/** * @file parser_xml.c * @author Radek Krejci * @author Michal Vasko * @brief XML data parser for libyang * * Copyright (c) 2019 - 2022 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 */ #define _GNU_SOURCE #include #include #include #include #include "common.h" #include "compat.h" #include "context.h" #include "dict.h" #include "in_internal.h" #include "log.h" #include "parser_data.h" #include "parser_internal.h" #include "plugins_exts.h" #include "plugins_internal.h" #include "schema_compile_node.h" #include "set.h" #include "tree.h" #include "tree_data.h" #include "tree_data_internal.h" #include "tree_schema.h" #include "tree_schema_internal.h" #include "validation.h" #include "xml.h" void lyd_xml_ctx_free(struct lyd_ctx *lydctx) { struct lyd_xml_ctx *ctx = (struct lyd_xml_ctx *)lydctx; lyd_ctx_free(lydctx); lyxml_ctx_free(ctx->xmlctx); free(ctx); } /** * @brief Parse and create XML metadata. * * @param[in] lydctx XML data parser context. * @param[in] sparent Schema node of the parent. * @param[out] meta List of created metadata instances. * @return LY_ERR value. */ static LY_ERR lydxml_metadata(struct lyd_xml_ctx *lydctx, const struct lysc_node *sparent, struct lyd_meta **meta) { LY_ERR ret = LY_SUCCESS; const struct lyxml_ns *ns; struct lys_module *mod; const char *name; size_t name_len; LY_ARRAY_COUNT_TYPE u; ly_bool filter_attrs = 0; struct lyxml_ctx *xmlctx = lydctx->xmlctx; *meta = NULL; /* check for NETCONF filter unqualified attributes */ if (!strcmp(sparent->module->name, "notifications")) { /* ancient module that does not even use the extension */ filter_attrs = 1; } else { LY_ARRAY_FOR(sparent->exts, u) { if (!strcmp(sparent->exts[u].def->name, "get-filter-element-attributes") && !strcmp(sparent->exts[u].def->module->name, "ietf-netconf")) { filter_attrs = 1; break; } } } while (xmlctx->status == LYXML_ATTRIBUTE) { if (!xmlctx->prefix_len) { /* in XML all attributes must be prefixed except NETCONF filter ones marked by an extension */ if (filter_attrs && (!ly_strncmp("type", xmlctx->name, xmlctx->name_len) || !ly_strncmp("select", xmlctx->name, xmlctx->name_len))) { mod = ly_ctx_get_module_implemented(xmlctx->ctx, "ietf-netconf"); if (!mod) { LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Missing (or not implemented) YANG module \"ietf-netconf\" for special filter attributes."); ret = LY_ENOTFOUND; goto cleanup; } goto create_meta; } if (lydctx->parse_opts & LYD_PARSE_STRICT) { LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Missing mandatory prefix for XML metadata \"%.*s\".", (int)xmlctx->name_len, xmlctx->name); ret = LY_EVALID; goto cleanup; } /* skip attr */ LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); assert(xmlctx->status == LYXML_ATTR_CONTENT); LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); continue; } /* get namespace of the attribute to find its annotation definition */ ns = lyxml_ns_get(&xmlctx->ns, xmlctx->prefix, xmlctx->prefix_len); if (!ns) { /* unknown namespace, XML error */ LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Unknown XML prefix \"%.*s\".", (int)xmlctx->prefix_len, xmlctx->prefix); ret = LY_ENOTFOUND; goto cleanup; } /* get the module with metadata definition */ mod = ly_ctx_get_module_implemented_ns(xmlctx->ctx, ns->uri); if (!mod) { if (lydctx->parse_opts & LYD_PARSE_STRICT) { LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Unknown (or not implemented) YANG module with namespace \"%s\" for metadata \"%.*s%s%.*s\".", ns->uri, (int)xmlctx->prefix_len, xmlctx->prefix, xmlctx->prefix_len ? ":" : "", (int)xmlctx->name_len, xmlctx->name); ret = LY_ENOTFOUND; goto cleanup; } /* skip attr */ LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); assert(xmlctx->status == LYXML_ATTR_CONTENT); LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); continue; } create_meta: /* remember meta name and get its content */ name = xmlctx->name; name_len = xmlctx->name_len; LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); assert(xmlctx->status == LYXML_ATTR_CONTENT); /* create metadata */ ret = lyd_parser_create_meta((struct lyd_ctx *)lydctx, NULL, meta, mod, name, name_len, xmlctx->value, xmlctx->value_len, &xmlctx->dynamic, LY_VALUE_XML, &xmlctx->ns, LYD_HINT_DATA, sparent); LY_CHECK_GOTO(ret, cleanup); /* next attribute */ LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); } cleanup: if (ret) { lyd_free_meta_siblings(*meta); *meta = NULL; } return ret; } static LY_ERR lydxml_attrs(struct lyxml_ctx *xmlctx, struct lyd_attr **attr) { LY_ERR ret = LY_SUCCESS; const struct lyxml_ns *ns; void *val_prefix_data; LY_VALUE_FORMAT format; struct lyd_attr *attr2; const char *name, *prefix; size_t name_len, prefix_len; assert(attr); *attr = NULL; while (xmlctx->status == LYXML_ATTRIBUTE) { if (*attr) { attr2 = *attr; } else { attr2 = NULL; } /* remember attr prefix, name, and get its content */ prefix = xmlctx->prefix; prefix_len = xmlctx->prefix_len; name = xmlctx->name; name_len = xmlctx->name_len; LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); assert(xmlctx->status == LYXML_ATTR_CONTENT); /* handle special "xml" attribute prefix */ if ((prefix_len == 3) && !strncmp(prefix, "xml", 3)) { name = prefix; name_len += 1 + prefix_len; prefix = NULL; prefix_len = 0; } /* find namespace of the attribute, if any */ ns = NULL; if (prefix_len) { ns = lyxml_ns_get(&xmlctx->ns, prefix, prefix_len); if (!ns) { LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Unknown XML prefix \"%.*s\".", (int)prefix_len, prefix); ret = LY_EVALID; goto cleanup; } } /* get value prefixes */ val_prefix_data = NULL; LY_CHECK_GOTO(ret = ly_store_prefix_data(xmlctx->ctx, xmlctx->value, xmlctx->value_len, LY_VALUE_XML, &xmlctx->ns, &format, &val_prefix_data), cleanup); /* attr2 is always changed to the created attribute */ ret = lyd_create_attr(NULL, &attr2, xmlctx->ctx, name, name_len, prefix, prefix_len, ns ? ns->uri : NULL, ns ? strlen(ns->uri) : 0, xmlctx->value, xmlctx->value_len, &xmlctx->dynamic, format, val_prefix_data, LYD_HINT_DATA); LY_CHECK_GOTO(ret, cleanup); if (!