src/parser_xml.c - github/CESNET/libyang - Gitiles

 /**
  * @file parser_xml.c
  * @author Radek Krejci <rkrejci@cesnet.cz>
  * @brief XML data parser for libyang
  *
  * Copyright (c) 2015 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 <ctype.h>
 #include <errno.h>
 #include <stdarg.h>
 #include <stdlib.h>
 #include <string.h>
 #include <limits.h>

 #include "libyang.h"
 #include "common.h"
 #include "context.h"
 #include "parser.h"
 #include "tree_internal.h"
 #include "validation.h"
 #include "xml_internal.h"

 /* does not log */
 static struct lys_node *
 xml_data_search_schemanode(struct lyxml_elem *xml, struct lys_node *start, int options)
 {
     struct lys_node *result, *aux;

     LY_TREE_FOR(start, result) {
         /* skip groupings ... */
         if (result->nodetype == LYS_GROUPING) {
             continue;
         /* ... and output in case of RPC ... */
         } else if (result->nodetype == LYS_OUTPUT && (options & LYD_OPT_RPC)) {
             continue;
         /* ... and input in case of RPC reply */
         } else if (result->nodetype == LYS_INPUT && (options & LYD_OPT_RPCREPLY)) {
             continue;
         }

         /* go into cases, choices, uses and in RPCs into input and output */
         if (result->nodetype & (LYS_CHOICE | LYS_CASE | LYS_USES | LYS_INPUT | LYS_OUTPUT)) {
             aux = xml_data_search_schemanode(xml, result->child, options);
             if (aux) {
                 /* we have matching result */
                 return aux;
             }
             /* else, continue with next schema node */
             continue;
         }

         /* match data nodes */
         if (ly_strequal(result->name, xml->name, 1)) {
             /* names matches, what about namespaces? */
             if (ly_strequal(lys_main_module(result->module)->ns, xml->ns->value, 1)) {
                 /* we have matching result */
                 return result;
             }
             /* else, continue with next schema node */
             continue;
         }
     }

     /* no match */
     return NULL;
 }

 /* logs directly */
 static int
 xml_get_value(struct lyd_node *node, struct lyxml_elem *xml, int options, int editbits)
 {
     struct lyd_node_leaf_list *leaf = (struct lyd_node_leaf_list *)node;
     int resolvable;

     assert(node && (node->schema->nodetype & (LYS_LEAFLIST | LYS_LEAF)) && xml);

     if (options & (LYD_OPT_EDIT | LYD_OPT_GET | LYD_OPT_GETCONFIG)) {
         resolvable = 0;
     } else {
         resolvable = 1;
     }

     leaf->value_str = xml->content;
     xml->content = NULL;

     if ((editbits & 0x10) && (node->schema->nodetype & LYS_LEAF) && (!leaf->value_str || !leaf->value_str[0])) {
         /* we have edit-config leaf/leaf-list with delete operation and no (empty) value,
          * this is not a bug since the node is just used as a kind of selection node */
         leaf->value_type = LY_TYPE_ERR;
         return EXIT_SUCCESS;
     }

     /* the value is here converted to a JSON format if needed in case of LY_TYPE_IDENT and LY_TYPE_INST or to a
      * canonical form of the value */
     if (!lyp_parse_value(&((struct lys_node_leaf *)leaf->schema)->type, &leaf->value_str, xml, NULL, leaf, 1,
                          resolvable, 0)) {
         return EXIT_FAILURE;
     }

     return EXIT_SUCCESS;
 }

 /* logs directly */
 static int
 xml_parse_data(struct ly_ctx *ctx, struct lyxml_elem *xml, struct lyd_node *parent, struct lyd_node *first_sibling,
                struct lyd_node *prev, int options, struct unres_data *unres, struct lyd_node **result,
                struct lyd_node **act_notif)
 {
     struct lyd_node *diter, *dlast;
     struct lys_node *schema = NULL, *target;
     struct lys_node_augment *aug;
     struct lyd_attr *dattr, *dattr_iter;
     struct lyxml_attr *attr;
     struct lyxml_elem *child, *next;
     int i, j, havechildren, r, flag, pos, editbits = 0;
     int ret = 0;
     const char *str = NULL;

     assert(xml);
     assert(result);
     *result = NULL;

     if (!xml->ns || !xml->ns->value) {
         if (options & LYD_OPT_STRICT) {
             LOGVAL(LYE_XML_MISS, LY_VLOG_XML, xml, "element's", "namespace");
             return -1;
         } else {
             return 0;
         }
     }

     /* find schema node */
     if (!parent) {
         /* starting in root */
         for (i = 0; i < ctx->models.used; i++) {
             /* skip just imported modules, data can be coupled only with the implemented modules */
             if (!ctx->models.list[i]->implemented) {
                 continue;
             }
             /* match data model based on namespace */
             if (ly_strequal(ctx->models.list[i]->ns, xml->ns->value, 1)) {
                 /* get the proper schema node */
                 schema = xml_data_search_schemanode(xml, ctx->models.list[i]->data, options);
                 if (!schema) {
                     /* it still can be the specific case of this module containing an augment of another module
                      * top-level choice or top-level choice's case, bleh */
                     for (j = 0; j < ctx->models.list[i]->augment_size; ++j) {
                         aug = &ctx->models.list[i]->augment[j];
                         target = aug->target;
                         if (target->nodetype & (LYS_CHOICE | LYS_CASE)) {
                             /* 1) okay, the target is choice or case */
                             while (target && (target->nodetype & (LYS_CHOICE | LYS_CASE | LYS_USES))) {
                                 target = lys_parent(target);
                             }
                             /* 2) now, the data node will be top-level, there are only non-data schema nodes */
                             if (!target) {
                                 while ((schema = (struct lys_node *)lys_getnext(schema, (struct lys_node *)aug, NULL, 0))) {
                                     /* 3) alright, even the name matches, we found our schema node */
                                     if (ly_strequal(schema->name, xml->name, 1)) {
                                         break;
                                     }
                                 }
                             }
                         }

                         if (schema) {
                             break;
                         }
                     }
                 }
                 break;
             }
         }
     } else {
         /* parsing some internal node, we start with parent's schema pointer */
         schema = xml_data_search_schemanode(xml, parent->schema->child, options);
     }
     if (!schema) {
         if ((options & LYD_OPT_STRICT) || ly_ctx_get_module_by_ns(ctx, xml->ns->value, NULL)) {
             LOGVAL(LYE_INELEM, LY_VLOG_LYD, parent, xml->name);
             return -1;
         } else {
             return 0;
         }
     } else if (!lys_node_module(schema)->implemented) {
         if (options & LYD_OPT_STRICT) {
             LOGVAL(LYE_INELEM, LY_VLOG_LYD, parent, xml->name);
             return -1;
         } else {
             return 0;
         }
     }

