selinux/libsepol/cil/src/cil_reset_ast.c - nest-cam/4320010/selinux - Git at Google


 #include "cil_internal.h"
 #include "cil_log.h"
 #include "cil_list.h"
 #include "cil_symtab.h"

 static inline void cil_reset_classperms_list(struct cil_list *cp_list);
 static inline void cil_reset_level(struct cil_level *level);
 static inline void cil_reset_levelrange(struct cil_levelrange *levelrange);
 static inline void cil_reset_context(struct cil_context *context);


 static int __class_reset_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;
 }

 static void cil_reset_class(struct cil_class *class)
 {
 	if (class->common != NULL) {
 		struct cil_class *common = class->common;
 		cil_symtab_map(&class->perms, __class_reset_perm_values, &common->num_perms);
 		/* during a re-resolve, we need to reset the common, so a classcommon
 		 * statement isn't seen as a duplicate */
 		class->num_perms -= common->num_perms;
 		class->common = NULL; /* Must make this NULL or there will be an error when re-resolving */
 	}
 	class->ordered = CIL_FALSE;
 }

 static void cil_reset_perm(struct cil_perm *perm)
 {
 	cil_reset_classperms_list(perm->classperms);
 }

 static inline void cil_reset_classperms(struct cil_classperms *cp)
 {
 	if (cp == NULL) {
 		return;
 	}

 	cil_list_destroy(&cp->perms, CIL_FALSE);
 }

 static void cil_reset_classpermission(struct cil_classpermission *cp)
 {
 	if (cp == NULL) {
 		return;
 	}

 	cil_reset_classperms_list(cp->classperms);
 }

 static void cil_reset_classperms_set(struct cil_classperms_set *cp_set)
 {
 	cil_reset_classpermission(cp_set->set);
 }

 static inline void cil_reset_classperms_list(struct cil_list *cp_list)
 {
 	struct cil_list_item *curr;

 	if (cp_list == NULL) {
 		return;
 	}

 	cil_list_for_each(curr, cp_list) {
 		if (curr->flavor == CIL_CLASSPERMS) { /* KERNEL or MAP */
 			cil_reset_classperms(curr->data);
 		} else if (curr->flavor == CIL_CLASSPERMS_SET) { /* SET */
 			cil_reset_classperms_set(curr->data);
 		}
 	}
 }

 static void cil_reset_classpermissionset(struct cil_classpermissionset *cps)
 {
 	cil_reset_classperms_list(cps->classperms);
 }

 static void cil_reset_classmapping(struct cil_classmapping *cm)
 {
 	cil_reset_classperms_list(cm->classperms);
 }

 static void cil_reset_alias(struct cil_alias *alias)
 {
 	/* reset actual to NULL during a re-resolve */
 	alias->actual = NULL;
 }

 static void cil_reset_user(struct cil_user *user)
 {
 	/* reset the bounds to NULL during a re-resolve */
 	user->bounds = NULL;
 	user->dftlevel = NULL;
 	user->range = NULL;
 }

 static void cil_reset_userattr(struct cil_userattribute *attr)
 {
 	struct cil_list_item *expr = NULL;
 	struct cil_list_item *next = NULL;

 	/* during a re-resolve, we need to reset the lists of expression stacks associated with this attribute from a userattribute statement */
 	if (attr->expr_list != NULL) {
 		/* we don't want to destroy the expression stacks (cil_list) inside
 		 * this list cil_list_destroy destroys sublists, so we need to do it
 		 * manually */
 		expr = attr->expr_list->head;
 		while (expr != NULL) {
 			next = expr->next;
 			cil_list_item_destroy(&expr, CIL_FALSE);
 			expr = next;
 		}
 		free(attr->expr_list);
 		attr->expr_list = NULL;
 	}
 }

 static void cil_reset_userattributeset(struct cil_userattributeset *uas)
 {
 	cil_list_destroy(&uas->datum_expr, CIL_FALSE);
 }

 static void cil_reset_selinuxuser(struct cil_selinuxuser *selinuxuser)
 {
 	if (selinuxuser->range_str == NULL) {
 		cil_reset_levelrange(selinuxuser->range);
 	}
 }

 static void cil_reset_role(struct cil_role *role)
 {
 	/* reset the bounds to NULL during a re-resolve */
 	role->bounds = NULL;
 }