*attr) { *attr = attr2; } /* next attribute */ LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); } cleanup: if (ret) { lyd_free_attr_siblings(xmlctx->ctx, *attr); *attr = NULL; } return ret; } static LY_ERR lydxml_check_list(struct lyxml_ctx *xmlctx, const struct lysc_node *list) { LY_ERR ret = LY_SUCCESS, r; enum LYXML_PARSER_STATUS next; struct ly_set key_set = {0}; const struct lysc_node *snode; uint32_t i, parents_count; assert(list && (list->nodetype == LYS_LIST)); /* get all keys into a set (keys do not have if-features or anything) */ snode = NULL; while ((snode = lys_getnext(snode, list, NULL, 0)) && (snode->flags & LYS_KEY)) { ret = ly_set_add(&key_set, (void *)snode, 1, NULL); LY_CHECK_GOTO(ret, cleanup); } /* remember parent count */ parents_count = xmlctx->elements.count; while (xmlctx->status == LYXML_ELEMENT) { /* find key definition */ for (i = 0; i < key_set.count; ++i) { snode = (const struct lysc_node *)key_set.objs[i]; if (!ly_strncmp(snode->name, xmlctx->name, xmlctx->name_len)) { break; } } LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); /* skip attributes */ while (xmlctx->status == LYXML_ATTRIBUTE) { LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); assert(xmlctx->status == LYXML_ATTR_CONTENT); LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); } assert(xmlctx->status == LYXML_ELEM_CONTENT); if (i < key_set.count) { /* validate the value */ r = lys_value_validate(NULL, snode, xmlctx->value, xmlctx->value_len, LY_VALUE_XML, &xmlctx->ns); if (!r) { /* key with a valid value, remove from the set */ ly_set_rm_index(&key_set, i, NULL); } } /* parser next */ LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); /* skip any children, resursively */ while (xmlctx->status == LYXML_ELEMENT) { while (parents_count < xmlctx->elements.count) { LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); } assert(xmlctx->status == LYXML_ELEM_CLOSE); LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); } /* parser next, but do not parse closing element of the list because it would remove its namespaces */ assert(xmlctx->status == LYXML_ELEM_CLOSE); LY_CHECK_GOTO(ret = lyxml_ctx_peek(xmlctx, &next), cleanup); if (next != LYXML_ELEM_CLOSE) { LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), cleanup); } } if (key_set.count) { /* some keys are missing/did not validate */ ret = LY_ENOT; } cleanup: ly_set_erase(&key_set, NULL); return ret; } /** * @brief Skip an element with all its descendants. * * @param[in] xmlctx XML parser context. * @return LY_ERR value. */ static LY_ERR lydxml_data_skip(struct lyxml_ctx *xmlctx) { uint32_t parents_count; /* remember current number of parents */ parents_count = xmlctx->elements.count; assert(parents_count); /* skip after the content */ while (xmlctx->status != LYXML_ELEM_CONTENT) { LY_CHECK_RET(lyxml_ctx_next(xmlctx)); } LY_CHECK_RET(lyxml_ctx_next(xmlctx)); /* skip all children elements, recursively, if any */ while (parents_count <= xmlctx->elements.count) { LY_CHECK_RET(lyxml_ctx_next(xmlctx)); } /* close element */ assert(xmlctx->status == LYXML_ELEM_CLOSE); LY_CHECK_RET(lyxml_ctx_next(xmlctx)); return LY_SUCCESS; } /** * @brief Check that the current element can be parsed as a data node. * * @param[in] lydctx XML data parser context. * @param[in,out] snode Found schema node, set to NULL if data node cannot be created. * @return LY_ERR value. */ static LY_ERR lydxml_data_check_opaq(struct lyd_xml_ctx *lydctx, const struct lysc_node **snode) { LY_ERR ret = LY_SUCCESS; struct lyxml_ctx *xmlctx = lydctx->xmlctx, pxmlctx; if (!(lydctx->parse_opts & LYD_PARSE_OPAQ)) { /* only checks specific to opaque nodes */ return LY_SUCCESS; } if (!((*snode)->nodetype & (LYD_NODE_TERM | LYD_NODE_INNER))) { /* nothing to check */ return LY_SUCCESS; } assert(xmlctx->elements.count); /* backup parser */ LY_CHECK_RET(lyxml_ctx_backup(xmlctx, &pxmlctx)); /* skip attributes */ while (xmlctx->status == LYXML_ATTRIBUTE) { LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), restore); LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), restore); } if ((*snode)->nodetype & LYD_NODE_TERM) { /* value may not be valid in which case we parse it as an opaque node */ if (lys_value_validate(NULL, *snode, xmlctx->value, xmlctx->value_len, LY_VALUE_XML, &xmlctx->ns)) { LOGVRB("Parsing opaque term node \"%s\" with invalid value \"%.*s\".", (*snode)->name, xmlctx->value_len, xmlctx->value); *snode = NULL; } } else if ((*snode)->nodetype == LYS_LIST) { /* skip content */ LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), restore); if (lydxml_check_list(xmlctx, *snode)) { /* invalid list, parse as opaque if it missing/has invalid some keys */ LOGVRB("Parsing opaque list node \"%s\" with missing/invalid keys.", (*snode)->name); *snode = NULL; } } else { /* if there is a non-WS value, it cannot be parsed as an inner node */ assert(xmlctx->status == LYXML_ELEM_CONTENT); if (!xmlctx->ws_only) { *snode = NULL; } } restore: /* restore parser */ lyxml_ctx_restore(xmlctx, &pxmlctx); return ret; } /** * @brief Get sensible data hints for an opaque node. * * @param[in] name Node name. * @param[in] name_len Length of @p name. * @param[in] value Node value. * @param[in] value_len Length of @p value. * @param[in] first Node first sibling. * @param[in] ns Node module namespace, NULL for no namespace. * @param[out] hints Data hints to use. * @param[out] anchor Anchor to insert after in case of a list. */ static void lydxml_get_hints_opaq(const char *name, size_t name_len, const char *value, size_t value_len, struct lyd_node *first, const char *ns, uint32_t *hints, struct lyd_node **anchor) { struct lyd_node_opaq *opaq; char *ptr; long num; *hints = 0; *anchor = NULL; if (!value_len) { /* no value */ *hints |= LYD_VALHINT_EMPTY; } else if (!strncmp(value, "true", value_len) || !strncmp(value, "false", value_len)) { /* boolean value */ *hints |= LYD_VALHINT_BOOLEAN; } else { num = strtol(value, &ptr, 10); if ((unsigned)(ptr - value) == value_len) { /* number value */ *hints |= LYD_VALHINT_DECNUM; if ((num < INT32_MIN) || (num > UINT32_MAX)) { /* large number */ *hints |= LYD_VALHINT_NUM64; } } else { /* string value */ *hints |= LYD_VALHINT_STRING; } } if (!first) { return; } /* search backwards to find the last instance */ do { first = first->prev; if (first->schema) { continue; } opaq = (struct lyd_node_opaq *)first; assert(opaq->format == LY_VALUE_XML); if (!ly_strncmp(opaq->name.name, name, name_len) && ((ns && !strcmp(opaq->name.module_ns, ns)) || (!ns && !opaq->name.module_ns))) { if (opaq->value && opaq->value[0]) { /* leaf-list nodes */ opaq->hints |= LYD_NODEHINT_LEAFLIST; *hints |= LYD_NODEHINT_LEAFLIST; } else { /* list nodes */ opaq->hints |= LYD_NODEHINT_LIST; *hints |= LYD_NODEHINT_LIST; } *anchor = first; break; } } while (first->prev->next); } /** * @brief Get schema node for the current element. * * @param[in] lydctx XML data parser context. * @param[in] parent Parsed parent data node, if any. * @param[in] prefix Element prefix, if any. * @param[in] prefix_len Length of @p prefix. * @param[in] name Element name. * @param[in] name_len Length of @p name. * @param[out] snode Found schema node, NULL if no suitable was found. * @param[out] ext Extension instance that provided @p snode, if any. * @return LY_SUCCESS on success; * @return LY_ERR on error. */ static LY_ERR lydxml_subtree_snode(struct lyd_xml_ctx *lydctx, const struct lyd_node *parent, const char *prefix, size_t prefix_len, const char *name, size_t name_len, const struct lysc_node **snode, struct lysc_ext_instance **ext) { LY_ERR r; struct lyxml_ctx *xmlctx; const struct ly_ctx *ctx; const struct lyxml_ns *ns; struct lys_module *mod; uint32_t getnext_opts; xmlctx = lydctx->xmlctx; ctx = xmlctx->ctx; getnext_opts = lydctx->int_opts & LYD_INTOPT_REPLY ? LYS_GETNEXT_OUTPUT : 0; *snode = NULL; *ext = NULL; /* get current namespace */ ns = lyxml_ns_get(&xmlctx->ns, prefix, prefix_len); if (!ns) { if (lydctx->int_opts & LYD_INTOPT_ANY) { goto unknown_module; } if (prefix_len) { LOGVAL(ctx, LYVE_REFERENCE, "Unknown XML prefix \"%.*s\".", (int)prefix_len, prefix); } else { LOGVAL(ctx, LYVE_REFERENCE, "Missing XML namespace."); } return LY_EVALID; } /* get the element module, use parent context if possible because of extensions */ mod = ly_ctx_get_module_implemented_ns(parent ? LYD_CTX(parent) : ctx, ns->uri); if (!mod) { /* check for extension data */ r = ly_nested_ext_schema(parent, NULL, prefix, prefix_len, LY_VALUE_XML, &lydctx->xmlctx->ns, name, name_len, snode, ext); if (r != LY_ENOT) { /* success or error */ return r; } unknown_module: if (lydctx->parse_opts & LYD_PARSE_STRICT) { LOGVAL(ctx, LYVE_REFERENCE, "No module with namespace \"%s\" in the context.", ns->uri); return LY_EVALID; } return LY_SUCCESS; } /* get the schema node */ if (mod) { if (!parent && lydctx->ext) { *snode = lysc_ext_find_node(lydctx->ext, mod, name, name_len, 0, getnext_opts); } else { *snode = lys_find_child(parent ? parent->schema : NULL, mod, name, name_len, 0, getnext_opts); } if (!*snode) { /* check for extension data */ r = ly_nested_ext_schema(parent, NULL, prefix, prefix_len, LY_VALUE_XML, &lydctx->xmlctx->ns, name, name_len, snode, ext); if (r != LY_ENOT) { /* success or error */ return r; } /* unknown data node */ if (lydctx->parse_opts & LYD_PARSE_STRICT) { if (parent) { LOGVAL(ctx, LYVE_REFERENCE, "Node \"%.*s\" not found as a child of \"%s\" node.", (int)name_len, name, LYD_NAME(parent)); } else if (lydctx->ext) { if (lydctx->ext->argument) { LOGVAL(ctx, LYVE_REFERENCE, "Node \"%.*s\" not found in the \"%s\" %s extension instance.", (int)name_len, name, lydctx->ext->argument, lydctx->ext->def->name); } else { LOGVAL(ctx, LYVE_REFERENCE, "Node \"%.*s\" not found in the %s extension instance.", (int)name_len, name, lydctx->ext->def->name); } } else { LOGVAL(ctx, LYVE_REFERENCE, "Node \"%.*s\" not found in the \"%s\" module.", (int)name_len, name, mod->name); } return LY_EVALID; } return LY_SUCCESS; } else { /* check that schema node is valid and can be used */ LY_CHECK_RET(lyd_parser_check_schema((struct lyd_ctx *)lydctx, *snode)); LY_CHECK_RET(lydxml_data_check_opaq(lydctx, snode)); } } return LY_SUCCESS; } /** * @brief Parse XML subtree. * * @param[in] lydctx XML YANG data parser context. * @param[in,out] parent Parent node where the children are inserted. NULL in case of parsing top-level elements. * @param[in,out] first_p Pointer to the first (@p parent or top-level) child. In case there were already some siblings, * this may point to a previously existing node. * @param[in,out] parsed Optional set to add all the parsed siblings into. * @return LY_ERR value. */ static LY_ERR lydxml_subtree_r(struct lyd_xml_ctx *lydctx, struct lyd_node *parent, struct lyd_node **first_p, struct ly_set *parsed) { LY_ERR ret = LY_SUCCESS; const char *prefix, *name, *ns_uri; size_t prefix_len, name_len; struct lyxml_ctx *xmlctx; const struct ly_ctx *ctx; const struct lyxml_ns *ns; struct lyd_meta *meta = NULL; struct lyd_attr *attr = NULL; const struct lysc_node *snode; struct lysc_ext_instance *ext; uint32_t prev_parse_opts, orig_parse_opts, prev_int_opts, hints; struct lyd_node *node = NULL, *anchor, *insert_anchor = NULL; void *val_prefix_data = NULL; LY_VALUE_FORMAT format; ly_bool parse_subtree; char *val; assert(parent || first_p); xmlctx = lydctx->xmlctx; ctx = xmlctx->ctx; parse_subtree = lydctx->parse_opts & LYD_PARSE_SUBTREE ? 1 : 0; /* all descendants should be parsed */ lydctx->parse_opts &= ~LYD_PARSE_SUBTREE; orig_parse_opts = lydctx->parse_opts; assert(xmlctx->status == LYXML_ELEMENT); /* remember element prefix and name */ prefix = xmlctx->prefix; prefix_len = xmlctx->prefix_len; name = xmlctx->name; name_len = xmlctx->name_len; /* parser next */ LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), error); /* get the schema node */ LY_CHECK_GOTO(ret = lydxml_subtree_snode(lydctx, parent, prefix, prefix_len, name, name_len, &snode, &ext), error); if (!snode && !(lydctx->parse_opts & LYD_PARSE_OPAQ)) { LOGVRB("Skipping parsing of unknown node \"%.