     /* create the element structure */
     switch (schema->nodetype) {
     case LYS_CONTAINER:
     case LYS_LIST:
     case LYS_NOTIF:
     case LYS_RPC:
     case LYS_ACTION:
         *result = calloc(1, sizeof **result);
         havechildren = 1;
         break;
     case LYS_LEAF:
     case LYS_LEAFLIST:
         *result = calloc(1, sizeof(struct lyd_node_leaf_list));
         havechildren = 0;
         break;
     case LYS_ANYXML:
     case LYS_ANYDATA:
         *result = calloc(1, sizeof(struct lyd_node_anydata));
         havechildren = 0;
         break;
     default:
         LOGINT;
         return -1;
     }
     if (!(*result)) {
         LOGMEM;
         return -1;
     }

     (*result)->prev = *result;
     (*result)->schema = schema;
     (*result)->parent = parent;
     diter = NULL;
     if (parent && parent->child && schema->nodetype == LYS_LEAF && parent->schema->nodetype == LYS_LIST &&
         (pos = lys_is_key((struct lys_node_list *)parent->schema, (struct lys_node_leaf *)schema))) {
         /* it is key and we need to insert it into a correct place */
         for (i = 0, diter = parent->child;
                 diter && i < (pos - 1) && diter->schema->nodetype == LYS_LEAF &&
                     lys_is_key((struct lys_node_list *)parent->schema, (struct lys_node_leaf *)diter->schema);
                 i++, diter = diter->next);
         if (diter) {
             /* out of order insertion - insert list's key to the correct position, before the diter */
             if (options & LYD_OPT_STRICT) {
                 LOGVAL(LYE_INORDER, LY_VLOG_LYD, *result, schema->name, diter->schema->name);
                 LOGVAL(LYE_SPEC, LY_VLOG_LYD, *result, "Invalid position of the key \"%s\" in a list \"%s\".",
                        schema->name, parent->schema->name);
                 free(*result);
                 *result = NULL;
                 return -1;
             } else {
                 LOGWRN("Invalid position of the key \"%s\" in a list \"%s\".", schema->name, parent->schema->name)
             }
             if (parent->child == diter) {
                 parent->child = *result;
                 /* update first_sibling */
                 first_sibling = *result;
             }
             if (diter->prev->next) {
                 diter->prev->next = *result;
             }
             (*result)->prev = diter->prev;
             diter->prev = *result;
             (*result)->next = diter;
         }
     }
     if (!diter) {
         /* simplified (faster) insert as the last node */
         if (parent && !parent->child) {
             parent->child = *result;
         }
         if (prev) {
             (*result)->prev = prev;
             prev->next = *result;

             /* fix the "last" pointer */
             first_sibling->prev = *result;
         } else {
             (*result)->prev = *result;
             first_sibling = *result;
         }
     }
     (*result)->validity = LYD_VAL_NOT;
     if (resolve_applies_when(schema, 0, NULL)) {
         (*result)->when_status = LYD_WHEN;
     }

     /* check insert attribute and its values */
     if (options & LYD_OPT_EDIT) {
         /* 0x01 - insert attribute present
          * 0x02 - insert is relative (before or after)
          * 0x04 - value attribute present
          * 0x08 - key attribute present
          * 0x10 - operation not allowing insert attribute
          */
         for (attr = xml->attr; attr; attr = attr->next) {
             if (attr->type != LYXML_ATTR_STD || !attr->ns) {
                 /* not interesting attribute or namespace declaration */
                 continue;
             }

             if (!strcmp(attr->name, "operation") && !strcmp(attr->ns->value, LY_NSNC)) {
                 if (editbits & 0x10) {
                     LOGVAL(LYE_TOOMANY, LY_VLOG_LYD, (*result), "operation attributes", xml->name);
                     return -1;
                 }

                 if (!strcmp(attr->value, "delete") || !strcmp(attr->value, "remove")) {
                     editbits |= 0x10;
                 } else if (strcmp(attr->value, "create") &&
                         strcmp(attr->value, "merge") &&
                         strcmp(attr->value, "replace")) {
                     /* unknown operation */
                     LOGVAL(LYE_INVALATTR, LY_VLOG_LYD, (*result), attr->value, attr->name);
                     return -1;
                 }
             } else if (!strcmp(attr->name, "insert") && !strcmp(attr->ns->value, LY_NSYANG)) {
                 /* 'insert' attribute present */
                 if (!(schema->flags & LYS_USERORDERED)) {
                     /* ... but it is not expected */
                     LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), "insert", schema->name);
                     return -1;
                 }

                 if (editbits & 0x01) {
                     LOGVAL(LYE_TOOMANY, LY_VLOG_LYD, (*result), "insert attributes", xml->name);
                     return -1;
                 }
                 if (!strcmp(attr->value, "first") || !strcmp(attr->value, "last")) {
                     editbits |= 0x01;
                 } else if (!strcmp(attr->value, "before") || !strcmp(attr->value, "after")) {
                     editbits |= 0x01 | 0x02;
                 } else {
                     LOGVAL(LYE_INVALATTR, LY_VLOG_LYD, (*result), attr->value, attr->name);
                     return -1;
                 }
                 str = attr->name;
             } else if (!strcmp(attr->name, "value") && !strcmp(attr->ns->value, LY_NSYANG)) {
                 if (editbits & 0x04) {
                     LOGVAL(LYE_TOOMANY, LY_VLOG_LYD, (*result), "value attributes", xml->name);
                     return -1;
                 } else if (schema->nodetype & LYS_LIST) {
                     LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), attr->name, schema->name);
                     return -1;
                 }
                 editbits |= 0x04;
                 str = attr->name;
             } else if (!strcmp(attr->name, "key") && !strcmp(attr->ns->value, LY_NSYANG)) {
                 if (editbits & 0x08) {
                     LOGVAL(LYE_TOOMANY, LY_VLOG_LYD, (*result), "key attributes", xml->name);
                     return -1;
                 } else if (schema->nodetype & LYS_LEAFLIST) {
                     LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), attr->name, schema->name);
                     return -1;
                 }
                 editbits |= 0x08;
                 str = attr->name;
             }
         }

         /* report errors */
         if (editbits > 0x10 || (editbits && editbits < 0x10 &&
                 (!(schema->nodetype & (LYS_LEAFLIST | LYS_LIST)) || !(schema->flags & LYS_USERORDERED)))) {
             /* attributes in wrong elements */
             LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), str, xml->name);
             return -1;
         } else if (editbits == 3) {
             /* 0x01 | 0x02 - relative position, but value/key is missing */
             if (schema->nodetype & LYS_LIST) {
                 LOGVAL(LYE_MISSATTR, LY_VLOG_LYD, (*result), "key", xml->name);
             } else { /* LYS_LEAFLIST */
                 LOGVAL(LYE_MISSATTR, LY_VLOG_LYD, (*result), "value", xml->name);
             }
             return -1;
         } else if ((editbits & (0x04 | 0x08)) && !(editbits & 0x02)) {
             /* key/value without relative position */
             LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), (editbits & 0x04) ? "value" : "key", schema->name);
             return -1;
         }
     }