 static void cil_reset_roleattr(struct cil_roleattribute *attr)
 {
 	/* during a re-resolve, we need to reset the lists of expression stacks  associated with this attribute from a attributeroles statement */
 	if (attr->expr_list != NULL) {
 		/* we don't want to destroy the expression stacks (cil_list) inside
 		 * this list cil_list_destroy destroys sublists, so we need to do it
 		 * manually */
 		struct cil_list_item *expr = attr->expr_list->head;
 		while (expr != NULL) {
 			struct cil_list_item *next = expr->next;
 			cil_list_item_destroy(&expr, CIL_FALSE);
 			expr = next;
 		}
 		free(attr->expr_list);
 		attr->expr_list = NULL;
 	}
 }

 static void cil_reset_roleattributeset(struct cil_roleattributeset *ras)
 {
 	cil_list_destroy(&ras->datum_expr, CIL_FALSE);
 }

 static void cil_reset_type(struct cil_type *type)
 {
 	/* reset the bounds to NULL during a re-resolve */
 	type->bounds = NULL;
 }

 static void cil_reset_typeattr(struct cil_typeattribute *attr)
 {
 	/* during a re-resolve, we need to reset the lists of expression stacks  associated with this attribute from a attributetypes statement */
 	if (attr->expr_list != NULL) {
 		/* we don't want to destroy the expression stacks (cil_list) inside
 		 * this list cil_list_destroy destroys sublists, so we need to do it
 		 * manually */
 		struct cil_list_item *expr = attr->expr_list->head;
 		while (expr != NULL) {
 			struct cil_list_item *next = expr->next;
 			cil_list_item_destroy(&expr, CIL_FALSE);
 			expr = next;
 		}
 		free(attr->expr_list);
 		attr->expr_list = NULL;
 	}
 	attr->used = CIL_FALSE;
 }

 static void cil_reset_typeattributeset(struct cil_typeattributeset *tas)
 {
 	cil_list_destroy(&tas->datum_expr, CIL_FALSE);
 }

 static void cil_reset_avrule(struct cil_avrule *rule)
 {
 	cil_reset_classperms_list(rule->perms.classperms);
 }

 static void cil_reset_rangetransition(struct cil_rangetransition *rangetrans)
 {
 	if (rangetrans->range_str == NULL) {
 		cil_reset_levelrange(rangetrans->range);
 	}
 }

 static void cil_reset_sens(struct cil_sens *sens)
 {
 	/* during a re-resolve, we need to reset the categories associated with
 	 * this sensitivity from a (sensitivitycategory) statement */
 	cil_list_destroy(&sens->cats_list, CIL_FALSE);
 	sens->ordered = CIL_FALSE;
 }

 static void cil_reset_cat(struct cil_cat *cat)
 {
 	cat->ordered = CIL_FALSE;
 }

 static inline void cil_reset_cats(struct cil_cats *cats)
 {
 	if (cats != NULL) {
 		cats->evaluated = CIL_FALSE;
 		cil_list_destroy(&cats->datum_expr, CIL_FALSE);
 	}
 }


 static void cil_reset_senscat(struct cil_senscat *senscat)
 {
 	cil_reset_cats(senscat->cats);
 }

 static void cil_reset_catset(struct cil_catset *catset)
 {
 	cil_reset_cats(catset->cats);
 }

 static inline void cil_reset_level(struct cil_level *level)
 {
 	cil_reset_cats(level->cats);
 }

 static inline void cil_reset_levelrange(struct cil_levelrange *levelrange)
 {
 	if (levelrange->low_str == NULL) {
 		cil_reset_level(levelrange->low);
 	}

 	if (levelrange->high_str == NULL) {
 		cil_reset_level(levelrange->high);
 	}
 }

 static inline void cil_reset_userlevel(struct cil_userlevel *userlevel)
 {
 	if (userlevel->level_str == NULL) {
 		cil_reset_level(userlevel->level);
 	}
 }

 static inline void cil_reset_userrange(struct cil_userrange *userrange)
 {
 	if (userrange->range_str == NULL) {
 		cil_reset_levelrange(userrange->range);
 	}
 }

 static inline void cil_reset_context(struct cil_context *context)
 {
 	if (context->range_str == NULL) {
 		cil_reset_levelrange(context->range);
 	}
 }

 static void cil_reset_sidcontext(struct cil_sidcontext *sidcontext)
 {
 	if (sidcontext->context_str == NULL) {
 		cil_reset_context(sidcontext->context);
 	}
 }