*s\".", name_len, name); /* skip element with children */ LY_CHECK_GOTO(ret = lydxml_data_skip(xmlctx), error); return LY_SUCCESS; } /* create metadata/attributes */ if (xmlctx->status == LYXML_ATTRIBUTE) { if (snode) { ret = lydxml_metadata(lydctx, snode, &meta); LY_CHECK_GOTO(ret, error); } else { assert(lydctx->parse_opts & LYD_PARSE_OPAQ); ret = lydxml_attrs(xmlctx, &attr); LY_CHECK_GOTO(ret, error); } } assert(xmlctx->status == LYXML_ELEM_CONTENT); if (!snode) { assert(lydctx->parse_opts & LYD_PARSE_OPAQ); if (xmlctx->ws_only) { /* ignore WS-only value */ if (xmlctx->dynamic) { free((char *)xmlctx->value); } xmlctx->dynamic = 0; xmlctx->value = ""; xmlctx->value_len = 0; format = LY_VALUE_XML; } else { /* get value prefixes */ ret = ly_store_prefix_data(xmlctx->ctx, xmlctx->value, xmlctx->value_len, LY_VALUE_XML, &xmlctx->ns, &format, &val_prefix_data); LY_CHECK_GOTO(ret, error); } /* get NS again, it may have been backed up and restored */ ns = lyxml_ns_get(&xmlctx->ns, prefix, prefix_len); ns_uri = ns ? ns->uri : NULL; /* get best-effort node hints */ lydxml_get_hints_opaq(name, name_len, xmlctx->value, xmlctx->value_len, parent ? lyd_child(parent) : *first_p, ns_uri, &hints, &insert_anchor); /* create node */ ret = lyd_create_opaq(ctx, name, name_len, prefix, prefix_len, ns_uri, ns_uri ? strlen(ns_uri) : 0, xmlctx->value, xmlctx->value_len, &xmlctx->dynamic, format, val_prefix_data, hints, &node); LY_CHECK_GOTO(ret, error); /* parser next */ LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), error); /* process children */ while (xmlctx->status == LYXML_ELEMENT) { ret = lydxml_subtree_r(lydctx, node, lyd_node_child_p(node), NULL); LY_CHECK_GOTO(ret, error); } } else if (snode->nodetype & LYD_NODE_TERM) { /* create node */ LY_CHECK_GOTO(ret = lyd_parser_create_term((struct lyd_ctx *)lydctx, snode, xmlctx->value, xmlctx->value_len, &xmlctx->dynamic, LY_VALUE_XML, &xmlctx->ns, LYD_HINT_DATA, &node), error); LOG_LOCSET(snode, node, NULL, NULL); if (parent && (node->schema->flags & LYS_KEY)) { /* check the key order, the anchor must never be a key */ anchor = lyd_insert_get_next_anchor(lyd_child(parent), node); if (anchor && anchor->schema && (anchor->schema->flags & LYS_KEY)) { if (lydctx->parse_opts & LYD_PARSE_STRICT) { LOGVAL(ctx, LYVE_DATA, "Invalid position of the key \"%s\" in a list.", node->schema->name); ret = LY_EVALID; goto error; } else { LOGWRN(ctx, "Invalid position of the key \"%s\" in a list.", node->schema->name); } } } /* parser next */ LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), error); /* no children expected */ if (xmlctx->status == LYXML_ELEMENT) { LOGVAL(ctx, LYVE_SYNTAX, "Child element \"%.*s\" inside a terminal node \"%s\" found.", (int)xmlctx->name_len, xmlctx->name, snode->name); ret = LY_EVALID; goto error; } } else if (snode->nodetype & LYD_NODE_INNER) { if (!xmlctx->ws_only) { /* value in inner node */ LOGVAL(ctx, LYVE_SYNTAX, "Text value \"%.*s\" inside an inner node \"%s\" found.", (int)xmlctx->value_len, xmlctx->value, snode->name); ret = LY_EVALID; goto error; } /* create node */ ret = lyd_create_inner(snode, &node); LY_CHECK_GOTO(ret, error); LOG_LOCSET(snode, node, NULL, NULL); /* parser next */ LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), error); prev_parse_opts = lydctx->parse_opts; if (ext) { /* only parse these extension data and validate afterwards */ lydctx->parse_opts |= LYD_PARSE_ONLY; } /* process children */ while (xmlctx->status == LYXML_ELEMENT) { ret = lydxml_subtree_r(lydctx, node, lyd_node_child_p(node), NULL); LY_CHECK_GOTO(ret, error); } /* restore options */ lydctx->parse_opts = prev_parse_opts; if (snode->nodetype == LYS_LIST) { /* check all keys exist */ LY_CHECK_GOTO(ret = lyd_parse_check_keys(node), error); } if (!(lydctx->parse_opts & LYD_PARSE_ONLY)) { /* new node validation, autodelete CANNOT occur, all nodes are new */ ret = lyd_validate_new(lyd_node_child_p(node), snode, NULL, NULL); LY_CHECK_GOTO(ret, error); /* add any missing default children */ ret = lyd_new_implicit_r(node, lyd_node_child_p(node), NULL, NULL, &lydctx->node_when, &lydctx->node_types, &lydctx->ext_node, (lydctx->val_opts & LYD_VALIDATE_NO_STATE) ? LYD_IMPLICIT_NO_STATE : 0, NULL); LY_CHECK_GOTO(ret, error); } if (snode->nodetype & (LYS_RPC | LYS_ACTION | LYS_NOTIF)) { /* rememeber the RPC/action/notification */ lydctx->op_node = node; } } else if (snode->nodetype & LYD_NODE_ANY) { if ((snode->nodetype == LYS_ANYDATA) && !xmlctx->ws_only) { /* value in anydata node, we expect a tree */ LOGVAL(ctx, LYVE_SYNTAX, "Text value \"%.*s\" inside an anydata node \"%s\" found.", (int)xmlctx->value_len < 20 ? xmlctx->value_len : 20, xmlctx->value, snode->name); ret = LY_EVALID; goto error; } if (!xmlctx->ws_only) { /* use an arbitrary text value for anyxml */ val = strndup(xmlctx->value, xmlctx->value_len); LY_CHECK_ERR_GOTO(!val, LOGMEM(xmlctx->ctx); ret = LY_EMEM, error); /* parser next */ LY_CHECK_ERR_GOTO(ret = lyxml_ctx_next(xmlctx), free(val), error); /* create node */ ret = lyd_create_any(snode, val, LYD_ANYDATA_STRING, 1, &node); LY_CHECK_ERR_GOTO(ret, free(val), error); } else { /* parser next */ LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), error); /* update options so that generic data can be parsed */ prev_parse_opts = lydctx->parse_opts; lydctx->parse_opts &= ~LYD_PARSE_STRICT; lydctx->parse_opts |= LYD_PARSE_OPAQ | (ext ? LYD_PARSE_ONLY : 0); prev_int_opts = lydctx->int_opts; lydctx->int_opts |= LYD_INTOPT_ANY | LYD_INTOPT_WITH_SIBLINGS; /* parse any data tree */ anchor = NULL; while (xmlctx->status == LYXML_ELEMENT) { ret = lydxml_subtree_r(lydctx, NULL, &anchor, NULL); if (ret) { lyd_free_siblings(anchor); break; } } /* restore options */ lydctx->parse_opts = prev_parse_opts; lydctx->int_opts = prev_int_opts; LY_CHECK_GOTO(ret, error); /* create node */ ret = lyd_create_any(snode, anchor, LYD_ANYDATA_DATATREE, 1, &node); LY_CHECK_GOTO(ret, error); } } assert(node); if (snode) { /* add/correct flags */ LY_CHECK_GOTO(ret = lyd_parse_set_data_flags(node, &meta, (struct lyd_ctx *)lydctx, ext), error); if (!(lydctx->parse_opts & LYD_PARSE_ONLY)) { /* store for ext instance node validation, if needed */ LY_CHECK_GOTO(ret = lyd_validate_node_ext(node, &lydctx->ext_node), error); } } /* parser next */ assert(xmlctx->status == LYXML_ELEM_CLOSE); if (!parse_subtree) { LY_CHECK_GOTO(ret = lyxml_ctx_next(xmlctx), error); } /* add metadata/attributes */ if (snode) { lyd_insert_meta(node, meta, 0); } else { lyd_insert_attr(node, attr); } /* insert, keep first pointer correct */ if (insert_anchor) { lyd_insert_after(insert_anchor, node); } else if (ext) { LY_CHECK_GOTO(ret = lyplg_ext_insert(parent, node), error); } else { lyd_insert_node(parent, first_p, node, lydctx->parse_opts & LYD_PARSE_ORDERED ? 