     /* type specific processing */
     if (schema->nodetype & (LYS_LEAF | LYS_LEAFLIST)) {
         /* type detection and assigning the value */
         if (xml_get_value(*result, xml, options, editbits)) {
             goto error;
         }
     } else if (schema->nodetype & LYS_ANYDATA) {
         /* store children values */
         if (xml->child) {
             child = xml->child;
             /* manually unlink all siblings and correct namespaces */
             xml->child = NULL;
             LY_TREE_FOR(child, next) {
                 next->parent = NULL;
                 lyxml_correct_elem_ns(ctx, next, 1, 1);
             }

             ((struct lyd_node_anydata *)*result)->value_type = LYD_ANYDATA_XML;
             ((struct lyd_node_anydata *)*result)->value.xml = child;
         } else {
             ((struct lyd_node_anydata *)*result)->value_type = LYD_ANYDATA_CONSTSTRING;
             ((struct lyd_node_anydata *)*result)->value.str = lydict_insert(ctx, xml->content, 0);
         }
     } else if (schema->nodetype & (LYS_RPC | LYS_ACTION)) {
         if (!(options & LYD_OPT_RPC) || *act_notif) {
             LOGVAL(LYE_INELEM, LY_VLOG_LYD, (*result), schema->name);
             LOGVAL(LYE_SPEC, LY_VLOG_LYD, (*result), "Unexpected %s node \"%s\".",
                    (schema->nodetype == LYS_RPC ? "rpc" : "action"), schema->name);
             goto error;
         }
         *act_notif = *result;
     } else if (schema->nodetype == LYS_NOTIF) {
         if (!(options & LYD_OPT_NOTIF) || *act_notif) {
             LOGVAL(LYE_INELEM, LY_VLOG_LYD, (*result), schema->name);
             LOGVAL(LYE_SPEC, LY_VLOG_LYD, (*result), "Unexpected notification node \"%s\".", schema->name);
             goto error;
         }
         *act_notif = *result;
     }

     /* first part of validation checks */
     if (!(options & LYD_OPT_TRUSTED) && lyv_data_context(*result, options, unres)) {
         goto error;
     }

     for (attr = xml->attr; attr; attr = attr->next) {
         flag = 0;
         if (attr->type != LYXML_ATTR_STD) {
             continue;
         } else if (!attr->ns) {
             if ((*result)->schema->nodetype != LYS_ANYXML ||
                     !ly_strequal((*result)->schema->name, "filter", 0) ||
                     !ly_strequal((*result)->schema->module->name, "ietf-netconf", 0)) {
                 if (options & LYD_OPT_STRICT) {
                     LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), attr->name, xml->name);
                     LOGVAL(LYE_SPEC, LY_VLOG_LYD, (*result), "Attribute \"%s\" with no namespace (schema).",
                            attr->name);
                     goto error;
                 } else {
                     LOGWRN("Ignoring \"%s\" attribute in \"%s\" element.", attr->name, xml->name);
                     continue;
                 }
             } else {
                 /* exception for filter's attributes */
                 flag = 1;
             }
         }

         dattr = malloc(sizeof *dattr);
         if (!dattr) {
             goto error;
         }
         dattr->next = NULL;
         dattr->name = attr->name;
         if (flag && ly_strequal(attr->name, "select", 0)) {
             dattr->value = transform_xml2json(ctx, attr->value, xml, 1);
             if (!dattr->value) {
                 free(dattr);
                 goto error;
             }
             lydict_remove(ctx, attr->value);
         } else {
             dattr->value = attr->value;
         }
         attr->name = NULL;
         attr->value = NULL;

         if (!attr->ns) {
             /* filter's attributes, it actually has no namespace, but we need some for internal representation */
             dattr->module = (*result)->schema->module;
         } else {
             dattr->module = (struct lys_module *)ly_ctx_get_module_by_ns(ctx, attr->ns->value, NULL);
         }
         if (!dattr->module) {
             free(dattr);
             if (options & LYD_OPT_STRICT) {
                 LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), attr->name, xml->name);
                 LOGVAL(LYE_SPEC, LY_VLOG_LYD, (*result), "Attribute \"%s\" from unknown schema (\"%s\").",
                        attr->name, attr->ns->value);
                 goto error;
             } else {
                 LOGWRN("Attribute \"%s\" from unknown schema (\"%s\") - skipping.", attr->name, attr->ns->value);
                 continue;
             }
         }

         if (!(*result)->attr) {
             (*result)->attr = dattr;
         } else {
             for (dattr_iter = (*result)->attr; dattr_iter->next; dattr_iter = dattr_iter->next);
             dattr_iter->next = dattr;
         }
     }

     /* process children */
     if (havechildren && xml->child) {
         diter = dlast = NULL;
         LY_TREE_FOR_SAFE(xml->child, next, child) {
             if (schema->nodetype & (LYS_RPC | LYS_NOTIF)) {
                 r = xml_parse_data(ctx, child, *result, (*result)->child, dlast, 0, unres, &diter, act_notif);
             } else {
                 r = xml_parse_data(ctx, child, *result, (*result)->child, dlast, options, unres, &diter, act_notif);
             }
             if (r) {
                 goto error;
             } else if (options & LYD_OPT_DESTRUCT) {
                 lyxml_free(ctx, child);
             }
             if (diter && !diter->next) {
                 /* the child was parsed/created and it was placed as the last child. The child can be inserted
                  * out of order (not as the last one) in case it is a list's key present out of the correct order */
                 dlast = diter;
             }
         }
     }

     /* if we have empty non-presence container, we keep it, but mark it as default */
     if (schema->nodetype == LYS_CONTAINER && !(*result)->child &&
             !(*result)->attr && !((struct lys_node_container *)schema)->presence) {
         (*result)->dflt = 1;
     }

     /* rest of validation checks */
     ly_err_clean(1);
     if (!(options & LYD_OPT_TRUSTED) &&
             (lyv_data_content(*result, options, unres) ||
              lyv_multicases(*result, NULL, prev ? &first_sibling : NULL, 0, NULL))) {
         if (ly_errno) {
             goto error;
         } else {
             goto clear;
         }
     }

