL_TYPE) {
cil_log(CIL_ERR, "Type rule result must be a type [%d]\n",result_node->flavor);
rc = SEPOL_ERR;
goto exit;
}
rule->result = result_datum;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_typeattributeset(struct cil_tree_node *current, void *extra_args)
{
struct cil_typeattributeset *attrtypes = current->data;
struct cil_symtab_datum *attr_datum = NULL;
struct cil_tree_node *attr_node = NULL;
struct cil_typeattribute *attr = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, attrtypes->attr_str, CIL_SYM_TYPES, extra_args, &attr_datum);
if (rc != SEPOL_OK) {
goto exit;
}
attr_node = attr_datum->nodes->head->data;
if (attr_node->flavor != CIL_TYPEATTRIBUTE) {
rc = SEPOL_ERR;
cil_log(CIL_ERR, "Attribute type not an attribute\n");
goto exit;
}
attr = (struct cil_typeattribute*)attr_datum;
rc = cil_resolve_expr(CIL_TYPEATTRIBUTESET, attrtypes->str_expr, &attrtypes->datum_expr, current, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_verify_no_self_reference(attr_datum, attrtypes->datum_expr);
if (rc != SEPOL_OK) {
goto exit;
}
if (attr->expr_list == NULL) {
cil_list_init(&attr->expr_list, CIL_TYPEATTRIBUTE);
}
cil_list_append(attr->expr_list, CIL_LIST, attrtypes->datum_expr);
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_aliasactual(struct cil_tree_node *current, void *extra_args, enum cil_flavor flavor)
{
int rc = SEPOL_ERR;
enum cil_sym_index sym_index;
struct cil_aliasactual *aliasactual = current->data;
struct cil_symtab_datum *alias_datum = NULL;
struct cil_symtab_datum *actual_datum = NULL;
struct cil_alias *alias;
rc = cil_flavor_to_symtab_index(flavor, &sym_index);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_resolve_name(current, aliasactual->alias_str, sym_index, extra_args, &alias_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_resolve_name(current, aliasactual->actual_str, sym_index, extra_args, &actual_datum);
if (rc != SEPOL_OK) {
goto exit;
}
alias = (struct cil_alias *)alias_datum;
if (alias->actual != NULL) {
cil_log(CIL_ERR, "Alias cannot bind more than one value\n");
rc = SEPOL_ERR;
goto exit;
}
alias->actual = actual_datum;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_alias_to_actual(struct cil_tree_node *current, enum cil_flavor flavor)
{
struct cil_alias *alias = current->data;
struct cil_alias *a1 = current->data;
struct cil_alias *a2 = current->data;
struct cil_tree_node *a1_node = NULL;
int steps = 0;
int limit = 2;
if (alias->actual == NULL) {
cil_tree_log(current, CIL_ERR, "Alias declared but not used");
return SEPOL_ERR;
}
a1_node = a1->datum.nodes->head->data;
while (flavor != a1_node->flavor) {
a1 = a1->actual;
a1_node = a1->datum.nodes->head->data;
steps += 1;
if (a1 == a2) {
cil_log(CIL_ERR, "Circular alias found: %s ", a1->datum.name);
a1 = a1->actual;
while (a1 != a2) {
cil_log(CIL_ERR, "%s ", a1->datum.name);
a1 = a1->actual;
}
cil_log(CIL_ERR,"\n");
return SEPOL_ERR;
}
if (steps == limit) {
steps = 0;
limit *= 2;
a2 = a1;
}
}
alias->actual = a1;
return SEPOL_OK;
}
int cil_resolve_typepermissive(struct cil_tree_node *current, void *extra_args)
{
struct cil_typepermissive *typeperm = current->data;
struct cil_symtab_datum *type_datum = NULL;
struct cil_tree_node *type_node = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, typeperm->type_str, CIL_SYM_TYPES, extra_args, &type_datum);
if (rc != SEPOL_OK) {
goto exit;
}
type_node = type_datum->nodes->head->data;
if (type_node->flavor != CIL_TYPE && type_node->flavor != CIL_TYPEALIAS) {
cil_log(CIL_ERR, "Typepermissive must be a type or type alias\n");
rc = SEPOL_ERR;
goto exit;
}
typeperm->type = type_datum;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_nametypetransition(struct cil_tree_node *current, void *extra_args)
{
struct cil_args_resolve *args = extra_args;
struct cil_nametypetransition *nametypetrans = current->data;
struct cil_symtab_datum *src_datum = NULL;
struct cil_symtab_datum *tgt_datum = NULL;
struct cil_symtab_datum *obj_datum = NULL;
struct cil_symtab_datum *name_datum = NULL;
struct cil_symtab_datum *result_datum = NULL;
struct cil_tree_node *result_node = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, nametypetrans->src_str, CIL_SYM_TYPES, extra_args, &src_datum);
if (rc != SEPOL_OK) {
goto exit;
}
nametypetrans->src = src_datum;
cil_type_used(src_datum);
rc = cil_resolve_name(current, nametypetrans->tgt_str, CIL_SYM_TYPES, extra_args, &tgt_datum);
if (rc != SEPOL_OK) {
goto exit;
}
nametypetrans->tgt = tgt_datum;
cil_type_used(tgt_datum);
rc = cil_resolve_name(current, nametypetrans->obj_str, CIL_SYM_CLASSES, extra_args, &obj_datum);
if (rc != SEPOL_OK) {
goto exit;
}
nametypetrans->obj = (struct cil_class*)obj_datum;
nametypetrans->name = __cil_insert_name(args->db, nametypetrans->name_str, current);
if (nametypetrans->name == NULL) {
rc = cil_resolve_name(current, nametypetrans->name_str, CIL_SYM_NAMES, extra_args, &name_datum);
if (rc != SEPOL_OK) {
goto exit;
}
nametypetrans->name = (struct cil_name *)name_datum;
}
rc = cil_resolve_name(current, nametypetrans->result_str, CIL_SYM_TYPES, extra_args, &result_datum);
if (rc != SEPOL_OK) {
goto exit;
}
result_node = result_datum->nodes->head->data;
if (result_node->flavor != CIL_TYPE && result_node->flavor != CIL_TYPEALIAS) {
cil_log(CIL_ERR, "typetransition result is not a type or type alias\n");
rc = SEPOL_ERR;
goto exit;
}
nametypetrans->result = result_datum;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_rangetransition(struct cil_tree_node *current, void *extra_args)
{
struct cil_rangetransition *rangetrans = current->data;
struct cil_symtab_datum *src_datum = NULL;
struct cil_symtab_datum *exec_datum = NULL;
struct cil_symtab_datum *obj_datum = NULL;
struct cil_symtab_datum *range_datum = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, rangetrans->src_str, CIL_SYM_TYPES, extra_args, &src_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rangetrans->src = src_datum;
cil_type_used(src_datum);
rc = cil_resolve_name(current, rangetrans->exec_str, CIL_SYM_TYPES, extra_args, &exec_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rangetrans->exec = exec_datum;
cil_type_used(exec_datum);
rc = cil_resolve_name(current, rangetrans->obj_str, CIL_SYM_CLASSES, extra_args, &obj_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rangetrans->obj = (struct cil_class*)obj_datum;
if (rangetrans->range_str != NULL) {
rc = cil_resolve_name(current, rangetrans->range_str, CIL_SYM_LEVELRANGES, extra_args, &range_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rangetrans->range = (struct cil_levelrange*)range_datum;
/* This could still be an anonymous levelrange even if range_str is set, if range_str is a param_str*/
if (rangetrans->range->datum.name == NULL) {
rc = cil_resolve_levelrange(current, rangetrans->range, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
} else {
rc = cil_resolve_levelrange(current, rangetrans->range, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int __class_update_perm_values(__attribute__((unused)) hashtab_key_t k, hashtab_datum_t d, void *args)
{
struct cil_perm *perm = (struct cil_perm *)d;
perm->value += *((int *)args);
return SEPOL_OK;
}
int cil_resolve_classcommon(struct cil_tree_node *current, void *extra_args)
{
struct cil_class *class = NULL;
struct cil_class *common = NULL;
struct cil_classcommon *clscom = current->data;
struct cil_symtab_datum *class_datum = NULL;
struct cil_symtab_datum *common_datum = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, clscom->class_str, CIL_SYM_CLASSES, extra_args, &class_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_resolve_name(current, clscom->common_str, CIL_SYM_COMMONS, extra_args, &common_datum);
if (rc != SEPOL_OK) {
goto exit;
}
class = (struct cil_class *)class_datum;
common = (struct cil_class *)common_datum;
if (class->common != NULL) {
cil_log(CIL_ERR, "class cannot be associeated with more than one common\n");
rc = SEPOL_ERR;
goto exit;
}
class->common = common;
cil_symtab_map(&class->perms, __class_update_perm_values, &common->num_perms);
class->num_perms += common->num_perms;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_classmapping(struct cil_tree_node *current, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_classmapping *mapping = current->data;
struct cil_class *map = NULL;
struct cil_perm *mp = NULL;
struct cil_symtab_datum *datum = NULL;
struct cil_list_item *curr;
rc = cil_resolve_name(current, mapping->map_class_str, CIL_SYM_CLASSES, extra_args, &datum);
if (rc != SEPOL_OK) {
goto exit;
}
map = (struct cil_class*)datum;
rc = cil_symtab_get_datum(&map->perms, mapping->map_perm_str, &datum);
if (rc != SEPOL_OK) {
goto exit;
}
mp = (struct cil_perm*)datum;
rc = cil_resolve_classperms_list(current, mapping->classperms, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
if (mp->classperms == NULL) {
cil_list_init(&mp->classperms, CIL_CLASSPERMS);
}
cil_list_for_each(curr, mapping->classperms) {
cil_list_append(mp->classperms, curr->flavor, curr->data);
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_userrole(struct cil_tree_node *current, void *extra_args)
{
struct cil_userrole *userrole = current->data;
struct cil_symtab_datum *user_datum = NULL;
struct cil_symtab_datum *role_datum = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, userrole->user_str, CIL_SYM_USERS, extra_args, &user_datum);
if (rc != SEPOL_OK) {
goto exit;
}
userrole->user = (struct cil_user*)user_datum;
rc = cil_resolve_name(current, userrole->role_str, CIL_SYM_ROLES, extra_args, &role_datum);
if (rc != SEPOL_OK) {
goto exit;
}
userrole->role = role_datum;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_userlevel(struct cil_tree_node *current, void *extra_args)
{
struct cil_userlevel *usrlvl = current->data;
struct cil_symtab_datum *user_datum = NULL;
struct cil_symtab_datum *lvl_datum = NULL;
struct cil_user *user = NULL;
struct cil_tree_node *user_node = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, usrlvl->user_str, CIL_SYM_USERS, extra_args, &user_datum);
if (rc != SEPOL_OK) {
goto exit;
}
user_node = user_datum->nodes->head->data;
if (user_node->flavor != CIL_USER) {
cil_log(CIL_ERR, "Userlevel must be a user\n");
rc = SEPOL_ERR;
goto exit;
}
user = (struct cil_user*)user_datum;
if (usrlvl->level_str != NULL) {
rc = cil_resolve_name(current, usrlvl->level_str, CIL_SYM_LEVELS, extra_args, &lvl_datum);
if (rc != SEPOL_OK) {
goto exit;
}
usrlvl->level = (struct cil_level*)lvl_datum;
user->dftlevel = usrlvl->level;
/* This could still be an anonymous level even if level_str is set, if level_str is a param_str*/
if (user->dftlevel->datum.name == NULL) {
rc = cil_resolve_level(current, user->dftlevel, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
} else if (usrlvl->level != NULL) {
rc = cil_resolve_level(current, usrlvl->level, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
user->dftlevel = usrlvl->level;
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_userrange(struct cil_tree_node *current, void *extra_args)
