/** * @file printer_json.c * @author Radek Krejci * @author Michal Vasko * @brief JSON printer for libyang data structure * * Copyright (c) 2015 - 2023 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 #include #include #include #include "context.h" #include "log.h" #include "ly_common.h" #include "out.h" #include "out_internal.h" #include "parser_data.h" #include "plugins_exts/metadata.h" #include "plugins_types.h" #include "printer_data.h" #include "printer_internal.h" #include "set.h" #include "tree.h" #include "tree_data.h" #include "tree_schema.h" /** * @brief JSON printer context. */ struct jsonpr_ctx { struct ly_out *out; /**< output specification */ const struct lyd_node *root; /**< root node of the subtree being printed */ const struct lyd_node *parent; /**< parent of the node being printed */ uint16_t level; /**< current indentation level: 0 - no formatting, >= 1 indentation levels */ uint32_t options; /**< [Data printer flags](@ref dataprinterflags) */ const struct ly_ctx *ctx; /**< libyang context */ uint16_t level_printed; /* level where some data were already printed */ struct ly_set open; /* currently open array(s) */ const struct lyd_node *first_leaflist; /**< first printed leaf-list instance, used when printing its metadata/attributes */ }; /** * @brief Mark that something was already written in the current level, * used to decide if a comma is expected between the items */ #define LEVEL_PRINTED pctx->level_printed = pctx->level #define PRINT_COMMA \ if (pctx->level_printed >= pctx->level) { \ ly_print_(pctx->out, ",%s", (DO_FORMAT ? "\n" : "")); \ } static LY_ERR json_print_node(struct jsonpr_ctx *pctx, const struct lyd_node *node); /** * @brief Compare 2 nodes, despite it is regular data node or an opaq node, and * decide if they corresponds to the same schema node. * * @return 1 - matching nodes, 0 - non-matching nodes */ static int matching_node(const struct lyd_node *node1, const struct lyd_node *node2) { assert(node1 || node2); if (!node1 || !node2) { return 0; } else if (node1->schema != node2->schema) { return 0; } if (!node1->schema) { /* compare node names */ struct lyd_node_opaq *onode1 = (struct lyd_node_opaq *)node1; struct lyd_node_opaq *onode2 = (struct lyd_node_opaq *)node2; if ((onode1->name.name != onode2->name.name) || (onode1->name.prefix != onode2->name.prefix)) { return 0; } } return 1; } /** * @brief Open the JSON array ('[') for the specified @p node * * @param[in] ctx JSON printer context. * @param[in] node First node of the array. * @return LY_ERR value. */ static LY_ERR json_print_array_open(struct jsonpr_ctx *pctx, const struct lyd_node *node) { ly_print_(pctx->out, "[%s", DO_FORMAT ? "\n" : ""); LY_CHECK_RET(ly_set_add(&pctx->open, (void *)node, 0, NULL)); LEVEL_INC; return LY_SUCCESS; } /** * @brief Get know if the array for the provided @p node is currently open. * * @param[in] ctx JSON printer context. * @param[in] node Data node to check. * @return 1 in case the printer is currently in the array belonging to the provided @p node. * @return 0 in case the provided @p node is not connected with the currently open array (or there is no open array). */ static int is_open_array(struct jsonpr_ctx *pctx, const struct lyd_node *node) { if (pctx->open.count && matching_node(node, pctx->open.dnodes[pctx->open.count - 1])) { return 1; } else { return 0; } } /** * @brief Close the most inner JSON array. * * @param[in] ctx