     /* validation successful */
     if ((*result)->schema->nodetype & (LYS_LIST | LYS_LEAFLIST)) {
         /* postpone checking when there will be all list/leaflist instances */
         (*result)->validity = LYD_VAL_UNIQUE;
     } else {
         (*result)->validity = LYD_VAL_OK;
     }

     return ret;

 error:
     ret--;

 clear:
     /* cleanup */
     for (i = unres->count - 1; i >= 0; i--) {
         /* remove unres items connected with the node being removed */
         if (unres->node[i] == *result) {
             unres_data_del(unres, i);
         }
     }
     lyd_free(*result);
     *result = NULL;

     return ret;
 }

 API struct lyd_node *
 lyd_parse_xml(struct ly_ctx *ctx, struct lyxml_elem **root, int options, ...)
 {
     va_list ap;
     int r, i;
     struct unres_data *unres = NULL;
     const struct lyd_node *rpc_act = NULL, *data_tree = NULL;
     struct lyd_node *result = NULL, *iter, *last, *reply_parent = NULL, *reply_top = NULL, *act_notif = NULL;
     struct lyxml_elem *xmlstart, *xmlelem, *xmlaux;
     struct ly_set *set;

     ly_err_clean(1);

     if (!ctx || !root) {
         LOGERR(LY_EINVAL, "%s: Invalid parameter.", __func__);
         return NULL;
     }

     if (lyp_check_options(options)) {
         LOGERR(LY_EINVAL, "%s: Invalid options (multiple data type flags set).", __func__);
         return NULL;
     }

     if (!(*root)) {
         /* empty tree - no work is needed */
         lyd_validate(&result, options, ctx);
         return result;
     }

     unres = calloc(1, sizeof *unres);
     if (!unres) {
         LOGMEM;
         return NULL;
     }

     va_start(ap, options);
     if (options & LYD_OPT_RPCREPLY) {
         rpc_act = va_arg(ap, const struct lyd_node *);
         if (!rpc_act || rpc_act->parent || !(rpc_act->schema->nodetype & (LYS_RPC | LYS_LIST | LYS_CONTAINER))) {
             LOGERR(LY_EINVAL, "%s: invalid variable parameter (const struct lyd_node *rpc_act).", __func__);
             goto error;
         }
         if (rpc_act->schema->nodetype == LYS_RPC) {
             /* RPC request */
             reply_top = reply_parent = _lyd_new(NULL, rpc_act->schema, 0);
         } else {
             /* action request */
             reply_top = lyd_dup(rpc_act, 1);
             LY_TREE_DFS_BEGIN(reply_top, iter, reply_parent) {
                 if (reply_parent->schema->nodetype == LYS_ACTION) {
                     break;
                 }
                 LY_TREE_DFS_END(reply_top, iter, reply_parent);
             }
             if (!reply_parent) {
                 LOGERR(LY_EINVAL, "%s: invalid variable parameter (const struct lyd_node *rpc_act).", __func__);
                 lyd_free_withsiblings(reply_top);
                 goto error;
             }
             lyd_free_withsiblings(reply_parent->child);
         }
     }
     if (options & (LYD_OPT_RPC | LYD_OPT_NOTIF | LYD_OPT_RPCREPLY)) {
         data_tree = va_arg(ap, const struct lyd_node *);
         if (data_tree) {
             LY_TREE_FOR((struct lyd_node *)data_tree, iter) {
                 if (iter->parent) {
                     /* a sibling is not top-level */
                     LOGERR(LY_EINVAL, "%s: invalid variable parameter (const struct lyd_node *data_tree).", __func__);
                     goto error;
                 }
             }

             /* move it to the beginning */
             for (; data_tree->prev->next; data_tree = data_tree->prev);

             /* LYD_OPT_NOSIBLINGS cannot be set in this case */
             if (options & LYD_OPT_NOSIBLINGS) {
                 LOGERR(LY_EINVAL, "%s: invalid parameter (variable arg const struct lyd_node *data_tree with LYD_OPT_NOSIBLINGS).", __func__);
                 goto error;
             }
         }
     }

     if (!(options & LYD_OPT_NOSIBLINGS)) {
         /* locate the first root to process */
         if ((*root)->parent) {
             xmlstart = (*root)->parent->child;
         } else {
             xmlstart = *root;
             while(xmlstart->prev->next) {
                 xmlstart = xmlstart->prev;
             }
         }
     } else {
         xmlstart = *root;
     }

     if ((options & LYD_OPT_RPC)
             && !strcmp(xmlstart->name, "action") && !strcmp(xmlstart->ns->value, "urn:ietf:params:xml:ns:yang:1")) {
         /* it's an action, not a simple RPC */
         xmlstart = xmlstart->child;
     }

     iter = last = NULL;
     LY_TREE_FOR_SAFE(xmlstart, xmlaux, xmlelem) {
         r = xml_parse_data(ctx, xmlelem, reply_parent, result, last, options, unres, &iter, &act_notif);
         if (r) {
             if (reply_top) {
                 result = reply_top;
             }
             goto error;
         } else if (options & LYD_OPT_DESTRUCT) {
             lyxml_free(ctx, xmlelem);
             *root = xmlaux;
         }
         if (iter) {
             last = iter;
         }
         if (!result) {
             result = iter;
         }

         if (options & LYD_OPT_NOSIBLINGS) {
             /* stop after the first processed root */
             break;
         }
     }

     if (reply_top) {
         result = reply_top;
     }

     if ((options & LYD_OPT_RPCREPLY) && (rpc_act->schema->nodetype != LYS_RPC)) {
         /* action reply */
         act_notif = reply_parent;
     } else if ((options & (LYD_OPT_RPC | LYD_OPT_NOTIF)) && !act_notif) {
         ly_vecode = LYVE_INELEM;
         LOGVAL(LYE_SPEC, LY_VLOG_LYD, result, "Missing %s node.", (options & LYD_OPT_RPC ? "action" : "notification"));
         goto error;
     }

     /* check for uniquness of top-level lists/leaflists because
      * only the inner instances were tested in lyv_data_content() */
     set = ly_set_new();
     LY_TREE_FOR(result, iter) {
         if (!(iter->schema->nodetype & (LYS_LIST | LYS_LEAFLIST)) || !(iter->validity & LYD_VAL_UNIQUE)) {
             continue;
         }

         /* check each list/leaflist only once */
         i = set->number;
         if (ly_set_add(set, iter->schema, 0) != i) {
             /* already checked */
             continue;
         }

         if (lyv_data_unique(iter, result)) {
             ly_set_free(set);
             goto error;
         }
     }
     ly_set_free(set);