{
struct cil_userrange *userrange = current->data;
struct cil_symtab_datum *user_datum = NULL;
struct cil_symtab_datum *range_datum = NULL;
struct cil_user *user = NULL;
struct cil_tree_node *user_node = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, userrange->user_str, CIL_SYM_USERS, extra_args, &user_datum);
if (rc != SEPOL_OK) {
goto exit;
}
user_node = user_datum->nodes->head->data;
if (user_node->flavor != CIL_USER) {
cil_log(CIL_ERR, "Userrange must be a user: %s\n", user_datum->fqn);
rc = SEPOL_ERR;
goto exit;
}
user = (struct cil_user*)user_datum;
if (userrange->range_str != NULL) {
rc = cil_resolve_name(current, userrange->range_str, CIL_SYM_LEVELRANGES, extra_args, &range_datum);
if (rc != SEPOL_OK) {
goto exit;
}
userrange->range = (struct cil_levelrange*)range_datum;
user->range = userrange->range;
/* This could still be an anonymous levelrange even if levelrange_str is set, if levelrange_str is a param_str*/
if (user->range->datum.name == NULL) {
rc = cil_resolve_levelrange(current, user->range, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
} else if (userrange->range != NULL) {
rc = cil_resolve_levelrange(current, userrange->range, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
user->range = userrange->range;
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_userprefix(struct cil_tree_node *current, void *extra_args)
{
struct cil_userprefix *userprefix = current->data;
struct cil_symtab_datum *user_datum = NULL;
struct cil_tree_node *user_node = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, userprefix->user_str, CIL_SYM_USERS, extra_args, &user_datum);
if (rc != SEPOL_OK) {
goto exit;
}
user_node = user_datum->nodes->head->data;
if (user_node->flavor != CIL_USER) {
cil_log(CIL_ERR, "Userprefix must be a user: %s\n", user_datum->fqn);
rc = SEPOL_ERR;
goto exit;
}
userprefix->user = (struct cil_user*)user_datum;
exit:
return rc;
}
int cil_resolve_selinuxuser(struct cil_tree_node *current, void *extra_args)
{
struct cil_selinuxuser *selinuxuser = current->data;
struct cil_symtab_datum *user_datum = NULL;
struct cil_symtab_datum *lvlrange_datum = NULL;
struct cil_tree_node *user_node = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, selinuxuser->user_str, CIL_SYM_USERS, extra_args, &user_datum);
if (rc != SEPOL_OK) {
goto exit;
}
user_node = user_datum->nodes->head->data;
if (user_node->flavor != CIL_USER) {
cil_log(CIL_ERR, "Selinuxuser must be a user: %s\n", user_datum->fqn);
rc = SEPOL_ERR;
goto exit;
}
selinuxuser->user = (struct cil_user*)user_datum;
if (selinuxuser->range_str != NULL) {
rc = cil_resolve_name(current, selinuxuser->range_str, CIL_SYM_LEVELRANGES, extra_args, &lvlrange_datum);
if (rc != SEPOL_OK) {
goto exit;
}
selinuxuser->range = (struct cil_levelrange*)lvlrange_datum;
/* This could still be an anonymous levelrange even if range_str is set, if range_str is a param_str*/
if (selinuxuser->range->datum.name == NULL) {
rc = cil_resolve_levelrange(current, selinuxuser->range, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
} else if (selinuxuser->range != NULL) {
rc = cil_resolve_levelrange(current, selinuxuser->range, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
rc = SEPOL_OK;
exit:
return rc;
}
int cil_resolve_roletype(struct cil_tree_node *current, void *extra_args)
{
struct cil_roletype *roletype = current->data;
struct cil_symtab_datum *role_datum = NULL;
struct cil_symtab_datum *type_datum = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, roletype->role_str, CIL_SYM_ROLES, extra_args, &role_datum);
if (rc != SEPOL_OK) {
goto exit;
}
roletype->role = (struct cil_role*)role_datum;
rc = cil_resolve_name(current, roletype->type_str, CIL_SYM_TYPES, extra_args, &type_datum);
if (rc != SEPOL_OK) {
goto exit;
}
roletype->type = (struct cil_type*)type_datum;
cil_type_used(type_datum);
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_roletransition(struct cil_tree_node *current, void *extra_args)
{
struct cil_roletransition *roletrans = current->data;
struct cil_symtab_datum *src_datum = NULL;
struct cil_symtab_datum *tgt_datum = NULL;
struct cil_symtab_datum *obj_datum = NULL;
struct cil_symtab_datum *result_datum = NULL;
struct cil_tree_node *node = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, roletrans->src_str, CIL_SYM_ROLES, extra_args, &src_datum);
if (rc != SEPOL_OK) {
goto exit;
}
roletrans->src = (struct cil_role*)src_datum;
rc = cil_resolve_name(current, roletrans->tgt_str, CIL_SYM_TYPES, extra_args, &tgt_datum);
if (rc != SEPOL_OK) {
goto exit;
}
roletrans->tgt = tgt_datum;
cil_type_used(tgt_datum);
rc = cil_resolve_name(current, roletrans->obj_str, CIL_SYM_CLASSES, extra_args, &obj_datum);
if (rc != SEPOL_OK) {
goto exit;
}
roletrans->obj = (struct cil_class*)obj_datum;
rc = cil_resolve_name(current, roletrans->result_str, CIL_SYM_ROLES, extra_args, &result_datum);
if (rc != SEPOL_OK) {
goto exit;
}
node = result_datum->nodes->head->data;
if (node->flavor != CIL_ROLE) {
rc = SEPOL_ERR;
printf("%i\n", node->flavor);
cil_log(CIL_ERR, "roletransition must result in a role, but %s is a %s\n", roletrans->result_str, cil_node_to_string(node));
goto exit;
}
roletrans->result = (struct cil_role*)result_datum;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_roleallow(struct cil_tree_node *current, void *extra_args)
{
struct cil_roleallow *roleallow = current->data;
struct cil_symtab_datum *src_datum = NULL;
struct cil_symtab_datum *tgt_datum = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, roleallow->src_str, CIL_SYM_ROLES, extra_args, &src_datum);
if (rc != SEPOL_OK) {
goto exit;
}
roleallow->src = (struct cil_role*)src_datum;
rc = cil_resolve_name(current, roleallow->tgt_str, CIL_SYM_ROLES, extra_args, &tgt_datum);
if (rc != SEPOL_OK) {
goto exit;
}
roleallow->tgt = (struct cil_role*)tgt_datum;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_roleattributeset(struct cil_tree_node *current, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_roleattributeset *attrroles = current->data;
struct cil_symtab_datum *attr_datum = NULL;
struct cil_tree_node *attr_node = NULL;
struct cil_roleattribute *attr = NULL;
rc = cil_resolve_name(current, attrroles->attr_str, CIL_SYM_ROLES, extra_args, &attr_datum);
if (rc != SEPOL_OK) {
goto exit;
}
attr_node = attr_datum->nodes->head->data;
if (attr_node->flavor != CIL_ROLEATTRIBUTE) {
rc = SEPOL_ERR;
cil_log(CIL_ERR, "Attribute role not an attribute\n");
goto exit;
}
attr = (struct cil_roleattribute*)attr_datum;
rc = cil_resolve_expr(CIL_ROLEATTRIBUTESET, attrroles->str_expr, &attrroles->datum_expr, current, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_verify_no_self_reference(attr_datum, attrroles->datum_expr);
if (rc != SEPOL_OK) {
goto exit;
}
if (attr->expr_list == NULL) {
cil_list_init(&attr->expr_list, CIL_ROLEATTRIBUTE);
}
cil_list_append(attr->expr_list, CIL_LIST, attrroles->datum_expr);
return SEPOL_OK;
exit:
return rc;
}
struct cil_ordered_list {
int merged;
struct cil_list *list;
struct cil_tree_node *node;
};
void __cil_ordered_list_init(struct cil_ordered_list **ordered)
{
*ordered = cil_malloc(sizeof(**ordered));
(*ordered)->merged = CIL_FALSE;
(*ordered)->list = NULL;
(*ordered)->node = NULL;
}
void __cil_ordered_list_destroy(struct cil_ordered_list **ordered)
{
cil_list_destroy(&(*ordered)->list, CIL_FALSE);
(*ordered)->node = NULL;
free(*ordered);
*ordered = NULL;
}
void __cil_ordered_lists_destroy(struct cil_list **ordered_lists)
{
struct cil_list_item *item = NULL;
if (ordered_lists == NULL || *ordered_lists == NULL) {
return;
}
item = (*ordered_lists)->head;
while (item != NULL) {
struct cil_list_item *next = item->next;
struct cil_ordered_list *ordered = item->data;
__cil_ordered_list_destroy(&ordered);
free(item);
item = next;
}
free(*ordered_lists);
*ordered_lists = NULL;
}
void __cil_ordered_lists_reset(struct cil_list **ordered_lists)
{
__cil_ordered_lists_destroy(ordered_lists);
cil_list_init(ordered_lists, CIL_LIST_ITEM);
}
struct cil_list_item *__cil_ordered_item_insert(struct cil_list *old, struct cil_list_item *curr, struct cil_list_item *item)
{
if (item->flavor == CIL_SID) {
struct cil_sid *sid = item->data;
if (sid->ordered == CIL_TRUE) {
cil_log(CIL_ERR, "SID %s has already been merged into the ordered list\n", sid->datum.name);
return NULL;
}
sid->ordered = CIL_TRUE;
} else if (item->flavor == CIL_CLASS) {
struct cil_class *class = item->data;
if (class->ordered == CIL_TRUE) {
cil_log(CIL_ERR, "Class %s has already been merged into the ordered list\n", class->datum.name);
return NULL;
}
class->ordered = CIL_TRUE;
} else if (item->flavor == CIL_CAT) {
struct cil_cat *cat = item->data;
if (cat->ordered == CIL_TRUE) {
cil_log(CIL_ERR, "Category %s has already been merged into the ordered list\n", cat->datum.name);
return NULL;
}
cat->ordered = CIL_TRUE;
} else if (item->flavor == CIL_SENS) {
struct cil_sens *sens = item->data;
if (sens->ordered == CIL_TRUE) {
cil_log(CIL_ERR, "Sensitivity %s has already been merged into the ordered list\n", sens->datum.name);
return NULL;
}
sens->ordered = CIL_TRUE;
}
return cil_list_insert(old, curr, item->flavor, item->data);
}
int __cil_ordered_list_insert(struct cil_list *old, struct cil_list_item *ocurr, struct cil_list_item *nstart, struct cil_list_item *nstop)
{
struct cil_list_item *ncurr = NULL;
for (ncurr = nstart; ncurr != nstop; ncurr = ncurr->next) {
ocurr = __cil_ordered_item_insert(old, ocurr, ncurr);
if (ocurr == NULL) {
return SEPOL_ERR;
}
}
return SEPOL_OK;
}
struct cil_list_item *__cil_ordered_find_match(struct cil_list_item *t, struct cil_list_item *i)
{
while (i) {
if (i->data == t->data) {
return i;
}
i = i->next;
}
return NULL;
}
int __cil_ordered_lists_merge(struct cil_list *old, struct cil_list *new)
{
struct cil_list_item *omatch = NULL;
struct cil_list_item *ofirst = old->head;
struct cil_list_item *ocurr = NULL;
struct cil_list_item *oprev = NULL;
struct cil_list_item *nmatch = NULL;
struct cil_list_item *nfirst = new->head;
struct cil_list_item *ncurr = NULL;
int rc = SEPOL_ERR;
if (nfirst == NULL) {
return SEPOL_OK;
}
if (ofirst == NULL) {
/* First list added */
rc = __cil_ordered_list_insert(old, NULL, nfirst, NULL);
return rc;
}
/* Find a match between the new list and the old one */
for (nmatch = nfirst; nmatch; nmatch = nmatch->next) {
omatch = __cil_ordered_find_match(nmatch, ofirst);
if (omatch) {
break;
}
}
if (!nmatch) {
/* List cannot be merged yet */
return SEPOL_ERR;
}
if (nmatch != nfirst && omatch != ofirst) {
/* Potential ordering conflict--try again later */
return SEPOL_ERR;
}
if (nmatch != nfirst) {
/* Prepend the beginning of the new list up to the first match to the old list */
rc = __cil_ordered_list_insert(old, NULL, nfirst, nmatch);
if (rc != SEPOL_OK) {
return rc;
}
}
/* In the overlapping protion, add items from the new list not in the old list */
ncurr = nmatch->next;
ocurr = omatch->next;
oprev = omatch;