JSON printer context. */ static void json_print_array_close(struct jsonpr_ctx *pctx) { LEVEL_DEC; ly_set_rm_index(&pctx->open, pctx->open.count - 1, NULL); ly_print_(pctx->out, "%s%*s]", DO_FORMAT ? "\n" : "", INDENT); } /** * @brief Get the node's module name to use as the @p node prefix in JSON. * * @param[in] node Node to process. * @return The name of the module where the @p node belongs, it can be NULL in case the module name * cannot be determined (source format is XML and the refered namespace is unknown/not implemented in the current context). */ static const char * node_prefix(const struct lyd_node *node) { if (node->schema) { return node->schema->module->name; } else { struct lyd_node_opaq *onode = (struct lyd_node_opaq *)node; const struct lys_module *mod; switch (onode->format) { case LY_VALUE_JSON: return onode->name.module_name; case LY_VALUE_XML: mod = ly_ctx_get_module_implemented_ns(onode->ctx, onode->name.module_ns); if (!mod) { return NULL; } return mod->name; default: /* cannot be created */ LOGINT(LYD_CTX(node)); } } return NULL; } /** * @brief Compare 2 nodes if the belongs to the same module (if they come from the same namespace) * * Accepts both regulard a well as opaq nodes. * * @param[in] node1 The first node to compare. * @param[in] node2 The second node to compare. * @return 0 in case the nodes' modules are the same * @return 1 in case the nodes belongs to different modules */ int json_nscmp(const struct lyd_node *node1, const struct lyd_node *node2) { assert(node1 || node2); if (!node1 || !node2) { return 1; } else if (node1->schema && node2->schema) { if (node1->schema->module == node2->schema->module) { /* belongs to the same module */ return 0; } else { /* different modules */ return 1; } } else { const char *pref1 = node_prefix(node1); const char *pref2 = node_prefix(node2); if ((pref1 && pref2) && (pref1 == pref2)) { return 0; } else { return 1; } } } /** * @brief Print the @p text as JSON string - encode special characters and add quotation around the string. * * @param[in] out The output handler. * @param[in] text The string to print. * @return LY_ERR value. */ static LY_ERR json_print_string(struct ly_out *out, const char *text) { uint64_t i; if (!text) { return LY_SUCCESS; } ly_write_(out, "\"", 1); for (i = 0; text[i]; i++) { const unsigned char byte = text[i]; switch (byte) { case '"': ly_print_(out, "\\\""); break; case '\\': ly_print_(out, "\\\\"); break; case '\r': ly_print_(out, "\\r"); break; case '\t': ly_print_(out, "\\t"); break; default: if (iscntrl(byte)) { /* control character */ ly_print_(out, "\\u%.4X", byte); } else { /* printable character (even non-ASCII UTF8) */ ly_write_(out, &text[i], 1); } break; } } ly_write_(out, "\"", 1); return LY_SUCCESS; } /** * @brief Print JSON object's member name, ending by ':'. It resolves if the prefix is supposed to be printed. * * @param[in] ctx JSON printer context. * @param[in] node The data node being printed. * @param[in] is_attr Flag if the metadata sign (@) is supposed to be added before the identifier. * @return LY_ERR value. */ static LY_ERR json_print_member(struct jsonpr_ctx *pctx, const struct lyd_node *node, ly_bool is_attr) { PRINT_COMMA; if ((LEVEL == 1) || json_nscmp(node, pctx->parent)) { /* print "namespace" */ ly_print_(pctx->out, "%*s\"%s%s:%s\":%s", INDENT, is_attr ? "@" : "", node_prefix(node), node->schema->name, DO_FORMAT ? " " : ""); } else { ly_print_(pctx->out, "%*s\"%s%s\":%s", INDENT, is_attr ? "@" : "", node->schema->name, DO_FORMAT ? " " : ""); } return LY_SUCCESS; } /** * @brief More generic alternative to json_print_member() to print some special cases of the member names. * * @param[in] ctx JSON printer context. * @param[in] parent Parent node to compare modules deciding if the prefix is printed. * @param[in] format Format to decide how to process the @p prefix. * @param[in] name Name structure to provide name and prefix to print. If NULL, only "" name is printed. * @param[in] is_attr Flag if the metadata sign (@) is supposed to be added before the identifier. * @return LY_ERR value. */ static LY_ERR json_print_member2(struct jsonpr_ctx *pctx, const struct lyd_node *parent, LY_VALUE_FORMAT format, const struct ly_opaq_name *name, ly_bool is_attr) { const char *module_name = NULL, *name_str; PRINT_COMMA; /* determine prefix string */ if (name) { switch (format) { case LY_VALUE_JSON: module_name = name->module_name; break; case LY_VALUE_XML: { const struct lys_module *mod = NULL; if (name->module_ns) { mod = ly_ctx_get_module_implemented_ns(pctx->ctx, name->module_ns); } if (mod) { module_name = mod->name; } break; } default: /* cannot be created */ LOGINT_RET(pctx->ctx); } name_str = name->name; } else { name_str = ""; } /* print the member */ if (module_name && (!parent || (node_prefix(parent) != module_name))) { ly_print_(pctx->out, "%*s\"%s%s:%s\":%s", INDENT, is_attr ? "@" : "", module_name, name_str, DO_FORMAT ? " " : ""); } else { ly_print_(pctx->out, "%*s\"%s%s\":%s", INDENT, is_attr ? "@" : "", name_str, DO_FORMAT ? " " : ""); } return LY_SUCCESS; } /** * @brief Print data value. * * @param[in] pctx JSON printer context. * @param[in] ctx Context used to print the value. * @param[in] val Data value to be printed. * @param[in] local_mod Module of the current node. * @return LY_ERR value. */ static LY_ERR json_print_value(struct jsonpr_ctx *pctx, const struct ly_ctx *ctx, const struct lyd_value *val, const struct lys_module *local_mod) { ly_bool dynamic; LY_DATA_TYPE basetype; const char *value; value = val->realtype->plugin->print(ctx, val, LY_VALUE_JSON, (void *)local_mod, &dynamic, NULL); LY_CHECK_RET(!value, LY_EINVAL); basetype = val->realtype->basetype; print_val: /* leafref is not supported */ switch (basetype) { case LY_TYPE_UNION: /* use the resolved type */ val = &val->subvalue->value; basetype = val->realtype->basetype; goto print_val; case LY_TYPE_BINARY: case LY_TYPE_STRING: case LY_TYPE_BITS: case LY_TYPE_ENUM: case LY_TYPE_INST: case LY_TYPE_INT64: case LY_TYPE_UINT64: case LY_TYPE_DEC64: case LY_TYPE_IDENT: json_print_string(pctx->out, value); break; case LY_TYPE_INT8: case LY_TYPE_INT16: case LY_TYPE_INT32: case LY_TYPE_UINT8: case LY_TYPE_UINT16: case LY_TYPE_UINT32: case LY_TYPE_BOOL: ly_print_(pctx->out, "%s", value[0] ? value : "null"); break; case LY_TYPE_EMPTY: ly_print_(pctx->out, "[null]"); break; default: /* error */ LOGINT_RET(pctx->ctx); } if (dynamic) { free((char *)value); } return LY_SUCCESS; } /** * @brief Print all the attributes of the opaq node. * * @param[in] ctx JSON printer context. * @param[in] node Opaq node where the attributes are placed. * @return LY_ERR value. */ static LY_ERR json_print_attribute(struct jsonpr_ctx *pctx, const struct lyd_node_opaq *node) { struct lyd_attr *attr; for (attr = node->attr; attr; attr = attr->next) { json_print_member2(pctx, &node->node, attr->format, &attr->name, 0); if (attr->hints & (LYD_VALHINT_STRING | LYD_VALHINT_OCTNUM | LYD_VALHINT_HEXNUM | LYD_VALHINT_NUM64)) { json_print_string(pctx->out, attr->value); } else if (attr->hints & (LYD_VALHINT_BOOLEAN | LYD_VALHINT_DECNUM)) { ly_print_(pctx->out, "%s", attr->value[0] ? attr->value : "null"); } else if (attr->hints & LYD_VALHINT_EMPTY) { ly_print_(pctx->out, "[null]"); } else { /* unknown value format with no hints, use universal string */ json_print_string(pctx->out, attr->value); } LEVEL_PRINTED; } return LY_SUCCESS; } /** * @brief Print all the metadata of the node. * * @param[in] ctx JSON printer context. * @param[in] node Node where the metadata are placed. * @param[in] wdmod With-defaults module to mark that default attribute is supposed to be printed. * @return LY_ERR value. */ static LY_ERR json_print_metadata(struct jsonpr_ctx *pctx, const struct lyd_node *node, const struct lys_module *wdmod) { struct lyd_meta *meta; if (wdmod) { ly_print_(pctx->out, "%*s\"%s:default\":%strue", INDENT, wdmod->name, DO_FORMAT ? " " : ""); LEVEL_PRINTED; } for (meta = node->meta; meta; meta = meta->next) { if (!lyd_metadata_should_print(meta)) { continue; } PRINT_COMMA; ly_print_(pctx->out, "%*s\"%s:%s\":%s", INDENT, meta->annotation->module->name, meta->name, DO_FORMAT ? " " : ""); LY_CHECK_RET(json_print_value(pctx, LYD_CTX(node), &meta->value, NULL)); LEVEL_PRINTED; } return LY_SUCCESS; } /** * @brief Check if a value can be printed for at least one metadata. * * @param[in] node Node to check. * @return 1 if node has printable meta otherwise 0. */ static ly_bool node_has_printable_meta(const struct lyd_node *node) { struct lyd_meta *iter; if (!node->meta) { return 0; } LY_LIST_FOR(node->meta, iter) { if (lyd_metadata_should_print(iter)) { return 1; } } return 0; } /** * @brief Print attributes/metadata of the given @p node. Accepts both regular as well as opaq nodes. * * @param[in] ctx JSON printer context. * @param[in] node Data node where the attributes/metadata are placed. * @param[in] inner Flag if the @p node is an inner node in the tree. * @return LY_ERR value. */ static LY_ERR json_print_attributes(struct jsonpr_ctx *pctx, const struct lyd_node *node, ly_bool inner) { const struct lys_module *wdmod = NULL; if (node->schema && (node->schema->nodetype != LYS_CONTAINER) && (((node->flags & LYD_DEFAULT) && (pctx->options & (LYD_PRINT_WD_ALL_TAG | LYD_PRINT_WD_IMPL_TAG))) || ((pctx->options & LYD_PRINT_WD_ALL_TAG) && lyd_is_default(node)))) { /* we have implicit OR explicit default node */ /* get with-defaults module */ wdmod = ly_ctx_get_module_implemented(LYD_CTX(node), "ietf-netconf-with-defaults"); } if (node->schema && (wdmod || node_has_printable_meta(node))) { if (inner) { LY_CHECK_RET(json_print_member2(pctx, lyd_parent(node), LY_VALUE_JSON, NULL, 1)); } else { LY_CHECK_RET(json_print_member(pctx, node, 1)); } ly_print_(pctx->out, "{%s", (DO_FORMAT ? "\n" : "")); LEVEL_INC; LY_CHECK_RET(json_print_metadata(pctx, node, wdmod)); LEVEL_DEC; ly_print_(pctx->out, "%s%*s}", DO_FORMAT ? "\n" : "", INDENT); LEVEL_PRINTED; } else if (!node->schema && ((struct lyd_node_opaq *)node)->attr) { if (inner) { LY_CHECK_RET(json_print_member2(pctx, lyd_parent(node), LY_VALUE_JSON, NULL, 1)); } else { LY_CHECK_RET(json_print_member2(pctx, lyd_parent(node), ((struct lyd_node_opaq *)node)->format, &((struct lyd_node_opaq *)node)->name, 