     /* add default values, resolve unres and check for mandatory nodes in final tree */
     if (lyd_defaults_add_unres(&result, options, ctx, data_tree, act_notif, unres)) {
         goto error;
     }
     if (!(options & LYD_OPT_TRUSTED) && lyd_check_mandatory_tree((act_notif ? act_notif : result), ctx, options)) {
         goto error;
     }

     free(unres->node);
     free(unres->type);
     free(unres);
     va_end(ap);

     return result;

 error:
     lyd_free_withsiblings(result);
     free(unres->node);
     free(unres->type);
     free(unres);
     va_end(ap);

     return NULL;
 }
	/**
	* @file parser_xml.c
	* @author Radek Krejci <rkrejci@cesnet.cz>
	* @brief XML data parser for libyang
	*
	* Copyright (c) 2015 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 <ctype.h>
	#include <errno.h>
	#include <stdarg.h>
	#include <stdlib.h>
	#include <string.h>
	#include <limits.h>

	#include "libyang.h"
	#include "common.h"
	#include "context.h"
	#include "parser.h"
	#include "tree_internal.h"
	#include "validation.h"
	#include "xml_internal.h"

	/* does not log */
	static struct lys_node *
	xml_data_search_schemanode(struct lyxml_elem xml, struct lys_node start, int options)
	{
	struct lys_node result, aux;

	LY_TREE_FOR(start, result) {
	/* skip groupings ... */
	if (result->nodetype == LYS_GROUPING) {
	continue;
	/* ... and output in case of RPC ... */
	} else if (result->nodetype == LYS_OUTPUT && (options & LYD_OPT_RPC)) {
	continue;
	/* ... and input in case of RPC reply */
	} else if (result->nodetype == LYS_INPUT && (options & LYD_OPT_RPCREPLY)) {
	continue;
	}

	/* go into cases, choices, uses and in RPCs into input and output */
	if (result->nodetype & (LYS_CHOICE \| LYS_CASE \| LYS_USES \| LYS_INPUT \| LYS_OUTPUT)) {
	aux = xml_data_search_schemanode(xml, result->child, options);
	if (aux) {
	/* we have matching result */
	return aux;
	}
	/* else, continue with next schema node */
	continue;
	}

	/* match data nodes */
	if (ly_strequal(result->name, xml->name, 1)) {
	/* names matches, what about namespaces? */
	if (ly_strequal(lys_main_module(result->module)->ns, xml->ns->value, 1)) {
	/* we have matching result */
	return result;
	}
	/* else, continue with next schema node */
	continue;
	}
	}

	/* no match */
	return NULL;
	}

	/* logs directly */
	static int
	xml_get_value(struct lyd_node node, struct lyxml_elem xml, int options, int editbits)
	{
	struct lyd_node_leaf_list leaf = (struct lyd_node_leaf_list )node;
	int resolvable;

	assert(node && (node->schema->nodetype & (LYS_LEAFLIST \| LYS_LEAF)) && xml);

	if (options & (LYD_OPT_EDIT \| LYD_OPT_GET \| LYD_OPT_GETCONFIG)) {
	resolvable = 0;
	} else {
	resolvable = 1;
	}

	leaf->value_str = xml->content;
	xml->content = NULL;

	if ((editbits & 0x10) && (node->schema->nodetype & LYS_LEAF) && (!leaf->value_str \|\| !leaf->value_str[0])) {
	/* we have edit-config leaf/leaf-list with delete operation and no (empty) value,
	* this is not a bug since the node is just used as a kind of selection node */
	leaf->value_type = LY_TYPE_ERR;
	return EXIT_SUCCESS;
	}

	/* the value is here converted to a JSON format if needed in case of LY_TYPE_IDENT and LY_TYPE_INST or to a
	* canonical form of the value */
	if (!lyp_parse_value(&((struct lys_node_leaf *)leaf->schema)->type, &leaf->value_str, xml, NULL, leaf, 1,
	resolvable, 0)) {
	return EXIT_FAILURE;
	}

	return EXIT_SUCCESS;
	}

	/* logs directly */
	static int
	xml_parse_data(struct ly_ctx ctx, struct lyxml_elem xml, struct lyd_node parent, struct lyd_node first_sibling,
	struct lyd_node prev, int options, struct unres_data unres, struct lyd_node **result,
	struct lyd_node **act_notif)
	{
	struct lyd_node diter, dlast;
	struct lys_node schema = NULL, target;
	struct lys_node_augment *aug;
	struct lyd_attr dattr, dattr_iter;
	struct lyxml_attr *attr;
	struct lyxml_elem child, next;
	int i, j, havechildren, r, flag, pos, editbits = 0;
	int ret = 0;
	const char *str = NULL;

	assert(xml);
	assert(result);
	*result = NULL;

	if (!xml->ns \|\| !xml->ns->value) {
	if (options & LYD_OPT_STRICT) {
	LOGVAL(LYE_XML_MISS, LY_VLOG_XML, xml, "element's", "namespace");
	return -1;
	} else {
	return 0;
	}
	}

	/* find schema node */
	if (!parent) {
	/* starting in root */
	for (i = 0; i < ctx->models.used; i++) {
	/* skip just imported modules, data can be coupled only with the implemented modules */
	if (!ctx->models.list[i]->implemented) {
	continue;
	}
	/* match data model based on namespace */
	if (ly_strequal(ctx->models.list[i]->ns, xml->ns->value, 1)) {
	/* get the proper schema node */
	schema = xml_data_search_schemanode(xml, ctx->models.list[i]->data, options);
	if (!schema) {
	/* it still can be the specific case of this module containing an augment of another module
	* top-level choice or top-level choice's case, bleh */
	for (j = 0; j < ctx->models.list[i]->augment_size; ++j) {
	aug = &ctx->models.list[i]->augment[j];
	target = aug->target;
	if (target->nodetype & (LYS_CHOICE \| LYS_CASE)) {
	/* 1) okay, the target is choice or case */
	while (target && (target->nodetype & (LYS_CHOICE \| LYS_CASE \| LYS_USES))) {
	target = lys_parent(target);
	}
	/* 2) now, the data node will be top-level, there are only non-data schema nodes */
	if (!target) {
	while ((schema = (struct lys_node )lys_getnext(schema, (struct lys_node )aug, NULL, 0))) {
	/* 3) alright, even the name matches, we found our schema node */
	if (ly_strequal(schema->name, xml->name, 1)) {
	break;
	}
	}
	}
	}

	if (schema) {
	break;
	}
	}
	}
	break;
	}
	}
	} else {
	/* parsing some internal node, we start with parent's schema pointer */
	schema = xml_data_search_schemanode(xml, parent->schema->child, options);
	}
	if (!schema) {
	if ((options & LYD_OPT_STRICT) \|\| ly_ctx_get_module_by_ns(ctx, xml->ns->value, NULL)) {
	LOGVAL(LYE_INELEM, LY_VLOG_LYD, parent, xml->name);
	return -1;
	} else {
	return 0;
	}
	} else if (!lys_node_module(schema)->implemented) {
	if (options & LYD_OPT_STRICT) {
	LOGVAL(LYE_INELEM, LY_VLOG_LYD, parent, xml->name);
	return -1;
	} else {
	return 0;
	}
	}