 static void cil_reset_filecon(struct cil_filecon *filecon)
 {
 	if (filecon->context_str == NULL && filecon->context != NULL) {
 		cil_reset_context(filecon->context);
 	}
 }

 static void cil_reset_portcon(struct cil_portcon *portcon)
 {
 	if (portcon->context_str == NULL) {
 		cil_reset_context(portcon->context);
 	}
 }

 static void cil_reset_nodecon(struct cil_nodecon *nodecon)
 {
 	if (nodecon->context_str == NULL) {
 		cil_reset_context(nodecon->context);
 	}
 }

 static void cil_reset_genfscon(struct cil_genfscon *genfscon)
 {
 	if (genfscon->context_str == NULL) {
 		cil_reset_context(genfscon->context);
 	}
 }

 static void cil_reset_netifcon(struct cil_netifcon *netifcon)
 {
 	if (netifcon->if_context_str == NULL) {
 		cil_reset_context(netifcon->if_context);
 	}

 	if (netifcon->packet_context_str == NULL) {
 		cil_reset_context(netifcon->packet_context);
 	}
 }

 static void cil_reset_pirqcon(struct cil_pirqcon *pirqcon)
 {
 	if (pirqcon->context_str == NULL) {
 		cil_reset_context(pirqcon->context);
 	}
 }

 static void cil_reset_iomemcon(struct cil_iomemcon *iomemcon)
 {
 	if (iomemcon->context_str == NULL) {
 		cil_reset_context(iomemcon->context);
 	}
 }

 static void cil_reset_ioportcon(struct cil_ioportcon *ioportcon)
 {
 	if (ioportcon->context_str == NULL) {
 		cil_reset_context(ioportcon->context);
 	}
 }

 static void cil_reset_pcidevicecon(struct cil_pcidevicecon *pcidevicecon)
 {
 	if (pcidevicecon->context_str == NULL) {
 		cil_reset_context(pcidevicecon->context);
 	}
 }

 static void cil_reset_devicetreecon(struct cil_devicetreecon *devicetreecon)
 {
 	if (devicetreecon->context_str == NULL) {
 		cil_reset_context(devicetreecon->context);
 	}
 }

 static void cil_reset_fsuse(struct cil_fsuse *fsuse)
 {
 	if (fsuse->context_str == NULL) {
 		cil_reset_context(fsuse->context);
 	}
 }

 static void cil_reset_sid(struct cil_sid *sid)
 {
 	/* reset the context to NULL during a re-resolve */
 	sid->context = NULL;
 	sid->ordered = CIL_FALSE;
 }

 static void cil_reset_constrain(struct cil_constrain *con)
 {
 	cil_reset_classperms_list(con->classperms);
 	cil_list_destroy(&con->datum_expr, CIL_FALSE);
 }

 static void cil_reset_validatetrans(struct cil_validatetrans *vt)
 {
 	cil_list_destroy(&vt->datum_expr, CIL_FALSE);
 }

 static void cil_reset_default(struct cil_default *def)
 {
 	cil_list_destroy(&def->class_datums, CIL_FALSE);
 }

 static void cil_reset_defaultrange(struct cil_defaultrange *def)
 {
 	cil_list_destroy(&def->class_datums, CIL_FALSE);
 }

 static void cil_reset_booleanif(struct cil_booleanif *bif)
 {
 	cil_list_destroy(&bif->datum_expr, CIL_FALSE);
 }

