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gerrit.cesnet.cz / github / CESNET / libyang / 535ea9f56c36dddf56b3ef8e3e0ce1b8fa80841e / . / src / tree_data_free.c
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/**
* @file tree_data_free.c
* @author Radek Krejci <rkrejci@cesnet.cz>
* @brief Freeing functions for data tree structures
*
* Copyright (c) 2019 CESNET, z.s.p.o.
*
* This source code is licensed under BSD 3-Clause License (the "License").
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* https://opensource.org/licenses/BSD-3-Clause
*/
#include <assert.h>
#include <stdlib.h>
#include "common.h"
#include "hash_table.h"
#include "tree.h"
#include "tree_schema.h"
#include "tree_data_internal.h"
#include "plugins_types.h"
void
lyd_value_free_path(const struct ly_ctx *ctx, struct lyd_value_path *path)
{
LY_ARRAY_SIZE_TYPE u, v;
LY_ARRAY_FOR(path, u) {
LY_ARRAY_FOR(path[u].predicates, v) {
if (path[u].predicates[v].type > 0) {
((struct lysc_node_leaf*)path[u].predicates[v].key)->type->plugin->free(ctx, path[u].predicates[v].value);
free(path[u].predicates[v].value);
}
}
LY_ARRAY_FREE(path[u].predicates);
}
LY_ARRAY_FREE(path);
}
API void
lyd_free_meta(const struct ly_ctx *ctx, struct lyd_meta *meta, int recursive)
{
struct lyd_meta *iter;
LY_CHECK_ARG_RET(NULL, ctx, );
if (!meta) {
return;
}
if (meta->parent) {
if (meta->parent->meta == meta) {
if (recursive) {
meta->parent->meta = NULL;
} else {
meta->parent->meta = meta->next;
}
} else {
for (iter = meta->parent->meta; iter->next != meta; iter = iter->next);
if (iter->next) {
if (recursive) {
iter->next = NULL;
} else {
iter->next = meta->next;
}
}
}
}
if (!recursive) {
meta->next = NULL;
}
for (iter = meta; iter; ) {
meta = iter;
iter = iter->next;
FREE_STRING(ctx, meta->name);
meta->value.realtype->plugin->free(ctx, &meta->value);
free(meta);
}
}
API void
ly_free_attr(const struct ly_ctx *ctx, struct ly_attr *attr, int recursive)
{
struct ly_attr *iter;
LY_ARRAY_SIZE_TYPE u;
LY_CHECK_ARG_RET(NULL, ctx, );
if (!attr) {
return;
}
if (attr->parent) {
if (attr->parent->attr == attr) {
if (recursive) {
attr->parent->attr = NULL;
} else {
attr->parent->attr = attr->next;
}
} else {
for (iter = attr->parent->attr; iter->next != attr; iter = iter->next);
if (iter->next) {
if (recursive) {
iter->next = NULL;
} else {
iter->next = attr->next;
}
}
}
}
if (!recursive) {
attr->next = NULL;
}
for (iter = attr; iter; ) {
attr = iter;
iter = iter->next;
LY_ARRAY_FOR(attr->val_prefs, u) {
FREE_STRING(ctx, attr->val_prefs[u].pref);
FREE_STRING(ctx, attr->val_prefs[u].ns);
}
LY_ARRAY_FREE(attr->val_prefs);
FREE_STRING(ctx, attr->name);
FREE_STRING(ctx, attr->value);
FREE_STRING(ctx, attr->prefix.pref);
FREE_STRING(ctx, attr->prefix.ns);
free(attr);
}
}
/**
* @brief Free Data (sub)tree.
* @param[in] node Data node to be freed.
* @param[in] top Recursion flag to unlink the root of the subtree being freed.
*/
static void
lyd_free_subtree(struct lyd_node *node, int top)
{
struct lyd_node *iter, *next;
struct lyd_node *children;
struct lyd_node_opaq *opaq;
LY_ARRAY_SIZE_TYPE u;
assert(node);
if (!node->schema) {
opaq = (struct lyd_node_opaq *)node;
/* free the children */
children = lyd_node_children(node);
LY_LIST_FOR_SAFE(children, next, iter) {
lyd_free_subtree(iter, 0);
}
FREE_STRING(LYD_NODE_CTX(opaq), opaq->name);
FREE_STRING(LYD_NODE_CTX(opaq), opaq->prefix.pref);
FREE_STRING(LYD_NODE_CTX(opaq), opaq->prefix.ns);
if (opaq->val_prefs) {
LY_ARRAY_FOR(opaq->val_prefs, u) {
FREE_STRING(LYD_NODE_CTX(opaq), opaq->val_prefs[u].pref);
FREE_STRING(LYD_NODE_CTX(opaq), opaq->val_prefs[u].ns);
}
LY_ARRAY_FREE(opaq->val_prefs);
}
FREE_STRING(LYD_NODE_CTX(opaq), opaq->value);
} else if (node->schema->nodetype & LYD_NODE_INNER) {
/* remove children hash table in case of inner data node */
lyht_free(((struct lyd_node_inner *)node)->children_ht);
((struct lyd_node_inner *)node)->children_ht = NULL;
/* free the children */
children = lyd_node_children(node);
LY_LIST_FOR_SAFE(children, next, iter) {
lyd_free_subtree(iter, 0);
}
} else if (node->schema->nodetype & LYD_NODE_ANY) {
switch (((struct lyd_node_any *)node)->value_type) {
case LYD_ANYDATA_DATATREE:
lyd_free_all(((struct lyd_node_any *)node)->value.tree);
break;
case LYD_ANYDATA_STRING:
case LYD_ANYDATA_XML:
case LYD_ANYDATA_JSON:
FREE_STRING(LYD_NODE_CTX(node), ((struct lyd_node_any *)node)->value.str);
break;
#if 0 /* TODO LYB format */
case LYD_ANYDATA_LYB:
free(((struct lyd_node_any *)node)->value.mem);
break;
#endif
}
} else if (node->schema->nodetype & LYD_NODE_TERM) {
((struct lysc_node_leaf *)node->schema)->type->plugin->free(LYD_NODE_CTX(node), &((struct lyd_node_term *)node)->value);
}
if (!node->schema) {
ly_free_attr(LYD_NODE_CTX(node), opaq->attr, 1);
} else {
/* free the node's metadata */
lyd_free_meta(LYD_NODE_CTX(node), node->meta, 1);
}
/* unlink only the nodes from the first level, nodes in subtree are freed all, so no unlink is needed */
if (top) {
lyd_unlink_tree(node);
}
free(node);
}
API void
lyd_free_tree(struct lyd_node *node)
{
if (!node) {
return;
}
lyd_free_subtree(node, 1);
}
static void
lyd_free_(struct lyd_node *node, int top)
{
struct lyd_node *iter, *next;
if (!node) {
return;
}
/* get the first (top-level) sibling */
if (top) {
for (; node->parent; node = (struct lyd_node *)node->parent);
}
while (node->prev->next) {
node = node->prev;
}
LY_LIST_FOR_SAFE(node, next, iter) {
/* in case of the top-level nodes (node->parent is NULL), no unlinking needed */
lyd_free_subtree(iter, iter->parent ? 1 : 0);
}
}
API void
lyd_free_siblings(struct lyd_node *node)
{
lyd_free_(node, 0);
}
API void
lyd_free_all(struct lyd_node *node)
{
lyd_free_(node, 1);
}