	/* create the element structure */
	switch (schema->nodetype) {
	case LYS_CONTAINER:
	case LYS_LIST:
	case LYS_NOTIF:
	case LYS_RPC:
	case LYS_ACTION:
	result = calloc(1, sizeof *result);
	havechildren = 1;
	break;
	case LYS_LEAF:
	case LYS_LEAFLIST:
	*result = calloc(1, sizeof(struct lyd_node_leaf_list));
	havechildren = 0;
	break;
	case LYS_ANYXML:
	case LYS_ANYDATA:
	*result = calloc(1, sizeof(struct lyd_node_anydata));
	havechildren = 0;
	break;
	default:
	LOGINT;
	return -1;
	}
	if (!(*result)) {
	LOGMEM;
	return -1;
	}

	(result)->prev = result;
	(*result)->schema = schema;
	(*result)->parent = parent;
	diter = NULL;
	if (parent && parent->child && schema->nodetype == LYS_LEAF && parent->schema->nodetype == LYS_LIST &&
	(pos = lys_is_key((struct lys_node_list )parent->schema, (struct lys_node_leaf )schema))) {
	/* it is key and we need to insert it into a correct place */
	for (i = 0, diter = parent->child;
	diter && i < (pos - 1) && diter->schema->nodetype == LYS_LEAF &&
	lys_is_key((struct lys_node_list )parent->schema, (struct lys_node_leaf )diter->schema);
	i++, diter = diter->next);
	if (diter) {
	/* out of order insertion - insert list's key to the correct position, before the diter */
	if (options & LYD_OPT_STRICT) {
	LOGVAL(LYE_INORDER, LY_VLOG_LYD, *result, schema->name, diter->schema->name);
	LOGVAL(LYE_SPEC, LY_VLOG_LYD, *result, "Invalid position of the key \"%s\" in a list \"%s\".",
	schema->name, parent->schema->name);
	free(*result);
	*result = NULL;
	return -1;
	} else {
	LOGWRN("Invalid position of the key \"%s\" in a list \"%s\".", schema->name, parent->schema->name)
	}
	if (parent->child == diter) {
	parent->child = *result;
	/* update first_sibling */
	first_sibling = *result;
	}
	if (diter->prev->next) {
	diter->prev->next = *result;
	}
	(*result)->prev = diter->prev;
	diter->prev = *result;
	(*result)->next = diter;
	}
	}
	if (!diter) {
	/* simplified (faster) insert as the last node */
	if (parent && !parent->child) {
	parent->child = *result;
	}
	if (prev) {
	(*result)->prev = prev;
	prev->next = *result;

	/* fix the "last" pointer */
	first_sibling->prev = *result;
	} else {
	(result)->prev = result;
	first_sibling = *result;
	}
	}
	(*result)->validity = LYD_VAL_NOT;
	if (resolve_applies_when(schema, 0, NULL)) {
	(*result)->when_status = LYD_WHEN;
	}

	/* check insert attribute and its values */
	if (options & LYD_OPT_EDIT) {
	/* 0x01 - insert attribute present
	* 0x02 - insert is relative (before or after)
	* 0x04 - value attribute present
	* 0x08 - key attribute present
	* 0x10 - operation not allowing insert attribute
	*/
	for (attr = xml->attr; attr; attr = attr->next) {
	if (attr->type != LYXML_ATTR_STD \|\| !attr->ns) {
	/* not interesting attribute or namespace declaration */
	continue;
	}

	if (!strcmp(attr->name, "operation") && !strcmp(attr->ns->value, LY_NSNC)) {
	if (editbits & 0x10) {
	LOGVAL(LYE_TOOMANY, LY_VLOG_LYD, (*result), "operation attributes", xml->name);
	return -1;
	}

	if (!strcmp(attr->value, "delete") \|\| !strcmp(attr->value, "remove")) {
	editbits \|= 0x10;
	} else if (strcmp(attr->value, "create") &&
	strcmp(attr->value, "merge") &&
	strcmp(attr->value, "replace")) {
	/* unknown operation */
	LOGVAL(LYE_INVALATTR, LY_VLOG_LYD, (*result), attr->value, attr->name);
	return -1;
	}
	} else if (!strcmp(attr->name, "insert") && !strcmp(attr->ns->value, LY_NSYANG)) {
	/* 'insert' attribute present */
	if (!(schema->flags & LYS_USERORDERED)) {
	/* ... but it is not expected */
	LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), "insert", schema->name);
	return -1;
	}

	if (editbits & 0x01) {
	LOGVAL(LYE_TOOMANY, LY_VLOG_LYD, (*result), "insert attributes", xml->name);
	return -1;
	}
	if (!strcmp(attr->value, "first") \|\| !strcmp(attr->value, "last")) {
	editbits \|= 0x01;
	} else if (!strcmp(attr->value, "before") \|\| !strcmp(attr->value, "after")) {
	editbits \|= 0x01 \| 0x02;
	} else {
	LOGVAL(LYE_INVALATTR, LY_VLOG_LYD, (*result), attr->value, attr->name);
	return -1;
	}
	str = attr->name;
	} else if (!strcmp(attr->name, "value") && !strcmp(attr->ns->value, LY_NSYANG)) {
	if (editbits & 0x04) {
	LOGVAL(LYE_TOOMANY, LY_VLOG_LYD, (*result), "value attributes", xml->name);
	return -1;
	} else if (schema->nodetype & LYS_LIST) {
	LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), attr->name, schema->name);
	return -1;
	}
	editbits \|= 0x04;
	str = attr->name;
	} else if (!strcmp(attr->name, "key") && !strcmp(attr->ns->value, LY_NSYANG)) {
	if (editbits & 0x08) {
	LOGVAL(LYE_TOOMANY, LY_VLOG_LYD, (*result), "key attributes", xml->name);
	return -1;
	} else if (schema->nodetype & LYS_LEAFLIST) {
	LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), attr->name, schema->name);
	return -1;
	}
	editbits \|= 0x08;
	str = attr->name;
	}
	}

	/* report errors */
	if (editbits > 0x10 \|\| (editbits && editbits < 0x10 &&
	(!(schema->nodetype & (LYS_LEAFLIST \| LYS_LIST)) \|\| !(schema->flags & LYS_USERORDERED)))) {
	/* attributes in wrong elements */
	LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), str, xml->name);
	return -1;
	} else if (editbits == 3) {
	/* 0x01 \| 0x02 - relative position, but value/key is missing */
	if (schema->nodetype & LYS_LIST) {
	LOGVAL(LYE_MISSATTR, LY_VLOG_LYD, (*result), "key", xml->name);
	} else { /* LYS_LEAFLIST */
	LOGVAL(LYE_MISSATTR, LY_VLOG_LYD, (*result), "value", xml->name);
	}
	return -1;
	} else if ((editbits & (0x04 \| 0x08)) && !(editbits & 0x02)) {
	/* key/value without relative position */
	LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), (editbits & 0x04) ? "value" : "key", schema->name);
	return -1;
	}
	}