 int __cil_reset_node(struct cil_tree_node *node,  __attribute__((unused)) uint32_t *finished, __attribute__((unused)) void *extra_args)
 {
 	switch (node->flavor) {
 	case CIL_CLASS:
 		cil_reset_class(node->data);
 		break;
 	case CIL_PERM:
 	case CIL_MAP_PERM:
 		cil_reset_perm(node->data);
 		break;
 	case CIL_CLASSPERMISSION:
 		cil_reset_classpermission(node->data);
 		break;
 	case CIL_CLASSPERMISSIONSET:
 		cil_reset_classpermissionset(node->data);
 		break;
 	case CIL_CLASSMAPPING:
 		cil_reset_classmapping(node->data);
 		break;
 	case CIL_TYPEALIAS:
 	case CIL_SENSALIAS:
 	case CIL_CATALIAS:
 		cil_reset_alias(node->data);
 		break;
 	case CIL_USERRANGE:
 		cil_reset_userrange(node->data);
 		break;
 	case CIL_USERLEVEL:
 		cil_reset_userlevel(node->data);
 		break;
 	case CIL_USER:
 		cil_reset_user(node->data);
 		break;
 	case CIL_USERATTRIBUTE:
 		cil_reset_userattr(node->data);
 		break;
 	case CIL_USERATTRIBUTESET:
 		cil_reset_userattributeset(node->data);
 		break;
 	case CIL_SELINUXUSERDEFAULT:
 	case CIL_SELINUXUSER:
 		cil_reset_selinuxuser(node->data);
 		break;
 	case CIL_ROLE:
 		cil_reset_role(node->data);
 		break;
 	case CIL_ROLEATTRIBUTE:
 		cil_reset_roleattr(node->data);
 		break;
 	case CIL_ROLEATTRIBUTESET:
 		cil_reset_roleattributeset(node->data);
 		break;
 	case CIL_TYPE:
 		cil_reset_type(node->data);
 		break;
 	case CIL_TYPEATTRIBUTE:
 		cil_reset_typeattr(node->data);
 		break;
 	case CIL_TYPEATTRIBUTESET:
 		cil_reset_typeattributeset(node->data);
 		break;
 	case CIL_RANGETRANSITION:
 		cil_reset_rangetransition(node->data);
 		break;
 	case CIL_AVRULE:
 		cil_reset_avrule(node->data);
 		break;
 	case CIL_SENS:
 		cil_reset_sens(node->data);
 		break;
 	case CIL_CAT:
 		cil_reset_cat(node->data);
 		break;
 	case CIL_SENSCAT:
 		cil_reset_senscat(node->data);
 		break;
 	case CIL_CATSET:
 		cil_reset_catset(node->data);
 		break;
 	case CIL_LEVEL:
 		cil_reset_level(node->data);
 		break;
 	case CIL_LEVELRANGE:
 		cil_reset_levelrange(node->data);
 		break;
 	case CIL_CONTEXT:
 		cil_reset_context(node->data);
 		break;
 	case CIL_SIDCONTEXT:
 		cil_reset_sidcontext(node->data);
 		break;
 	case CIL_FILECON:
 		cil_reset_filecon(node->data);
 		break;
 	case CIL_PORTCON:
 		cil_reset_portcon(node->data);
 		break;
 	case CIL_NODECON:
 		cil_reset_nodecon(node->data);
 		break;
 	case CIL_GENFSCON:
 		cil_reset_genfscon(node->data);
 		break;
 	case CIL_NETIFCON:
 		cil_reset_netifcon(node->data);
 		break;
 	case CIL_PIRQCON:
 		cil_reset_pirqcon(node->data);
 		break;
 	case CIL_IOMEMCON:
 		cil_reset_iomemcon(node->data);
 		break;
 	case CIL_IOPORTCON:
 		cil_reset_ioportcon(node->data);
 		break;
 	case CIL_PCIDEVICECON:
 		cil_reset_pcidevicecon(node->data);
 		break;
 	case CIL_DEVICETREECON:
 		cil_reset_devicetreecon(node->data);
 		break;
 	case CIL_FSUSE:
 		cil_reset_fsuse(node->data);
 		break;
 	case CIL_SID:
 		cil_reset_sid(node->data);
 		break;
 	case CIL_CONSTRAIN:
 	case CIL_MLSCONSTRAIN:
 		cil_reset_constrain(node->data);
 		break;
 	case CIL_VALIDATETRANS:
 	case CIL_MLSVALIDATETRANS:
 		cil_reset_validatetrans(node->data);
 		break;
 	case CIL_DEFAULTUSER:
 	case CIL_DEFAULTROLE:
 	case CIL_DEFAULTTYPE:
 		cil_reset_default(node->data);
 		break;
 	case CIL_DEFAULTRANGE:
 		cil_reset_defaultrange(node->data);
 		break;
 	case CIL_BOOLEANIF:
 		cil_reset_booleanif(node->data);
 		break;
 	case CIL_TUNABLEIF:
 	case CIL_CALL:
 		break; /* Not effected by optional block disabling */
 	case CIL_MACRO:
 	case CIL_SIDORDER:
 	case CIL_CLASSORDER:
 	case CIL_CATORDER:
 	case CIL_SENSITIVITYORDER:
 		break; /* Nothing to reset */
 	default:
 		break;
 	}