while (ncurr && ocurr) {
if (ncurr->data == ocurr->data) {
oprev = ocurr;
ocurr = ocurr->next;
ncurr = ncurr->next;
} else {
/* Handle gap in old: old = (A C) new = (A B C) */
nmatch = __cil_ordered_find_match(ocurr, ncurr->next);
if (nmatch) {
rc = __cil_ordered_list_insert(old, oprev, ncurr, nmatch);
if (rc != SEPOL_OK) {
return rc;
}
oprev = ocurr;
ocurr = ocurr->next;
ncurr = nmatch->next;
continue;
}
/* Handle gap in new: old = (A B C) new = (A C) */
omatch = __cil_ordered_find_match(ncurr, ocurr->next);
if (omatch) {
/* Nothing to insert, just skip */
oprev = omatch;
ocurr = omatch->next;
ncurr = ncurr->next;
continue;
} else {
return SEPOL_ERR;
}
}
}
if (ncurr) {
/* Add the rest of the items from the new list */
rc = __cil_ordered_list_insert(old, old->tail, ncurr, NULL);
if (rc != SEPOL_OK) {
return rc;
}
}
return SEPOL_OK;
}
static int insert_unordered(struct cil_list *merged, struct cil_list *unordered)
{
struct cil_list_item *curr = NULL;
struct cil_ordered_list *unordered_list = NULL;
struct cil_list_item *item = NULL;
struct cil_list_item *ret = NULL;
int rc = SEPOL_ERR;
cil_list_for_each(curr, unordered) {
unordered_list = curr->data;
cil_list_for_each(item, unordered_list->list) {
if (cil_list_contains(merged, item->data)) {
/* item was declared in an ordered statement, which supercedes
* all unordered statements */
if (item->flavor == CIL_CLASS) {
cil_log(CIL_WARN, "Ignoring '%s' as it has already been declared in classorder.\n", ((struct cil_class*)(item->data))->datum.name);
}
continue;
}
ret = __cil_ordered_item_insert(merged, merged->tail, item);
if (ret == NULL) {
rc = SEPOL_ERR;
goto exit;
}
}
}
rc = SEPOL_OK;
exit:
return rc;
}
struct cil_list *__cil_ordered_lists_merge_all(struct cil_list **ordered_lists, struct cil_list **unordered_lists)
{
struct cil_list *composite = NULL;
struct cil_list_item *curr = NULL;
int changed = CIL_TRUE;
int waiting = 1;
int rc = SEPOL_ERR;
cil_list_init(&composite, CIL_LIST_ITEM);
while (waiting && changed == CIL_TRUE) {
changed = CIL_FALSE;
waiting = 0;
cil_list_for_each(curr, *ordered_lists) {
struct cil_ordered_list *ordered_list = curr->data;
if (ordered_list->merged == CIL_FALSE) {
rc = __cil_ordered_lists_merge(composite, ordered_list->list);
if (rc != SEPOL_OK) {
/* Can't merge yet */
waiting++;
} else {
ordered_list->merged = CIL_TRUE;
changed = CIL_TRUE;
}
}
}
if (waiting > 0 && changed == CIL_FALSE) {
cil_list_for_each(curr, *ordered_lists) {
struct cil_ordered_list *ordered_list = curr->data;
if (ordered_list->merged == CIL_FALSE) {
cil_tree_log(ordered_list->node, CIL_ERR, "Unable to merge ordered list");
}
}
goto exit;
}
}
if (unordered_lists != NULL) {
rc = insert_unordered(composite, *unordered_lists);
if (rc != SEPOL_OK) {
goto exit;
}
}
__cil_ordered_lists_destroy(ordered_lists);
__cil_ordered_lists_destroy(unordered_lists);
return composite;
exit:
__cil_ordered_lists_destroy(ordered_lists);
__cil_ordered_lists_destroy(unordered_lists);
cil_list_destroy(&composite, CIL_FALSE);
return NULL;
}
int cil_resolve_classorder(struct cil_tree_node *current, void *extra_args)
{
struct cil_args_resolve *args = extra_args;
struct cil_list *classorder_list = args->classorder_lists;
struct cil_list *unordered_classorder_list = args->unordered_classorder_lists;
struct cil_classorder *classorder = current->data;
struct cil_list *new = NULL;
struct cil_list_item *curr = NULL;
struct cil_symtab_datum *datum = NULL;
struct cil_ordered_list *class_list = NULL;
int rc = SEPOL_ERR;
int unordered = CIL_FALSE;
cil_list_init(&new, CIL_CLASSORDER);
cil_list_for_each(curr, classorder->class_list_str) {
if (curr->data == CIL_KEY_UNORDERED) {
unordered = CIL_TRUE;
continue;
}
rc = cil_resolve_name(current, (char *)curr->data, CIL_SYM_CLASSES, extra_args, &datum);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to resolve class %s in classorder\n", (char *)curr->data);
goto exit;
}
cil_list_append(new, CIL_CLASS, datum);
}
__cil_ordered_list_init(&class_list);
class_list->list = new;
class_list->node = current;
if (unordered) {
cil_list_append(unordered_classorder_list, CIL_CLASSORDER, class_list);
} else {
cil_list_append(classorder_list, CIL_CLASSORDER, class_list);
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_sidorder(struct cil_tree_node *current, void *extra_args)
{
struct cil_args_resolve *args = extra_args;
struct cil_list *sidorder_list = args->sidorder_lists;
struct cil_sidorder *sidorder = current->data;
struct cil_list *new = NULL;
struct cil_list_item *curr = NULL;
struct cil_symtab_datum *datum = NULL;
struct cil_ordered_list *ordered = NULL;
int rc = SEPOL_ERR;
cil_list_init(&new, CIL_SIDORDER);
cil_list_for_each(curr, sidorder->sid_list_str) {
rc = cil_resolve_name(current, (char *)curr->data, CIL_SYM_SIDS, extra_args, &datum);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to resolve sid %s in sidorder\n", (char *)curr->data);
goto exit;
}
cil_list_append(new, CIL_SID, datum);
}
__cil_ordered_list_init(&ordered);
ordered->list = new;
ordered->node = current;
cil_list_append(sidorder_list, CIL_SIDORDER, ordered);
return SEPOL_OK;
exit:
return rc;
}
void cil_set_cat_values(struct cil_list *ordered_cats, struct cil_db *db)
{
struct cil_list_item *curr;
int v = 0;
cil_list_for_each(curr, ordered_cats) {
struct cil_cat *cat = curr->data;
cat->value = v;
v++;
}
db->num_cats = v;
}
int cil_resolve_catorder(struct cil_tree_node *current, void *extra_args)
{
struct cil_args_resolve *args = extra_args;
struct cil_list *catorder_list = args->catorder_lists;
struct cil_catorder *catorder = current->data;
struct cil_list *new = NULL;
struct cil_list_item *curr = NULL;
struct cil_symtab_datum *cat_datum;
struct cil_cat *cat = NULL;
struct cil_ordered_list *ordered = NULL;
int rc = SEPOL_ERR;
cil_list_init(&new, CIL_CATORDER);
cil_list_for_each(curr, catorder->cat_list_str) {
struct cil_tree_node *node = NULL;
rc = cil_resolve_name(current, (char *)curr->data, CIL_SYM_CATS, extra_args, &cat_datum);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to resolve category %s in categoryorder\n", (char *)curr->data);
goto exit;
}
node = cat_datum->nodes->head->data;
if (node->flavor != CIL_CAT) {
cil_log(CIL_ERR, "%s is not a category. Only categories are allowed in categoryorder statements\n", cat_datum->name);
rc = SEPOL_ERR;
goto exit;
}
cat = (struct cil_cat *)cat_datum;
cil_list_append(new, CIL_CAT, cat);
}
__cil_ordered_list_init(&ordered);
ordered->list = new;
ordered->node = current;
cil_list_append(catorder_list, CIL_CATORDER, ordered);
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_sensitivityorder(struct cil_tree_node *current, void *extra_args)
{
struct cil_args_resolve *args = extra_args;
struct cil_list *sensitivityorder_list = args->sensitivityorder_lists;
struct cil_sensorder *sensorder = current->data;
struct cil_list *new = NULL;
struct cil_list_item *curr = NULL;
struct cil_symtab_datum *datum = NULL;
struct cil_ordered_list *ordered = NULL;
int rc = SEPOL_ERR;
cil_list_init(&new, CIL_LIST_ITEM);
cil_list_for_each(curr, sensorder->sens_list_str) {
rc = cil_resolve_name(current, (char *)curr->data, CIL_SYM_SENS, extra_args, &datum);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to resolve sensitivty %s in sensitivityorder\n", (char *)curr->data);
goto exit;
}
cil_list_append(new, CIL_SENS, datum);
}
__cil_ordered_list_init(&ordered);
ordered->list = new;
ordered->node = current;
cil_list_append(sensitivityorder_list, CIL_SENSITIVITYORDER, ordered);
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_cats(struct cil_tree_node *current, struct cil_cats *cats, void *extra_args)
{
int rc = SEPOL_ERR;
rc = cil_resolve_expr(CIL_CATSET, cats->str_expr, &cats->datum_expr, current, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_catset(struct cil_tree_node *current, struct cil_catset *catset, void *extra_args)
{
int rc = SEPOL_ERR;
rc = cil_resolve_cats(current, catset->cats, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_verify_no_self_reference((struct cil_symtab_datum *)catset, catset->cats->datum_expr);
if (rc != SEPOL_OK) {
cil_list_destroy(&catset->cats->datum_expr, CIL_FALSE);
goto exit;
}
exit:
return rc;
}
int cil_resolve_senscat(struct cil_tree_node *current, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_senscat *senscat = current->data;
struct cil_symtab_datum *sens_datum;
struct cil_sens *sens = NULL;
rc = cil_resolve_name(current, (char*)senscat->sens_str, CIL_SYM_SENS, extra_args, &sens_datum);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to find sensitivity\n");
goto exit;
}
rc = cil_resolve_cats(current, senscat->cats, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
sens = (struct cil_sens *)sens_datum;
if (sens->cats_list == NULL ) {
cil_list_init(&sens->cats_list, CIL_CAT);
}
cil_list_append(sens->cats_list, CIL_CAT, senscat->cats);
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_level(struct cil_tree_node *current, struct cil_level *level, void *extra_args)
{
struct cil_symtab_datum *sens_datum = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, (char*)level->sens_str, CIL_SYM_SENS, extra_args, &sens_datum);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to find sensitivity\n");
goto exit;
}
level->sens = (struct cil_sens *)sens_datum;
if (level->cats != NULL) {
rc = cil_resolve_cats(current, level->cats, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_levelrange(struct cil_tree_node *current, struct cil_levelrange *lvlrange, void *extra_args)
{
struct cil_symtab_datum *low_datum = NULL;
struct cil_symtab_datum *high_datum = NULL;
int rc = SEPOL_ERR;
if (lvlrange->low_str != NULL) {
rc = cil_resolve_name(current, lvlrange->low_str, CIL_SYM_LEVELS, extra_args, &low_datum);
if (rc != SEPOL_OK) {
goto exit;
}
lvlrange->low = (struct cil_level*)low_datum;
/* This could still be an anonymous level even if low_str is set, if low_str is a param_str */
if (lvlrange->low->datum.name == NULL) {
rc = cil_resolve_level(current, lvlrange->low, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
} else if (lvlrange->low != NULL) {
rc = cil_resolve_level(current, lvlrange->low, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
if (lvlrange->high_str != NULL) {
rc = cil_resolve_name(current, lvlrange->high_str, CIL_SYM_LEVELS, extra_args, &high_datum);
if (rc != SEPOL_OK) {
goto exit;
}
lvlrange->high = (struct cil_level*)high_datum;
/* This could still be an anonymous level even if high_str is set, if high_str is a param_str */
if (lvlrange->high->datum.name == NULL) {
rc = cil_resolve_level(current, lvlrange->high, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
} else if (lvlrange->high != NULL) {
rc = cil_resolve_level(current, lvlrange->high, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_constrain(struct cil_tree_node *current, void *extra_args)
{
struct cil_constrain *cons = current->data;
int rc = SEPOL_ERR;