1 : 0); } while (!parent && (*first_p)->prev->next) { *first_p = (*first_p)->prev; } /* rememeber a successfully parsed node */ if (parsed) { ly_set_add(parsed, node, 1, NULL); } lydctx->parse_opts = orig_parse_opts; LOG_LOCBACK(node ? 1 : 0, node ? 1 : 0, 0, 0); return LY_SUCCESS; error: lydctx->parse_opts = orig_parse_opts; LOG_LOCBACK(node ? 1 : 0, node ? 1 : 0, 0, 0); lyd_free_meta_siblings(meta); lyd_free_attr_siblings(ctx, attr); lyd_free_tree(node); return ret; } /** * @brief Parse a specific XML element into an opaque node. * * @param[in] xmlctx XML parser context. * @param[in] name Name of the element. * @param[in] uri URI of the element. * @param[in] value Whether a value is expected in the element. * @param[out] evnp Parsed envelope (opaque node). * @return LY_SUCCESS on success. * @return LY_ENOT if the specified element did not match. * @return LY_ERR value on error. */ static LY_ERR lydxml_envelope(struct lyxml_ctx *xmlctx, const char *name, const char *uri, ly_bool value, struct lyd_node **envp) { LY_ERR rc = LY_SUCCESS; const struct lyxml_ns *ns; struct lyd_attr *attr = NULL; const char *prefix; size_t prefix_len; assert(xmlctx->status == LYXML_ELEMENT); if (ly_strncmp(name, xmlctx->name, xmlctx->name_len)) { /* not the expected element */ return LY_ENOT; } prefix = xmlctx->prefix; prefix_len = xmlctx->prefix_len; ns = lyxml_ns_get(&xmlctx->ns, prefix, prefix_len); if (!ns) { LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Unknown XML prefix \"%.*s\".", (int)prefix_len, prefix); return LY_EVALID; } else if (strcmp(ns->uri, uri)) { /* different namespace */ return LY_ENOT; } LY_CHECK_RET(lyxml_ctx_next(xmlctx)); /* create attributes */ if (xmlctx->status == LYXML_ATTRIBUTE) { LY_CHECK_RET(lydxml_attrs(xmlctx, &attr)); } assert(xmlctx->status == LYXML_ELEM_CONTENT); if (!value && !xmlctx->ws_only) { LOGVAL(xmlctx->ctx, LYVE_SYNTAX, "Unexpected value \"%.*s\" in the \"%s\" element.", (int)xmlctx->value_len, xmlctx->value, name); rc = LY_EVALID; goto cleanup; } /* create node */ rc = lyd_create_opaq(xmlctx->ctx, name, strlen(name), prefix, prefix_len, uri, strlen(uri), xmlctx->value, xmlctx->ws_only ? 0 : xmlctx->value_len, NULL, LY_VALUE_XML, NULL, 0, envp); LY_CHECK_GOTO(rc, cleanup); /* assign atributes */ ((struct lyd_node_opaq *)(*envp))->attr = attr; attr = NULL; /* parser next element */ LY_CHECK_GOTO(rc = lyxml_ctx_next(xmlctx), cleanup); cleanup: lyd_free_attr_siblings(xmlctx->ctx, attr); if (rc) { lyd_free_tree(*envp); *envp = NULL; } return rc; } LY_ERR lyd_parse_xml(const struct ly_ctx *ctx, const struct lysc_ext_instance *ext, struct lyd_node *parent, struct lyd_node **first_p, struct ly_in *in, uint32_t parse_opts, uint32_t val_opts, uint32_t int_opts, struct ly_set *parsed, ly_bool *subtree_sibling, struct lyd_ctx **lydctx_p) { LY_ERR rc = LY_SUCCESS; struct lyd_xml_ctx *lydctx; ly_bool parsed_data_nodes = 0; enum LYXML_PARSER_STATUS status; assert(ctx && in && lydctx_p); assert(!(parse_opts & ~LYD_PARSE_OPTS_MASK)); assert(!(val_opts & ~LYD_VALIDATE_OPTS_MASK)); /* init context */ lydctx = calloc(1, sizeof *lydctx); LY_CHECK_ERR_RET(!lydctx, LOGMEM(ctx), LY_EMEM); LY_CHECK_GOTO(rc = lyxml_ctx_new(ctx, in, &lydctx->xmlctx), cleanup); lydctx->parse_opts = parse_opts; lydctx->val_opts = val_opts; lydctx->int_opts = int_opts; lydctx->free = lyd_xml_ctx_free; lydctx->ext = ext; /* find the operation node if it exists already */ LY_CHECK_GOTO(rc = lyd_parser_find_operation(parent, int_opts, &lydctx->op_node), cleanup); /* parse XML data */ while (lydctx->xmlctx->status == LYXML_ELEMENT) { LY_CHECK_GOTO(rc = lydxml_subtree_r(lydctx, parent, first_p, parsed), cleanup); parsed_data_nodes = 1; if (!(int_opts & LYD_INTOPT_WITH_SIBLINGS)) { break; } } /* check final state */ if ((int_opts & LYD_INTOPT_NO_SIBLINGS) && (lydctx->xmlctx->status == LYXML_ELEMENT)) { LOGVAL(ctx, LYVE_SYNTAX, "Unexpected sibling node."); rc = LY_EVALID; goto cleanup; } if ((int_opts & (LYD_INTOPT_RPC | LYD_INTOPT_ACTION | LYD_INTOPT_NOTIF | LYD_INTOPT_REPLY)) && !lydctx->op_node) { LOGVAL(ctx, LYVE_DATA, "Missing the operation node."); rc = LY_EVALID; goto cleanup; } if (!parsed_data_nodes) { /* no data nodes were parsed */ lydctx->op_node = NULL; } if (parse_opts & LYD_PARSE_SUBTREE) { /* check for a sibling element */ assert(subtree_sibling); if (!lyxml_ctx_peek(lydctx->xmlctx, &status) && (status == LYXML_ELEMENT)) { *subtree_sibling = 1; } else { *subtree_sibling = 0; } } cleanup: /* there should be no unres stored if validation should be skipped */ assert(!(parse_opts & LYD_PARSE_ONLY) || (!lydctx->node_types.count && !lydctx->meta_types.count && !lydctx->node_when.count)); if (rc) { lyd_xml_ctx_free((struct lyd_ctx *)lydctx); } else { *lydctx_p = (struct lyd_ctx *)lydctx; /* the XML context is no more needed, freeing it also stops logging line numbers which would be confusing now */ lyxml_ctx_free(lydctx->xmlctx); lydctx->xmlctx = NULL; } return rc; } /** * @brief Parse all expected non-data XML elements of a NETCONF rpc message. * * @param[in] xmlctx XML parser context. * @param[out] evnp Parsed envelope(s) (opaque node). * @param[out] int_opts Internal options for parsing the rest of YANG data. * @param[out] close_elem Number of parsed opened elements that need to be closed. * @return LY_SUCCESS on success. * @return LY_ERR value on error. */ static LY_ERR lydxml_env_netconf_rpc(struct lyxml_ctx *xmlctx, struct lyd_node **envp, uint32_t *int_opts, uint32_t *close_elem) { LY_ERR rc = LY_SUCCESS, r; struct lyd_node *child; assert(envp && !