/** * @file parser_common.c * @author Michal Vasko * @brief libyang common parser functions. * * Copyright (c) 2015 - 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 #define _POSIX_C_SOURCE 200809L /* strdup, strndup */ #ifdef __APPLE__ #define _DARWIN_C_SOURCE /* F_GETPATH */ #endif #if defined (__NetBSD__) || defined (__OpenBSD__) /* realpath */ #define _XOPEN_SOURCE 1 #define _XOPEN_SOURCE_EXTENDED 1 #endif #include "parser_internal.h" #include #include #include #include #include #include #include #include #include #include #include "common.h" #include "compat.h" #include "dict.h" #include "in_internal.h" #include "log.h" #include "parser_data.h" #include "path.h" #include "plugins_exts/metadata.h" #include "schema_compile_node.h" #include "schema_features.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" void lyd_ctx_free(struct lyd_ctx *lydctx) { ly_set_erase(&lydctx->node_types, NULL); ly_set_erase(&lydctx->meta_types, NULL); ly_set_erase(&lydctx->node_when, NULL); ly_set_erase(&lydctx->ext_node, free); ly_set_erase(&lydctx->ext_val, free); } LY_ERR lyd_parser_notif_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; } LY_ERR lyd_parser_find_operation(const struct lyd_node *parent, uint32_t int_opts, struct lyd_node **op) { const struct lyd_node *iter; *op = NULL; if (!parent) { /* no parent, nothing to look for */ return LY_SUCCESS; } /* we need to find the operation node if it already exists */ for (iter = parent; iter; iter = lyd_parent(iter)) { if (iter->schema && (iter->schema->nodetype & (LYS_RPC | LYS_ACTION | LYS_NOTIF))) { break; } } if (!iter) { /* no operation found */ return LY_SUCCESS; } if (!(int_opts & LYD_INTOPT_ANY)) { if (!(int_opts & (LYD_INTOPT_RPC | LYD_INTOPT_ACTION | LYD_INTOPT_NOTIF | LYD_INTOPT_REPLY))) { LOGERR(LYD_CTX(parent), LY_EINVAL, "Invalid parent %s \"%s\" node when not parsing any operation.", lys_nodetype2str(iter->schema->nodetype), iter->schema->name); return LY_EINVAL; } else if ((iter->schema->nodetype == LYS_RPC) && !(int_opts & (LYD_INTOPT_RPC | LYD_INTOPT_REPLY))) { LOGERR(LYD_CTX(parent), LY_EINVAL, "Invalid parent RPC \"%s\" node when not parsing RPC nor rpc-reply.", iter->schema->name); return LY_EINVAL; } else if ((iter->schema->nodetype == LYS_ACTION) && !(int_opts & (LYD_INTOPT_ACTION | LYD_INTOPT_REPLY))) { LOGERR(LYD_CTX(parent), LY_EINVAL, "Invalid parent action \"%s\" node when not parsing action nor rpc-reply.", iter->schema->name); return LY_EINVAL; } else if ((iter->schema->nodetype == LYS_NOTIF) && !(int_opts & LYD_INTOPT_NOTIF)) { LOGERR(LYD_CTX(parent), LY_EINVAL, "Invalid parent notification \"%s\" node when not parsing a notification.", iter->schema->name); return LY_EINVAL; } } *op = (struct lyd_node *)iter; return LY_SUCCESS; } const struct lysc_node * lyd_parser_node_schema(const struct lyd_node *node) { uint32_t i; const struct lyd_node *iter; const struct lysc_node *schema = NULL; const struct lys_module *mod; if (!node) { return NULL; } else if (node->schema) { /* simplest case */ return node->schema; } /* find the first schema node in the parsed nodes */ i = ly_log_location_dnode_count(); if (i) { do { --i; if (ly_log_location_dnode(i)->schema) { /* this node is processed */ schema = ly_log_location_dnode(i)->schema; ++i; break; } } while (i); } /* get schema node of an opaque node */ do { /* get next data node */ if (i == ly_log_location_dnode_count()) { iter = node; } else { iter = ly_log_location_dnode(i); } assert(!iter->schema); /* get module */ mod = lyd_node_module(iter); if (!mod) { /* unknown module, no schema node */ schema = NULL; break; } /* get schema node */ schema = lys_find_child(schema, mod, LYD_NAME(iter), 0, 0, 0); /* move to the descendant */ ++i; } while (schema && (iter != node)); return schema; } LY_ERR lyd_parser_check_schema(struct lyd_ctx *lydctx, const struct lysc_node *snode) { LY_ERR rc = LY_SUCCESS; LOG_LOCSET(snode, NULL, NULL, NULL); if (lydctx->int_opts & LYD_INTOPT_ANY) { /* nothing to check, everything is allowed */ goto cleanup; } if ((lydctx->parse_opts & LYD_PARSE_NO_STATE) && (snode->flags & LYS_CONFIG_R)) { LOGVAL(lydctx->data_ctx->ctx, LY_VCODE_UNEXPNODE, "state", snode->name); rc = LY_EVALID; goto cleanup; } if (snode->nodetype == LYS_RPC) { if (lydctx->int_opts & (LYD_INTOPT_RPC | LYD_INTOPT_REPLY)) { if (lydctx->op_node) { goto error_node_dup; } } else { goto error_node_inval; } } else if (snode->nodetype == LYS_ACTION) { if (lydctx->int_opts & (LYD_INTOPT_ACTION | LYD_INTOPT_REPLY)) { if (lydctx->op_node) { goto error_node_dup; } } else { goto error_node_inval; } } else if (snode->nodetype == LYS_NOTIF) { if (lydctx->int_opts & LYD_INTOPT_NOTIF) { if (lydctx->op_node) { goto error_node_dup; } } else { goto error_node_inval; } } /* success */ goto cleanup; error_node_dup: LOGVAL(lydctx->data_ctx->ctx, LYVE_DATA, "Unexpected %s element \"%s\", %s \"%s\" already parsed.", lys_nodetype2str(snode->nodetype), snode->name, lys_nodetype2str(lydctx->op_node->schema->nodetype), lydctx->op_node->schema->name); rc = LY_EVALID; goto cleanup; error_node_inval: LOGVAL(lydctx->data_ctx->ctx, LYVE_DATA, "Unexpected %s element \"%s\".", lys_nodetype2str(snode->nodetype), snode->name); rc = LY_EVALID; cleanup: LOG_LOCBACK(1, 0, 0, 0); return rc; } LY_ERR lyd_parser_create_term(struct lyd_ctx *lydctx, const struct lysc_node *schema, const void *value, size_t value_len, ly_bool *dynamic, LY_VALUE_FORMAT format, void *prefix_data, uint32_t hints, struct lyd_node **node) { LY_ERR r; ly_bool incomplete; if ((r = lyd_create_term(schema, value, value_len, 1, dynamic, format, prefix_data, hints, &incomplete, node))) { if (lydctx->data_ctx->ctx != schema->module->ctx) { /* move errors to the main context */ ly_err_move(schema->module->ctx, (struct ly_ctx *)lydctx->data_ctx->ctx); } return r; } if (incomplete && !(lydctx->parse_opts & LYD_PARSE_ONLY)) { LY_CHECK_RET(ly_set_add(&lydctx->node_types, *node, 1, NULL)); } return LY_SUCCESS; } LY_ERR lyd_parser_create_meta(struct lyd_ctx *lydctx, struct lyd_node *parent, struct lyd_meta **meta, const struct lys_module *mod, const char *name, size_t name_len, const void *value, size_t value_len, ly_bool *dynamic, LY_VALUE_FORMAT format, void *prefix_data, uint32_t hints, const struct lysc_node *ctx_node) { LY_ERR rc = LY_SUCCESS; char *dpath = NULL, *path = NULL; ly_bool incomplete; struct lyd_meta *first = NULL; if (meta && *meta) { /* remember the first metadata */ first = *meta; } /* generate path to the metadata */ LY_CHECK_RET(ly_vlog_build_data_path(lydctx->data_ctx->ctx, &dpath)); if (asprintf(&path, "%s/@%s:%.*s", dpath, mod->name, (int)name_len, name) == -1) { LOGMEM(lydctx->data_ctx->ctx); rc = LY_EMEM; goto cleanup; } LOG_LOCSET(NULL, NULL, path, NULL); LY_CHECK_GOTO(rc = lyd_create_meta(parent, meta, mod, name, name_len, value, value_len, 1, dynamic, format, prefix_data, hints, ctx_node, 0, &incomplete), cleanup); if (incomplete && !(lydctx->parse_opts & LYD_PARSE_ONLY)) { LY_CHECK_GOTO(rc = ly_set_add(&lydctx->meta_types, *meta, 1, NULL), cleanup); } if (first) { /* always return the first metadata */ *meta = first; } cleanup: LOG_LOCBACK(0, 0, 1, 0); free(dpath); free(path); return rc; } LY_ERR lyd_parse_check_keys(struct lyd_node *node) { const struct lysc_node *skey = NULL; const struct lyd_node *key; assert(node->schema->nodetype == LYS_LIST); key = lyd_child(node); while ((skey = lys_getnext(skey, node->schema, NULL, 0)) && (skey->flags & LYS_KEY)) { if (!key || (key->schema != skey)) { LOGVAL(LYD_CTX(node), LY_VCODE_NOKEY, skey->name); return LY_EVALID; } key = key->next; } return LY_SUCCESS; } LY_ERR lyd_parse_set_data_flags(struct lyd_node *node, struct lyd_meta **meta, struct lyd_ctx *lydctx, struct lysc_ext_instance *ext) { struct lyd_meta *meta2, *prev_meta = NULL; struct lyd_ctx_ext_val *ext_val; if (lydctx->parse_opts & LYD_PARSE_NO_NEW) { node->flags &= ~LYD_NEW; } if (lysc_has_when(node->schema)) { if (lydctx->parse_opts & LYD_PARSE_WHEN_TRUE) { /* the condition was true before */ node->flags |= LYD_WHEN_TRUE; } if (!(lydctx->parse_opts & LYD_PARSE_ONLY)) { /* remember we need to evaluate this node's when */ LY_CHECK_RET(ly_set_add(&lydctx->node_when, node, 1, NULL)); } } LY_LIST_FOR(*meta, meta2) { if (!strcmp(meta2->name, "default") && !strcmp(meta2->annotation->module->name, "ietf-netconf-with-defaults") && meta2->value.boolean) { /* node is default according to the metadata */ node->flags |= LYD_DEFAULT; /* delete the metadata */ if (prev_meta) { prev_meta->next = meta2->next; } else if (meta != &node->meta) { *meta = (*meta)->next; } lyd_free_meta_single(meta2); /* update dflt flag for all parent NP containers */ lyd_cont_set_dflt(lyd_parent(node)); break; } prev_meta = meta2; } if (ext) { /* parsed for an extension */ node->flags |= LYD_EXT; if (!(lydctx->parse_opts & LYD_PARSE_ONLY)) { /* rememeber for validation */ ext_val = malloc(sizeof *ext_val); LY_CHECK_ERR_RET(!ext_val, LOGMEM(LYD_CTX(node)), LY_EMEM); ext_val->ext = ext; ext_val->sibling = node; LY_CHECK_RET(ly_set_add(&lydctx->ext_val, ext_val, 1, NULL)); } } return LY_SUCCESS; } void lys_parser_fill_filepath(struct ly_ctx *ctx, struct ly_in *in, const char **filepath) { char path[PATH_MAX]; #ifndef __APPLE__ char proc_path[32]; int len; #endif LY_CHECK_ARG_RET(NULL, ctx, in, filepath, ); if (*filepath) { /* filepath already set */ return; } switch (in->type) { case LY_IN_FILEPATH: if (realpath(in->method.fpath.filepath, path) != NULL) { lydict_insert(ctx, path, 0, filepath); } else { lydict_insert(ctx, in->method.fpath.filepath, 0, filepath); } break; case LY_IN_FD: #ifdef __APPLE__ if (fcntl(in->method.fd, F_GETPATH, path) != -1) { lydict_insert(ctx, path, 0, filepath); } #elif defined _WIN32 HANDLE h = _get_osfhandle(in->method.fd); FILE_NAME_INFO info; if (GetFileInformationByHandleEx(h, FileNameInfo, &info, sizeof info)) { char *buf = calloc(info.FileNameLength + 1 /* trailing NULL */, MB_CUR_MAX); len = wcstombs(buf, info.FileName, info.FileNameLength * MB_CUR_MAX); lydict_insert(ctx, buf, len, filepath); } #else /* get URI if there is /proc */ sprintf(proc_path, "/proc/self/fd/%d", in->method.fd); if ((len = readlink(proc_path, path, PATH_MAX - 1)) > 0) { lydict_insert(ctx, path, len, filepath); } #endif break; case LY_IN_MEMORY: case LY_IN_FILE: /* nothing to do */ break; default: LOGINT(ctx); break; } } static LY_ERR lysp_stmt_container(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings); static LY_ERR lysp_stmt_choice(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings); static LY_ERR lysp_stmt_case(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings); static LY_ERR lysp_stmt_uses(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings); static LY_ERR lysp_stmt_grouping(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node_grp **groupings); static LY_ERR lysp_stmt_list(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings); /** * @brief Validate stmt string value. * * @param[in] ctx Parser context. * @param[in] val_type String value type. * @param[in] val Value to validate. * @return LY_ERR value. */ static LY_ERR lysp_stmt_validate_value(struct lysp_ctx *ctx, enum yang_arg val_type, const char *val) { uint8_t prefix = 0; ly_bool first = 1; uint32_t c; size_t utf8_char_len; if (!val) { if (val_type == Y_MAYBE_STR_ARG) { /* fine */ return LY_SUCCESS; } LOGVAL_PARSER(ctx, LYVE_SYNTAX, "Missing an expected string."); return LY_EVALID; } while (*val) { LY_CHECK_ERR_RET(ly_getutf8(&val, &c, &utf8_char_len), LOGVAL_PARSER(ctx, LY_VCODE_INCHAR, (val)[-utf8_char_len]), LY_EVALID); switch (val_type) { case Y_IDENTIF_ARG: LY_CHECK_RET(lysp_check_identifierchar(ctx, c, first, NULL)); break; case Y_PREF_IDENTIF_ARG: LY_CHECK_RET(lysp_check_identifierchar(ctx, c, first, &prefix)); break; case Y_STR_ARG: case Y_MAYBE_STR_ARG: LY_CHECK_RET(lysp_check_stringchar(ctx, c)); break; } first = 0; } return LY_SUCCESS; } /** * @brief Duplicate statement siblings, recursively. * * @param[in] ctx Parser context. * @param[in] stmt Statement to duplicate. * @param[out] first First duplicated statement, the rest follow. * @return LY_ERR value. */ static LY_ERR lysp_stmt_dup(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_stmt **first) { struct lysp_stmt *child, *last = NULL; LY_LIST_FOR(stmt, stmt) { child = calloc(1, sizeof *child); LY_CHECK_ERR_RET(!child, LOGMEM(PARSER_CTX(ctx)), LY_EMEM); if (last) { last->next = child; } else { assert(!