rc = cil_resolve_classperms_list(current, cons->classperms, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_resolve_expr(CIL_CONSTRAIN, cons->str_expr, &cons->datum_expr, current, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_validatetrans(struct cil_tree_node *current, void *extra_args)
{
struct cil_validatetrans *validtrans = current->data;
struct cil_args_resolve *args = extra_args;
struct cil_symtab_datum *class_datum = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, validtrans->class_str, CIL_SYM_CLASSES, args, &class_datum);
if (rc != SEPOL_OK) {
goto exit;
}
validtrans->class = (struct cil_class*)class_datum;
rc = cil_resolve_expr(CIL_VALIDATETRANS, validtrans->str_expr, &validtrans->datum_expr, current, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_context(struct cil_tree_node *current, struct cil_context *context, void *extra_args)
{
struct cil_symtab_datum *user_datum = NULL;
struct cil_symtab_datum *role_datum = NULL;
struct cil_symtab_datum *type_datum = NULL;
struct cil_tree_node *node = NULL;
struct cil_symtab_datum *lvlrange_datum = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, context->user_str, CIL_SYM_USERS, extra_args, &user_datum);
if (rc != SEPOL_OK) {
goto exit;
}
node = user_datum->nodes->head->data;
if (node->flavor != CIL_USER) {
cil_log(CIL_ERR, "Context user must be a user: %s\n", user_datum->fqn);
rc = SEPOL_ERR;
goto exit;
}
context->user = (struct cil_user*)user_datum;
rc = cil_resolve_name(current, context->role_str, CIL_SYM_ROLES, extra_args, &role_datum);
if (rc != SEPOL_OK) {
goto exit;
}
node = role_datum->nodes->head->data;
if (node->flavor != CIL_ROLE) {
rc = SEPOL_ERR;
cil_log(CIL_ERR, "Context role not a role: %s\n", role_datum->fqn);
goto exit;
}
context->role = (struct cil_role*)role_datum;
rc = cil_resolve_name(current, context->type_str, CIL_SYM_TYPES, extra_args, &type_datum);
if (rc != SEPOL_OK) {
goto exit;
}
node = type_datum->nodes->head->data;
if (node->flavor != CIL_TYPE && node->flavor != CIL_TYPEALIAS) {
rc = SEPOL_ERR;
cil_log(CIL_ERR, "Type not a type or type alias\n");
goto exit;
}
context->type = type_datum;
if (context->range_str != NULL) {
rc = cil_resolve_name(current, context->range_str, CIL_SYM_LEVELRANGES, extra_args, &lvlrange_datum);
if (rc != SEPOL_OK) {
goto exit;
}
context->range = (struct cil_levelrange*)lvlrange_datum;
/* This could still be an anonymous levelrange even if levelrange_str is set, if levelrange_str is a param_str*/
if (context->range->datum.name == NULL) {
rc = cil_resolve_levelrange(current, context->range, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
} else if (context->range != NULL) {
rc = cil_resolve_levelrange(current, context->range, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_filecon(struct cil_tree_node *current, void *extra_args)
{
struct cil_filecon *filecon = current->data;
struct cil_symtab_datum *context_datum = NULL;
int rc = SEPOL_ERR;
if (filecon->context_str != NULL) {
rc = cil_resolve_name(current, filecon->context_str, CIL_SYM_CONTEXTS, extra_args, &context_datum);
if (rc != SEPOL_OK) {
return rc;
}
filecon->context = (struct cil_context*)context_datum;
} else if (filecon->context != NULL) {
rc = cil_resolve_context(current, filecon->context, extra_args);
if (rc != SEPOL_OK) {
return rc;
}
}
return SEPOL_OK;
}
int cil_resolve_portcon(struct cil_tree_node *current, void *extra_args)
{
struct cil_portcon *portcon = current->data;
struct cil_symtab_datum *context_datum = NULL;
int rc = SEPOL_ERR;
if (portcon->context_str != NULL) {
rc = cil_resolve_name(current, portcon->context_str, CIL_SYM_CONTEXTS, extra_args, &context_datum);
if (rc != SEPOL_OK) {
goto exit;
}
portcon->context = (struct cil_context*)context_datum;
} else {
rc = cil_resolve_context(current, portcon->context, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_genfscon(struct cil_tree_node *current, void *extra_args)
{
struct cil_genfscon *genfscon = current->data;
struct cil_symtab_datum *context_datum = NULL;
int rc = SEPOL_ERR;
if (genfscon->context_str != NULL) {
rc = cil_resolve_name(current, genfscon->context_str, CIL_SYM_CONTEXTS, extra_args, &context_datum);
if (rc != SEPOL_OK) {
goto exit;
}
genfscon->context = (struct cil_context*)context_datum;
} else {
rc = cil_resolve_context(current, genfscon->context, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_nodecon(struct cil_tree_node *current, void *extra_args)
{
struct cil_nodecon *nodecon = current->data;
struct cil_symtab_datum *addr_datum = NULL;
struct cil_symtab_datum *mask_datum = NULL;
struct cil_symtab_datum *context_datum = NULL;
int rc = SEPOL_ERR;
if (nodecon->addr_str != NULL) {
rc = cil_resolve_name(current, nodecon->addr_str, CIL_SYM_IPADDRS, extra_args, &addr_datum);
if (rc != SEPOL_OK) {
goto exit;
}
nodecon->addr = (struct cil_ipaddr*)addr_datum;
}
if (nodecon->mask_str != NULL) {
rc = cil_resolve_name(current, nodecon->mask_str, CIL_SYM_IPADDRS, extra_args, &mask_datum);
if (rc != SEPOL_OK) {
goto exit;
}
nodecon->mask = (struct cil_ipaddr*)mask_datum;
}
if (nodecon->context_str != NULL) {
rc = cil_resolve_name(current, nodecon->context_str, CIL_SYM_CONTEXTS, extra_args, &context_datum);
if (rc != SEPOL_OK) {
goto exit;
}
nodecon->context = (struct cil_context*)context_datum;
} else {
rc = cil_resolve_context(current, nodecon->context, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
if (nodecon->addr->family != nodecon->mask->family) {
cil_log(CIL_ERR, "Nodecon ip address not in the same family\n");
rc = SEPOL_ERR;
goto exit;
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_netifcon(struct cil_tree_node *current, void *extra_args)
{
struct cil_netifcon *netifcon = current->data;
struct cil_symtab_datum *ifcon_datum = NULL;
struct cil_symtab_datum *packcon_datum = NULL;
int rc = SEPOL_ERR;
if (netifcon->if_context_str != NULL) {
rc = cil_resolve_name(current, netifcon->if_context_str, CIL_SYM_CONTEXTS, extra_args, &ifcon_datum);
if (rc != SEPOL_OK) {
goto exit;
}
netifcon->if_context = (struct cil_context*)ifcon_datum;
} else {
rc = cil_resolve_context(current, netifcon->if_context, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
if (netifcon->packet_context_str != NULL) {
rc = cil_resolve_name(current, netifcon->packet_context_str, CIL_SYM_CONTEXTS, extra_args, &packcon_datum);
if (rc != SEPOL_OK) {
goto exit;
}
netifcon->packet_context = (struct cil_context*)packcon_datum;
} else {
rc = cil_resolve_context(current, netifcon->packet_context, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_pirqcon(struct cil_tree_node *current, void *extra_args)
{
struct cil_pirqcon *pirqcon = current->data;
struct cil_symtab_datum *context_datum = NULL;
int rc = SEPOL_ERR;
if (pirqcon->context_str != NULL) {
rc = cil_resolve_name(current, pirqcon->context_str, CIL_SYM_CONTEXTS, extra_args, &context_datum);
if (rc != SEPOL_OK) {
goto exit;
}
pirqcon->context = (struct cil_context*)context_datum;
} else {
rc = cil_resolve_context(current, pirqcon->context, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_iomemcon(struct cil_tree_node *current, void *extra_args)
{
struct cil_iomemcon *iomemcon = current->data;
struct cil_symtab_datum *context_datum = NULL;
int rc = SEPOL_ERR;
if (iomemcon->context_str != NULL) {
rc = cil_resolve_name(current, iomemcon->context_str, CIL_SYM_CONTEXTS, extra_args, &context_datum);
if (rc != SEPOL_OK) {
goto exit;
}
iomemcon->context = (struct cil_context*)context_datum;
} else {
rc = cil_resolve_context(current, iomemcon->context, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_ioportcon(struct cil_tree_node *current, void *extra_args)
{
struct cil_ioportcon *ioportcon = current->data;
struct cil_symtab_datum *context_datum = NULL;
int rc = SEPOL_ERR;
if (ioportcon->context_str != NULL) {
rc = cil_resolve_name(current, ioportcon->context_str, CIL_SYM_CONTEXTS, extra_args, &context_datum);
if (rc != SEPOL_OK) {
goto exit;
}
ioportcon->context = (struct cil_context*)context_datum;
} else {
rc = cil_resolve_context(current, ioportcon->context, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_pcidevicecon(struct cil_tree_node *current, void *extra_args)
{
struct cil_pcidevicecon *pcidevicecon = current->data;
struct cil_symtab_datum *context_datum = NULL;
int rc = SEPOL_ERR;
if (pcidevicecon->context_str != NULL) {
rc = cil_resolve_name(current, pcidevicecon->context_str, CIL_SYM_CONTEXTS, extra_args, &context_datum);
if (rc != SEPOL_OK) {
goto exit;
}
pcidevicecon->context = (struct cil_context*)context_datum;
} else {
rc = cil_resolve_context(current, pcidevicecon->context, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_devicetreecon(struct cil_tree_node *current, void *extra_args)
{
struct cil_devicetreecon *devicetreecon = current->data;
struct cil_symtab_datum *context_datum = NULL;
int rc = SEPOL_ERR;
if (devicetreecon->context_str != NULL) {
rc = cil_resolve_name(current, devicetreecon->context_str, CIL_SYM_CONTEXTS, extra_args, &context_datum);
if (rc != SEPOL_OK) {
goto exit;
}
devicetreecon->context = (struct cil_context*)context_datum;
} else {
rc = cil_resolve_context(current, devicetreecon->context, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_fsuse(struct cil_tree_node *current, void *extra_args)
{
struct cil_fsuse *fsuse = current->data;
struct cil_symtab_datum *context_datum = NULL;
int rc = SEPOL_ERR;
if (fsuse->context_str != NULL) {
rc = cil_resolve_name(current, fsuse->context_str, CIL_SYM_CONTEXTS, extra_args, &context_datum);
if (rc != SEPOL_OK) {
goto exit;
}
fsuse->context = (struct cil_context*)context_datum;
} else {
rc = cil_resolve_context(current, fsuse->context, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_sidcontext(struct cil_tree_node *current, void *extra_args)
{
struct cil_sidcontext *sidcon = current->data;
struct cil_symtab_datum *sid_datum = NULL;
struct cil_symtab_datum *context_datum = NULL;
struct cil_sid *sid = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, sidcon->sid_str, CIL_SYM_SIDS, extra_args, &sid_datum);
if (rc != SEPOL_OK) {
goto exit;
}
sid = (struct cil_sid*)sid_datum;
if (sidcon->context_str != NULL) {
rc = cil_resolve_name(current, sidcon->context_str, CIL_SYM_CONTEXTS, extra_args, &context_datum);
if (rc != SEPOL_OK) {
goto exit;
}
sidcon->context = (struct cil_context*)context_datum;
} else if (sidcon->context != NULL) {
rc = cil_resolve_context(current, sidcon->context, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
}
if (sid->context != NULL) {
cil_log(CIL_ERR, "sid's cannot be associated with more than one context\n");
rc = SEPOL_ERR;
goto exit;
}
sid->context = sidcon->context;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_blockinherit_link(struct cil_tree_node *current, void *extra_args)
{
struct cil_blockinherit *inherit = current->data;
struct cil_symtab_datum *block_datum = NULL;
struct cil_tree_node *node = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, inherit->block_str, CIL_SYM_BLOCKS, extra_args, &block_datum);
if (rc != SEPOL_OK) {