*envp); if (xmlctx->status != LYXML_ELEMENT) { /* nothing to parse */ assert(xmlctx->status == LYXML_END); goto cleanup; } /* parse "rpc" */ r = lydxml_envelope(xmlctx, "rpc", "urn:ietf:params:xml:ns:netconf:base:1.0", 0, envp); LY_CHECK_ERR_GOTO(r, rc = r, cleanup); /* parse "action", if any */ r = lydxml_envelope(xmlctx, "action", "urn:ietf:params:xml:ns:yang:1", 0, &child); if (r == LY_SUCCESS) { /* insert */ lyd_insert_node(*envp, NULL, child, 0); /* NETCONF action */ *int_opts = LYD_INTOPT_NO_SIBLINGS | LYD_INTOPT_ACTION; *close_elem = 2; } else if (r == LY_ENOT) { /* NETCONF RPC */ *int_opts = LYD_INTOPT_NO_SIBLINGS | LYD_INTOPT_RPC; *close_elem = 1; } else { rc = r; goto cleanup; } cleanup: if (rc) { lyd_free_tree(*envp); *envp = NULL; } return rc; } /** * @brief Validate eventTime date-and-time value. * * @param[in] node Opaque eventTime node. * @return LY_SUCCESS on success. * @return LY_ERR value on error. */ static LY_ERR lydxml_env_netconf_eventtime_validate(const struct lyd_node *node) { LY_ERR rc = LY_SUCCESS; struct ly_ctx *ctx = (struct ly_ctx *)LYD_CTX(node); struct lysc_ctx cctx; const struct lys_module *mod; LY_ARRAY_COUNT_TYPE u; struct ly_err_item *err = NULL; struct lysp_type *type_p = NULL; struct lysc_pattern **patterns = NULL; const char *value; LYSC_CTX_INIT_CTX(cctx, ctx); /* get date-and-time parsed type */ mod = ly_ctx_get_module_latest(ctx, "ietf-yang-types"); assert(mod); LY_ARRAY_FOR(mod->parsed->typedefs, u) { if (!strcmp(mod->parsed->typedefs[u].name, "date-and-time")) { type_p = &mod->parsed->typedefs[u].type; break; } } assert(type_p); /* compile patterns */ assert(type_p->patterns); LY_CHECK_GOTO(rc = lys_compile_type_patterns(&cctx, type_p->patterns, NULL, &patterns), cleanup); /* validate */ value = lyd_get_value(node); rc = lyplg_type_validate_patterns(patterns, value, strlen(value), &err); cleanup: FREE_ARRAY(&cctx.free_ctx, patterns, lysc_pattern_free); if (rc && err) { LOGVAL_ERRITEM(ctx, err); ly_err_free(err); LOGVAL(ctx, LYVE_DATA, "Invalid \"eventTime\" in the notification."); } return rc; } /** * @brief Parse all expected non-data XML elements of a NETCONF notification message. * * @param[in] xmlctx XML parser context. * @param[out] evnp Parsed envelope(s) (opaque node). * @param[out] int_opts Internal options for parsing the rest of YANG data. * @param[out] close_elem Number of parsed opened elements that need to be closed. * @return LY_SUCCESS on success. * @return LY_ERR value on error. */ static LY_ERR lydxml_env_netconf_notif(struct lyxml_ctx *xmlctx, struct lyd_node **envp, uint32_t *int_opts, uint32_t *close_elem) { LY_ERR rc = LY_SUCCESS, r; struct lyd_node *child; assert(envp && !*envp); if (xmlctx->status != LYXML_ELEMENT) { /* nothing to parse */ assert(xmlctx->status == LYXML_END); goto cleanup; } /* parse "notification" */ r = lydxml_envelope(xmlctx, "notification", "urn:ietf:params:xml:ns:netconf:notification:1.0", 0, envp); LY_CHECK_ERR_GOTO(r, rc = r, cleanup); /* parse "eventTime" */ r = lydxml_envelope(xmlctx, "eventTime", "urn:ietf:params:xml:ns:netconf:notification:1.0", 1, &child); if (r == LY_ENOT) { LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Unexpected element \"%.*s\" instead of \"eventTime\".", (int)xmlctx->name_len, xmlctx->name); r = LY_EVALID; } LY_CHECK_ERR_GOTO(r, rc = r, cleanup); /* insert */ lyd_insert_node(*envp, NULL, child, 0); /* validate value */ r = lydxml_env_netconf_eventtime_validate(child); LY_CHECK_ERR_GOTO(r, rc = r, cleanup); /* finish child parsing */ if (xmlctx->status != LYXML_ELEM_CLOSE) { assert(xmlctx->status == LYXML_ELEMENT); LOGVAL(xmlctx->ctx, LYVE_SYNTAX, "Unexpected child element \"%.*s\" of \"eventTime\".", (int)xmlctx->name_len, xmlctx->name); rc = LY_EVALID; goto cleanup; } LY_CHECK_GOTO(rc = lyxml_ctx_next(xmlctx), cleanup); /* NETCONF notification */ *int_opts = LYD_INTOPT_NO_SIBLINGS | LYD_INTOPT_NOTIF; *close_elem = 1; cleanup: if (rc) { lyd_free_tree(*envp); *envp = NULL; } return rc; } /** * @brief Parse an XML element as an opaque node subtree. * * @param[in] xmlctx XML parser context. * @param[in] parent Parent to append nodes to. * @return LY_ERR value. */ static LY_ERR lydxml_opaq_r(struct lyxml_ctx *xmlctx, struct lyd_node *parent) { LY_ERR rc = LY_SUCCESS; const struct lyxml_ns *ns; struct lyd_attr *attr = NULL; struct lyd_node *child = NULL; const char *name, *prefix; size_t name_len, prefix_len; assert(xmlctx->status == LYXML_ELEMENT); name = xmlctx->name; name_len = xmlctx->name_len; prefix = xmlctx->prefix; prefix_len = xmlctx->prefix_len; ns = lyxml_ns_get(&xmlctx->ns, prefix, prefix_len); if (!ns) { LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Unknown XML prefix \"%.*s\".", (int)prefix_len, prefix); return LY_EVALID; } LY_CHECK_RET(lyxml_ctx_next(xmlctx)); /* create attributes */ if (xmlctx->status == LYXML_ATTRIBUTE) { LY_CHECK_RET(lydxml_attrs(xmlctx, &attr)); } /* create node */ assert(xmlctx->status == LYXML_ELEM_CONTENT); rc = lyd_create_opaq(xmlctx->ctx, name, name_len, prefix, prefix_len, ns->uri, strlen(ns->uri), xmlctx->value, xmlctx->ws_only ? 0 : xmlctx->value_len, NULL, LY_VALUE_XML, NULL, 0, &child); LY_CHECK_GOTO(rc, cleanup); /* assign atributes */ ((struct lyd_node_opaq *)child)->attr = attr; attr = NULL; /* parser next element */ LY_CHECK_GOTO(rc = lyxml_ctx_next(xmlctx), cleanup); /* parse all the descendants */ while (xmlctx->status == LYXML_ELEMENT) { rc = lydxml_opaq_r(xmlctx, child); LY_CHECK_GOTO(rc, cleanup); } /* insert */ lyd_insert_node(parent, NULL, child, 1); cleanup: lyd_free_attr_siblings(xmlctx->ctx, attr); if (rc) { lyd_free_tree(child); } return rc; } /** * @brief Parse all expected non-data XML elements of the error-info element in NETCONF rpc-reply message. * * @param[in] xmlctx XML parser context. * @param[in] parent Parent to append nodes to. * @return LY_ERR value. */ static LY_ERR lydxml_env_netconf_rpc_reply_error_info(struct lyxml_ctx *xmlctx, struct lyd_node *parent) { LY_ERR r; struct lyd_node *child, *iter; ly_bool no_dup; /* there must be some child */ if (xmlctx->status == LYXML_ELEM_CLOSE) { LOGVAL(xmlctx->ctx, LYVE_SYNTAX, "Missing child elements of \"error-info\"."); return LY_EVALID; } while (xmlctx->status == LYXML_ELEMENT) { child = NULL; /* * session-id */ r = lydxml_envelope(xmlctx, "session-id", "urn:ietf:params:xml:ns:netconf:base:1.0", 1, &child); if (r == LY_SUCCESS) { no_dup = 1; goto check_child; } else if (r != LY_ENOT) { goto error; } /* * bad-attribute */ r = lydxml_envelope(xmlctx, "bad-attribute", "urn:ietf:params:xml:ns:netconf:base:1.0", 1, &child); if (r == LY_SUCCESS) { no_dup = 1; goto check_child; } else if (r != LY_ENOT) { goto error; } /* * bad-element */ r = lydxml_envelope(xmlctx, "bad-element", "urn:ietf:params:xml:ns:netconf:base:1.0", 1, &child); if (r == LY_SUCCESS) { no_dup = 1; goto check_child; } else if (r != LY_ENOT) { goto error; } /* * bad-namespace */ r = lydxml_envelope(xmlctx, "bad-namespace", "urn:ietf:params:xml:ns:netconf:base:1.0", 