1)); } ly_print_(pctx->out, "{%s", (DO_FORMAT ? "\n" : "")); LEVEL_INC; LY_CHECK_RET(json_print_attribute(pctx, (struct lyd_node_opaq *)node)); LEVEL_DEC; ly_print_(pctx->out, "%s%*s}", DO_FORMAT ? "\n" : "", INDENT); LEVEL_PRINTED; } return LY_SUCCESS; } /** * @brief Print leaf data node including its metadata. * * @param[in] ctx JSON printer context. * @param[in] node Data node to print. * @return LY_ERR value. */ static LY_ERR json_print_leaf(struct jsonpr_ctx *pctx, const struct lyd_node *node) { LY_CHECK_RET(json_print_member(pctx, node, 0)); LY_CHECK_RET(json_print_value(pctx, LYD_CTX(node), &((const struct lyd_node_term *)node)->value, node->schema->module)); LEVEL_PRINTED; /* print attributes as sibling */ json_print_attributes(pctx, node, 0); return LY_SUCCESS; } /** * @brief Print anydata/anyxml content. * * @param[in] ctx JSON printer context. * @param[in] any Anydata node to print. * @return LY_ERR value. */ static LY_ERR json_print_any_content(struct jsonpr_ctx *pctx, struct lyd_node_any *any) { LY_ERR ret = LY_SUCCESS; struct lyd_node *iter; const struct lyd_node *prev_parent; uint32_t prev_opts, *prev_lo, temp_lo = 0; assert(any->schema->nodetype & LYD_NODE_ANY); if ((any->schema->nodetype == LYS_ANYDATA) && (any->value_type != LYD_ANYDATA_DATATREE)) { LOGINT_RET(pctx->ctx); } if (any->value_type == LYD_ANYDATA_LYB) { uint32_t parser_options = LYD_PARSE_ONLY | LYD_PARSE_OPAQ | LYD_PARSE_STRICT; /* turn logging off */ prev_lo = ly_temp_log_options(&temp_lo); /* try to parse it into a data tree */ if (lyd_parse_data_mem(pctx->ctx, any->value.mem, LYD_LYB, parser_options, 0, &iter) == LY_SUCCESS) { /* successfully parsed */ free(any->value.mem); any->value.tree = iter; any->value_type = LYD_ANYDATA_DATATREE; } /* turn logging on again */ ly_temp_log_options(prev_lo); } switch (any->value_type) { case LYD_ANYDATA_DATATREE: /* print as an object */ ly_print_(pctx->out, "{%s", DO_FORMAT ? "\n" : ""); LEVEL_INC; /* close opening tag and print data */ prev_parent = pctx->parent; prev_opts = pctx->options; pctx->parent = &any->node; pctx->options &= ~LYD_PRINT_WITHSIBLINGS; LY_LIST_FOR(any->value.tree, iter) { ret = json_print_node(pctx, iter); LY_CHECK_ERR_RET(ret, LEVEL_DEC, ret); } pctx->parent = prev_parent; pctx->options = prev_opts; /* terminate the object */ LEVEL_DEC; if (DO_FORMAT) { ly_print_(pctx->out, "\n%*s}", INDENT); } else { ly_print_(pctx->out, "}"); } break; case LYD_ANYDATA_JSON: if (!any->value.json) { /* no content */ if (any->schema->nodetype == LYS_ANYXML) { ly_print_(pctx->out, "null"); } else { ly_print_(pctx->out, "{}"); } } else { /* print without escaping special characters */ ly_print_(pctx->out, "%s", any->value.json); } break; case LYD_ANYDATA_STRING: case LYD_ANYDATA_XML: if (!any->value.str) { /* no content */ if (any->schema->nodetype == LYS_ANYXML) { ly_print_(pctx->out, "null"); } else { ly_print_(pctx->out, "{}"); } } else { /* print as a string */ json_print_string(pctx->out, any->value.str); } break; case LYD_ANYDATA_LYB: /* LYB format is not supported */ LOGWRN(pctx->ctx, "Unable to print anydata content (type %d) as JSON.", any->value_type); break; } return LY_SUCCESS; } /** * @brief Print content of a single container/list data node including its metadata. * The envelope specific to nodes are expected to be printed by the caller. * * @param[in] ctx JSON printer context. * @param[in] node Data node to print. * @return