goto exit;
}
node = block_datum->nodes->head->data;
if (node->flavor != CIL_BLOCK) {
cil_log(CIL_ERR, "%s is not a block\n", cil_node_to_string(node));
rc = SEPOL_ERR;
goto exit;
}
inherit->block = (struct cil_block *)block_datum;
if (inherit->block->bi_nodes == NULL) {
cil_list_init(&inherit->block->bi_nodes, CIL_NODE);
}
cil_list_append(inherit->block->bi_nodes, CIL_NODE, current);
return SEPOL_OK;
exit:
return rc;
}
void cil_print_recursive_blockinherit(struct cil_tree_node *bi_node, struct cil_tree_node *terminating_node)
{
struct cil_list *trace = NULL;
struct cil_list_item *item = NULL;
struct cil_tree_node *curr = NULL;
cil_list_init(&trace, CIL_NODE);
for (curr = bi_node; curr != terminating_node; curr = curr->parent) {
if (curr->flavor == CIL_BLOCK) {
cil_list_prepend(trace, CIL_NODE, curr);
} else {
if (curr != bi_node) {
cil_list_prepend(trace, CIL_NODE, NODE(((struct cil_blockinherit *)curr->data)->block));
}
cil_list_prepend(trace, CIL_NODE, curr);
}
}
cil_list_prepend(trace, CIL_NODE, terminating_node);
cil_list_for_each(item, trace) {
curr = item->data;
if (curr->flavor == CIL_BLOCK) {
cil_tree_log(curr, CIL_ERR, "block %s", DATUM(curr->data)->name);
} else {
cil_tree_log(curr, CIL_ERR, "blockinherit %s", ((struct cil_blockinherit *)curr->data)->block_str);
}
}
cil_list_destroy(&trace, CIL_FALSE);
}
int cil_check_recursive_blockinherit(struct cil_tree_node *bi_node)
{
struct cil_tree_node *curr = NULL;
struct cil_blockinherit *bi = NULL;
struct cil_block *block = NULL;
int rc = SEPOL_ERR;
bi = bi_node->data;
for (curr = bi_node->parent; curr != NULL; curr = curr->parent) {
if (curr->flavor != CIL_BLOCK) {
continue;
}
block = curr->data;
if (block != bi->block) {
continue;
}
cil_log(CIL_ERR, "Recursive blockinherit found:\n");
cil_print_recursive_blockinherit(bi_node, curr);
rc = SEPOL_ERR;
goto exit;
}
rc = SEPOL_OK;
exit:
return rc;
}
int cil_resolve_blockinherit_copy(struct cil_tree_node *current, void *extra_args)
{
struct cil_block *block = current->data;
struct cil_args_resolve *args = extra_args;
struct cil_db *db = NULL;
struct cil_list_item *item = NULL;
int rc = SEPOL_ERR;
// This block is not inherited
if (block->bi_nodes == NULL) {
rc = SEPOL_OK;
goto exit;
}
db = args->db;
// Make sure this is the original block and not a merged block from a blockinherit
if (current != block->datum.nodes->head->data) {
rc = SEPOL_OK;
goto exit;
}
cil_list_for_each(item, block->bi_nodes) {
rc = cil_check_recursive_blockinherit(item->data);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_copy_ast(db, current, item->data);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to copy block contents into blockinherit\n");
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_blockabstract(struct cil_tree_node *current, void *extra_args)
{
struct cil_blockabstract *abstract = current->data;
struct cil_symtab_datum *block_datum = NULL;
struct cil_tree_node *block_node = NULL;
int rc = SEPOL_ERR;
rc = cil_resolve_name(current, abstract->block_str, CIL_SYM_BLOCKS, extra_args, &block_datum);
if (rc != SEPOL_OK) {
goto exit;
}
block_node = block_datum->nodes->head->data;
if (block_node->flavor != CIL_BLOCK) {
cil_log(CIL_ERR, "Failed to resolve blockabstract to a block, rc: %d\n", rc);
goto exit;
}
((struct cil_block*)block_datum)->is_abstract = CIL_TRUE;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_in(struct cil_tree_node *current, void *extra_args)
{
struct cil_in *in = current->data;
struct cil_args_resolve *args = extra_args;
struct cil_db *db = NULL;
struct cil_symtab_datum *block_datum = NULL;
struct cil_tree_node *block_node = NULL;
int rc = SEPOL_ERR;
if (args != NULL) {
db = args->db;
}
rc = cil_resolve_name(current, in->block_str, CIL_SYM_BLOCKS, extra_args, &block_datum);
if (rc != SEPOL_OK) {
goto exit;
}
block_node = block_datum->nodes->head->data;
rc = cil_copy_ast(db, current, block_node);
if (rc != SEPOL_OK) {
printf("Failed to copy in, rc: %d\n", rc);
goto exit;
}
cil_tree_children_destroy(current);
current->cl_head = NULL;
current->cl_tail = NULL;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_in_list(void *extra_args)
{
struct cil_args_resolve *args = extra_args;
struct cil_list *ins = args->in_list;
struct cil_list_item *curr = NULL;
struct cil_tree_node *node = NULL;
struct cil_tree_node *last_failed_node = NULL;
struct cil_in *in = NULL;
struct cil_symtab_datum *block_datum = NULL;
int resolved = 0;
int unresolved = 0;
int rc = SEPOL_ERR;
do {
resolved = 0;
unresolved = 0;
cil_list_for_each(curr, ins) {
if (curr->flavor != CIL_NODE) {
continue;
}
node = curr->data;
in = node->data;
rc = cil_resolve_name(node, in->block_str, CIL_SYM_BLOCKS, extra_args, &block_datum);
if (rc != SEPOL_OK) {
unresolved++;
last_failed_node = node;
} else {
rc = cil_resolve_in(node, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
resolved++;
curr->data = NULL;
curr->flavor = CIL_NONE;
}
}
if (unresolved > 0 && resolved == 0) {
cil_tree_log(last_failed_node, CIL_ERR, "Failed to resolve in-statement");
rc = SEPOL_ERR;
goto exit;
}
} while (unresolved > 0);
rc = SEPOL_OK;
exit:
return rc;
}
int cil_resolve_bounds(struct cil_tree_node *current, void *extra_args, enum cil_flavor flavor)
{
int rc = SEPOL_ERR;
struct cil_bounds *bounds = current->data;
enum cil_sym_index index;
struct cil_symtab_datum *parent_datum = NULL;
struct cil_symtab_datum *child_datum = NULL;
rc = cil_flavor_to_symtab_index(flavor, &index);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_resolve_name(current, bounds->parent_str, index, extra_args, &parent_datum);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_resolve_name(current, bounds->child_str, index, extra_args, &child_datum);
if (rc != SEPOL_OK) {
goto exit;
}
switch (flavor) {
case CIL_USER: {
struct cil_user *user = (struct cil_user *)child_datum;
if (user->bounds != NULL) {
struct cil_tree_node *node = user->bounds->datum.nodes->head->data;
cil_tree_log(node, CIL_ERR, "User %s already bound by parent", bounds->child_str);
rc = SEPOL_ERR;
goto exit;
}
user->bounds = (struct cil_user *)parent_datum;
break;
}
case CIL_ROLE: {
struct cil_role *role = (struct cil_role *)child_datum;
if (role->bounds != NULL) {
struct cil_tree_node *node = role->bounds->datum.nodes->head->data;
cil_tree_log(node, CIL_ERR, "Role %s already bound by parent", bounds->child_str);
rc = SEPOL_ERR;
goto exit;
}
role->bounds = (struct cil_role *)parent_datum;
break;
}
case CIL_TYPE: {
struct cil_type *type = (struct cil_type *)child_datum;
struct cil_tree_node *node = NULL;
if (type->bounds != NULL) {
node = ((struct cil_symtab_datum *)type->bounds)->nodes->head->data;
cil_tree_log(node, CIL_ERR, "Type %s already bound by parent", bounds->child_str);
cil_tree_log(current, CIL_ERR, "Now being bound to parent %s", bounds->parent_str);
rc = SEPOL_ERR;
goto exit;
}
node = parent_datum->nodes->head->data;
if (node->flavor == CIL_TYPEATTRIBUTE) {
cil_log(CIL_ERR, "Bounds parent %s is an attribute\n", bounds->parent_str);
rc = SEPOL_ERR;
goto exit;
}
node = child_datum->nodes->head->data;
if (node->flavor == CIL_TYPEATTRIBUTE) {
cil_log(CIL_ERR, "Bounds child %s is an attribute\n", bounds->child_str);
rc = SEPOL_ERR;
goto exit;
}
type->bounds = (struct cil_type *)parent_datum;
break;
}
default:
break;
}
return SEPOL_OK;
exit:
cil_tree_log(current, CIL_ERR, "Bad bounds statement");
return rc;
}
int cil_resolve_default(struct cil_tree_node *current, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_default *def = current->data;
struct cil_list_item *curr;
struct cil_symtab_datum *datum;
cil_list_init(&def->class_datums, def->flavor);
cil_list_for_each(curr, def->class_strs) {
rc = cil_resolve_name(current, (char *)curr->data, CIL_SYM_CLASSES, extra_args, &datum);
if (rc != SEPOL_OK) {
goto exit;
}
cil_list_append(def->class_datums, CIL_CLASS, datum);
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_defaultrange(struct cil_tree_node *current, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_defaultrange *def = current->data;
struct cil_list_item *curr;
struct cil_symtab_datum *datum;
cil_list_init(&def->class_datums, CIL_DEFAULTRANGE);
cil_list_for_each(curr, def->class_strs) {
rc = cil_resolve_name(current, (char *)curr->data, CIL_SYM_CLASSES, extra_args, &datum);
if (rc != SEPOL_OK) {
goto exit;
}
cil_list_append(def->class_datums, CIL_CLASS, datum);
}
return SEPOL_OK;
exit:
return rc;
}
void cil_print_recursive_call(struct cil_tree_node *call_node, struct cil_tree_node *terminating_node)
{
struct cil_list *trace = NULL;
struct cil_list_item * item = NULL;
struct cil_tree_node *curr = NULL;
cil_list_init(&trace, CIL_NODE);
for (curr = call_node; curr != terminating_node; curr = curr->parent) {
if (curr->flavor == CIL_CALL) {
if (curr != call_node) {
cil_list_prepend(trace, CIL_NODE, NODE(((struct cil_call *)curr->data)->macro));
}
cil_list_prepend(trace, CIL_NODE, curr);
}
}
if (terminating_node->flavor == CIL_MACRO) {
cil_list_prepend(trace, CIL_NODE, terminating_node);
} else {
cil_list_prepend(trace, CIL_NODE, NODE(((struct cil_call *)terminating_node->data)->macro));
}
cil_list_for_each(item, trace) {
curr = item->data;
if (curr->flavor == CIL_MACRO) {
cil_tree_log(curr, CIL_ERR, "macro %s", DATUM(curr->data)->name);
} else {
cil_tree_log(curr, CIL_ERR, "call %s", ((struct cil_call *)curr->data)->macro_str);
}
}
cil_list_destroy(&trace, CIL_FALSE);
}
int cil_check_recursive_call(struct cil_tree_node *call_node, struct cil_tree_node *macro_node)
{
struct cil_tree_node *curr = NULL;
struct cil_call * call = NULL;
int rc = SEPOL_ERR;
for (curr = call_node; curr != NULL; curr = curr->parent) {
if (curr->flavor == CIL_CALL) {
if (curr == call_node) {
continue;
}
call = curr->data;
if (call->macro != macro_node->data) {
continue;
}
} else if (curr->flavor == CIL_MACRO) {
if (curr != macro_node) {
rc = SEPOL_OK;
goto exit;
}
} else {
continue;
}
cil_log(CIL_ERR, "Recursive macro call found:\n");
cil_print_recursive_call(call_node, curr);
rc = SEPOL_ERR;
goto exit;
}
rc = SEPOL_OK;
exit:
return rc;
}
int cil_resolve_call1(struct cil_tree_node *current, void *extra_args)
{
struct cil_call *new_call = current->data;
struct cil_args_resolve *args = extra_args;
struct cil_db *db = NULL;
struct cil_tree_node *macro_node = NULL;
struct cil_symtab_datum *macro_datum = NULL;
int rc = SEPOL_ERR;
if (args != NULL) {
db = args->db;
}
rc = cil_resolve_name(current, new_call->macro_str, CIL_SYM_BLOCKS, extra_args, &macro_datum);
if (rc != SEPOL_OK) {
goto exit;
}
macro_node = macro_datum->nodes->head->data;
if (macro_node->flavor != CIL_MACRO) {
printf("Failed to resolve %s to a macro\n", new_call->macro_str);
rc = SEPOL_ERR;
goto exit;
}
new_call->macro = (struct cil_macro*)macro_datum;
if (new_call->macro->params != NULL ) {
struct cil_list_item *item;
struct cil_args *new_arg = NULL;
struct cil_tree_node *pc = NULL;
if (new_call->args_tree == NULL) {
cil_tree_log(current, CIL_ERR, "Missing arguments");