	/* type specific processing */
	if (schema->nodetype & (LYS_LEAF \| LYS_LEAFLIST)) {
	/* type detection and assigning the value */
	if (xml_get_value(*result, xml, options, editbits)) {
	goto error;
	}
	} else if (schema->nodetype & LYS_ANYDATA) {
	/* store children values */
	if (xml->child) {
	child = xml->child;
	/* manually unlink all siblings and correct namespaces */
	xml->child = NULL;
	LY_TREE_FOR(child, next) {
	next->parent = NULL;
	lyxml_correct_elem_ns(ctx, next, 1, 1);
	}

	((struct lyd_node_anydata )result)->value_type = LYD_ANYDATA_XML;
	((struct lyd_node_anydata )result)->value.xml = child;
	} else {
	((struct lyd_node_anydata )result)->value_type = LYD_ANYDATA_CONSTSTRING;
	((struct lyd_node_anydata )result)->value.str = lydict_insert(ctx, xml->content, 0);
	}
	} else if (schema->nodetype & (LYS_RPC \| LYS_ACTION)) {
	if (!(options & LYD_OPT_RPC) \|\| *act_notif) {
	LOGVAL(LYE_INELEM, LY_VLOG_LYD, (*result), schema->name);
	LOGVAL(LYE_SPEC, LY_VLOG_LYD, (*result), "Unexpected %s node \"%s\".",
	(schema->nodetype == LYS_RPC ? "rpc" : "action"), schema->name);
	goto error;
	}
	act_notif = result;
	} else if (schema->nodetype == LYS_NOTIF) {
	if (!(options & LYD_OPT_NOTIF) \|\| *act_notif) {
	LOGVAL(LYE_INELEM, LY_VLOG_LYD, (*result), schema->name);
	LOGVAL(LYE_SPEC, LY_VLOG_LYD, (*result), "Unexpected notification node \"%s\".", schema->name);
	goto error;
	}
	act_notif = result;
	}

	/* first part of validation checks */
	if (!(options & LYD_OPT_TRUSTED) && lyv_data_context(*result, options, unres)) {
	goto error;
	}

	for (attr = xml->attr; attr; attr = attr->next) {
	flag = 0;
	if (attr->type != LYXML_ATTR_STD) {
	continue;
	} else if (!attr->ns) {
	if ((*result)->schema->nodetype != LYS_ANYXML \|\|
	!ly_strequal((*result)->schema->name, "filter", 0) \|\|
	!ly_strequal((*result)->schema->module->name, "ietf-netconf", 0)) {
	if (options & LYD_OPT_STRICT) {
	LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), attr->name, xml->name);
	LOGVAL(LYE_SPEC, LY_VLOG_LYD, (*result), "Attribute \"%s\" with no namespace (schema).",
	attr->name);
	goto error;
	} else {
	LOGWRN("Ignoring \"%s\" attribute in \"%s\" element.", attr->name, xml->name);
	continue;
	}
	} else {
	/* exception for filter's attributes */
	flag = 1;
	}
	}

	dattr = malloc(sizeof *dattr);
	if (!dattr) {
	goto error;
	}
	dattr->next = NULL;
	dattr->name = attr->name;
	if (flag && ly_strequal(attr->name, "select", 0)) {
	dattr->value = transform_xml2json(ctx, attr->value, xml, 1);
	if (!dattr->value) {
	free(dattr);
	goto error;
	}
	lydict_remove(ctx, attr->value);
	} else {
	dattr->value = attr->value;
	}
	attr->name = NULL;
	attr->value = NULL;

	if (!attr->ns) {
	/* filter's attributes, it actually has no namespace, but we need some for internal representation */
	dattr->module = (*result)->schema->module;
	} else {
	dattr->module = (struct lys_module *)ly_ctx_get_module_by_ns(ctx, attr->ns->value, NULL);
	}
	if (!dattr->module) {
	free(dattr);
	if (options & LYD_OPT_STRICT) {
	LOGVAL(LYE_INATTR, LY_VLOG_LYD, (*result), attr->name, xml->name);
	LOGVAL(LYE_SPEC, LY_VLOG_LYD, (*result), "Attribute \"%s\" from unknown schema (\"%s\").",
	attr->name, attr->ns->value);
	goto error;
	} else {
	LOGWRN("Attribute \"%s\" from unknown schema (\"%s\") - skipping.", attr->name, attr->ns->value);
	continue;
	}
	}

	if (!(*result)->attr) {
	(*result)->attr = dattr;
	} else {
	for (dattr_iter = (*result)->attr; dattr_iter->next; dattr_iter = dattr_iter->next);
	dattr_iter->next = dattr;
	}
	}

	/* process children */
	if (havechildren && xml->child) {
	diter = dlast = NULL;
	LY_TREE_FOR_SAFE(xml->child, next, child) {
	if (schema->nodetype & (LYS_RPC \| LYS_NOTIF)) {
	r = xml_parse_data(ctx, child, result, (result)->child, dlast, 0, unres, &diter, act_notif);
	} else {
	r = xml_parse_data(ctx, child, result, (result)->child, dlast, options, unres, &diter, act_notif);
	}
	if (r) {
	goto error;
	} else if (options & LYD_OPT_DESTRUCT) {
	lyxml_free(ctx, child);
	}
	if (diter && !diter->next) {
	/* the child was parsed/created and it was placed as the last child. The child can be inserted
	* out of order (not as the last one) in case it is a list's key present out of the correct order */
	dlast = diter;
	}
	}
	}

	/* if we have empty non-presence container, we keep it, but mark it as default */
	if (schema->nodetype == LYS_CONTAINER && !(*result)->child &&
	!(result)->attr && !((struct lys_node_container )schema)->presence) {
	(*result)->dflt = 1;
	}

	/* rest of validation checks */
	ly_err_clean(1);
	if (!(options & LYD_OPT_TRUSTED) &&
	(lyv_data_content(*result, options, unres) \|\|
	lyv_multicases(*result, NULL, prev ? &first_sibling : NULL, 0, NULL))) {
	if (ly_errno) {
	goto error;
	} else {
	goto clear;
	}
	}