 	return SEPOL_OK;
 }

 int cil_reset_ast(struct cil_tree_node *current)
 {
 	int rc = SEPOL_ERR;

 	rc = cil_tree_walk(current, __cil_reset_node, NULL, NULL, NULL);
 	if (rc != SEPOL_OK) {
 		cil_log(CIL_ERR, "Failed to reset AST\n");
 		return SEPOL_ERR;
 	}

 	return SEPOL_OK;
 }

	#include "cil_internal.h"
	#include "cil_log.h"
	#include "cil_list.h"
	#include "cil_symtab.h"

	static inline void cil_reset_classperms_list(struct cil_list *cp_list);
	static inline void cil_reset_level(struct cil_level *level);
	static inline void cil_reset_levelrange(struct cil_levelrange *levelrange);
	static inline void cil_reset_context(struct cil_context *context);


	static int __class_reset_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;
	}

	static void cil_reset_class(struct cil_class *class)
	{
	if (class->common != NULL) {
	struct cil_class *common = class->common;
	cil_symtab_map(&class->perms, __class_reset_perm_values, &common->num_perms);
	/* during a re-resolve, we need to reset the common, so a classcommon
	* statement isn't seen as a duplicate */
	class->num_perms -= common->num_perms;
	class->common = NULL; /* Must make this NULL or there will be an error when re-resolving */
	}
	class->ordered = CIL_FALSE;
	}

	static void cil_reset_perm(struct cil_perm *perm)
	{
	cil_reset_classperms_list(perm->classperms);
	}

	static inline void cil_reset_classperms(struct cil_classperms *cp)
	{
	if (cp == NULL) {
	return;
	}

	cil_list_destroy(&cp->perms, CIL_FALSE);
	}

	static void cil_reset_classpermission(struct cil_classpermission *cp)
	{
	if (cp == NULL) {
	return;
	}

	cil_reset_classperms_list(cp->classperms);
	}

	static void cil_reset_classperms_set(struct cil_classperms_set *cp_set)
	{
	cil_reset_classpermission(cp_set->set);
	}

	static inline void cil_reset_classperms_list(struct cil_list *cp_list)
	{
	struct cil_list_item *curr;

	if (cp_list == NULL) {
	return;
	}

	cil_list_for_each(curr, cp_list) {
	if (curr->flavor == CIL_CLASSPERMS) { /* KERNEL or MAP */
	cil_reset_classperms(curr->data);
	} else if (curr->flavor == CIL_CLASSPERMS_SET) { /* SET */
	cil_reset_classperms_set(curr->data);
	}
	}
	}

	static void cil_reset_classpermissionset(struct cil_classpermissionset *cps)
	{
	cil_reset_classperms_list(cps->classperms);
	}

	static void cil_reset_classmapping(struct cil_classmapping *cm)
	{
	cil_reset_classperms_list(cm->classperms);
	}

	static void cil_reset_alias(struct cil_alias *alias)
	{
	/* reset actual to NULL during a re-resolve */
	alias->actual = NULL;
	}

	static void cil_reset_user(struct cil_user *user)
	{
	/* reset the bounds to NULL during a re-resolve */
	user->bounds = NULL;
	user->dftlevel = NULL;
	user->range = NULL;
	}

	static void cil_reset_userattr(struct cil_userattribute *attr)
	{
	struct cil_list_item *expr = NULL;
	struct cil_list_item *next = NULL;

	/* during a re-resolve, we need to reset the lists of expression stacks associated with this attribute from a userattribute statement */
	if (attr->expr_list != NULL) {
	/* we don't want to destroy the expression stacks (cil_list) inside
	* this list cil_list_destroy destroys sublists, so we need to do it
	* manually */
	expr = attr->expr_list->head;
	while (expr != NULL) {
	next = expr->next;
	cil_list_item_destroy(&expr, CIL_FALSE);
	expr = next;
	}
	free(attr->expr_list);
	attr->expr_list = NULL;
	}
	}

	static void cil_reset_userattributeset(struct cil_userattributeset *uas)
	{
	cil_list_destroy(&uas->datum_expr, CIL_FALSE);
	}

	static void cil_reset_selinuxuser(struct cil_selinuxuser *selinuxuser)
	{
	if (selinuxuser->range_str == NULL) {
	cil_reset_levelrange(selinuxuser->range);
	}
	}