rc = SEPOL_ERR;
goto exit;
}
pc = new_call->args_tree->root->cl_head;
cil_list_init(&new_call->args, CIL_LIST_ITEM);
cil_list_for_each(item, new_call->macro->params) {
enum cil_flavor flavor = ((struct cil_param*)item->data)->flavor;
if (pc == NULL) {
cil_tree_log(current, CIL_ERR, "Missing arguments");
rc = SEPOL_ERR;
goto exit;
}
if (item->flavor != CIL_PARAM) {
rc = SEPOL_ERR;
goto exit;
}
cil_args_init(&new_arg);
switch (flavor) {
case CIL_NAME: {
struct cil_name *name;
name = __cil_insert_name(args->db, pc->data, current);
if (name != NULL) {
new_arg->arg = (struct cil_symtab_datum *)name;
} else {
new_arg->arg_str = pc->data;
}
}
break;
case CIL_TYPE:
new_arg->arg_str = pc->data;
break;
case CIL_ROLE:
new_arg->arg_str = pc->data;
break;
case CIL_USER:
new_arg->arg_str = pc->data;
break;
case CIL_SENS:
new_arg->arg_str = pc->data;
break;
case CIL_CAT:
new_arg->arg_str = pc->data;
break;
case CIL_BOOL:
new_arg->arg_str = pc->data;
break;
case CIL_CATSET: {
if (pc->cl_head != NULL) {
struct cil_catset *catset = NULL;
struct cil_tree_node *cat_node = NULL;
cil_catset_init(&catset);
rc = cil_fill_cats(pc, &catset->cats);
if (rc != SEPOL_OK) {
cil_destroy_catset(catset);
goto exit;
}
cil_tree_node_init(&cat_node);
cat_node->flavor = CIL_CATSET;
cat_node->data = catset;
cil_list_append(((struct cil_symtab_datum*)catset)->nodes,
CIL_LIST_ITEM, cat_node);
new_arg->arg = (struct cil_symtab_datum*)catset;
} else {
new_arg->arg_str = pc->data;
}
break;
}
case CIL_LEVEL: {
if (pc->cl_head != NULL) {
struct cil_level *level = NULL;
struct cil_tree_node *lvl_node = NULL;
cil_level_init(&level);
rc = cil_fill_level(pc->cl_head, level);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to create anonymous level, rc: %d\n", rc);
cil_destroy_level(level);
goto exit;
}
cil_tree_node_init(&lvl_node);
lvl_node->flavor = CIL_LEVEL;
lvl_node->data = level;
cil_list_append(((struct cil_symtab_datum*)level)->nodes,
CIL_LIST_ITEM, lvl_node);
new_arg->arg = (struct cil_symtab_datum*)level;
} else {
new_arg->arg_str = pc->data;
}
break;
}
case CIL_LEVELRANGE: {
if (pc->cl_head != NULL) {
struct cil_levelrange *range = NULL;
struct cil_tree_node *range_node = NULL;
cil_levelrange_init(&range);
rc = cil_fill_levelrange(pc->cl_head, range);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to create anonymous levelrange, rc: %d\n", rc);
cil_destroy_levelrange(range);
goto exit;
}
cil_tree_node_init(&range_node);
range_node->flavor = CIL_LEVELRANGE;
range_node->data = range;
cil_list_append(((struct cil_symtab_datum*)range)->nodes,
CIL_LIST_ITEM, range_node);
new_arg->arg = (struct cil_symtab_datum*)range;
} else {
new_arg->arg_str = pc->data;
}
break;
}
case CIL_IPADDR: {
if (pc->cl_head != NULL) {
struct cil_ipaddr *ipaddr = NULL;
struct cil_tree_node *addr_node = NULL;
cil_ipaddr_init(&ipaddr);
rc = cil_fill_ipaddr(pc->cl_head, ipaddr);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to create anonymous ip address, rc; %d\n", rc);
cil_destroy_ipaddr(ipaddr);
goto exit;
}
cil_tree_node_init(&addr_node);
addr_node->flavor = CIL_IPADDR;
addr_node->data = ipaddr;
cil_list_append(((struct cil_symtab_datum*)ipaddr)->nodes,
CIL_LIST_ITEM, addr_node);
new_arg->arg = (struct cil_symtab_datum*)ipaddr;
} else {
new_arg->arg_str = pc->data;
}
break;
}
case CIL_CLASS:
new_arg->arg_str = pc->data;
break;
case CIL_MAP_CLASS:
new_arg->arg_str = pc->data;
break;
case CIL_CLASSPERMISSION: {
if (pc->cl_head != NULL) {
struct cil_classpermission *cp = NULL;
struct cil_tree_node *cp_node = NULL;
cil_classpermission_init(&cp);
rc = cil_fill_classperms_list(pc, &cp->classperms);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to create anonymous classpermission\n");
cil_destroy_classpermission(cp);
goto exit;
}
cil_tree_node_init(&cp_node);
cp_node->flavor = CIL_CLASSPERMISSION;
cp_node->data = cp;
cil_list_append(cp->datum.nodes, CIL_LIST_ITEM, cp_node);
new_arg->arg = (struct cil_symtab_datum*)cp;
} else {
new_arg->arg_str = pc->data;
}
break;
}
default:
cil_log(CIL_ERR, "Unexpected flavor: %d\n",
(((struct cil_param*)item->data)->flavor));
rc = SEPOL_ERR;
goto exit;
}
new_arg->param_str = ((struct cil_param*)item->data)->str;
new_arg->flavor = flavor;
cil_list_append(new_call->args, CIL_ARGS, new_arg);
pc = pc->next;
}
if (pc != NULL) {
cil_tree_log(current, CIL_ERR, "Unexpected arguments");
rc = SEPOL_ERR;
goto exit;
}
} else if (new_call->args_tree != NULL) {
cil_tree_log(current, CIL_ERR, "Unexpected arguments");
rc = SEPOL_ERR;
goto exit;
}
if (new_call->copied == 0) {
new_call->copied = 1;
rc = cil_check_recursive_call(current, macro_node);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_copy_ast(db, macro_node, current);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to copy macro, rc: %d\n", rc);
goto exit;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_call2(struct cil_tree_node *current, void *extra_args)
{
struct cil_call *new_call = current->data;
int rc = SEPOL_ERR;
enum cil_sym_index sym_index = CIL_SYM_UNKNOWN;
struct cil_list_item *item;
if (new_call->args == NULL) {
rc = SEPOL_OK;
goto exit;
}
cil_list_for_each(item, new_call->args) {
struct cil_args *arg = item->data;
if (arg->arg == NULL && arg->arg_str == NULL) {
cil_log(CIL_ERR, "Arguments not created correctly\n");
rc = SEPOL_ERR;
goto exit;
}
switch (arg->flavor) {
case CIL_NAME:
if (arg->arg != NULL) {
continue; /* No need to resolve */
} else {
sym_index = CIL_SYM_NAMES;
}
break;
case CIL_LEVEL:
if (arg->arg_str == NULL && arg->arg != NULL) {
continue; // anonymous, no need to resolve
} else {
sym_index = CIL_SYM_LEVELS;
}
break;
case CIL_LEVELRANGE:
if (arg->arg_str == NULL && arg->arg != NULL) {
continue; // anonymous, no need to resolve
} else {
sym_index = CIL_SYM_LEVELRANGES;
}
break;
case CIL_CATSET:
if (arg->arg_str == NULL && arg->arg != NULL) {
continue; // anonymous, no need to resolve
} else {
sym_index = CIL_SYM_CATS;
}
break;
case CIL_IPADDR:
if (arg->arg_str == NULL && arg->arg != NULL) {
continue; // anonymous, no need to resolve
} else {
sym_index = CIL_SYM_IPADDRS;
}
break;
case CIL_CLASSPERMISSION:
if (arg->arg_str == NULL && arg->arg != NULL) {
continue;
} else {
sym_index = CIL_SYM_CLASSPERMSETS;
}
break;
case CIL_TYPE:
if (arg->arg_str == NULL && arg->arg != NULL) {
continue; // anonymous, no need to resolve
} else {
sym_index = CIL_SYM_TYPES;
}
break;
case CIL_ROLE:
sym_index = CIL_SYM_ROLES;
break;
case CIL_USER:
sym_index = CIL_SYM_USERS;
break;
case CIL_SENS:
sym_index = CIL_SYM_SENS;
break;
case CIL_CAT:
sym_index = CIL_SYM_CATS;
break;
case CIL_CLASS:
case CIL_MAP_CLASS:
sym_index = CIL_SYM_CLASSES;
break;
case CIL_BOOL:
sym_index = CIL_SYM_BOOLS;
break;
default:
rc = SEPOL_ERR;
goto exit;
}
if (sym_index != CIL_SYM_UNKNOWN) {
rc = cil_resolve_name(current, arg->arg_str, sym_index, extra_args, &(arg->arg));
if (rc != SEPOL_OK) {
goto exit;
}
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_name_call_args(struct cil_call *call, char *name, enum cil_sym_index sym_index, struct cil_symtab_datum **datum)
{
struct cil_list_item *item;
enum cil_sym_index param_index = CIL_SYM_UNKNOWN;
int rc = SEPOL_ERR;
if (call == NULL || name == NULL) {
goto exit;
}
if (call->args == NULL) {
goto exit;
}
cil_list_for_each(item, call->args) {
struct cil_args * arg = item->data;
rc = cil_flavor_to_symtab_index(arg->flavor, &param_index);
if (param_index == sym_index) {
if (name == arg->param_str) {
*datum = arg->arg;
rc = SEPOL_OK;
goto exit;
}
}
}
return SEPOL_ERR;
exit:
return rc;
}
int cil_resolve_expr(enum cil_flavor expr_type, struct cil_list *str_expr, struct cil_list **datum_expr, struct cil_tree_node *parent, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_list_item *curr;
struct cil_symtab_datum *res_datum = NULL;
enum cil_sym_index sym_index = CIL_SYM_UNKNOWN;
switch (str_expr->flavor) {
case CIL_BOOL:
sym_index = CIL_SYM_BOOLS;
break;
case CIL_TUNABLE:
sym_index = CIL_SYM_TUNABLES;
break;
case CIL_TYPE:
sym_index = CIL_SYM_TYPES;
break;
case CIL_ROLE:
sym_index = CIL_SYM_ROLES;
break;
case CIL_USER:
sym_index = CIL_SYM_USERS;
break;
case CIL_CAT:
sym_index = CIL_SYM_CATS;
break;
default:
break;
}
cil_list_init(datum_expr, str_expr->flavor);
cil_list_for_each(curr, str_expr) {
switch (curr->flavor) {
case CIL_STRING:
rc = cil_resolve_name(parent, curr->data, sym_index, extra_args, &res_datum);
if (rc != SEPOL_OK) {
goto exit;
}
if (sym_index == CIL_SYM_TYPES && (expr_type == CIL_CONSTRAIN || expr_type == CIL_VALIDATETRANS)) {
cil_type_used(res_datum);
}
cil_list_append(*datum_expr, CIL_DATUM, res_datum);
break;
case CIL_LIST: {
struct cil_list *datum_sub_expr;
rc = cil_resolve_expr(expr_type, curr->data, &datum_sub_expr, parent, extra_args);
if (rc != SEPOL_OK) {
cil_list_destroy(&datum_sub_expr, CIL_TRUE);
goto exit;
}
cil_list_append(*datum_expr, CIL_LIST, datum_sub_expr);
break;
}
default:
cil_list_append(*datum_expr, curr->flavor, curr->data);
break;
}
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_boolif(struct cil_tree_node *current, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_booleanif *bif = (struct cil_booleanif*)current->data;
rc = cil_resolve_expr(CIL_BOOLEANIF, bif->str_expr, &bif->datum_expr, current, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
return SEPOL_OK;
exit:
return rc;
}
static int __cil_evaluate_tunable_expr(struct cil_list_item *curr);
static int __cil_evaluate_tunable_expr_helper(struct cil_list_item *curr)
{
if (curr == NULL) {
return CIL_FALSE;
} else if (curr->flavor == CIL_DATUM) {
struct cil_tunable *tun = curr->data;
return tun->value;
} else if (curr->flavor == CIL_LIST) {
struct cil_list *l = curr->data;
return __cil_evaluate_tunable_expr(l->head);
} else {
return CIL_FALSE;
}
}
static int __cil_evaluate_tunable_expr(struct cil_list_item *curr)
{
/* Assumes expression is well-formed */
if (curr == NULL) {
return CIL_FALSE;
} else if (curr->flavor == CIL_OP) {
uint16_t v1, v2;
enum cil_flavor op_flavor = (enum cil_flavor)curr->data;
v1 = __cil_evaluate_tunable_expr_helper(curr->next);
if (op_flavor == CIL_NOT) return !v1;
v2 = __cil_evaluate_tunable_expr_helper(curr->next->next);
if (op_flavor == CIL_AND) return (v1 && v2);
else if (op_flavor == CIL_OR) return (v1 || v2);
else if (op_flavor == CIL_XOR) return (v1 ^ v2);
else if (op_flavor == CIL_EQ) return (v1 == v2);
else if (op_flavor == CIL_NEQ) return (v1 != v2);
else return CIL_FALSE;
} else {
uint16_t v;
for (;curr; curr = curr->next) {
v = __cil_evaluate_tunable_expr_helper(curr);
if (v) return v;
}
return CIL_FALSE;
}
}
int cil_resolve_tunif(struct cil_tree_node *current, void *extra_args)
{
struct cil_args_resolve *args = extra_args;
struct cil_db *db = NULL;
int rc = SEPOL_ERR;
struct cil_tunableif *tif = (struct cil_tunableif*)current->data;
uint16_t result = CIL_FALSE;
struct cil_tree_node *true_node = NULL;
struct cil_tree_node *false_node = NULL;
struct cil_condblock *cb = NULL;
if (args != NULL) {
db = args->db;
}