1, &child); if (r == LY_SUCCESS) { no_dup = 1; goto check_child; } else if (r != LY_ENOT) { goto error; } if (r == LY_ENOT) { assert(xmlctx->status == LYXML_ELEMENT); /* custom elements, parse all the siblings */ while (xmlctx->status == LYXML_ELEMENT) { LY_CHECK_GOTO(r = lydxml_opaq_r(xmlctx, parent), error); LY_CHECK_GOTO(r = lyxml_ctx_next(xmlctx), error); } continue; } check_child: /* check for duplicates */ if (no_dup) { LY_LIST_FOR(lyd_child(parent), iter) { if ((((struct lyd_node_opaq *)iter)->name.name == ((struct lyd_node_opaq *)child)->name.name) && (((struct lyd_node_opaq *)iter)->name.module_ns == ((struct lyd_node_opaq *)child)->name.module_ns)) { LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Duplicate element \"%s\" in \"error-info\".", ((struct lyd_node_opaq *)child)->name.name); r = LY_EVALID; goto error; } } } /* finish child parsing */ if (xmlctx->status != LYXML_ELEM_CLOSE) { assert(xmlctx->status == LYXML_ELEMENT); LOGVAL(xmlctx->ctx, LYVE_SYNTAX, "Unexpected child element \"%.*s\" of \"error-info\".", (int)xmlctx->name_len, xmlctx->name); r = LY_EVALID; goto error; } LY_CHECK_GOTO(r = lyxml_ctx_next(xmlctx), error); /* insert */ lyd_insert_node(parent, NULL, child, 1); } return LY_SUCCESS; error: lyd_free_tree(child); return r; } /** * @brief Parse all expected non-data XML elements of the rpc-error element in NETCONF rpc-reply message. * * @param[in] xmlctx XML parser context. * @param[in] parent Parent to append nodes to. * @return LY_ERR value. */ static LY_ERR lydxml_env_netconf_rpc_reply_error(struct lyxml_ctx *xmlctx, struct lyd_node *parent) { LY_ERR r; struct lyd_node *child, *iter; const char *val; ly_bool no_dup; /* there must be some child */ if (xmlctx->status == LYXML_ELEM_CLOSE) { LOGVAL(xmlctx->ctx, LYVE_SYNTAX, "Missing child elements of \"rpc-error\"."); return LY_EVALID; } while (xmlctx->status == LYXML_ELEMENT) { child = NULL; /* * error-type */ r = lydxml_envelope(xmlctx, "error-type", "urn:ietf:params:xml:ns:netconf:base:1.0", 1, &child); if (r == LY_SUCCESS) { val = ((struct lyd_node_opaq *)child)->value; if (strcmp(val, "transport") && strcmp(val, "rpc") && strcmp(val, "protocol") && strcmp(val, "application")) { LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Invalid value \"%s\" of element \"%s\".", val, ((struct lyd_node_opaq *)child)->name.name); r = LY_EVALID; goto error; } no_dup = 1; goto check_child; } else if (r != LY_ENOT) { goto error; } /* * error-tag */ r = lydxml_envelope(xmlctx, "error-tag", "urn:ietf:params:xml:ns:netconf:base:1.0", 1, &child); if (r == LY_SUCCESS) { val = ((struct lyd_node_opaq *)child)->value; if (strcmp(val, "in-use") && strcmp(val, "invalid-value") && strcmp(val, "too-big") && strcmp(val, "missing-attribute") && strcmp(val, "bad-attribute") && strcmp(val, "unknown-attribute") && strcmp(val, "missing-element") && strcmp(val, "bad-element") && strcmp(val, "unknown-element") && strcmp(val, "unknown-namespace") && strcmp(val, "access-denied") && strcmp(val, "lock-denied") && strcmp(val, "resource-denied") && strcmp(val, "rollback-failed") && strcmp(val, "data-exists") && strcmp(val, "data-missing") && strcmp(val, "operation-not-supported") && strcmp(val, "operation-failed") && strcmp(val, "malformed-message")) { LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Invalid value \"%s\" of element \"%s\".", val, ((struct lyd_node_opaq *)child)->name.name); r = LY_EVALID; goto error; } no_dup = 1; goto check_child; } else if (r != LY_ENOT) { goto error; } /* * error-severity */ r = lydxml_envelope(xmlctx, "error-severity", "urn:ietf:params:xml:ns:netconf:base:1.0", 1, &child); if (r == LY_SUCCESS) { val = ((struct lyd_node_opaq *)child)->value; if (strcmp(val, "error") && strcmp(val, "warning")) { LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Invalid value \"%s\" of element \"%s\".", val, ((struct lyd_node_opaq *)child)->name.name); r = LY_EVALID; goto error; } no_dup = 1; goto check_child; } else if (r != LY_ENOT) { goto error; } /* * error-app-tag */ r = lydxml_envelope(xmlctx, "error-app-tag", "urn:ietf:params:xml:ns:netconf:base:1.0", 1, &child); if (r == LY_SUCCESS) { no_dup = 1; goto check_child; } else if (r != LY_ENOT) { goto error; } /* * error-path */ r = lydxml_envelope(xmlctx, "error-path", "urn:ietf:params:xml:ns:netconf:base:1.0", 1, &child); if (r == LY_SUCCESS) { no_dup = 1; goto check_child; } else if (r != LY_ENOT) { goto error; } /* * error-message */ r = lydxml_envelope(xmlctx, "error-message", "urn:ietf:params:xml:ns:netconf:base:1.0", 1, &child); if (r == LY_SUCCESS) { no_dup = 1; goto check_child; } else if (r != LY_ENOT) { goto error; } /* error-info */ r = lydxml_envelope(xmlctx, "error-info", "urn:ietf:params:xml:ns:netconf:base:1.0", 0, &child); if (r == LY_SUCCESS) { /* parse all the descendants */ LY_CHECK_GOTO(r = lydxml_env_netconf_rpc_reply_error_info(xmlctx, child), error); no_dup = 0; goto check_child; } else if (r != LY_ENOT) { goto error; } if (r == LY_ENOT) { assert(xmlctx->status == LYXML_ELEMENT); LOGVAL(xmlctx->ctx, LYVE_SYNTAX, "Unexpected child element \"%.*s\" of \"rpc-error\".", (int)xmlctx->name_len, xmlctx->name); r = LY_EVALID; goto error; } check_child: /* check for duplicates */ if (no_dup) { LY_LIST_FOR(lyd_child(parent), iter) { if ((((struct lyd_node_opaq *)iter)->name.name == ((struct lyd_node_opaq *)child)->name.name) && (((struct lyd_node_opaq *)iter)->name.module_ns == ((struct lyd_node_opaq *)child)->name.module_ns)) { LOGVAL(xmlctx->ctx, LYVE_REFERENCE, "Duplicate element \"%s\" in \"rpc-error\".", ((struct lyd_node_opaq *)child)->name.name); r = LY_EVALID; goto error; } } } /* finish child parsing */ if (xmlctx->status != LYXML_ELEM_CLOSE) { assert(xmlctx->status == LYXML_ELEMENT); LOGVAL(xmlctx->ctx, LYVE_SYNTAX, "Unexpected child element \"%.