*first); *first = child; } last = child; LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->stmt, 0, &child->stmt)); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &child->arg)); child->format = stmt->format; LY_CHECK_RET(ly_dup_prefix_data(PARSER_CTX(ctx), stmt->format, stmt->prefix_data, &child->prefix_data)); child->flags = stmt->flags; child->kw = stmt->kw; /* recursively */ LY_CHECK_RET(lysp_stmt_dup(ctx, stmt->child, &child->child)); } return LY_SUCCESS; } /** * @brief Parse extension instance. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] insubstmt The statement this extension instance is a substatement of. * @param[in] insubstmt_index Index of the keyword instance this extension instance is a substatement of. * @param[in,out] exts Extension instances to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_ext(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, enum ly_stmt insubstmt, LY_ARRAY_COUNT_TYPE insubstmt_index, struct lysp_ext_instance **exts) { struct lysp_ext_instance *e; LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *exts, e, LY_EMEM); /* store name and insubstmt info */ LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->stmt, 0, &e->name)); e->parent_stmt = insubstmt; e->parent_stmt_index = insubstmt_index; e->parsed = NULL; LY_CHECK_RET(lysp_stmt_dup(ctx, stmt->child, &e->child)); /* get optional argument */ if (stmt->arg) { LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &e->argument)); } return LY_SUCCESS; } /** * @brief Parse a generic text field without specific constraints. Those are contact, organization, * description, etc... * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] substmt_index Index of this substatement. * @param[in,out] value Place to store the parsed value. * @param[in] arg Type of the YANG keyword argument (of the value). * @param[in,out] exts Extension instances to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_text_field(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, uint32_t substmt_index, const char **value, enum yang_arg arg, struct lysp_ext_instance **exts) { if (*value) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, lyplg_ext_stmt2str(stmt->kw)); return LY_EVALID; } LY_CHECK_RET(lysp_stmt_validate_value(ctx, arg, stmt->arg)); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, value)); for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, substmt_index, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(stmt->kw)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse a qname that can have more instances such as if-feature. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] qnames Parsed qnames to add to. * @param[in] arg Type of the expected argument. * @param[in,out] exts Extension instances to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_qnames(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_qname **qnames, enum yang_arg arg, struct lysp_ext_instance **exts) { struct lysp_qname *item; LY_CHECK_RET(lysp_stmt_validate_value(ctx, arg, stmt->arg)); /* allocate new pointer */ LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *qnames, item, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &item->str)); item->mod = PARSER_CUR_PMOD(ctx); for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, LY_ARRAY_COUNT(*qnames) - 1, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(stmt->kw)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse a generic text field that can have more instances such as base. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] texts Parsed values to add to. * @param[in] arg Type of the expected argument. * @param[in,out] exts Extension instances to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_text_fields(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, const char ***texts, enum yang_arg arg, struct lysp_ext_instance **exts) { const char **item; LY_CHECK_RET(lysp_stmt_validate_value(ctx, arg, stmt->arg)); /* allocate new pointer */ LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *texts, item, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, item)); for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, LY_ARRAY_COUNT(*texts) - 1, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(stmt->kw)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the status statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] flags Flags to add to. * @param[in,out] exts Extension instances to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_status(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, uint16_t *flags, struct lysp_ext_instance **exts) { int arg_len; if (*flags & LYS_STATUS_MASK) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "status"); return LY_EVALID; } LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); arg_len = strlen(stmt->arg); if ((arg_len == ly_strlen_const("current")) && !strncmp(stmt->arg, "current", arg_len)) { *flags |= LYS_STATUS_CURR; } else if ((arg_len == ly_strlen_const("deprecated")) && !strncmp(stmt->arg, "deprecated", arg_len)) { *flags |= LYS_STATUS_DEPRC; } else if ((arg_len == ly_strlen_const("obsolete")) && !strncmp(stmt->arg, "obsolete", arg_len)) { *flags |= LYS_STATUS_OBSLT; } else { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, "status"); return LY_EVALID; } for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_STATUS, 0, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "status"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the when statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] when_p When pointer to parse to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_when(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_when **when_p) { LY_ERR ret = LY_SUCCESS; struct lysp_when *when; if (*when_p) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "when"); return LY_EVALID; } LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); when = calloc(1, sizeof *when); LY_CHECK_ERR_RET(!when, LOGMEM(PARSER_CTX(ctx)), LY_EMEM); *when_p = when; LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &when->cond)); for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &when->dsc, Y_STR_ARG, &when->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &when->ref, Y_STR_ARG, &when->exts)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_WHEN, 0, &when->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "when"); return LY_EVALID; } } return ret; } /** * @brief Parse the config statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] flags Flags to add to. * @param[in,out] exts Extension instances to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_config(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, uint16_t *flags, struct lysp_ext_instance **exts) { int arg_len; if (*flags & LYS_CONFIG_MASK) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "config"); return LY_EVALID; } LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); arg_len = strlen(stmt->arg); if ((arg_len == ly_strlen_const("true")) && !strncmp(stmt->arg, "true", arg_len)) { *flags |= LYS_CONFIG_W; } else if ((arg_len == ly_strlen_const("false")) && !strncmp(stmt->arg, "false", arg_len)) { *flags |= LYS_CONFIG_R; } else { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, "config"); return LY_EVALID; } for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_CONFIG, 0, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "config"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the mandatory statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] flags Flags to add to. * @param[in,out] exts Extension instances to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_mandatory(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, uint16_t *flags, struct lysp_ext_instance **exts) { int arg_len; if (*flags & LYS_MAND_MASK) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "mandatory"); return LY_EVALID; } LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); arg_len = strlen(stmt->arg); if ((arg_len == ly_strlen_const("true")) && !strncmp(stmt->arg, "true", arg_len)) { *flags |= LYS_MAND_TRUE; } else if ((arg_len == ly_strlen_const("false")) && !strncmp(stmt->arg, "false", arg_len)) { *flags |= LYS_MAND_FALSE; } else { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, "mandatory"); return LY_EVALID; } for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_MANDATORY, 0, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "mandatory"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse a restriction such as range or length. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] exts Extension instances to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_restr(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_restr *restr) { LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &restr->arg.str)); restr->arg.mod = PARSER_CUR_PMOD(ctx); for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &restr->dsc, Y_STR_ARG, &restr->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &restr->ref, Y_STR_ARG, &restr->exts)); break; case LY_STMT_ERROR_APP_TAG: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &restr->eapptag, Y_STR_ARG, &restr->exts)); break; case LY_STMT_ERROR_MESSAGE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &restr->emsg, Y_STR_ARG, &restr->exts)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, &restr->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(stmt->kw)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse a restriction that can have more instances such as must. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] restrs Restrictions to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_restrs(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_restr **restrs) { struct lysp_restr *restr; LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *restrs, restr, LY_EMEM); return lysp_stmt_restr(ctx, stmt, restr); } /** * @brief Parse the anydata or anyxml statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] siblings Siblings to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_any(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings) { struct lysp_node_anydata *any; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); /* create new structure and insert into siblings */ LY_LIST_NEW_RET(PARSER_CTX(ctx), siblings, any, next, LY_EMEM); any->nodetype = stmt->kw == LY_STMT_ANYDATA ? LYS_ANYDATA : LYS_ANYXML; any->parent = parent; LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &any->name)); /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_CONFIG: LY_CHECK_RET(lysp_stmt_config(ctx, child, &any->flags, &any->exts)); break; case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &any->dsc, Y_STR_ARG, &any->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &any->iffeatures, Y_STR_ARG, &any->exts)); break; case LY_STMT_MANDATORY: LY_CHECK_RET(lysp_stmt_mandatory(ctx, child, &any->flags, &any->exts)); break; case LY_STMT_MUST: LY_CHECK_RET(lysp_stmt_restrs(ctx, child, &any->musts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &any->ref, Y_STR_ARG, &any->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &any->flags, &any->exts)); break; case LY_STMT_WHEN: LY_CHECK_RET(lysp_stmt_when(ctx, child, &any->when)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, &any->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), (any->nodetype & LYS_ANYDATA) == LYS_ANYDATA ? lyplg_ext_stmt2str(LY_STMT_ANYDATA) : lyplg_ext_stmt2str(LY_STMT_ANYXML)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the value or position statement. Substatement of type enum statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] value Value to write to. * @param[in,out] flags Flags to write to. * @param[in,out] exts Extension instances to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_type_enum_value_pos(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, int64_t *value, uint16_t *flags, struct lysp_ext_instance **exts) { int arg_len; char *ptr = NULL; long long num = 0; unsigned long long unum = 0; if (*flags & LYS_SET_VALUE) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, lyplg_ext_stmt2str(stmt->kw)); return LY_EVALID; } *flags |= LYS_SET_VALUE; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); arg_len = strlen(stmt->arg); if (!arg_len || (stmt->arg[0] == '+') || ((stmt->arg[0] == '0') && (arg_len > 1)) || ((stmt->kw == LY_STMT_POSITION) && !strncmp(stmt->arg, "-0", 2))) { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, lyplg_ext_stmt2str(stmt->kw)); goto error; } errno = 0; if (stmt->kw == LY_STMT_VALUE) { num = strtoll(stmt->arg, &ptr, LY_BASE_DEC); if ((num < INT64_C(-2147483648)) || (num > INT64_C(2147483647))) { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, lyplg_ext_stmt2str(stmt->kw)); goto error; } } else { unum = strtoull(stmt->arg, &ptr, LY_BASE_DEC); if (unum > UINT64_C(4294967295)) { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, lyplg_ext_stmt2str(stmt->kw)); goto error; } } /* we have not parsed the whole argument */ if (ptr - stmt->arg != arg_len) { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, lyplg_ext_stmt2str(stmt->kw)); goto error; } if (errno == ERANGE) { LOGVAL_PARSER(ctx, LY_VCODE_OOB, arg_len, stmt->arg, lyplg_ext_stmt2str(stmt->kw)); goto error; } if (stmt->kw == LY_STMT_VALUE) { *value = num; } else { *value = unum; } for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw == LY_STMT_VALUE ? LY_STMT_VALUE : LY_STMT_POSITION, 0, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(stmt->kw)); return LY_EVALID; } } return LY_SUCCESS; error: return LY_EVALID; } /** * @brief Parse the enum or bit statement. Substatement of type statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] enums Enums or bits to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_type_enum(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_type_enum **enums) { struct lysp_type_enum *enm; LY_CHECK_RET(lysp_stmt_validate_value(ctx, stmt->kw == LY_STMT_ENUM ? Y_STR_ARG : Y_IDENTIF_ARG, stmt->arg)); LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *enums, enm, LY_EMEM); if (stmt->kw == LY_STMT_ENUM) { LY_CHECK_RET(lysp_check_enum_name(ctx, stmt->arg, strlen(stmt->arg))); } /* else nothing specific for YANG_BIT */ LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &enm->name)); CHECK_UNIQUENESS(ctx, *enums, name, lyplg_ext_stmt2str(stmt->kw), enm->name); for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &enm->dsc, Y_STR_ARG, &enm->exts)); break; case LY_STMT_IF_FEATURE: PARSER_CHECK_STMTVER2_RET(ctx, "if-feature", lyplg_ext_stmt2str(stmt->kw)); LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &enm->iffeatures, Y_STR_ARG, &enm->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &enm->ref, Y_STR_ARG, &enm->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &enm->flags, &enm->exts)); break; case LY_STMT_VALUE: LY_CHECK_ERR_RET(stmt->kw == LY_STMT_BIT, LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(stmt->kw)), LY_EVALID); LY_CHECK_RET(lysp_stmt_type_enum_value_pos(ctx, child, &enm->value, &enm->flags, &enm->exts)); break; case LY_STMT_POSITION: LY_CHECK_ERR_RET(stmt->kw == LY_STMT_ENUM, LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(stmt->kw)), LY_EVALID); LY_CHECK_RET(lysp_stmt_type_enum_value_pos(ctx, child, &enm->value, &enm->flags, &enm->exts)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, &enm->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(stmt->kw)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the fraction-digits statement. Substatement of type statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] fracdig Value to write to. * @param[in,out] exts Extension instances to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_type_fracdigits(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, uint8_t *fracdig, struct lysp_ext_instance **exts) { char *ptr; int arg_len; unsigned long long num; if (*fracdig) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "fraction-digits"); return LY_EVALID; } LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); arg_len = strlen(stmt->arg); if (!arg_len || (stmt->arg[0] == '0') || !isdigit(stmt->arg[0])) { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, "fraction-digits"); return LY_EVALID; } errno = 0; num = strtoull(stmt->arg, &ptr, LY_BASE_DEC); /* we have not parsed the whole argument */ if (ptr - stmt->arg != arg_len) { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, "fraction-digits"); return LY_EVALID; } if ((errno == ERANGE) || (num > LY_TYPE_DEC64_FD_MAX)) { LOGVAL_PARSER(ctx, LY_VCODE_OOB, arg_len, stmt->arg, "fraction-digits"); return LY_EVALID; } *fracdig = num; for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_FRACTION_DIGITS, 0, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "fraction-digits"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the require-instance statement. Substatement of type statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] reqinst Value to write to. * @param[in,out] flags Flags to write to. * @param[in,out] exts Extension instances to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_type_reqinstance(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, uint8_t *reqinst, uint16_t *flags, struct lysp_ext_instance **exts) { int arg_len; if (*flags & LYS_SET_REQINST) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "require-instance"); return LY_EVALID; } *flags |= LYS_SET_REQINST; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); arg_len = strlen(stmt->arg); if ((arg_len == ly_strlen_const("true")) && !strncmp(stmt->arg, "true", arg_len)) { *reqinst = 1; } else if ((arg_len != ly_strlen_const("false")) || strncmp(stmt->arg, "false", arg_len)) { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, "require-instance"); return LY_EVALID; } for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_REQUIRE_INSTANCE, 0, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "require-instance"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the modifier statement. Substatement of type pattern statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] pat Value to write to. * @param[in,out] exts Extension instances to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_type_pattern_modifier(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, const char **pat, struct lysp_ext_instance **exts) { int arg_len; char *buf; if ((*pat)[0] == LYSP_RESTR_PATTERN_NACK) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "modifier"); return LY_EVALID; } LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); arg_len = strlen(stmt->arg); if ((arg_len != ly_strlen_const("invert-match")) || strncmp(stmt->arg, "invert-match", arg_len)) { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, "modifier"); return LY_EVALID; } /* replace the value in the dictionary */ buf = malloc(strlen(*pat) + 1); LY_CHECK_ERR_RET(!buf, LOGMEM(PARSER_CTX(ctx)), LY_EMEM); strcpy(buf, *pat); lydict_remove(PARSER_CTX(ctx), *pat); assert(buf[0] == LYSP_RESTR_PATTERN_ACK); buf[0] = LYSP_RESTR_PATTERN_NACK; LY_CHECK_RET(lydict_insert_zc(PARSER_CTX(ctx), buf, pat)); for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_MODIFIER, 0, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "modifier"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the pattern statement. Substatement of type statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] patterns Restrictions to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_type_pattern(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_restr **patterns) { char *buf; size_t arg_len; struct lysp_restr *restr; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *patterns, restr, LY_EMEM); arg_len = strlen(stmt->arg); /* add special meaning first byte */ buf = malloc(arg_len + 2); LY_CHECK_ERR_RET(!buf, LOGMEM(PARSER_CTX(ctx)), LY_EMEM); memmove(buf + 1, stmt->arg, arg_len); buf[0] = LYSP_RESTR_PATTERN_ACK; /* pattern's default regular-match flag */ buf[arg_len + 1] = '\0'; /* terminating NULL byte */ LY_CHECK_RET(lydict_insert_zc(PARSER_CTX(ctx), buf, &restr->arg.str)); restr->arg.mod = PARSER_CUR_PMOD(ctx); for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &restr->dsc, Y_STR_ARG, &restr->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &restr->ref, Y_STR_ARG, &restr->exts)); break; case LY_STMT_ERROR_APP_TAG: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &restr->eapptag, Y_STR_ARG, &restr->exts)); break; case LY_STMT_ERROR_MESSAGE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &restr->emsg, Y_STR_ARG, &restr->exts)); break; case LY_STMT_MODIFIER: PARSER_CHECK_STMTVER2_RET(ctx, "modifier", "pattern"); LY_CHECK_RET(lysp_stmt_type_pattern_modifier(ctx, child, &restr->arg.str, &restr->exts)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_PATTERN, 0, &restr->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "pattern"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the deviate statement. Substatement of deviation statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] devs Array of deviates to add to. * @param[in,out] exts Extension instances to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_deviate(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_deviate **devs, struct lysp_ext_instance **exts) { (void)stmt; (void)devs; (void)exts; /* TODO */ LOGERR(PARSER_CTX(ctx), LY_EINVAL, "Extension instance \"deviate\" substatement is not supported."); return LY_EINVAL; } /** * @brief Parse the deviation statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] deviations Array of deviations to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_deviation(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_deviation **deviations) { struct lysp_deviation *dev; LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *deviations, dev, LY_EMEM); /* store nodeid */ LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &dev->nodeid)); /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &dev->dsc, Y_STR_ARG, &dev->exts)); break; case LY_STMT_DEVIATE: LY_CHECK_RET(lysp_stmt_deviate(ctx, child, &dev->deviates, &dev->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &dev->ref, Y_STR_ARG, &dev->exts)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, &dev->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(LY_STMT_DEVIATION)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the yang-version statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[out] version Version to write to. * @param[in,out] exts Extension instances to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_yangver(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, uint8_t *version, struct lysp_ext_instance **exts) { if (*version) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "yin-element"); return LY_EVALID; } /* store flag */ if (!strcmp(stmt->arg, "1")) { *version = LYS_VERSION_1_0; } else if (!strcmp(stmt->arg, "1.1")) { *version = LYS_VERSION_1_1; } else { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, (int)strlen(stmt->arg), stmt->arg, "yang-version"); return LY_EVALID; } /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(LY_STMT_YANG_VERSION)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the module statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] mod Module to fill. * @return LY_ERR values. */ static LY_ERR lysp_stmt_module(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_module *mod) { (void)stmt; (void)mod; /* TODO */ LOGERR(PARSER_CTX(ctx), LY_EINVAL, "Extension instance \"module\" substatement is not supported."); return LY_EINVAL; } /** * @brief Parse the submodule statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] submod Module to fill. * @return LY_ERR values. */ static LY_ERR lysp_stmt_submodule(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_submodule *submod) { (void)stmt; (void)submod; /* TODO */ LOGERR(PARSER_CTX(ctx), LY_EINVAL, "Extension instance \"submodule\" substatement is not supported."); return LY_EINVAL; } /** * @brief Parse the yin-element statement. Substatement of argument statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] flags Flags to write to. * @param[in,out] exts Extension instances to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_yinelem(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, uint16_t *flags, struct lysp_ext_instance **exts) { if (*flags & LYS_YINELEM_MASK) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "yin-element"); return LY_EVALID; } /* store flag */ if (!strcmp(stmt->arg, "true")) { *flags |= LYS_YINELEM_TRUE; } else if (!strcmp(stmt->arg, "false")) { *flags |= LYS_YINELEM_FALSE; } else { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, (int)strlen(stmt->arg), stmt->arg, "yin-element"); return LY_EVALID; } /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(LY_STMT_YIN_ELEMENT)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the argument statement. Substatement of extension statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] ex Extension to fill. * @return LY_ERR values. */ static LY_ERR lysp_stmt_argument(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_ext *ex) { if (ex->argname) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "argument"); return LY_EVALID; } /* store argument name */ LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_PREF_IDENTIF_ARG, stmt->arg)); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &ex->argname)); /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_YIN_ELEMENT: LY_CHECK_RET(lysp_stmt_yinelem(ctx, child, &ex->flags, &ex->exts)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, &ex->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(LY_STMT_ARGUMENT)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the extension statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] extensions Array of extensions to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_extension(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_ext **extensions) { struct lysp_ext *ex; LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *extensions, ex, LY_EMEM); /* store name */ LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &ex->name)); /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &ex->dsc, Y_STR_ARG, &ex->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &ex->ref, Y_STR_ARG, &ex->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &ex->flags, &ex->exts)); break; case LY_STMT_ARGUMENT: LY_CHECK_RET(lysp_stmt_argument(ctx, child, ex)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, &ex->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(LY_STMT_EXTENSION)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the feature statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] features Array of features to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_feature(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_feature **features) { struct lysp_feature *feat; LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *features, feat, LY_EMEM); /* store name */ LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &feat->name)); /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &feat->dsc, Y_STR_ARG, &feat->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &feat->iffeatures, Y_STR_ARG, &feat->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &feat->ref, Y_STR_ARG, &feat->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &feat->flags, &feat->exts)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, &feat->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(LY_STMT_FEATURE)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the identity statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] identities Array of identities to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_identity(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_ident **identities) { struct lysp_ident *ident; LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *identities, ident, LY_EMEM); /* store name */ LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &ident->name)); /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &ident->dsc, Y_STR_ARG, &ident->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &ident->iffeatures, Y_STR_ARG, &ident->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &ident->ref, Y_STR_ARG, &ident->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &ident->flags, &ident->exts)); break; case LY_STMT_BASE: LY_CHECK_RET(lysp_stmt_text_fields(ctx, child, &ident->bases, Y_PREF_IDENTIF_ARG, &ident->exts)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, &ident->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(LY_STMT_IDENTITY)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the import statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] imports Array of imports to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_import(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_import **imports) { struct lysp_import *imp; const char *str = NULL; LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *imports, imp, LY_EMEM); /* store name */ LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &imp->name)); /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_PREFIX: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &imp->prefix, Y_IDENTIF_ARG, &imp->exts)); LY_CHECK_RET(lysp_check_prefix(ctx, *imports, NULL, &imp->prefix), LY_EVALID); break; case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &imp->dsc, Y_STR_ARG, &imp->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &imp->ref, Y_STR_ARG, &imp->exts)); break; case LY_STMT_REVISION_DATE: LY_CHECK_RET(lysp_stmt_text_field(ctx, stmt, 0, &str, Y_STR_ARG, &imp->exts)); strcpy(imp->rev, str); lydict_remove(PARSER_CTX(ctx), str); LY_CHECK_RET(lysp_check_date(ctx, imp->rev, LY_REV_SIZE - 1, "revision-date")); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, &imp->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(LY_STMT_IMPORT)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the include statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] includes Array of identities to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_include(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_include **includes) { struct lysp_include *inc; const char *str = NULL; LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *includes, inc, LY_EMEM); /* store name */ LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &inc->name)); /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &inc->dsc, Y_STR_ARG, &inc->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &inc->ref, Y_STR_ARG, &inc->exts)); break; case LY_STMT_REVISION_DATE: LY_CHECK_RET(lysp_stmt_text_field(ctx, stmt, 0, &str, Y_STR_ARG, &inc->exts)); strcpy(inc->rev, str); lydict_remove(PARSER_CTX(ctx), str); LY_CHECK_RET(lysp_check_date(ctx, inc->rev, LY_REV_SIZE - 1, "revision-date")); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, &inc->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(LY_STMT_INCLUDE)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the revision statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] includes Array of identities to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_revision(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_revision **revs) { struct lysp_revision *rev; LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *revs, rev, LY_EMEM); /* store date */ LY_CHECK_RET(lysp_check_date(ctx, stmt->arg, strlen(stmt->arg), "revision")); strncpy(rev->date, stmt->arg, LY_REV_SIZE - 1); /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &rev->dsc, Y_STR_ARG, &rev->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &rev->ref, Y_STR_ARG, &rev->exts)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, &rev->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(LY_STMT_REVISION)); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the type statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] type Type to wrote to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_type(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_type *type) { struct lysp_type *nest_type; const char *str_path = NULL; LY_ERR ret; if (type->name) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "type"); return LY_EVALID; } LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_PREF_IDENTIF_ARG, stmt->arg)); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &type->name)); type->pmod = PARSER_CUR_PMOD(ctx); for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_BASE: LY_CHECK_RET(lysp_stmt_text_fields(ctx, child, &type->bases, Y_PREF_IDENTIF_ARG, &type->exts)); type->flags |= LYS_SET_BASE; break; case LY_STMT_BIT: LY_CHECK_RET(lysp_stmt_type_enum(ctx, child, &type->bits)); type->flags |= LYS_SET_BIT; break; case LY_STMT_ENUM: LY_CHECK_RET(lysp_stmt_type_enum(ctx, child, &type->enums)); type->flags |= LYS_SET_ENUM; break; case LY_STMT_FRACTION_DIGITS: LY_CHECK_RET(lysp_stmt_type_fracdigits(ctx, child, &type->fraction_digits, &type->exts)); type->flags |= LYS_SET_FRDIGITS; break; case LY_STMT_LENGTH: if (type->length) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, lyplg_ext_stmt2str(child->kw)); return LY_EVALID; } type->length = calloc(1, sizeof *type->length); LY_CHECK_ERR_RET(!type->length, LOGMEM(PARSER_CTX(ctx)), LY_EMEM); LY_CHECK_RET(lysp_stmt_restr(ctx, child, type->length)); type->flags |= LYS_SET_LENGTH; break; case LY_STMT_PATH: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &str_path, Y_STR_ARG, &type->exts)); ret = ly_path_parse(PARSER_CTX(ctx), NULL, str_path, 0, 1, LY_PATH_BEGIN_EITHER, LY_PATH_PREFIX_OPTIONAL, LY_PATH_PRED_LEAFREF, &type->path); lydict_remove(PARSER_CTX(ctx), str_path); LY_CHECK_RET(ret); type->flags |= LYS_SET_PATH; break; case LY_STMT_PATTERN: LY_CHECK_RET(lysp_stmt_type_pattern(ctx, child, &type->patterns)); type->flags |= LYS_SET_PATTERN; break; case LY_STMT_RANGE: if (type->range) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, lyplg_ext_stmt2str(child->kw)); return LY_EVALID; } type->range = calloc(1, sizeof *type->range); LY_CHECK_ERR_RET(!type->range, LOGMEM(PARSER_CTX(ctx)), LY_EMEM); LY_CHECK_RET(lysp_stmt_restr(ctx, child, type->range)); type->flags |= LYS_SET_RANGE; break; case LY_STMT_REQUIRE_INSTANCE: LY_CHECK_RET(lysp_stmt_type_reqinstance(ctx, child, &type->require_instance, &type->flags, &type->exts)); /* LYS_SET_REQINST checked and set inside lysp_stmt_type_reqinstance() */ break; case LY_STMT_TYPE: LY_ARRAY_NEW_RET(PARSER_CTX(ctx), type->types, nest_type, LY_EMEM); LY_CHECK_RET(lysp_stmt_type(ctx, child, nest_type)); type->flags |= LYS_SET_TYPE; break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_TYPE, 0, &type->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "type"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the leaf statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] siblings Siblings to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_leaf(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings) { struct lysp_node_leaf *leaf; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); /* create new leaf structure */ LY_LIST_NEW_RET(PARSER_CTX(ctx), siblings, leaf, next, LY_EMEM); leaf->nodetype = LYS_LEAF; leaf->parent = parent; /* get name */ LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &leaf->name)); /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_CONFIG: LY_CHECK_RET(lysp_stmt_config(ctx, child, &leaf->flags, &leaf->exts)); break; case LY_STMT_DEFAULT: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &leaf->dflt.str, Y_STR_ARG, &leaf->exts)); leaf->dflt.mod = PARSER_CUR_PMOD(ctx); break; case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &leaf->dsc, Y_STR_ARG, &leaf->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &leaf->iffeatures, Y_STR_ARG, &leaf->exts)); break; case LY_STMT_MANDATORY: LY_CHECK_RET(lysp_stmt_mandatory(ctx, child, &leaf->flags, &leaf->exts)); break; case LY_STMT_MUST: LY_CHECK_RET(lysp_stmt_restrs(ctx, child, &leaf->musts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &leaf->ref, Y_STR_ARG, &leaf->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &leaf->flags, &leaf->exts)); break; case LY_STMT_TYPE: LY_CHECK_RET(lysp_stmt_type(ctx, child, &leaf->type)); break; case LY_STMT_UNITS: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &leaf->units, Y_STR_ARG, &leaf->exts)); break; case LY_STMT_WHEN: LY_CHECK_RET(lysp_stmt_when(ctx, child, &leaf->when)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_LEAF, 0, &leaf->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "leaf"); return LY_EVALID; } } /* mandatory substatements */ if (!leaf->type.name) { LOGVAL_PARSER(ctx, LY_VCODE_MISSTMT, "type", "leaf"); return LY_EVALID; } return LY_SUCCESS; } /** * @brief Parse the max-elements statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] max Value to write to. * @param[in,out] flags Flags to write to. * @param[in,out] exts Extension instances to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_maxelements(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, uint32_t *max, uint16_t *flags, struct lysp_ext_instance **exts) { int arg_len; char *ptr; unsigned long long num; if (*flags & LYS_SET_MAX) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "max-elements"); return LY_EVALID; } *flags |= LYS_SET_MAX; /* get value */ LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); arg_len = strlen(stmt->arg); if (!arg_len || (stmt->arg[0] == '0') || ((stmt->arg[0] != 'u') && !isdigit(stmt->arg[0]))) { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, "max-elements"); return LY_EVALID; } if ((arg_len != ly_strlen_const("unbounded")) || strncmp(stmt->arg, "unbounded", arg_len)) { errno = 0; num = strtoull(stmt->arg, &ptr, LY_BASE_DEC); /* we have not parsed the whole argument */ if (ptr - stmt->arg != arg_len) { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, "max-elements"); return LY_EVALID; } if ((errno == ERANGE) || (num > UINT32_MAX)) { LOGVAL_PARSER(ctx, LY_VCODE_OOB, arg_len, stmt->arg, "max-elements"); return LY_EVALID; } *max = num; } else { /* unbounded */ *max = 0; } for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_MAX_ELEMENTS, 0, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "max-elements"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the min-elements statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] min Value to write to. * @param[in,out] flags Flags to write to. * @param[in,out] exts Extension instances to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_minelements(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, uint32_t *min, uint16_t *flags, struct lysp_ext_instance **exts) { int arg_len; char *ptr; unsigned long long num; if (*flags & LYS_SET_MIN) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "min-elements"); return LY_EVALID; } *flags |= LYS_SET_MIN; /* get value */ LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); arg_len = strlen(stmt->arg); if (!arg_len || !isdigit(stmt->arg[0]) || ((stmt->arg[0] == '0') && (arg_len > 1))) { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, "min-elements"); return LY_EVALID; } errno = 0; num = strtoull(stmt->arg, &ptr, LY_BASE_DEC); /* we have not parsed the whole argument */ if (ptr - stmt->arg != arg_len) { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, "min-elements"); return LY_EVALID; } if ((errno == ERANGE) || (num > UINT32_MAX)) { LOGVAL_PARSER(ctx, LY_VCODE_OOB, arg_len, stmt->arg, "min-elements"); return LY_EVALID; } *min = num; for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_MIN_ELEMENTS, 0, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "min-elements"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the ordered-by statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] flags Flags to write to. * @param[in,out] exts Extension instances to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_orderedby(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, uint16_t *flags, struct lysp_ext_instance **exts) { int arg_len; if (*flags & LYS_ORDBY_MASK) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, "ordered-by"); return LY_EVALID; } /* get value */ LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); arg_len = strlen(stmt->arg); if ((arg_len == ly_strlen_const("system")) && !strncmp(stmt->arg, "system", arg_len)) { *flags |= LYS_MAND_TRUE; } else if ((arg_len == ly_strlen_const("user")) && !strncmp(stmt->arg, "user", arg_len)) { *flags |= LYS_MAND_FALSE; } else { LOGVAL_PARSER(ctx, LY_VCODE_INVAL, arg_len, stmt->arg, "ordered-by"); return LY_EVALID; } for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_ORDERED_BY, 0, exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "ordered-by"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the leaf-list statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] siblings Siblings to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_leaflist(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings) { struct lysp_node_leaflist *llist; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); /* create new leaf-list structure */ LY_LIST_NEW_RET(PARSER_CTX(ctx), siblings, llist, next, LY_EMEM); llist->nodetype = LYS_LEAFLIST; llist->parent = parent; /* get name */ LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &llist->name)); /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_CONFIG: LY_CHECK_RET(lysp_stmt_config(ctx, child, &llist->flags, &llist->exts)); break; case LY_STMT_DEFAULT: PARSER_CHECK_STMTVER2_RET(ctx, "default", "leaf-list"); LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &llist->dflts, Y_STR_ARG, &llist->exts)); break; case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &llist->dsc, Y_STR_ARG, &llist->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &llist->iffeatures, Y_STR_ARG, &llist->exts)); break; case LY_STMT_MAX_ELEMENTS: LY_CHECK_RET(lysp_stmt_maxelements(ctx, child, &llist->max, &llist->flags, &llist->exts)); break; case LY_STMT_MIN_ELEMENTS: LY_CHECK_RET(lysp_stmt_minelements(ctx, child, &llist->min, &llist->flags, &llist->exts)); break; case LY_STMT_MUST: LY_CHECK_RET(lysp_stmt_restrs(ctx, child, &llist->musts)); break; case LY_STMT_ORDERED_BY: LY_CHECK_RET(lysp_stmt_orderedby(ctx, child, &llist->flags, &llist->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &llist->ref, Y_STR_ARG, &llist->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &llist->flags, &llist->exts)); break; case LY_STMT_TYPE: LY_CHECK_RET(lysp_stmt_type(ctx, child, &llist->type)); break; case LY_STMT_UNITS: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &llist->units, Y_STR_ARG, &llist->exts)); break; case LY_STMT_WHEN: LY_CHECK_RET(lysp_stmt_when(ctx, child, &llist->when)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_LEAF_LIST, 0, &llist->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "llist"); return LY_EVALID; } } /* mandatory substatements */ if (!llist->type.name) { LOGVAL_PARSER(ctx, LY_VCODE_MISSTMT, "type", "leaf-list"); return LY_EVALID; } return LY_SUCCESS; } /** * @brief Parse the refine statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in,out] refines Refines to add to. * @return LY_ERR values. */ static LY_ERR lysp_stmt_refine(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_refine **refines) { struct lysp_refine *rf; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *refines, rf, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &rf->nodeid)); for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_CONFIG: LY_CHECK_RET(lysp_stmt_config(ctx, child, &rf->flags, &rf->exts)); break; case LY_STMT_DEFAULT: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &rf->dflts, Y_STR_ARG, &rf->exts)); break; case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &rf->dsc, Y_STR_ARG, &rf->exts)); break; case LY_STMT_IF_FEATURE: PARSER_CHECK_STMTVER2_RET(ctx, "if-feature", "refine"); LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &rf->iffeatures, Y_STR_ARG, &rf->exts)); break; case LY_STMT_MAX_ELEMENTS: LY_CHECK_RET(lysp_stmt_maxelements(ctx, child, &rf->max, &rf->flags, &rf->exts)); break; case LY_STMT_MIN_ELEMENTS: LY_CHECK_RET(lysp_stmt_minelements(ctx, child, &rf->min, &rf->flags, &rf->exts)); break; case LY_STMT_MUST: LY_CHECK_RET(lysp_stmt_restrs(ctx, child, &rf->musts)); break; case LY_STMT_MANDATORY: LY_CHECK_RET(lysp_stmt_mandatory(ctx, child, &rf->flags, &rf->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &rf->ref, Y_STR_ARG, &rf->exts)); break; case LY_STMT_PRESENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &rf->presence, Y_STR_ARG, &rf->exts)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_REFINE, 0, &rf->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "refine"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the typedef statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] typedefs Typedefs to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_typedef(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_tpdf **typedefs) { struct lysp_tpdf *tpdf; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); LY_ARRAY_NEW_RET(PARSER_CTX(ctx), *typedefs, tpdf, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &tpdf->name)); /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DEFAULT: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &tpdf->dflt.str, Y_STR_ARG, &tpdf->exts)); tpdf->dflt.mod = PARSER_CUR_PMOD(ctx); break; case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &tpdf->dsc, Y_STR_ARG, &tpdf->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &tpdf->ref, Y_STR_ARG, &tpdf->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &tpdf->flags, &tpdf->exts)); break; case LY_STMT_TYPE: LY_CHECK_RET(lysp_stmt_type(ctx, child, &tpdf->type)); break; case LY_STMT_UNITS: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &tpdf->units, Y_STR_ARG, &tpdf->exts)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_TYPEDEF, 0, &tpdf->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "typedef"); return LY_EVALID; } } /* mandatory substatements */ if (!tpdf->type.name) { LOGVAL_PARSER(ctx, LY_VCODE_MISSTMT, "type", "typedef"); return LY_EVALID; } /* store data for collision check */ if (parent && !