	static void cil_reset_role(struct cil_role *role)
	{
	/* reset the bounds to NULL during a re-resolve */
	role->bounds = NULL;
	}

	static void cil_reset_roleattr(struct cil_roleattribute *attr)
	{
	/* during a re-resolve, we need to reset the lists of expression stacks associated with this attribute from a attributeroles statement */
	if (attr->expr_list != NULL) {
	/* we don't want to destroy the expression stacks (cil_list) inside
	* this list cil_list_destroy destroys sublists, so we need to do it
	* manually */
	struct cil_list_item *expr = attr->expr_list->head;
	while (expr != NULL) {
	struct cil_list_item *next = expr->next;
	cil_list_item_destroy(&expr, CIL_FALSE);
	expr = next;
	}
	free(attr->expr_list);
	attr->expr_list = NULL;
	}
	}

	static void cil_reset_roleattributeset(struct cil_roleattributeset *ras)
	{
	cil_list_destroy(&ras->datum_expr, CIL_FALSE);
	}

	static void cil_reset_type(struct cil_type *type)
	{
	/* reset the bounds to NULL during a re-resolve */
	type->bounds = NULL;
	}

	static void cil_reset_typeattr(struct cil_typeattribute *attr)
	{
	/* during a re-resolve, we need to reset the lists of expression stacks associated with this attribute from a attributetypes statement */
	if (attr->expr_list != NULL) {
	/* we don't want to destroy the expression stacks (cil_list) inside
	* this list cil_list_destroy destroys sublists, so we need to do it
	* manually */
	struct cil_list_item *expr = attr->expr_list->head;
	while (expr != NULL) {
	struct cil_list_item *next = expr->next;
	cil_list_item_destroy(&expr, CIL_FALSE);
	expr = next;
	}
	free(attr->expr_list);
	attr->expr_list = NULL;
	}
	attr->used = CIL_FALSE;
	}

	static void cil_reset_typeattributeset(struct cil_typeattributeset *tas)
	{
	cil_list_destroy(&tas->datum_expr, CIL_FALSE);
	}

	static void cil_reset_avrule(struct cil_avrule *rule)
	{
	cil_reset_classperms_list(rule->perms.classperms);
	}

	static void cil_reset_rangetransition(struct cil_rangetransition *rangetrans)
	{
	if (rangetrans->range_str == NULL) {
	cil_reset_levelrange(rangetrans->range);
	}
	}

	static void cil_reset_sens(struct cil_sens *sens)
	{
	/* during a re-resolve, we need to reset the categories associated with
	* this sensitivity from a (sensitivitycategory) statement */
	cil_list_destroy(&sens->cats_list, CIL_FALSE);
	sens->ordered = CIL_FALSE;
	}

	static void cil_reset_cat(struct cil_cat *cat)
	{
	cat->ordered = CIL_FALSE;
	}

	static inline void cil_reset_cats(struct cil_cats *cats)
	{
	if (cats != NULL) {
	cats->evaluated = CIL_FALSE;
	cil_list_destroy(&cats->datum_expr, CIL_FALSE);
	}
	}


	static void cil_reset_senscat(struct cil_senscat *senscat)
	{
	cil_reset_cats(senscat->cats);
	}

	static void cil_reset_catset(struct cil_catset *catset)
	{
	cil_reset_cats(catset->cats);
	}

	static inline void cil_reset_level(struct cil_level *level)
	{
	cil_reset_cats(level->cats);
	}

	static inline void cil_reset_levelrange(struct cil_levelrange *levelrange)
	{
	if (levelrange->low_str == NULL) {
	cil_reset_level(levelrange->low);
	}

	if (levelrange->high_str == NULL) {
	cil_reset_level(levelrange->high);
	}
	}

	static inline void cil_reset_userlevel(struct cil_userlevel *userlevel)
	{
	if (userlevel->level_str == NULL) {
	cil_reset_level(userlevel->level);
	}
	}

	static inline void cil_reset_userrange(struct cil_userrange *userrange)
	{
	if (userrange->range_str == NULL) {
	cil_reset_levelrange(userrange->range);
	}
	}

	static inline void cil_reset_context(struct cil_context *context)
	{
	if (context->range_str == NULL) {
	cil_reset_levelrange(context->range);
	}
	}

	static void cil_reset_sidcontext(struct cil_sidcontext *sidcontext)
	{
	if (sidcontext->context_str == NULL) {
	cil_reset_context(sidcontext->context);
	}
	}