	/* validation successful */
	if ((*result)->schema->nodetype & (LYS_LIST \| LYS_LEAFLIST)) {
	/* postpone checking when there will be all list/leaflist instances */
	(*result)->validity = LYD_VAL_UNIQUE;
	} else {
	(*result)->validity = LYD_VAL_OK;
	}

	return ret;

	error:
	ret--;

	clear:
	/* cleanup */
	for (i = unres->count - 1; i >= 0; i--) {
	/* remove unres items connected with the node being removed */
	if (unres->node[i] == *result) {
	unres_data_del(unres, i);
	}
	}
	lyd_free(*result);
	*result = NULL;

	return ret;
	}

	API struct lyd_node *
	lyd_parse_xml(struct ly_ctx ctx, struct lyxml_elem *root, int options, ...)
	{
	va_list ap;
	int r, i;
	struct unres_data *unres = NULL;
	const struct lyd_node rpc_act = NULL, data_tree = NULL;
	struct lyd_node result = NULL, iter, last, reply_parent = NULL, reply_top = NULL, act_notif = NULL;
	struct lyxml_elem xmlstart, xmlelem, *xmlaux;
	struct ly_set *set;

	ly_err_clean(1);

	if (!ctx \|\| !root) {
	LOGERR(LY_EINVAL, "%s: Invalid parameter.", __func__);
	return NULL;
	}

	if (lyp_check_options(options)) {
	LOGERR(LY_EINVAL, "%s: Invalid options (multiple data type flags set).", __func__);
	return NULL;
	}

	if (!(*root)) {
	/* empty tree - no work is needed */
	lyd_validate(&result, options, ctx);
	return result;
	}

	unres = calloc(1, sizeof *unres);
	if (!unres) {
	LOGMEM;
	return NULL;
	}

	va_start(ap, options);
	if (options & LYD_OPT_RPCREPLY) {
	rpc_act = va_arg(ap, const struct lyd_node *);
	if (!rpc_act \|\| rpc_act->parent \|\| !(rpc_act->schema->nodetype & (LYS_RPC \| LYS_LIST \| LYS_CONTAINER))) {
	LOGERR(LY_EINVAL, "%s: invalid variable parameter (const struct lyd_node *rpc_act).", __func__);
	goto error;
	}
	if (rpc_act->schema->nodetype == LYS_RPC) {
	/* RPC request */
	reply_top = reply_parent = _lyd_new(NULL, rpc_act->schema, 0);
	} else {
	/* action request */
	reply_top = lyd_dup(rpc_act, 1);
	LY_TREE_DFS_BEGIN(reply_top, iter, reply_parent) {
	if (reply_parent->schema->nodetype == LYS_ACTION) {
	break;
	}
	LY_TREE_DFS_END(reply_top, iter, reply_parent);
	}
	if (!reply_parent) {
	LOGERR(LY_EINVAL, "%s: invalid variable parameter (const struct lyd_node *rpc_act).", __func__);
	lyd_free_withsiblings(reply_top);
	goto error;
	}
	lyd_free_withsiblings(reply_parent->child);
	}
	}
	if (options & (LYD_OPT_RPC \| LYD_OPT_NOTIF \| LYD_OPT_RPCREPLY)) {
	data_tree = va_arg(ap, const struct lyd_node *);
	if (data_tree) {
	LY_TREE_FOR((struct lyd_node *)data_tree, iter) {
	if (iter->parent) {
	/* a sibling is not top-level */
	LOGERR(LY_EINVAL, "%s: invalid variable parameter (const struct lyd_node *data_tree).", __func__);
	goto error;
	}
	}

	/* move it to the beginning */
	for (; data_tree->prev->next; data_tree = data_tree->prev);

	/* LYD_OPT_NOSIBLINGS cannot be set in this case */
	if (options & LYD_OPT_NOSIBLINGS) {
	LOGERR(LY_EINVAL, "%s: invalid parameter (variable arg const struct lyd_node *data_tree with LYD_OPT_NOSIBLINGS).", __func__);
	goto error;
	}
	}
	}

	if (!(options & LYD_OPT_NOSIBLINGS)) {
	/* locate the first root to process */
	if ((*root)->parent) {
	xmlstart = (*root)->parent->child;
	} else {
	xmlstart = *root;
	while(xmlstart->prev->next) {
	xmlstart = xmlstart->prev;
	}
	}
	} else {
	xmlstart = *root;
	}

	if ((options & LYD_OPT_RPC)
	&& !strcmp(xmlstart->name, "action") && !strcmp(xmlstart->ns->value, "urn:ietf:params:xml:ns:yang:1")) {
	/* it's an action, not a simple RPC */
	xmlstart = xmlstart->child;
	}

	iter = last = NULL;
	LY_TREE_FOR_SAFE(xmlstart, xmlaux, xmlelem) {
	r = xml_parse_data(ctx, xmlelem, reply_parent, result, last, options, unres, &iter, &act_notif);
	if (r) {
	if (reply_top) {
	result = reply_top;
	}
	goto error;
	} else if (options & LYD_OPT_DESTRUCT) {
	lyxml_free(ctx, xmlelem);
	*root = xmlaux;
	}
	if (iter) {
	last = iter;
	}
	if (!result) {
	result = iter;
	}

	if (options & LYD_OPT_NOSIBLINGS) {
	/* stop after the first processed root */
	break;
	}
	}

	if (reply_top) {
	result = reply_top;
	}

	if ((options & LYD_OPT_RPCREPLY) && (rpc_act->schema->nodetype != LYS_RPC)) {
	/* action reply */
	act_notif = reply_parent;
	} else if ((options & (LYD_OPT_RPC \| LYD_OPT_NOTIF)) && !act_notif) {
	ly_vecode = LYVE_INELEM;
	LOGVAL(LYE_SPEC, LY_VLOG_LYD, result, "Missing %s node.", (options & LYD_OPT_RPC ? "action" : "notification"));
	goto error;
	}

	/* check for uniquness of top-level lists/leaflists because
	* only the inner instances were tested in lyv_data_content() */
	set = ly_set_new();
	LY_TREE_FOR(result, iter) {
	if (!(iter->schema->nodetype & (LYS_LIST \| LYS_LEAFLIST)) \|\| !(iter->validity & LYD_VAL_UNIQUE)) {
	continue;
	}

	/* check each list/leaflist only once */
	i = set->number;
	if (ly_set_add(set, iter->schema, 0) != i) {
	/* already checked */
	continue;
	}

	if (lyv_data_unique(iter, result)) {
	ly_set_free(set);
	goto error;
	}
	}
	ly_set_free(set);

	/* add default values, resolve unres and check for mandatory nodes in final tree */
	if (lyd_defaults_add_unres(&result, options, ctx, data_tree, act_notif, unres)) {
	goto error;
	}
	if (!(options & LYD_OPT_TRUSTED) && lyd_check_mandatory_tree((act_notif ? act_notif : result), ctx, options)) {
	goto error;
	}

	free(unres->node);
	free(unres->type);
	free(unres);
	va_end(ap);

	return result;

	error:
	lyd_free_withsiblings(result);
	free(unres->node);
	free(unres->type);
	free(unres);
	va_end(ap);

	return NULL;
	}