*s\" of \"rpc-error\".", (int)xmlctx->name_len, xmlctx->name); r = LY_EVALID; goto error; } LY_CHECK_GOTO(r = lyxml_ctx_next(xmlctx), error); /* insert */ lyd_insert_node(parent, NULL, child, 1); } return LY_SUCCESS; error: lyd_free_tree(child); return r; } /** * @brief Parse all expected non-data XML elements of a NETCONF rpc-reply message. * * @param[in] xmlctx XML parser context. * @param[out] evnp Parsed envelope(s) (opaque node). * @param[out] int_opts Internal options for parsing the rest of YANG data. * @param[out] close_elem Number of parsed opened elements that need to be closed. * @return LY_SUCCESS on success. * @return LY_ERR value on error. */ static LY_ERR lydxml_env_netconf_reply(struct lyxml_ctx *xmlctx, struct lyd_node **envp, uint32_t *int_opts, uint32_t *close_elem) { LY_ERR rc = LY_SUCCESS, r; struct lyd_node *child = NULL; const char *parsed_elem = NULL; assert(envp && !*envp); if (xmlctx->status != LYXML_ELEMENT) { /* nothing to parse */ assert(xmlctx->status == LYXML_END); goto cleanup; } /* parse "rpc-reply" */ r = lydxml_envelope(xmlctx, "rpc-reply", "urn:ietf:params:xml:ns:netconf:base:1.0", 0, envp); LY_CHECK_ERR_GOTO(r, rc = r, cleanup); /* there must be some child */ if (xmlctx->status == LYXML_ELEM_CLOSE) { LOGVAL(xmlctx->ctx, LYVE_SYNTAX, "Missing child elements of \"rpc-reply\"."); rc = LY_EVALID; goto cleanup; } /* try to parse "ok" */ r = lydxml_envelope(xmlctx, "ok", "urn:ietf:params:xml:ns:netconf:base:1.0", 0, &child); if (r == LY_SUCCESS) { /* insert */ lyd_insert_node(*envp, NULL, child, 1); /* finish child parsing */ if (xmlctx->status != LYXML_ELEM_CLOSE) { assert(xmlctx->status == LYXML_ELEMENT); LOGVAL(xmlctx->ctx, LYVE_SYNTAX, "Unexpected child element \"%.*s\" of \"ok\".", (int)xmlctx->name_len, xmlctx->name); rc = LY_EVALID; goto cleanup; } LY_CHECK_GOTO(rc = lyxml_ctx_next(xmlctx), cleanup); /* success */ parsed_elem = "ok"; goto finish; } else if (r != LY_ENOT) { rc = r; goto cleanup; } /* try to parse all "rpc-error" elements */ while (xmlctx->status == LYXML_ELEMENT) { r = lydxml_envelope(xmlctx, "rpc-error", "urn:ietf:params:xml:ns:netconf:base:1.0", 0, &child); if (r == LY_ENOT) { break; } else if (r) { rc = r; goto cleanup; } /* insert */ lyd_insert_node(*envp, NULL, child, 1); /* parse all children of "rpc-error" */ LY_CHECK_GOTO(rc = lydxml_env_netconf_rpc_reply_error(xmlctx, child), cleanup); /* finish child parsing */ assert(xmlctx->status == LYXML_ELEM_CLOSE); LY_CHECK_GOTO(rc = lyxml_ctx_next(xmlctx), cleanup); parsed_elem = "rpc-error"; } finish: if (parsed_elem) { /* NETCONF rpc-reply with no data */ if (xmlctx->status != LYXML_ELEM_CLOSE) { assert(xmlctx->status == LYXML_ELEMENT); LOGVAL(xmlctx->ctx, LYVE_SYNTAX, "Unexpected sibling element \"%.*s\" of \"%s\".", (int)xmlctx->name_len, xmlctx->name, parsed_elem); rc = LY_EVALID; goto cleanup; } } /* NETCONF rpc-reply */ *int_opts = LYD_INTOPT_WITH_SIBLINGS | LYD_INTOPT_REPLY; *close_elem = 1; cleanup: if (rc) { lyd_free_tree(*envp); *envp = NULL; } return rc; } LY_ERR lyd_parse_xml_netconf(const struct ly_ctx *ctx, const struct lysc_ext_instance *ext, struct lyd_node *parent, struct lyd_node **first_p, struct ly_in *in, uint32_t parse_opts, uint32_t val_opts, enum lyd_type data_type, struct lyd_node **envp, struct ly_set *parsed, struct lyd_ctx **lydctx_p) { LY_ERR rc = LY_SUCCESS; struct lyd_xml_ctx *lydctx; uint32_t i, int_opts = 0, close_elem = 0; ly_bool parsed_data_nodes = 0; assert(ctx && in && lydctx_p); assert(!(parse_opts & ~LYD_PARSE_OPTS_MASK)); assert(!(val_opts & ~LYD_VALIDATE_OPTS_MASK)); assert((data_type == LYD_TYPE_RPC_NETCONF) || (data_type == LYD_TYPE_NOTIF_NETCONF) || (data_type == LYD_TYPE_REPLY_NETCONF)); assert(!(parse_opts & LYD_PARSE_SUBTREE)); /* init context */ lydctx = calloc(1, sizeof *lydctx); LY_CHECK_ERR_RET(!lydctx, LOGMEM(ctx), LY_EMEM); LY_CHECK_GOTO(rc = lyxml_ctx_new(ctx, in, &lydctx->xmlctx), cleanup); lydctx->parse_opts = parse_opts; lydctx->val_opts = val_opts; lydctx->free = lyd_xml_ctx_free; lydctx->ext = ext; switch (data_type) { case LYD_TYPE_RPC_NETCONF: assert(!parent); rc = lydxml_env_netconf_rpc(lydctx->xmlctx, envp, &int_opts, &close_elem); if (rc == LY_ENOT) { LOGVAL(ctx, LYVE_DATA, "Missing NETCONF envelope or in incorrect namespace."); } LY_CHECK_GOTO(rc, cleanup); break; case LYD_TYPE_NOTIF_NETCONF: assert(!parent); rc = lydxml_env_netconf_notif(lydctx->xmlctx, envp, &int_opts, &close_elem); if (rc == LY_ENOT) { LOGVAL(ctx, LYVE_DATA, "Missing NETCONF envelope or in incorrect namespace."); } LY_CHECK_GOTO(rc, cleanup); break; case LYD_TYPE_REPLY_NETCONF: assert(parent); rc = lydxml_env_netconf_reply(lydctx->xmlctx, envp, &int_opts, &close_elem); if (rc == LY_ENOT) { LOGVAL(ctx, LYVE_DATA, "Missing NETCONF envelope or in incorrect namespace."); } LY_CHECK_GOTO(rc, cleanup); break; default: LOGINT(ctx); rc = LY_EINT; goto cleanup; } lydctx->int_opts = int_opts; /* find the operation node if it exists already */ LY_CHECK_GOTO(rc = lyd_parser_find_operation(parent, int_opts, &lydctx->op_node), cleanup); /* parse XML data */ while (lydctx->xmlctx->status == LYXML_ELEMENT) { LY_CHECK_GOTO(rc = lydxml_subtree_r(lydctx, parent, first_p, parsed), cleanup); parsed_data_nodes = 1; if (!(int_opts & LYD_INTOPT_WITH_SIBLINGS)) { break; } } /* close all opened elements */ for (i = 0; i < close_elem; ++i) { if (lydctx->xmlctx->status != LYXML_ELEM_CLOSE) { assert(lydctx->xmlctx->status == LYXML_ELEMENT); LOGVAL(lydctx->xmlctx->ctx, LYVE_SYNTAX, "Unexpected child element \"%.*s\".", (int)lydctx->xmlctx->name_len, lydctx->xmlctx->name); rc = LY_EVALID; goto cleanup; } LY_CHECK_GOTO(rc = lyxml_ctx_next(lydctx->xmlctx), cleanup); } /* check final state */ if ((int_opts & LYD_INTOPT_NO_SIBLINGS) && (lydctx->xmlctx->status == LYXML_ELEMENT)) { LOGVAL(ctx, LYVE_SYNTAX, "Unexpected sibling node."); rc = LY_EVALID; goto cleanup; } if ((int_opts & (LYD_INTOPT_RPC | LYD_INTOPT_ACTION | LYD_INTOPT_NOTIF | LYD_INTOPT_REPLY)) && !lydctx->op_node) { LOGVAL(ctx, LYVE_DATA, "Missing the operation node."); rc = LY_EVALID; goto cleanup; } if (!parsed_data_nodes) { /* no data nodes were parsed */ lydctx->op_node = NULL; } cleanup: /* there should be no unres stored if validation should be skipped */ assert(!(parse_opts & LYD_PARSE_ONLY) || (!lydctx->node_types.count && !lydctx->meta_types.count && !lydctx->node_when.count)); if (rc) { lyd_xml_ctx_free((struct lyd_ctx *)lydctx); } else { *lydctx_p = (struct lyd_ctx *)lydctx; /* the XML context is no more needed, freeing it also stops logging line numbers which would be confusing now */ lyxml_ctx_free(lydctx->xmlctx); lydctx->xmlctx = NULL; } return rc; }