	static void cil_reset_filecon(struct cil_filecon *filecon)
	{
	if (filecon->context_str == NULL && filecon->context != NULL) {
	cil_reset_context(filecon->context);
	}
	}

	static void cil_reset_portcon(struct cil_portcon *portcon)
	{
	if (portcon->context_str == NULL) {
	cil_reset_context(portcon->context);
	}
	}

	static void cil_reset_nodecon(struct cil_nodecon *nodecon)
	{
	if (nodecon->context_str == NULL) {
	cil_reset_context(nodecon->context);
	}
	}

	static void cil_reset_genfscon(struct cil_genfscon *genfscon)
	{
	if (genfscon->context_str == NULL) {
	cil_reset_context(genfscon->context);
	}
	}

	static void cil_reset_netifcon(struct cil_netifcon *netifcon)
	{
	if (netifcon->if_context_str == NULL) {
	cil_reset_context(netifcon->if_context);
	}

	if (netifcon->packet_context_str == NULL) {
	cil_reset_context(netifcon->packet_context);
	}
	}

	static void cil_reset_pirqcon(struct cil_pirqcon *pirqcon)
	{
	if (pirqcon->context_str == NULL) {
	cil_reset_context(pirqcon->context);
	}
	}

	static void cil_reset_iomemcon(struct cil_iomemcon *iomemcon)
	{
	if (iomemcon->context_str == NULL) {
	cil_reset_context(iomemcon->context);
	}
	}

	static void cil_reset_ioportcon(struct cil_ioportcon *ioportcon)
	{
	if (ioportcon->context_str == NULL) {
	cil_reset_context(ioportcon->context);
	}
	}

	static void cil_reset_pcidevicecon(struct cil_pcidevicecon *pcidevicecon)
	{
	if (pcidevicecon->context_str == NULL) {
	cil_reset_context(pcidevicecon->context);
	}
	}

	static void cil_reset_devicetreecon(struct cil_devicetreecon *devicetreecon)
	{
	if (devicetreecon->context_str == NULL) {
	cil_reset_context(devicetreecon->context);
	}
	}

	static void cil_reset_fsuse(struct cil_fsuse *fsuse)
	{
	if (fsuse->context_str == NULL) {
	cil_reset_context(fsuse->context);
	}
	}

	static void cil_reset_sid(struct cil_sid *sid)
	{
	/* reset the context to NULL during a re-resolve */
	sid->context = NULL;
	sid->ordered = CIL_FALSE;
	}

	static void cil_reset_constrain(struct cil_constrain *con)
	{
	cil_reset_classperms_list(con->classperms);
	cil_list_destroy(&con->datum_expr, CIL_FALSE);
	}

	static void cil_reset_validatetrans(struct cil_validatetrans *vt)
	{
	cil_list_destroy(&vt->datum_expr, CIL_FALSE);
	}

	static void cil_reset_default(struct cil_default *def)
	{
	cil_list_destroy(&def->class_datums, CIL_FALSE);
	}

	static void cil_reset_defaultrange(struct cil_defaultrange *def)
	{
	cil_list_destroy(&def->class_datums, CIL_FALSE);
	}

	static void cil_reset_booleanif(struct cil_booleanif *bif)
	{
	cil_list_destroy(&bif->datum_expr, CIL_FALSE);
	}