(parent->nodetype & (LYS_GROUPING | LYS_RPC | LYS_ACTION | LYS_INPUT | LYS_OUTPUT | LYS_NOTIF))) { LY_CHECK_RET(ly_set_add(&ctx->tpdfs_nodes, parent, 0, NULL)); } return LY_SUCCESS; } /** * @brief Parse the input or output statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] inout_p Input/output pointer to write to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_inout(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node_action_inout *inout_p) { if (inout_p->nodetype) { LOGVAL_PARSER(ctx, LY_VCODE_DUPSTMT, lyplg_ext_stmt2str(stmt->kw)); return LY_EVALID; } /* initiate structure */ LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->kw == LY_STMT_INPUT ? "input" : "output", 0, &inout_p->name)); inout_p->nodetype = stmt->kw == LY_STMT_INPUT ? LYS_INPUT : LYS_OUTPUT; inout_p->parent = parent; /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_ANYDATA: PARSER_CHECK_STMTVER2_RET(ctx, "anydata", lyplg_ext_stmt2str(stmt->kw)); /* fall through */ case LY_STMT_ANYXML: LY_CHECK_RET(lysp_stmt_any(ctx, child, &inout_p->node, &inout_p->child)); break; case LY_STMT_CHOICE: LY_CHECK_RET(lysp_stmt_choice(ctx, child, &inout_p->node, &inout_p->child)); break; case LY_STMT_CONTAINER: LY_CHECK_RET(lysp_stmt_container(ctx, child, &inout_p->node, &inout_p->child)); break; case LY_STMT_LEAF: LY_CHECK_RET(lysp_stmt_leaf(ctx, child, &inout_p->node, &inout_p->child)); break; case LY_STMT_LEAF_LIST: LY_CHECK_RET(lysp_stmt_leaflist(ctx, child, &inout_p->node, &inout_p->child)); break; case LY_STMT_LIST: LY_CHECK_RET(lysp_stmt_list(ctx, child, &inout_p->node, &inout_p->child)); break; case LY_STMT_USES: LY_CHECK_RET(lysp_stmt_uses(ctx, child, &inout_p->node, &inout_p->child)); break; case LY_STMT_TYPEDEF: LY_CHECK_RET(lysp_stmt_typedef(ctx, child, &inout_p->node, &inout_p->typedefs)); break; case LY_STMT_MUST: PARSER_CHECK_STMTVER2_RET(ctx, "must", lyplg_ext_stmt2str(stmt->kw)); LY_CHECK_RET(lysp_stmt_restrs(ctx, child, &inout_p->musts)); break; case LY_STMT_GROUPING: LY_CHECK_RET(lysp_stmt_grouping(ctx, child, &inout_p->node, &inout_p->groupings)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, stmt->kw, 0, &inout_p->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), lyplg_ext_stmt2str(stmt->kw)); return LY_EVALID; } } if (!inout_p->child) { LOGVAL_PARSER(ctx, LY_VCODE_MISSTMT, "data-def-stmt", lyplg_ext_stmt2str(stmt->kw)); return LY_EVALID; } return LY_SUCCESS; } /** * @brief Parse the action statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] actions Actions to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_action(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node_action **actions) { struct lysp_node_action *act; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); LY_LIST_NEW_RET(PARSER_CTX(ctx), actions, act, next, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &act->name)); act->nodetype = parent ? LYS_ACTION : LYS_RPC; act->parent = parent; for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &act->dsc, Y_STR_ARG, &act->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &act->iffeatures, Y_STR_ARG, &act->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &act->ref, Y_STR_ARG, &act->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &act->flags, &act->exts)); break; case LY_STMT_INPUT: LY_CHECK_RET(lysp_stmt_inout(ctx, child, &act->node, &act->input)); break; case LY_STMT_OUTPUT: LY_CHECK_RET(lysp_stmt_inout(ctx, child, &act->node, &act->output)); break; case LY_STMT_TYPEDEF: LY_CHECK_RET(lysp_stmt_typedef(ctx, child, &act->node, &act->typedefs)); break; case LY_STMT_GROUPING: LY_CHECK_RET(lysp_stmt_grouping(ctx, child, &act->node, &act->groupings)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, parent ? LY_STMT_ACTION : LY_STMT_RPC, 0, &act->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), parent ? "action" : "rpc"); return LY_EVALID; } } /* always initialize inout, they are technically present (needed for later deviations/refines) */ if (!act->input.nodetype) { act->input.nodetype = LYS_INPUT; act->input.parent = &act->node; LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), "input", 0, &act->input.name)); } if (!act->output.nodetype) { act->output.nodetype = LYS_OUTPUT; act->output.parent = &act->node; LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), "output", 0, &act->output.name)); } return LY_SUCCESS; } /** * @brief Parse the notification statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] notifs Notifications to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_notif(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node_notif **notifs) { struct lysp_node_notif *notif; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); LY_LIST_NEW_RET(PARSER_CTX(ctx), notifs, notif, next, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, ¬if->name)); notif->nodetype = LYS_NOTIF; notif->parent = parent; for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, ¬if->dsc, Y_STR_ARG, ¬if->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, ¬if->iffeatures, Y_STR_ARG, ¬if->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, ¬if->ref, Y_STR_ARG, ¬if->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, ¬if->flags, ¬if->exts)); break; case LY_STMT_ANYDATA: PARSER_CHECK_STMTVER2_RET(ctx, "anydata", "notification"); /* fall through */ case LY_STMT_ANYXML: LY_CHECK_RET(lysp_stmt_any(ctx, child, ¬if->node, ¬if->child)); break; case LY_STMT_CHOICE: LY_CHECK_RET(lysp_stmt_case(ctx, child, ¬if->node, ¬if->child)); break; case LY_STMT_CONTAINER: LY_CHECK_RET(lysp_stmt_container(ctx, child, ¬if->node, ¬if->child)); break; case LY_STMT_LEAF: LY_CHECK_RET(lysp_stmt_leaf(ctx, child, ¬if->node, ¬if->child)); break; case LY_STMT_LEAF_LIST: LY_CHECK_RET(lysp_stmt_leaflist(ctx, child, ¬if->node, ¬if->child)); break; case LY_STMT_LIST: LY_CHECK_RET(lysp_stmt_list(ctx, child, ¬if->node, ¬if->child)); break; case LY_STMT_USES: LY_CHECK_RET(lysp_stmt_uses(ctx, child, ¬if->node, ¬if->child)); break; case LY_STMT_MUST: PARSER_CHECK_STMTVER2_RET(ctx, "must", "notification"); LY_CHECK_RET(lysp_stmt_restrs(ctx, child, ¬if->musts)); break; case LY_STMT_TYPEDEF: LY_CHECK_RET(lysp_stmt_typedef(ctx, child, ¬if->node, ¬if->typedefs)); break; case LY_STMT_GROUPING: LY_CHECK_RET(lysp_stmt_grouping(ctx, child, ¬if->node, ¬if->groupings)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_NOTIFICATION, 0, ¬if->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "notification"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the grouping statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] groupings Groupings to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_grouping(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node_grp **groupings) { struct lysp_node_grp *grp; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); LY_LIST_NEW_RET(PARSER_CTX(ctx), groupings, grp, next, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &grp->name)); grp->nodetype = LYS_GROUPING; grp->parent = parent; for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &grp->dsc, Y_STR_ARG, &grp->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &grp->ref, Y_STR_ARG, &grp->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &grp->flags, &grp->exts)); break; case LY_STMT_ANYDATA: PARSER_CHECK_STMTVER2_RET(ctx, "anydata", "grouping"); /* fall through */ case LY_STMT_ANYXML: LY_CHECK_RET(lysp_stmt_any(ctx, child, &grp->node, &grp->child)); break; case LY_STMT_CHOICE: LY_CHECK_RET(lysp_stmt_choice(ctx, child, &grp->node, &grp->child)); break; case LY_STMT_CONTAINER: LY_CHECK_RET(lysp_stmt_container(ctx, child, &grp->node, &grp->child)); break; case LY_STMT_LEAF: LY_CHECK_RET(lysp_stmt_leaf(ctx, child, &grp->node, &grp->child)); break; case LY_STMT_LEAF_LIST: LY_CHECK_RET(lysp_stmt_leaflist(ctx, child, &grp->node, &grp->child)); break; case LY_STMT_LIST: LY_CHECK_RET(lysp_stmt_list(ctx, child, &grp->node, &grp->child)); break; case LY_STMT_USES: LY_CHECK_RET(lysp_stmt_uses(ctx, child, &grp->node, &grp->child)); break; case LY_STMT_TYPEDEF: LY_CHECK_RET(lysp_stmt_typedef(ctx, child, &grp->node, &grp->typedefs)); break; case LY_STMT_ACTION: PARSER_CHECK_STMTVER2_RET(ctx, "action", "grouping"); LY_CHECK_RET(lysp_stmt_action(ctx, child, &grp->node, &grp->actions)); break; case LY_STMT_GROUPING: LY_CHECK_RET(lysp_stmt_grouping(ctx, child, &grp->node, &grp->groupings)); break; case LY_STMT_NOTIFICATION: PARSER_CHECK_STMTVER2_RET(ctx, "notification", "grouping"); LY_CHECK_RET(lysp_stmt_notif(ctx, child, &grp->node, &grp->notifs)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_GROUPING, 0, &grp->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "grouping"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the augment statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] augments Augments to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_augment(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node_augment **augments) { struct lysp_node_augment *aug; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_STR_ARG, stmt->arg)); LY_LIST_NEW_RET(PARSER_CTX(ctx), augments, aug, next, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &aug->nodeid)); aug->nodetype = LYS_AUGMENT; aug->parent = parent; for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &aug->dsc, Y_STR_ARG, &aug->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &aug->iffeatures, Y_STR_ARG, &aug->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &aug->ref, Y_STR_ARG, &aug->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &aug->flags, &aug->exts)); break; case LY_STMT_WHEN: LY_CHECK_RET(lysp_stmt_when(ctx, child, &aug->when)); break; case LY_STMT_ANYDATA: PARSER_CHECK_STMTVER2_RET(ctx, "anydata", "augment"); /* fall through */ case LY_STMT_ANYXML: LY_CHECK_RET(lysp_stmt_any(ctx, child, &aug->node, &aug->child)); break; case LY_STMT_CASE: LY_CHECK_RET(lysp_stmt_case(ctx, child, &aug->node, &aug->child)); break; case LY_STMT_CHOICE: LY_CHECK_RET(lysp_stmt_choice(ctx, child, &aug->node, &aug->child)); break; case LY_STMT_CONTAINER: LY_CHECK_RET(lysp_stmt_container(ctx, child, &aug->node, &aug->child)); break; case LY_STMT_LEAF: LY_CHECK_RET(lysp_stmt_leaf(ctx, child, &aug->node, &aug->child)); break; case LY_STMT_LEAF_LIST: LY_CHECK_RET(lysp_stmt_leaflist(ctx, child, &aug->node, &aug->child)); break; case LY_STMT_LIST: LY_CHECK_RET(lysp_stmt_list(ctx, child, &aug->node, &aug->child)); break; case LY_STMT_USES: LY_CHECK_RET(lysp_stmt_uses(ctx, child, &aug->node, &aug->child)); break; case LY_STMT_ACTION: PARSER_CHECK_STMTVER2_RET(ctx, "action", "augment"); LY_CHECK_RET(lysp_stmt_action(ctx, child, &aug->node, &aug->actions)); break; case LY_STMT_NOTIFICATION: PARSER_CHECK_STMTVER2_RET(ctx, "notification", "augment"); LY_CHECK_RET(lysp_stmt_notif(ctx, child, &aug->node, &aug->notifs)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_AUGMENT, 0, &aug->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "augment"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the uses statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] siblings Siblings to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_uses(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings) { struct lysp_node_uses *uses; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_PREF_IDENTIF_ARG, stmt->arg)); /* create uses structure */ LY_LIST_NEW_RET(PARSER_CTX(ctx), siblings, uses, next, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &uses->name)); uses->nodetype = LYS_USES; uses->parent = parent; /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &uses->dsc, Y_STR_ARG, &uses->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &uses->iffeatures, Y_STR_ARG, &uses->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &uses->ref, Y_STR_ARG, &uses->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &uses->flags, &uses->exts)); break; case LY_STMT_WHEN: LY_CHECK_RET(lysp_stmt_when(ctx, child, &uses->when)); break; case LY_STMT_REFINE: LY_CHECK_RET(lysp_stmt_refine(ctx, child, &uses->refines)); break; case LY_STMT_AUGMENT: LY_CHECK_RET(lysp_stmt_augment(ctx, child, &uses->node, &uses->augments)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_USES, 0, &uses->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "uses"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the case statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] siblings Siblings to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_case(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings) { struct lysp_node_case *cas; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); /* create new case structure */ LY_LIST_NEW_RET(PARSER_CTX(ctx), siblings, cas, next, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &cas->name)); cas->nodetype = LYS_CASE; cas->parent = parent; /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &cas->dsc, Y_STR_ARG, &cas->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &cas->iffeatures, Y_STR_ARG, &cas->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &cas->ref, Y_STR_ARG, &cas->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &cas->flags, &cas->exts)); break; case LY_STMT_WHEN: LY_CHECK_RET(lysp_stmt_when(ctx, child, &cas->when)); break; case LY_STMT_ANYDATA: PARSER_CHECK_STMTVER2_RET(ctx, "anydata", "case"); /* fall through */ case LY_STMT_ANYXML: LY_CHECK_RET(lysp_stmt_any(ctx, child, &cas->node, &cas->child)); break; case LY_STMT_CHOICE: LY_CHECK_RET(lysp_stmt_choice(ctx, child, &cas->node, &cas->child)); break; case LY_STMT_CONTAINER: LY_CHECK_RET(lysp_stmt_container(ctx, child, &cas->node, &cas->child)); break; case LY_STMT_LEAF: LY_CHECK_RET(lysp_stmt_leaf(ctx, child, &cas->node, &cas->child)); break; case LY_STMT_LEAF_LIST: LY_CHECK_RET(lysp_stmt_leaflist(ctx, child, &cas->node, &cas->child)); break; case LY_STMT_LIST: LY_CHECK_RET(lysp_stmt_list(ctx, child, &cas->node, &cas->child)); break; case LY_STMT_USES: LY_CHECK_RET(lysp_stmt_uses(ctx, child, &cas->node, &cas->child)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_CASE, 0, &cas->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "case"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the choice statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] siblings Siblings to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_choice(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings) { struct lysp_node_choice *choice; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); /* create new choice structure */ LY_LIST_NEW_RET(PARSER_CTX(ctx), siblings, choice, next, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &choice->name)); choice->nodetype = LYS_CHOICE; choice->parent = parent; /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_CONFIG: LY_CHECK_RET(lysp_stmt_config(ctx, child, &choice->flags, &choice->exts)); break; case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &choice->dsc, Y_STR_ARG, &choice->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &choice->iffeatures, Y_STR_ARG, &choice->exts)); break; case LY_STMT_MANDATORY: LY_CHECK_RET(lysp_stmt_mandatory(ctx, child, &choice->flags, &choice->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &choice->ref, Y_STR_ARG, &choice->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &choice->flags, &choice->exts)); break; case LY_STMT_WHEN: LY_CHECK_RET(lysp_stmt_when(ctx, child, &choice->when)); break; case LY_STMT_DEFAULT: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &choice->dflt.str, Y_PREF_IDENTIF_ARG, &choice->exts)); choice->dflt.mod = PARSER_CUR_PMOD(ctx); break; case LY_STMT_ANYDATA: PARSER_CHECK_STMTVER2_RET(ctx, "anydata", "choice"); /* fall through */ case LY_STMT_ANYXML: LY_CHECK_RET(lysp_stmt_any(ctx, child, &choice->node, &choice->child)); break; case LY_STMT_CASE: LY_CHECK_RET(lysp_stmt_case(ctx, child, &choice->node, &choice->child)); break; case LY_STMT_CHOICE: PARSER_CHECK_STMTVER2_RET(ctx, "choice", "choice"); LY_CHECK_RET(lysp_stmt_choice(ctx, child, &choice->node, &choice->child)); break; case LY_STMT_CONTAINER: LY_CHECK_RET(lysp_stmt_container(ctx, child, &choice->node, &choice->child)); break; case LY_STMT_LEAF: LY_CHECK_RET(lysp_stmt_leaf(ctx, child, &choice->node, &choice->child)); break; case LY_STMT_LEAF_LIST: LY_CHECK_RET(lysp_stmt_leaflist(ctx, child, &choice->node, &choice->child)); break; case LY_STMT_LIST: LY_CHECK_RET(lysp_stmt_list(ctx, child, &choice->node, &choice->child)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_CHOICE, 0, &choice->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "choice"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the container statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] siblings Siblings to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_container(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings) { struct lysp_node_container *cont; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); /* create new container structure */ LY_LIST_NEW_RET(PARSER_CTX(ctx), siblings, cont, next, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &cont->name)); cont->nodetype = LYS_CONTAINER; cont->parent = parent; /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_CONFIG: LY_CHECK_RET(lysp_stmt_config(ctx, child, &cont->flags, &cont->exts)); break; case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &cont->dsc, Y_STR_ARG, &cont->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &cont->iffeatures, Y_STR_ARG, &cont->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &cont->ref, Y_STR_ARG, &cont->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &cont->flags, &cont->exts)); break; case LY_STMT_WHEN: LY_CHECK_RET(lysp_stmt_when(ctx, child, &cont->when)); break; case LY_STMT_PRESENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &cont->presence, Y_STR_ARG, &cont->exts)); break; case LY_STMT_ANYDATA: PARSER_CHECK_STMTVER2_RET(ctx, "anydata", "container"); /* fall through */ case LY_STMT_ANYXML: LY_CHECK_RET(lysp_stmt_any(ctx, child, &cont->node, &cont->child)); break; case LY_STMT_CHOICE: LY_CHECK_RET(lysp_stmt_choice(ctx, child, &cont->node, &cont->child)); break; case LY_STMT_CONTAINER: LY_CHECK_RET(lysp_stmt_container(ctx, child, &cont->node, &cont->child)); break; case LY_STMT_LEAF: LY_CHECK_RET(lysp_stmt_leaf(ctx, child, &cont->node, &cont->child)); break; case LY_STMT_LEAF_LIST: LY_CHECK_RET(lysp_stmt_leaflist(ctx, child, &cont->node, &cont->child)); break; case LY_STMT_LIST: LY_CHECK_RET(lysp_stmt_list(ctx, child, &cont->node, &cont->child)); break; case LY_STMT_USES: LY_CHECK_RET(lysp_stmt_uses(ctx, child, &cont->node, &cont->child)); break; case LY_STMT_TYPEDEF: LY_CHECK_RET(lysp_stmt_typedef(ctx, child, &cont->node, &cont->typedefs)); break; case LY_STMT_MUST: LY_CHECK_RET(lysp_stmt_restrs(ctx, child, &cont->musts)); break; case LY_STMT_ACTION: PARSER_CHECK_STMTVER2_RET(ctx, "action", "container"); LY_CHECK_RET(lysp_stmt_action(ctx, child, &cont->node, &cont->actions)); break; case LY_STMT_GROUPING: LY_CHECK_RET(lysp_stmt_grouping(ctx, child, &cont->node, &cont->groupings)); break; case LY_STMT_NOTIFICATION: PARSER_CHECK_STMTVER2_RET(ctx, "notification", "container"); LY_CHECK_RET(lysp_stmt_notif(ctx, child, &cont->node, &cont->notifs)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_CONTAINER, 0, &cont->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "container"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse the list statement. * * @param[in] ctx parser context. * @param[in] stmt Source statement data from the parsed extension instance. * @param[in] parent Parent node to connect to (not into). * @param[in,out] siblings Siblings to add to. * * @return LY_ERR values. */ static LY_ERR lysp_stmt_list(struct lysp_ctx *ctx, const struct lysp_stmt *stmt, struct lysp_node *parent, struct lysp_node **siblings) { struct lysp_node_list *list; LY_CHECK_RET(lysp_stmt_validate_value(ctx, Y_IDENTIF_ARG, stmt->arg)); /* create new list structure */ LY_LIST_NEW_RET(PARSER_CTX(ctx), siblings, list, next, LY_EMEM); LY_CHECK_RET(lydict_insert(PARSER_CTX(ctx), stmt->arg, 0, &list->name)); list->nodetype = LYS_LIST; list->parent = parent; /* parse substatements */ for (const struct lysp_stmt *child = stmt->child; child; child = child->next) { switch (child->kw) { case LY_STMT_CONFIG: LY_CHECK_RET(lysp_stmt_config(ctx, child, &list->flags, &list->exts)); break; case LY_STMT_DESCRIPTION: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &list->dsc, Y_STR_ARG, &list->exts)); break; case LY_STMT_IF_FEATURE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &list->iffeatures, Y_STR_ARG, &list->exts)); break; case LY_STMT_REFERENCE: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &list->ref, Y_STR_ARG, &list->exts)); break; case LY_STMT_STATUS: LY_CHECK_RET(lysp_stmt_status(ctx, child, &list->flags, &list->exts)); break; case LY_STMT_WHEN: LY_CHECK_RET(lysp_stmt_when(ctx, child, &list->when)); break; case LY_STMT_KEY: LY_CHECK_RET(lysp_stmt_text_field(ctx, child, 0, &list->key, Y_STR_ARG, &list->exts)); break; case LY_STMT_MAX_ELEMENTS: LY_CHECK_RET(lysp_stmt_maxelements(ctx, child, &list->max, &list->flags, &list->exts)); break; case LY_STMT_MIN_ELEMENTS: LY_CHECK_RET(lysp_stmt_minelements(ctx, child, &list->min, &list->flags, &list->exts)); break; case LY_STMT_ORDERED_BY: LY_CHECK_RET(lysp_stmt_orderedby(ctx, child, &list->flags, &list->exts)); break; case LY_STMT_UNIQUE: LY_CHECK_RET(lysp_stmt_qnames(ctx, child, &list->uniques, Y_STR_ARG, &list->exts)); break; case LY_STMT_ANYDATA: PARSER_CHECK_STMTVER2_RET(ctx, "anydata", "list"); /* fall through */ case LY_STMT_ANYXML: LY_CHECK_RET(lysp_stmt_any(ctx, child, &list->node, &list->child)); break; case LY_STMT_CHOICE: LY_CHECK_RET(lysp_stmt_choice(ctx, child, &list->node, &list->child)); break; case LY_STMT_CONTAINER: LY_CHECK_RET(lysp_stmt_container(ctx, child, &list->node, &list->child)); break; case LY_STMT_LEAF: LY_CHECK_RET(lysp_stmt_leaf(ctx, child, &list->node, &list->child)); break; case LY_STMT_LEAF_LIST: LY_CHECK_RET(lysp_stmt_leaflist(ctx, child, &list->node, &list->child)); break; case