rc = cil_resolve_expr(CIL_TUNABLEIF, tif->str_expr, &tif->datum_expr, current, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
result = __cil_evaluate_tunable_expr(tif->datum_expr->head);
if (current->cl_head != NULL && current->cl_head->flavor == CIL_CONDBLOCK) {
cb = current->cl_head->data;
if (cb->flavor == CIL_CONDTRUE) {
true_node = current->cl_head;
} else if (cb->flavor == CIL_CONDFALSE) {
false_node = current->cl_head;
}
}
if (current->cl_head != NULL && current->cl_head->next != NULL && current->cl_head->next->flavor == CIL_CONDBLOCK) {
cb = current->cl_head->next->data;
if (cb->flavor == CIL_CONDTRUE) {
true_node = current->cl_head->next;
} else if (cb->flavor == CIL_CONDFALSE) {
false_node = current->cl_head->next;
}
}
if (result == CIL_TRUE) {
if (true_node != NULL) {
rc = cil_copy_ast(db, true_node, current->parent);
if (rc != SEPOL_OK) {
goto exit;
}
}
} else {
if (false_node != NULL) {
rc = cil_copy_ast(db, false_node, current->parent);
if (rc != SEPOL_OK) {
goto exit;
}
}
}
cil_tree_children_destroy(current);
current->cl_head = NULL;
current->cl_tail = NULL;
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_userattributeset(struct cil_tree_node *current, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_userattributeset *attrusers = current->data;
struct cil_symtab_datum *attr_datum = NULL;
struct cil_tree_node *attr_node = NULL;
struct cil_userattribute *attr = NULL;
rc = cil_resolve_name(current, attrusers->attr_str, CIL_SYM_USERS, extra_args, &attr_datum);
if (rc != SEPOL_OK) {
goto exit;
}
attr_node = attr_datum->nodes->head->data;
if (attr_node->flavor != CIL_USERATTRIBUTE) {
rc = SEPOL_ERR;
cil_log(CIL_ERR, "Attribute user not an attribute\n");
goto exit;
}
attr = (struct cil_userattribute*)attr_datum;
rc = cil_resolve_expr(CIL_USERATTRIBUTESET, attrusers->str_expr, &attrusers->datum_expr, current, extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
rc = cil_verify_no_self_reference(attr_datum, attrusers->datum_expr);
if (rc != SEPOL_OK) {
goto exit;
}
if (attr->expr_list == NULL) {
cil_list_init(&attr->expr_list, CIL_USERATTRIBUTE);
}
cil_list_append(attr->expr_list, CIL_LIST, attrusers->datum_expr);
return SEPOL_OK;
exit:
return rc;
}
int __cil_resolve_ast_node(struct cil_tree_node *node, void *extra_args)
{
int rc = SEPOL_OK;
struct cil_args_resolve *args = extra_args;
enum cil_pass pass = 0;
struct cil_list *ins = args->in_list;
if (node == NULL || args == NULL) {
goto exit;
}
pass = args->pass;
switch (pass) {
case CIL_PASS_TIF:
if (node->flavor == CIL_TUNABLEIF) {
rc = cil_resolve_tunif(node, args);
}
break;
case CIL_PASS_IN:
if (node->flavor == CIL_IN) {
// due to ordering issues, in statements are just gathered here and
// resolved together in cil_resolve_in_list once all are found
cil_list_prepend(ins, CIL_NODE, node);
}
break;
case CIL_PASS_BLKIN_LINK:
if (node->flavor == CIL_BLOCKINHERIT) {
rc = cil_resolve_blockinherit_link(node, args);
}
break;
case CIL_PASS_BLKIN_COPY:
if (node->flavor == CIL_BLOCK) {
rc = cil_resolve_blockinherit_copy(node, args);
}
break;
case CIL_PASS_BLKABS:
if (node->flavor == CIL_BLOCKABSTRACT) {
rc = cil_resolve_blockabstract(node, args);
}
break;
case CIL_PASS_MACRO:
if (node->flavor == CIL_CALL && args->macro != NULL) {
rc = cil_resolve_call1(node, args);
}
break;
case CIL_PASS_CALL1:
if (node->flavor == CIL_CALL) {
rc = cil_resolve_call1(node, args);
}
break;
case CIL_PASS_CALL2:
if (node->flavor == CIL_CALL) {
rc = cil_resolve_call2(node, args);
}
break;
case CIL_PASS_ALIAS1:
switch (node->flavor) {
case CIL_TYPEALIASACTUAL:
rc = cil_resolve_aliasactual(node, args, CIL_TYPE);
break;
case CIL_SENSALIASACTUAL:
rc = cil_resolve_aliasactual(node, args, CIL_SENS);
break;
case CIL_CATALIASACTUAL:
rc = cil_resolve_aliasactual(node, args, CIL_CAT);
break;
default:
break;
}
break;
case CIL_PASS_ALIAS2:
switch (node->flavor) {
case CIL_TYPEALIAS:
rc = cil_resolve_alias_to_actual(node, CIL_TYPE);
break;
case CIL_SENSALIAS:
rc = cil_resolve_alias_to_actual(node, CIL_SENS);
break;
case CIL_CATALIAS:
rc = cil_resolve_alias_to_actual(node, CIL_CAT);
break;
default:
break;
}
break;
case CIL_PASS_MISC1:
switch (node->flavor) {
case CIL_SIDORDER:
rc = cil_resolve_sidorder(node, args);
break;
case CIL_CLASSORDER:
rc = cil_resolve_classorder(node, args);
break;
case CIL_CATORDER:
rc = cil_resolve_catorder(node, args);
break;
case CIL_SENSITIVITYORDER:
rc = cil_resolve_sensitivityorder(node, args);
break;
case CIL_BOOLEANIF:
rc = cil_resolve_boolif(node, args);
break;
default:
break;
}
break;
case CIL_PASS_MLS:
switch (node->flavor) {
case CIL_CATSET:
rc = cil_resolve_catset(node, (struct cil_catset*)node->data, args);
break;
default:
break;
}
break;
case CIL_PASS_MISC2:
switch (node->flavor) {
case CIL_SENSCAT:
rc = cil_resolve_senscat(node, args);
break;
case CIL_CLASSCOMMON:
rc = cil_resolve_classcommon(node, args);
break;
default:
break;
}
break;
case CIL_PASS_MISC3:
switch (node->flavor) {
case CIL_TYPEATTRIBUTESET:
rc = cil_resolve_typeattributeset(node, args);
break;
case CIL_TYPEBOUNDS:
rc = cil_resolve_bounds(node, args, CIL_TYPE);
break;
case CIL_TYPEPERMISSIVE:
rc = cil_resolve_typepermissive(node, args);
break;
case CIL_NAMETYPETRANSITION:
rc = cil_resolve_nametypetransition(node, args);
break;
case CIL_RANGETRANSITION:
rc = cil_resolve_rangetransition(node, args);
break;
case CIL_CLASSPERMISSIONSET:
rc = cil_resolve_classpermissionset(node, (struct cil_classpermissionset*)node->data, args);
break;
case CIL_CLASSMAPPING:
rc = cil_resolve_classmapping(node, args);
break;
case CIL_AVRULE:
case CIL_AVRULEX:
rc = cil_resolve_avrule(node, args);
break;
case CIL_PERMISSIONX:
rc = cil_resolve_permissionx(node, (struct cil_permissionx*)node->data, args);
break;
case CIL_TYPE_RULE:
rc = cil_resolve_type_rule(node, args);
break;
case CIL_USERROLE:
rc = cil_resolve_userrole(node, args);
break;
case CIL_USERLEVEL:
rc = cil_resolve_userlevel(node, args);
break;
case CIL_USERRANGE:
rc = cil_resolve_userrange(node, args);
break;
case CIL_USERBOUNDS:
rc = cil_resolve_bounds(node, args, CIL_USER);
break;
case CIL_USERPREFIX:
rc = cil_resolve_userprefix(node, args);
break;
case CIL_SELINUXUSER:
case CIL_SELINUXUSERDEFAULT:
rc = cil_resolve_selinuxuser(node, args);
break;
case CIL_ROLEATTRIBUTESET:
rc = cil_resolve_roleattributeset(node, args);
break;
case CIL_ROLETYPE:
rc = cil_resolve_roletype(node, args);
break;
case CIL_ROLETRANSITION:
rc = cil_resolve_roletransition(node, args);
break;
case CIL_ROLEALLOW:
rc = cil_resolve_roleallow(node, args);
break;
case CIL_ROLEBOUNDS:
rc = cil_resolve_bounds(node, args, CIL_ROLE);
break;
case CIL_LEVEL:
rc = cil_resolve_level(node, (struct cil_level*)node->data, args);
break;
case CIL_LEVELRANGE:
rc = cil_resolve_levelrange(node, (struct cil_levelrange*)node->data, args);
break;
case CIL_CONSTRAIN:
rc = cil_resolve_constrain(node, args);
break;
case CIL_MLSCONSTRAIN:
rc = cil_resolve_constrain(node, args);
break;
case CIL_VALIDATETRANS:
case CIL_MLSVALIDATETRANS:
rc = cil_resolve_validatetrans(node, args);
break;
case CIL_CONTEXT:
rc = cil_resolve_context(node, (struct cil_context*)node->data, args);
break;
case CIL_FILECON:
rc = cil_resolve_filecon(node, args);
break;
case CIL_PORTCON:
rc = cil_resolve_portcon(node, args);
break;
case CIL_NODECON:
rc = cil_resolve_nodecon(node, args);
break;
case CIL_GENFSCON:
rc = cil_resolve_genfscon(node, args);
break;
case CIL_NETIFCON:
rc = cil_resolve_netifcon(node, args);
break;
case CIL_PIRQCON:
rc = cil_resolve_pirqcon(node, args);
break;
case CIL_IOMEMCON:
rc = cil_resolve_iomemcon(node, args);
break;
case CIL_IOPORTCON:
rc = cil_resolve_ioportcon(node, args);
break;
case CIL_PCIDEVICECON:
rc = cil_resolve_pcidevicecon(node, args);
break;
case CIL_DEVICETREECON:
rc = cil_resolve_devicetreecon(node, args);
break;
case CIL_FSUSE:
rc = cil_resolve_fsuse(node, args);
break;
case CIL_SIDCONTEXT:
rc = cil_resolve_sidcontext(node, args);
break;
case CIL_DEFAULTUSER:
case CIL_DEFAULTROLE:
case CIL_DEFAULTTYPE:
rc = cil_resolve_default(node, args);
break;
case CIL_DEFAULTRANGE:
rc = cil_resolve_defaultrange(node, args);
break;
case CIL_USERATTRIBUTESET:
rc = cil_resolve_userattributeset(node, args);
break;
default:
break;
}
break;
default:
break;
}
return rc;
exit:
return rc;
}
int __cil_resolve_ast_node_helper(struct cil_tree_node *node, uint32_t *finished, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_args_resolve *args = extra_args;
enum cil_pass pass = args->pass;
struct cil_tree_node *optstack = args->optstack;
struct cil_tree_node *boolif = args->boolif;
struct cil_tree_node *blockstack = args->blockstack;
struct cil_tree_node *macro = args->macro;
if (node == NULL) {
goto exit;
}
if (optstack != NULL) {
if (node->flavor == CIL_TUNABLE || node->flavor == CIL_MACRO) {
/* tuanbles and macros are not allowed in optionals*/
cil_tree_log(node, CIL_ERR, "%s statement is not allowed in optionals", cil_node_to_string(node));
rc = SEPOL_ERR;
goto exit;
}
}
if (blockstack != NULL) {
if (node->flavor == CIL_CAT || node->flavor == CIL_SENS) {
cil_tree_log(node, CIL_ERR, "%s statement is not allowed in blocks", cil_node_to_string(node));
rc = SEPOL_ERR;
goto exit;
}
}
if (macro != NULL) {
if (node->flavor == CIL_BLOCKINHERIT ||
node->flavor == CIL_BLOCK ||
node->flavor == CIL_BLOCKABSTRACT ||
node->flavor == CIL_MACRO) {
cil_tree_log(node, CIL_ERR, "%s statement is not allowed in macros", cil_node_to_string(node));
rc = SEPOL_ERR;
goto exit;
}
}
if (boolif != NULL) {
if (!(node->flavor == CIL_CONDBLOCK ||
node->flavor == CIL_AVRULE ||
node->flavor == CIL_TYPE_RULE ||
node->flavor == CIL_CALL ||
node->flavor == CIL_TUNABLEIF ||
node->flavor == CIL_NAMETYPETRANSITION)) {
if (((struct cil_booleanif*)boolif->data)->preserved_tunable) {
cil_tree_log(node, CIL_ERR, "%s statement is not allowed in booleanifs (tunableif treated as a booleanif)", cil_node_to_string(node));
} else {
cil_tree_log(node, CIL_ERR, "%s statement is not allowed in booleanifs", cil_node_to_string(node));
}
rc = SEPOL_ERR;
goto exit;
}
}
if (node->flavor == CIL_MACRO) {
if (pass != CIL_PASS_TIF && pass != CIL_PASS_MACRO) {
*finished = CIL_TREE_SKIP_HEAD;
rc = SEPOL_OK;
goto exit;
}
}
if (node->flavor == CIL_BLOCK && ((((struct cil_block*)node->data)->is_abstract == CIL_TRUE) && (pass > CIL_PASS_BLKABS))) {
*finished = CIL_TREE_SKIP_HEAD;
rc = SEPOL_OK;
goto exit;
}
rc = __cil_resolve_ast_node(node, extra_args);
if (rc == SEPOL_ENOENT) {
enum cil_log_level lvl = CIL_ERR;
if (optstack != NULL) {
lvl = CIL_WARN;
struct cil_optional *opt = (struct cil_optional *)optstack->data;
struct cil_tree_node *opt_node = opt->datum.nodes->head->data;
cil_tree_log(opt_node, lvl, "Disabling optional '%s'", opt->datum.name);
/* disable an optional if something failed to resolve */
opt->enabled = CIL_FALSE;
rc = SEPOL_OK;
}
cil_tree_log(node, lvl, "Failed to resolve '%s' in %s statement", args->last_resolved_name, cil_node_to_string(node));
goto exit;
}