	int __cil_reset_node(struct cil_tree_node node, __attribute__((unused)) uint32_t finished, __attribute__((unused)) void *extra_args)
	{
	switch (node->flavor) {
	case CIL_CLASS:
	cil_reset_class(node->data);
	break;
	case CIL_PERM:
	case CIL_MAP_PERM:
	cil_reset_perm(node->data);
	break;
	case CIL_CLASSPERMISSION:
	cil_reset_classpermission(node->data);
	break;
	case CIL_CLASSPERMISSIONSET:
	cil_reset_classpermissionset(node->data);
	break;
	case CIL_CLASSMAPPING:
	cil_reset_classmapping(node->data);
	break;
	case CIL_TYPEALIAS:
	case CIL_SENSALIAS:
	case CIL_CATALIAS:
	cil_reset_alias(node->data);
	break;
	case CIL_USERRANGE:
	cil_reset_userrange(node->data);
	break;
	case CIL_USERLEVEL:
	cil_reset_userlevel(node->data);
	break;
	case CIL_USER:
	cil_reset_user(node->data);
	break;
	case CIL_USERATTRIBUTE:
	cil_reset_userattr(node->data);
	break;
	case CIL_USERATTRIBUTESET:
	cil_reset_userattributeset(node->data);
	break;
	case CIL_SELINUXUSERDEFAULT:
	case CIL_SELINUXUSER:
	cil_reset_selinuxuser(node->data);
	break;
	case CIL_ROLE:
	cil_reset_role(node->data);
	break;
	case CIL_ROLEATTRIBUTE:
	cil_reset_roleattr(node->data);
	break;
	case CIL_ROLEATTRIBUTESET:
	cil_reset_roleattributeset(node->data);
	break;
	case CIL_TYPE:
	cil_reset_type(node->data);
	break;
	case CIL_TYPEATTRIBUTE:
	cil_reset_typeattr(node->data);
	break;
	case CIL_TYPEATTRIBUTESET:
	cil_reset_typeattributeset(node->data);
	break;
	case CIL_RANGETRANSITION:
	cil_reset_rangetransition(node->data);
	break;
	case CIL_AVRULE:
	cil_reset_avrule(node->data);
	break;
	case CIL_SENS:
	cil_reset_sens(node->data);
	break;
	case CIL_CAT:
	cil_reset_cat(node->data);
	break;
	case CIL_SENSCAT:
	cil_reset_senscat(node->data);
	break;
	case CIL_CATSET:
	cil_reset_catset(node->data);
	break;
	case CIL_LEVEL:
	cil_reset_level(node->data);
	break;
	case CIL_LEVELRANGE:
	cil_reset_levelrange(node->data);
	break;
	case CIL_CONTEXT:
	cil_reset_context(node->data);
	break;
	case CIL_SIDCONTEXT:
	cil_reset_sidcontext(node->data);
	break;
	case CIL_FILECON:
	cil_reset_filecon(node->data);
	break;
	case CIL_PORTCON:
	cil_reset_portcon(node->data);
	break;
	case CIL_NODECON:
	cil_reset_nodecon(node->data);
	break;
	case CIL_GENFSCON:
	cil_reset_genfscon(node->data);
	break;
	case CIL_NETIFCON:
	cil_reset_netifcon(node->data);
	break;
	case CIL_PIRQCON:
	cil_reset_pirqcon(node->data);
	break;
	case CIL_IOMEMCON:
	cil_reset_iomemcon(node->data);
	break;
	case CIL_IOPORTCON:
	cil_reset_ioportcon(node->data);
	break;
	case CIL_PCIDEVICECON:
	cil_reset_pcidevicecon(node->data);
	break;
	case CIL_DEVICETREECON:
	cil_reset_devicetreecon(node->data);
	break;
	case CIL_FSUSE:
	cil_reset_fsuse(node->data);
	break;
	case CIL_SID:
	cil_reset_sid(node->data);
	break;
	case CIL_CONSTRAIN:
	case CIL_MLSCONSTRAIN:
	cil_reset_constrain(node->data);
	break;
	case CIL_VALIDATETRANS:
	case CIL_MLSVALIDATETRANS:
	cil_reset_validatetrans(node->data);
	break;
	case CIL_DEFAULTUSER:
	case CIL_DEFAULTROLE:
	case CIL_DEFAULTTYPE:
	cil_reset_default(node->data);
	break;
	case CIL_DEFAULTRANGE:
	cil_reset_defaultrange(node->data);
	break;
	case CIL_BOOLEANIF:
	cil_reset_booleanif(node->data);
	break;
	case CIL_TUNABLEIF:
	case CIL_CALL:
	break; /* Not effected by optional block disabling */
	case CIL_MACRO:
	case CIL_SIDORDER:
	case CIL_CLASSORDER:
	case CIL_CATORDER:
	case CIL_SENSITIVITYORDER:
	break; /* Nothing to reset */
	default:
	break;
	}

	return SEPOL_OK;
	}

	int cil_reset_ast(struct cil_tree_node *current)
	{
	int rc = SEPOL_ERR;

	rc = cil_tree_walk(current, __cil_reset_node, NULL, NULL, NULL);
	if (rc != SEPOL_OK) {
	cil_log(CIL_ERR, "Failed to reset AST\n");
	return SEPOL_ERR;
	}

	return SEPOL_OK;
	}