LY_ERR value. */ static LY_ERR json_print_inner(struct jsonpr_ctx *pctx, const struct lyd_node *node) { struct lyd_node *child; const struct lyd_node *prev_parent; struct lyd_node_opaq *opaq = NULL; ly_bool has_content = 0; LY_LIST_FOR(lyd_child(node), child) { if (lyd_node_should_print(child, pctx->options)) { break; } } if (node->meta || child) { has_content = 1; } if (!node->schema) { opaq = (struct lyd_node_opaq *)node; } if ((node->schema && (node->schema->nodetype == LYS_LIST)) || (opaq && (opaq->hints != LYD_HINT_DATA) && (opaq->hints & LYD_NODEHINT_LIST))) { ly_print_(pctx->out, "%s%*s{%s", (is_open_array(pctx, node) && (pctx->level_printed >= pctx->level)) ? (DO_FORMAT ? ",\n" : ",") : "", INDENT, (DO_FORMAT && has_content) ? "\n" : ""); } else { ly_print_(pctx->out, "%s{%s", (is_open_array(pctx, node) && (pctx->level_printed >= pctx->level)) ? "," : "", (DO_FORMAT && has_content) ? "\n" : ""); } LEVEL_INC; json_print_attributes(pctx, node, 1); /* print children */ prev_parent = pctx->parent; pctx->parent = node; LY_LIST_FOR(lyd_child(node), child) { LY_CHECK_RET(json_print_node(pctx, child)); } pctx->parent = prev_parent; LEVEL_DEC; if (DO_FORMAT && has_content) { ly_print_(pctx->out, "\n%*s}", INDENT); } else { ly_print_(pctx->out, "}"); } LEVEL_PRINTED; return LY_SUCCESS; } /** * @brief Print container data node including its metadata. * * @param[in] ctx JSON printer context. * @param[in] node Data node to print. * @return LY_ERR value. */ static int json_print_container(struct jsonpr_ctx *pctx, const struct lyd_node *node) { LY_CHECK_RET(json_print_member(pctx, node, 0)); LY_CHECK_RET(json_print_inner(pctx, node)); return LY_SUCCESS; } /** * @brief Print anydata/anyxml data node including its metadata. * * @param[in] ctx JSON printer context. * @param[in] node Data node to print. * @return LY_ERR value. */ static int json_print_any(struct jsonpr_ctx *pctx, const struct lyd_node *node) { LY_CHECK_RET(json_print_member(pctx, node, 0)); LY_CHECK_RET(json_print_any_content(pctx, (struct lyd_node_any *)node)); LEVEL_PRINTED; /* print attributes as sibling */ json_print_attributes(pctx, node, 0); return LY_SUCCESS; } /** * @brief Check whether a node is the last printed instance of a (leaf-)list. * * @param[in] ctx JSON printer context. * @param[in] node Last printed node. * @return Whether it is the last printed instance or not. */ static ly_bool json_print_array_is_last_inst(struct jsonpr_ctx *pctx, const struct lyd_node *node) { if (!is_open_array(pctx, node)) { /* no array open */ return 0; } if ((pctx->root == node) && !(pctx->options & LYD_PRINT_WITHSIBLINGS)) { /* the only printed instance */ return 1; } if (!node->next || (node->next->schema != node->schema)) { /* last instance */ return 1; } return 0; } /** * @brief Print single leaf-list or list instance. * * In case of list, metadata are printed inside the list object. For the leaf-list, * metadata are marked in the context for later printing after closing the array next to it using * json_print_metadata_leaflist(). * * @param[in] ctx JSON printer context. * @param[in] node Data node to print. * @return LY_ERR value. */ static LY_ERR json_print_leaf_list(struct jsonpr_ctx *pctx, const struct lyd_node *node) { const struct lys_module *wdmod = NULL; if (!is_open_array(pctx, node)) { LY_CHECK_RET(json_print_member(pctx, node, 0)); LY_CHECK_RET(json_print_array_open(pctx, node)); if (node->schema->nodetype == LYS_LEAFLIST) { ly_print_(pctx->out, "%*s", INDENT); } } else if (node->schema->nodetype == LYS_LEAFLIST) { ly_print_(pctx->out, ",%s%*s", DO_FORMAT ? "\n" : "", INDENT); } if (node->schema->nodetype == LYS_LIST) { /* print list's content */ LY_CHECK_RET(json_print_inner(pctx, node)); } else { assert(node->schema->nodetype == LYS_LEAFLIST); LY_CHECK_RET(json_print_value(pctx, LYD_CTX(node), &((const struct lyd_node_term *)node)->value, node->schema->module)); if (!pctx->first_leaflist) { if (((node->flags & LYD_DEFAULT) && (pctx->options & (LYD_PRINT_WD_ALL_TAG | LYD_PRINT_WD_IMPL_TAG))) || ((pctx->options & LYD_PRINT_WD_ALL_TAG) && lyd_is_default(node))) { /* we have implicit OR explicit default node, get with-defaults module */ wdmod = ly_ctx_get_module_implemented(LYD_CTX(node), "ietf-netconf-with-defaults"); } if (wdmod || node_has_printable_meta(node)) { /* we will be printing metadata for these siblings */ pctx->first_leaflist = node; } } } if (json_print_array_is_last_inst(pctx, node)) { json_print_array_close(pctx); } return LY_SUCCESS; } /** * @brief Print leaf-list's metadata or opaque nodes attributes. * This function is supposed to be called when the leaf-list array is closed. * * @param[in] ctx JSON printer context. * @return LY_ERR value. */ static LY_ERR json_print_meta_attr_leaflist(struct jsonpr_ctx *pctx) { const struct lyd_node *prev, *node, *iter; const struct lys_module *wdmod = NULL, *iter_wdmod; const struct lyd_node_opaq *opaq = NULL; assert(pctx->first_leaflist); if (pctx->options & (LYD_PRINT_WD_ALL_TAG | LYD_PRINT_WD_IMPL_TAG)) { /* get with-defaults module */ wdmod = ly_ctx_get_module_implemented(pctx->ctx, "ietf-netconf-with-defaults"); } /* node is the first instance of the leaf-list */ for (node = pctx->first_leaflist, prev = pctx->first_leaflist->prev; prev->next && matching_node(node, prev); node = prev, prev = node->prev) {} if (node->schema) { LY_CHECK_RET(json_print_member(pctx, node, 1)); } else { opaq = (struct lyd_node_opaq *)node; LY_CHECK_RET(json_print_member2(pctx, lyd_parent(node), opaq->format, &opaq->name, 1)); } ly_print_(pctx->out, "[%s", (DO_FORMAT ? "\n" : "")); LEVEL_INC; LY_LIST_FOR(node, iter) { PRINT_COMMA; if (iter->schema && ((iter->flags & LYD_DEFAULT) || ((pctx->options & LYD_PRINT_WD_ALL_TAG) && lyd_is_default(iter)))) { iter_wdmod = wdmod; } else { iter_wdmod = NULL; } if ((iter->schema && (node_has_printable_meta(iter) || iter_wdmod)) || (opaq && opaq->attr)) { ly_print_(pctx->out, "%*s%s", INDENT, DO_FORMAT ? "{\n" : "{"); LEVEL_INC; if (iter->schema) { LY_CHECK_RET(json_print_metadata(pctx, iter, iter_wdmod)); } else { LY_CHECK_RET(json_print_attribute(pctx, (struct lyd_node_opaq *)iter)); } LEVEL_DEC; ly_print_(pctx->out, "%s%*s}", DO_FORMAT ? "\n" : "", INDENT); } else { ly_print_(pctx->out, "%*snull", INDENT); } LEVEL_PRINTED; if (!matching_node(iter, iter->next)) { break; } } LEVEL_DEC; ly_print_(pctx->out, "%s%*s]", DO_FORMAT ? "\n" : "", INDENT); LEVEL_PRINTED; return LY_SUCCESS; } /** * @brief Print opaq data node including its attributes. * * @param[in] ctx JSON printer context. * @param[in] node Opaq node to print. * @return LY_ERR value. */ static LY_ERR json_print_opaq(struct jsonpr_ctx *pctx, const struct lyd_node_opaq *node) { ly_bool first = 1, last = 1; uint32_t hints; if (node->hints == LYD_HINT_DATA) { /* useless and confusing hints */ hints = 0; } else { hints = node->hints; } if (hints & (LYD_NODEHINT_LIST | LYD_NODEHINT_LEAFLIST)) { if (node->prev->next && matching_node(node->prev, &node->node)) { first = 0; } if (node->next && matching_node(&node->node, node->next)) { last = 0; } } if (first) { LY_CHECK_RET(json_print_member2(pctx, pctx->parent, node->format, &node->name, 0)); if (hints & (LYD_NODEHINT_LIST | LYD_NODEHINT_LEAFLIST)) { LY_CHECK_RET(json_print_array_open(pctx, &node->node)); } if (hints & LYD_NODEHINT_LEAFLIST) { ly_print_(pctx->out, "%*s", INDENT); } } else if (hints & LYD_NODEHINT_LEAFLIST) { ly_print_(pctx->out, ",%s%*s", DO_FORMAT ? "\n" : "", INDENT); } if (node->child || (hints & LYD_NODEHINT_LIST) || (hints & LYD_NODEHINT_CONTAINER)) { LY_CHECK_RET(json_print_inner(pctx, &node->node)); LEVEL_PRINTED; } else { if (hints & LYD_VALHINT_EMPTY) { ly_print_(pctx->out, "[null]"); } else if ((hints & (LYD_VALHINT_BOOLEAN | LYD_VALHINT_DECNUM)) && !(hints & LYD_VALHINT_NUM64)) { ly_print_(pctx->out, "%s", node->value); } else { /* string or a large number */ json_print_string(pctx->out, node->value); } LEVEL_PRINTED; if (!(hints & LYD_NODEHINT_LEAFLIST)) { /* attributes */ json_print_attributes(pctx, (const struct lyd_node *)node, 0); } else if (!pctx->first_leaflist && node->attr) { /* attributes printed later */ pctx->first_leaflist = &node->node; } } if (last && (hints & (LYD_NODEHINT_LIST | LYD_NODEHINT_LEAFLIST))) { json_print_array_close(pctx); LEVEL_PRINTED; } return LY_SUCCESS; } /** * @brief Print all the types of data node including its metadata. * * @param[in] ctx JSON printer context. * @param[in] node Data node to print. * @return LY_ERR value. */ static LY_ERR json_print_node(struct jsonpr_ctx *pctx, const struct lyd_node *node) { if (!lyd_node_should_print(node, pctx->options)) { if (json_print_array_is_last_inst(pctx, node)) { json_print_array_close(pctx); } return LY_SUCCESS; } if (!node->schema) { LY_CHECK_RET(json_print_opaq(pctx, (const struct lyd_node_opaq *)node)); } else { switch (node->schema->nodetype) { case LYS_RPC: case LYS_ACTION: case LYS_NOTIF: case LYS_CONTAINER: LY_CHECK_RET(json_print_container(pctx, node)); break; case LYS_LEAF: LY_CHECK_RET(json_print_leaf(pctx, node)); break; case LYS_LEAFLIST: case LYS_LIST: LY_CHECK_RET(json_print_leaf_list(pctx, node)); break; case LYS_ANYDATA: case LYS_ANYXML: LY_CHECK_RET(json_print_any(pctx, node)); break; default: LOGINT(pctx->ctx); return EXIT_FAILURE; } } pctx->level_printed = pctx->level; if (pctx->first_leaflist && !matching_node(node->next, pctx->first_leaflist)) { json_print_meta_attr_leaflist(pctx); pctx->first_leaflist = NULL; } return LY_SUCCESS; } LY_ERR json_print_data(struct ly_out *out, const struct lyd_node *root, uint32_t options) { const struct lyd_node *node; struct jsonpr_ctx pctx = {0}; const char *delimiter = (options & LYD_PRINT_SHRINK) ? "" : "\n"; if (!root) { ly_print_(out, "{}%s", delimiter); ly_print_flush(out); return LY_SUCCESS; } pctx.out = out; pctx.parent = NULL; pctx.level = 1; pctx.level_printed = 0; pctx.options = options; pctx.ctx = LYD_CTX(root); /* start */ ly_print_(pctx.out, "{%s", delimiter); /* content */ LY_LIST_FOR(root, node) { pctx.root = node; LY_CHECK_RET(json_print_node(&pctx, node)); if (!(options & LYD_PRINT_WITHSIBLINGS)) { break; } } /* end */ ly_print_(out, "%s}%s", delimiter, delimiter); assert(!pctx.open.count); ly_set_erase(&pctx.open, NULL); ly_print_flush(out); return LY_SUCCESS; }