return rc;
exit:
return rc;
}
int __cil_resolve_ast_first_child_helper(struct cil_tree_node *current, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_args_resolve *args = extra_args;
struct cil_tree_node *optstack = NULL;
struct cil_tree_node *parent = NULL;
struct cil_tree_node *blockstack = NULL;
struct cil_tree_node *new = NULL;
if (current == NULL || extra_args == NULL) {
goto exit;
}
optstack = args->optstack;
parent = current->parent;
blockstack = args->blockstack;
if (parent->flavor == CIL_OPTIONAL || parent->flavor == CIL_BLOCK) {
/* push this node onto a stack */
cil_tree_node_init(&new);
new->data = parent->data;
new->flavor = parent->flavor;
if (parent->flavor == CIL_OPTIONAL) {
if (optstack != NULL) {
optstack->parent = new;
new->cl_head = optstack;
}
args->optstack = new;
} else if (parent->flavor == CIL_BLOCK) {
if (blockstack != NULL) {
blockstack->parent = new;
new->cl_head = blockstack;
}
args->blockstack = new;
}
} else if (parent->flavor == CIL_BOOLEANIF) {
args->boolif = parent;
} else if (parent->flavor == CIL_MACRO) {
args->macro = parent;
}
return SEPOL_OK;
exit:
return rc;
}
int __cil_resolve_ast_last_child_helper(struct cil_tree_node *current, void *extra_args)
{
int rc = SEPOL_ERR;
struct cil_args_resolve *args = extra_args;
struct cil_tree_node *parent = NULL;
struct cil_tree_node *blockstack = NULL;
if (current == NULL || extra_args == NULL) {
goto exit;
}
parent = current->parent;
if (parent->flavor == CIL_MACRO) {
args->macro = NULL;
} else if (parent->flavor == CIL_OPTIONAL) {
struct cil_tree_node *optstack;
if (((struct cil_optional *)parent->data)->enabled == CIL_FALSE) {
*(args->changed) = CIL_TRUE;
cil_tree_children_destroy(parent);
}
/* pop off the stack */
optstack = args->optstack;
args->optstack = optstack->cl_head;
if (optstack->cl_head) {
optstack->cl_head->parent = NULL;
}
free(optstack);
} else if (parent->flavor == CIL_BOOLEANIF) {
args->boolif = NULL;
} else if (parent->flavor == CIL_BLOCK) {
/* pop off the stack */
blockstack = args->blockstack;
args->blockstack = blockstack->cl_head;
if (blockstack->cl_head) {
blockstack->cl_head->parent = NULL;
}
free(blockstack);
}
return SEPOL_OK;
exit:
return rc;
}
int cil_resolve_ast(struct cil_db *db, struct cil_tree_node *current)
{
int rc = SEPOL_ERR;
struct cil_args_resolve extra_args;
enum cil_pass pass = CIL_PASS_TIF;
uint32_t changed = 0;
if (db == NULL || current == NULL) {
goto exit;
}
extra_args.db = db;
extra_args.pass = pass;
extra_args.changed = &changed;
extra_args.last_resolved_name = NULL;
extra_args.optstack = NULL;
extra_args.boolif= NULL;
extra_args.macro = NULL;
extra_args.sidorder_lists = NULL;
extra_args.classorder_lists = NULL;
extra_args.unordered_classorder_lists = NULL;
extra_args.catorder_lists = NULL;
extra_args.sensitivityorder_lists = NULL;
extra_args.in_list = NULL;
extra_args.blockstack = NULL;
cil_list_init(&extra_args.sidorder_lists, CIL_LIST_ITEM);
cil_list_init(&extra_args.classorder_lists, CIL_LIST_ITEM);
cil_list_init(&extra_args.unordered_classorder_lists, CIL_LIST_ITEM);
cil_list_init(&extra_args.catorder_lists, CIL_LIST_ITEM);
cil_list_init(&extra_args.sensitivityorder_lists, CIL_LIST_ITEM);
cil_list_init(&extra_args.in_list, CIL_IN);
for (pass = CIL_PASS_TIF; pass < CIL_PASS_NUM; pass++) {
extra_args.pass = pass;
rc = cil_tree_walk(current, __cil_resolve_ast_node_helper, __cil_resolve_ast_first_child_helper, __cil_resolve_ast_last_child_helper, &extra_args);
if (rc != SEPOL_OK) {
cil_log(CIL_INFO, "Pass %i of resolution failed\n", pass);
goto exit;
}
if (pass == CIL_PASS_IN) {
rc = cil_resolve_in_list(&extra_args);
if (rc != SEPOL_OK) {
goto exit;
}
cil_list_destroy(&extra_args.in_list, CIL_FALSE);
}
if (pass == CIL_PASS_MISC1) {
db->sidorder = __cil_ordered_lists_merge_all(&extra_args.sidorder_lists, NULL);
if (db->sidorder == NULL) {
rc = SEPOL_ERR;
goto exit;
}
db->classorder = __cil_ordered_lists_merge_all(&extra_args.classorder_lists, &extra_args.unordered_classorder_lists);
if (db->classorder == NULL) {
rc = SEPOL_ERR;
goto exit;
}
db->catorder = __cil_ordered_lists_merge_all(&extra_args.catorder_lists, NULL);
if (db->catorder == NULL) {
rc = SEPOL_ERR;
goto exit;
}
cil_set_cat_values(db->catorder, db);
db->sensitivityorder = __cil_ordered_lists_merge_all(&extra_args.sensitivityorder_lists, NULL);
if (db->sensitivityorder == NULL) {
rc = SEPOL_ERR;
goto exit;
}
rc = __cil_verify_ordered(current, CIL_SID);
if (rc != SEPOL_OK) {
goto exit;
}
rc = __cil_verify_ordered(current, CIL_CLASS);
if (rc != SEPOL_OK) {
goto exit;
}
rc = __cil_verify_ordered(current, CIL_CAT);
if (rc != SEPOL_OK) {
goto exit;
}
rc = __cil_verify_ordered(current, CIL_SENS);
if (rc != SEPOL_OK) {
goto exit;
}
}
if (changed && (pass > CIL_PASS_CALL1)) {
/* Need to re-resolve because an optional was disabled that contained
* one or more declarations. We only need to reset to the call1 pass
* because things done in the preceeding passes aren't allowed in
* optionals, and thus can't be disabled.
* Note: set pass to CIL_PASS_CALL1 because the pass++ will increment
* it to CIL_PASS_CALL2
*/
cil_log(CIL_INFO, "Resetting declarations\n");
if (pass >= CIL_PASS_MISC1) {
__cil_ordered_lists_reset(&extra_args.sidorder_lists);
__cil_ordered_lists_reset(&extra_args.classorder_lists);
__cil_ordered_lists_reset(&extra_args.unordered_classorder_lists);
__cil_ordered_lists_reset(&extra_args.catorder_lists);
__cil_ordered_lists_reset(&extra_args.sensitivityorder_lists);
cil_list_destroy(&db->sidorder, CIL_FALSE);
cil_list_destroy(&db->classorder, CIL_FALSE);
cil_list_destroy(&db->catorder, CIL_FALSE);
cil_list_destroy(&db->sensitivityorder, CIL_FALSE);
}
pass = CIL_PASS_CALL1;
rc = cil_reset_ast(current);
if (rc != SEPOL_OK) {
cil_log(CIL_ERR, "Failed to reset declarations\n");
goto exit;
}
}
/* reset the arguments */
changed = 0;
while (extra_args.optstack != NULL) {
struct cil_tree_node *curr = extra_args.optstack;
struct cil_tree_node *next = curr->cl_head;
free(curr);
extra_args.optstack = next;
}
while (extra_args.blockstack!= NULL) {
struct cil_tree_node *curr = extra_args.blockstack;
struct cil_tree_node *next = curr->cl_head;
free(curr);
extra_args.blockstack= next;
}
}
rc = __cil_verify_initsids(db->sidorder);
if (rc != SEPOL_OK) {
goto exit;
}
rc = SEPOL_OK;
exit:
__cil_ordered_lists_destroy(&extra_args.sidorder_lists);
__cil_ordered_lists_destroy(&extra_args.classorder_lists);
__cil_ordered_lists_destroy(&extra_args.catorder_lists);
__cil_ordered_lists_destroy(&extra_args.sensitivityorder_lists);
cil_list_destroy(&extra_args.in_list, CIL_FALSE);
return rc;
}
static int __cil_resolve_name_with_root(struct cil_db *db, char *name, enum cil_sym_index sym_index, struct cil_symtab_datum **datum)
{
symtab_t *symtab = &((struct cil_root *)db->ast->root->data)->symtab[sym_index];
return cil_symtab_get_datum(symtab, name, datum);
}
static int __cil_resolve_name_with_parents(struct cil_tree_node *node, char *name, enum cil_sym_index sym_index, struct cil_symtab_datum **datum)
{
int rc = SEPOL_ERR;
symtab_t *symtab = NULL;
while (node != NULL && rc != SEPOL_OK) {
switch (node->flavor) {
case CIL_ROOT:
goto exit;
break;
case CIL_BLOCK:
symtab = &((struct cil_block*)node->data)->symtab[sym_index];
rc = cil_symtab_get_datum(symtab, name, datum);
break;
case CIL_BLOCKINHERIT: {
struct cil_blockinherit *inherit = node->data;
rc = __cil_resolve_name_with_parents(node->parent, name, sym_index, datum);
if (rc != SEPOL_OK) {
/* Continue search in original block's parent */
rc = __cil_resolve_name_with_parents(NODE(inherit->block), name, sym_index, datum);
goto exit;
}
}
break;
case CIL_MACRO: {
struct cil_macro *macro = node->data;
symtab = &macro->symtab[sym_index];
rc = cil_symtab_get_datum(symtab, name, datum);
}
break;
case CIL_CALL: {
struct cil_call *call = node->data;
rc = cil_resolve_name_call_args(call, name, sym_index, datum);
if (rc != SEPOL_OK) {
/* Continue search in macro's parent */
rc = __cil_resolve_name_with_parents(NODE(call->macro)->parent, name, sym_index, datum);
}
}
break;
case CIL_IN:
/* In block symtabs only exist before resolving the AST */
case CIL_CONDBLOCK:
/* Cond block symtabs only exist before resolving the AST */
default:
break;
}
node = node->parent;
}
exit:
return rc;
}
static int __cil_resolve_name_helper(struct cil_db *db, struct cil_tree_node *node, char *name, enum cil_sym_index sym_index, struct cil_symtab_datum **datum)
{
int rc = SEPOL_ERR;
rc = __cil_resolve_name_with_parents(node, name, sym_index, datum);
if (rc != SEPOL_OK) {
rc = __cil_resolve_name_with_root(db, name, sym_index, datum);
}
return rc;
}
int cil_resolve_name(struct cil_tree_node *ast_node, char *name, enum cil_sym_index sym_index, void *extra_args, struct cil_symtab_datum **datum)
{
int rc = SEPOL_ERR;
struct cil_args_resolve *args = extra_args;
struct cil_db *db = args->db;
struct cil_tree_node *node = NULL;
if (name == NULL) {
cil_log(CIL_ERR, "Invalid call to cil_resolve_name\n");
goto exit;
}
*datum = NULL;
if (strchr(name,'.') == NULL) {
/* No '.' in name */
rc = __cil_resolve_name_helper(db, ast_node->parent, name, sym_index, datum);
if (rc != SEPOL_OK) {
goto exit;
}
} else {
char *sp = NULL;
char *name_dup = cil_strdup(name);
char *current = strtok_r(name_dup, ".", &sp);
char *next = strtok_r(NULL, ".", &sp);
symtab_t *symtab = NULL;
node = ast_node;
if (*name == '.') {
/* Leading '.' */
symtab = &((struct cil_root *)db->ast->root->data)->symtab[CIL_SYM_BLOCKS];
} else {
rc = __cil_resolve_name_helper(db, node->parent, current, CIL_SYM_BLOCKS, datum);
if (rc != SEPOL_OK) {
free(name_dup);
goto exit;
}
symtab = (*datum)->symtab;
}
/* Keep looking up blocks by name until only last part of name remains */
while (next != NULL) {
rc = cil_symtab_get_datum(symtab, current, datum);
if (rc != SEPOL_OK) {
free(name_dup);
goto exit;
}
node = NODE(*datum);
if (node->flavor == CIL_BLOCK) {
symtab = &((struct cil_block*)node->data)->symtab[CIL_SYM_BLOCKS];
} else {
if (ast_node->flavor != CIL_IN) {
cil_log(CIL_WARN, "Can only use %s name for name resolution in \"in\" blocks\n", cil_node_to_string(node));
free(name_dup);
rc = SEPOL_ERR;
goto exit;
}
if (node->flavor == CIL_MACRO) {
struct cil_macro *macro = node->data;
symtab = &macro->symtab[sym_index];
} else {
/* optional */
symtab = (*datum)->symtab;
}
}
current = next;
next = strtok_r(NULL, ".", &sp);
}
symtab = &(symtab[sym_index]);
rc = cil_symtab_get_datum(symtab, current, datum);
free(name_dup);
if (rc != SEPOL_OK) {
goto exit;
}
}
rc = SEPOL_OK;
exit:
if (rc != SEPOL_OK) {
*datum = NULL;
}
if (*datum != NULL) {
/* If this datum is an alias, then return the actual node
* This depends on aliases already being processed
*/
node = NODE(*datum);
if (node->flavor == CIL_TYPEALIAS || node->flavor == CIL_SENSALIAS
|| node->flavor == CIL_CATALIAS) {
struct cil_alias *alias = (struct cil_alias *)(*datum);
if (alias->actual) {
*datum = alias->actual;
}
}
}
args->last_resolved_name = name;
return rc;
}