LY_STMT_LIST: LY_CHECK_RET(lysp_stmt_list(ctx, child, &list->node, &list->child)); break; case LY_STMT_USES: LY_CHECK_RET(lysp_stmt_uses(ctx, child, &list->node, &list->child)); break; case LY_STMT_TYPEDEF: LY_CHECK_RET(lysp_stmt_typedef(ctx, child, &list->node, &list->typedefs)); break; case LY_STMT_MUST: LY_CHECK_RET(lysp_stmt_restrs(ctx, child, &list->musts)); break; case LY_STMT_ACTION: PARSER_CHECK_STMTVER2_RET(ctx, "action", "list"); LY_CHECK_RET(lysp_stmt_action(ctx, child, &list->node, &list->actions)); break; case LY_STMT_GROUPING: LY_CHECK_RET(lysp_stmt_grouping(ctx, child, &list->node, &list->groupings)); break; case LY_STMT_NOTIFICATION: PARSER_CHECK_STMTVER2_RET(ctx, "notification", "list"); LY_CHECK_RET(lysp_stmt_notif(ctx, child, &list->node, &list->notifs)); break; case LY_STMT_EXTENSION_INSTANCE: LY_CHECK_RET(lysp_stmt_ext(ctx, child, LY_STMT_LIST, 0, &list->exts)); break; default: LOGVAL_PARSER(ctx, LY_VCODE_INCHILDSTMT, lyplg_ext_stmt2str(child->kw), "list"); return LY_EVALID; } } return LY_SUCCESS; } /** * @brief Parse generic statement structure into a specific parsed-schema structure. * * @param[in] pctx Parse context of the @p stmt being processed. * @param[in] stmt Generic statement structure to process. * @param[out] result Specific parsed-schema structure for the given statement. For the specific type for the particular statement, check the function code. * @param[in,out] exts [sized array](@ref sizedarrays) For extension instances in case of statements that do not store extension instances in their own list. * @return LY_ERR value. */ static LY_ERR lysp_stmt_parse(struct lysp_ctx *pctx, const struct lysp_stmt *stmt, void **result, struct lysp_ext_instance **exts) { LY_ERR ret = LY_SUCCESS; uint16_t flags; switch (stmt->kw) { case LY_STMT_NOTIFICATION: ret = lysp_stmt_notif(pctx, stmt, NULL, (struct lysp_node_notif **)result); break; case LY_STMT_INPUT: case LY_STMT_OUTPUT: { struct lysp_node_action_inout *inout; *result = inout = calloc(1, sizeof *inout); LY_CHECK_ERR_RET(!inout, LOGMEM(PARSER_CTX(pctx)), LY_EMEM); ret = lysp_stmt_inout(pctx, stmt, NULL, inout); break; } case LY_STMT_ACTION: case LY_STMT_RPC: ret = lysp_stmt_action(pctx, stmt, NULL, (struct lysp_node_action **)result); break; case LY_STMT_ANYDATA: case LY_STMT_ANYXML: ret = lysp_stmt_any(pctx, stmt, NULL, (struct lysp_node **)result); break; case LY_STMT_AUGMENT: ret = lysp_stmt_augment(pctx, stmt, NULL, (struct lysp_node_augment **)result); break; case LY_STMT_CASE: ret = lysp_stmt_case(pctx, stmt, NULL, (struct lysp_node **)result); break; case LY_STMT_CHOICE: ret = lysp_stmt_choice(pctx, stmt, NULL, (struct lysp_node **)result); break; case LY_STMT_CONTAINER: ret = lysp_stmt_container(pctx, stmt, NULL, (struct lysp_node **)result); break; case LY_STMT_GROUPING: ret = lysp_stmt_grouping(pctx, stmt, NULL, (struct lysp_node_grp **)result); break; case LY_STMT_LEAF: ret = lysp_stmt_leaf(pctx, stmt, NULL, (struct lysp_node **)result); break; case LY_STMT_LEAF_LIST: ret = lysp_stmt_leaflist(pctx, stmt, NULL, (struct lysp_node **)result); break; case LY_STMT_LIST: ret = lysp_stmt_list(pctx, stmt, NULL, (struct lysp_node **)result); break; case LY_STMT_USES: ret = lysp_stmt_uses(pctx, stmt, NULL, (struct lysp_node **)result); break; case LY_STMT_BASE: ret = lysp_stmt_text_fields(pctx, stmt, (const char ***)result, Y_PREF_IDENTIF_ARG, exts); break; case LY_STMT_ARGUMENT: case LY_STMT_BELONGS_TO: case LY_STMT_CONTACT: case LY_STMT_DESCRIPTION: case LY_STMT_ERROR_APP_TAG: case LY_STMT_ERROR_MESSAGE: case LY_STMT_KEY: case LY_STMT_NAMESPACE: case LY_STMT_ORGANIZATION: case LY_STMT_PRESENCE: case LY_STMT_REFERENCE: case LY_STMT_REVISION_DATE: case LY_STMT_UNITS: ret = lysp_stmt_text_field(pctx, stmt, 0, (const char **)result, Y_STR_ARG, exts); break; case LY_STMT_BIT: case LY_STMT_ENUM: ret = lysp_stmt_type_enum(pctx, stmt, (struct lysp_type_enum **)result); break; case LY_STMT_CONFIG: assert(*result); ret = lysp_stmt_config(pctx, stmt, *(uint16_t **)result, exts); break; case LY_STMT_DEFAULT: case LY_STMT_IF_FEATURE: case LY_STMT_UNIQUE: ret = lysp_stmt_qnames(pctx, stmt, (struct lysp_qname **)result, Y_STR_ARG, exts); break; case LY_STMT_DEVIATE: ret = lysp_stmt_deviate(pctx, stmt, (struct lysp_deviate **)result, exts); break; case LY_STMT_DEVIATION: ret = lysp_stmt_deviation(pctx, stmt, (struct lysp_deviation **)result); break; case LY_STMT_EXTENSION: ret = lysp_stmt_extension(pctx, stmt, (struct lysp_ext **)result); break; case LY_STMT_EXTENSION_INSTANCE: ret = lysp_stmt_ext(pctx, stmt, LY_STMT_EXTENSION_INSTANCE, 0, (struct lysp_ext_instance **)result); break; case LY_STMT_FEATURE: ret = lysp_stmt_feature(pctx, stmt, (struct lysp_feature **)result); break; case LY_STMT_FRACTION_DIGITS: ret = lysp_stmt_type_fracdigits(pctx, stmt, *(uint8_t **)result, exts); break; case LY_STMT_LENGTH: case LY_STMT_RANGE: { struct lysp_restr *restr; *result = restr = calloc(1, sizeof *restr); LY_CHECK_ERR_RET(!restr, LOGMEM(PARSER_CTX(pctx)), LY_EMEM); ret = lysp_stmt_restr(pctx, stmt, restr); break; } case LY_STMT_MUST: ret = lysp_stmt_restrs(pctx, stmt, (struct lysp_restr **)result); break; case LY_STMT_IDENTITY: ret = lysp_stmt_identity(pctx, stmt, (struct lysp_ident **)result); break; case LY_STMT_IMPORT: ret = lysp_stmt_import(pctx, stmt, (struct lysp_import **)result); break; case LY_STMT_INCLUDE: ret = lysp_stmt_include(pctx, stmt, (struct lysp_include **)result); break; case LY_STMT_MANDATORY: ret = lysp_stmt_mandatory(pctx, stmt, *(uint16_t **)result, exts); break; case LY_STMT_MAX_ELEMENTS: flags = 0; ret = lysp_stmt_maxelements(pctx, stmt, *(uint32_t **)result, &flags, exts); break; case LY_STMT_MIN_ELEMENTS: flags = 0; ret = lysp_stmt_minelements(pctx, stmt, *(uint32_t **)result, &flags, exts); break; case LY_STMT_MODIFIER: ret = lysp_stmt_type_pattern_modifier(pctx, stmt, (const char **)result, exts); break; case LY_STMT_MODULE: { struct lysp_module *mod; *result = mod = calloc(1, sizeof *mod); LY_CHECK_ERR_RET(!mod, LOGMEM(PARSER_CTX(pctx)), LY_EMEM); ret = lysp_stmt_module(pctx, stmt, mod); break; } case LY_STMT_ORDERED_BY: ret = lysp_stmt_orderedby(pctx, stmt, *(uint16_t **)result, exts); break; case LY_STMT_PATH: { const char *str_path = NULL; LY_CHECK_RET(lysp_stmt_text_field(pctx, stmt, 0, &str_path, Y_STR_ARG, exts)); ret = ly_path_parse(PARSER_CTX(pctx), NULL, str_path, 0, 1, LY_PATH_BEGIN_EITHER, LY_PATH_PREFIX_OPTIONAL, LY_PATH_PRED_LEAFREF, (struct lyxp_expr **)result); lydict_remove(PARSER_CTX(pctx), str_path); break; } case LY_STMT_PATTERN: ret = lysp_stmt_type_pattern(pctx, stmt, (struct lysp_restr **)result); break; case LY_STMT_POSITION: case LY_STMT_VALUE: flags = 0; ret = lysp_stmt_type_enum_value_pos(pctx, stmt, *(int64_t **)result, &flags, exts); break; case LY_STMT_PREFIX: ret = lysp_stmt_text_field(pctx, stmt, 0, (const char **)result, Y_IDENTIF_ARG, exts); break; case LY_STMT_REFINE: ret = lysp_stmt_refine(pctx, stmt, (struct lysp_refine **)result); break; case LY_STMT_REQUIRE_INSTANCE: flags = 0; ret = lysp_stmt_type_reqinstance(pctx, stmt, *(uint8_t **)result, &flags, exts); break; case LY_STMT_REVISION: ret = lysp_stmt_revision(pctx, stmt, (struct lysp_revision **)result); break; case LY_STMT_STATUS: ret = lysp_stmt_status(pctx, stmt, (uint16_t *)result, exts); break; case LY_STMT_SUBMODULE: { struct lysp_submodule *submod; *result = submod = calloc(1, sizeof *submod); LY_CHECK_ERR_RET(!submod, LOGMEM(PARSER_CTX(pctx)), LY_EMEM); ret = lysp_stmt_submodule(pctx, stmt, submod); break; } case LY_STMT_TYPE: { struct lysp_type *type; *result = type = calloc(1, sizeof *type); LY_CHECK_ERR_RET(!type, LOGMEM(PARSER_CTX(pctx)), LY_EMEM); ret = lysp_stmt_type(pctx, stmt, type); break; } case LY_STMT_TYPEDEF: ret = lysp_stmt_typedef(pctx, stmt, NULL, (struct lysp_tpdf **)result); break; case LY_STMT_WHEN: ret = lysp_stmt_when(pctx, stmt, (struct lysp_when **)result); break; case LY_STMT_YANG_VERSION: ret = lysp_stmt_yangver(pctx, stmt, *(uint8_t **)result, exts); break; case LY_STMT_YIN_ELEMENT: ret = lysp_stmt_yinelem(pctx, stmt, *(uint16_t **)result, exts); break; default: LOGINT(PARSER_CTX(pctx)); return LY_EINT; } return ret; } LY_ERR lys_parse_ext_instance_stmt(struct lysp_ctx *pctx, struct lysp_ext_substmt *substmt, struct lysp_stmt *stmt) { LY_ERR rc = LY_SUCCESS; if (!substmt->storage) { /* nothing to parse, ignored */ goto cleanup; } switch (stmt->kw) { case LY_STMT_NOTIFICATION: case LY_STMT_INPUT: case LY_STMT_OUTPUT: case LY_STMT_ACTION: case LY_STMT_RPC: case LY_STMT_ANYDATA: case LY_STMT_ANYXML: case LY_STMT_AUGMENT: case LY_STMT_CASE: case LY_STMT_CHOICE: case LY_STMT_CONTAINER: case LY_STMT_GROUPING: case LY_STMT_LEAF: case LY_STMT_LEAF_LIST: case LY_STMT_LIST: case LY_STMT_USES: { struct lysp_node **pnodes_p, *pnode = NULL; /* parse the node */ LY_CHECK_GOTO(rc = lysp_stmt_parse(pctx, stmt, (void **)&pnode, NULL), cleanup); /* usually is a linked-list of all the parsed schema nodes */ pnodes_p = substmt->storage; while (*pnodes_p) { pnodes_p = &(*pnodes_p)->next; } *pnodes_p = pnode; break; } case LY_STMT_BASE: case LY_STMT_BIT: case LY_STMT_DEFAULT: case LY_STMT_DEVIATE: case LY_STMT_DEVIATION: case LY_STMT_ENUM: case LY_STMT_EXTENSION: case LY_STMT_EXTENSION_INSTANCE: case LY_STMT_FEATURE: case LY_STMT_IDENTITY: case LY_STMT_IF_FEATURE: case LY_STMT_IMPORT: case LY_STMT_INCLUDE: case LY_STMT_MUST: case LY_STMT_PATTERN: case LY_STMT_REFINE: case LY_STMT_REVISION: case LY_STMT_TYPEDEF: case LY_STMT_UNIQUE: /* parse, sized array */ LY_CHECK_GOTO(rc = lysp_stmt_parse(pctx, stmt, substmt->storage, NULL), cleanup); break; case LY_STMT_ARGUMENT: case LY_STMT_BELONGS_TO: case LY_STMT_CONTACT: case LY_STMT_DESCRIPTION: case LY_STMT_ERROR_APP_TAG: case LY_STMT_ERROR_MESSAGE: case LY_STMT_FRACTION_DIGITS: case LY_STMT_KEY: case LY_STMT_LENGTH: case LY_STMT_MANDATORY: case LY_STMT_MAX_ELEMENTS: case LY_STMT_MIN_ELEMENTS: case LY_STMT_MODIFIER: case LY_STMT_MODULE: case LY_STMT_NAMESPACE: case LY_STMT_ORGANIZATION: case LY_STMT_PATH: case LY_STMT_POSITION: case LY_STMT_PREFIX: case LY_STMT_PRESENCE: case LY_STMT_RANGE: case LY_STMT_REFERENCE: case LY_STMT_REQUIRE_INSTANCE: case LY_STMT_REVISION_DATE: case LY_STMT_SUBMODULE: case LY_STMT_TYPE: case LY_STMT_UNITS: case LY_STMT_VALUE: case LY_STMT_WHEN: case LY_STMT_YANG_VERSION: case LY_STMT_YIN_ELEMENT: /* single item */ if (*(void **)substmt->storage) { LOGVAL(PARSER_CTX(pctx), LY_VCODE_DUPSTMT, stmt->stmt); rc = LY_EVALID; goto cleanup; } /* parse */ LY_CHECK_GOTO(rc = lysp_stmt_parse(pctx, stmt, substmt->storage, NULL), cleanup); break; case LY_STMT_CONFIG: /* single item */ if ((*(uint16_t *)substmt->storage) & LYS_CONFIG_MASK) { LOGVAL(PARSER_CTX(pctx), LY_VCODE_DUPSTMT, stmt->stmt); rc = LY_EVALID; goto cleanup; } /* parse */ LY_CHECK_GOTO(rc = lysp_stmt_parse(pctx, stmt, substmt->storage, NULL), cleanup); break; case LY_STMT_ORDERED_BY: /* single item */ if ((*(uint16_t *)substmt->storage) & LYS_ORDBY_MASK) { LOGVAL(PARSER_CTX(pctx), LY_VCODE_DUPSTMT, stmt->stmt); rc = LY_EVALID; goto cleanup; } /* parse */ LY_CHECK_GOTO(rc = lysp_stmt_parse(pctx, stmt, substmt->storage, NULL), cleanup); break; case LY_STMT_STATUS: /* single item */ if ((*(uint16_t *)substmt->storage) & LYS_STATUS_MASK) { LOGVAL(PARSER_CTX(pctx), LY_VCODE_DUPSTMT, stmt->stmt); rc = LY_EVALID; goto cleanup; } /* parse */ LY_CHECK_GOTO(rc = lysp_stmt_parse(pctx, stmt, substmt->storage, NULL), cleanup); break; default: LOGINT(PARSER_CTX(pctx)); rc = LY_EINT; goto cleanup; } cleanup: return rc; }