blob: 012190ffe0d080258e7a502d4be2860f635e59ec [file] [log] [blame]
/**
* @file parser_yin.c
* @author David Sedlák <xsedla1d@stud.fit.vutbr.cz>
* @brief YIN parser.
*
* Copyright (c) 2015 - 2019 CESNET, z.s.p.o.
*
* This source code is licensed under BSD 3-Clause License (the "License").
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* https://opensource.org/licenses/BSD-3-Clause
*/
#include "common.h"
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <stdbool.h>
#include <errno.h>
#include <ctype.h>
#include "context.h"
#include "dict.h"
#include "xml.h"
#include "tree.h"
#include "tree_schema.h"
#include "tree_schema_internal.h"
#include "parser_yin.h"
/**
* @brief check if given string is URI of yin namespace.
* @param ns Namespace URI to check.
*
* @return true if ns equals YIN_NS_URI false otherwise.
*/
#define IS_YIN_NS(ns) (strcmp(ns, YIN_NS_URI) == 0)
static LY_ERR
yin_parse_config(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, uint16_t *flags,
struct lysp_ext_instance **exts);
const char *const yin_attr_list[] = {
[YIN_ARG_NAME] = "name",
[YIN_ARG_TARGET_NODE] = "target-node",
[YIN_ARG_MODULE] = "module",
[YIN_ARG_VALUE] = "value",
[YIN_ARG_TEXT] = "text",
[YIN_ARG_CONDITION] = "condition",
[YIN_ARG_URI] = "uri",
[YIN_ARG_DATE] = "date",
[YIN_ARG_TAG] = "tag",
};
enum yang_keyword
yin_match_keyword(struct yin_parser_ctx *ctx, const char *name, size_t name_len,
const char *prefix, size_t prefix_len, enum yang_keyword parrent)
{
const char *start = NULL;
enum yang_keyword kw = YANG_NONE;
const struct lyxml_ns *ns = NULL;
if (!name || name_len == 0) {
return YANG_NONE;
}
ns = lyxml_ns_get(&ctx->xml_ctx, prefix, prefix_len);
if (ns) {
if (!IS_YIN_NS(ns->uri)) {
return YANG_CUSTOM;
}
} else {
/* elements without namespace are automatically unknown */
return YANG_NONE;
}
start = name;
kw = lysp_match_kw(NULL, &name);
if (name - start == (long int)name_len) {
/* this is done because of collision in yang statement value and yang argument mapped to yin element value */
if (kw == YANG_VALUE && parrent == YANG_ERROR_MESSAGE) {
return YIN_VALUE;
}
return kw;
} else {
if (strncmp(start, "text", name_len) == 0) {
return YIN_TEXT;
} else if (strncmp(start, "value", name_len) == 0) {
return YIN_VALUE;
} else {
return YANG_NONE;
}
}
}
enum YIN_ARGUMENT
yin_match_argument_name(const char *name, size_t len)
{
enum YIN_ARGUMENT arg = YIN_ARG_UNKNOWN;
size_t already_read = 0;
LY_CHECK_RET(len == 0, YIN_ARG_NONE);
#define IF_ARG(STR, LEN, STMT) if (!strncmp((name) + already_read, STR, LEN)) {already_read+=LEN;arg=STMT;}
#define IF_ARG_PREFIX(STR, LEN) if (!strncmp((name) + already_read, STR, LEN)) {already_read+=LEN;
#define IF_ARG_PREFIX_END }
switch (*name) {
case 'c':
already_read += 1;
IF_ARG("ondition", 8, YIN_ARG_CONDITION);
break;
case 'd':
already_read += 1;
IF_ARG("ate", 3, YIN_ARG_DATE);
break;
case 'm':
already_read += 1;
IF_ARG("odule", 5, YIN_ARG_MODULE);
break;
case 'n':
already_read += 1;
IF_ARG("ame", 3, YIN_ARG_NAME);
break;
case 't':
already_read += 1;
IF_ARG_PREFIX("a", 1)
IF_ARG("g", 1, YIN_ARG_TAG)
else IF_ARG("rget-node", 9, YIN_ARG_TARGET_NODE)
IF_ARG_PREFIX_END
else IF_ARG("ext", 3, YIN_ARG_TEXT)
break;
case 'u':
already_read += 1;
IF_ARG("ri", 2, YIN_ARG_URI)
break;
case 'v':
already_read += 1;
IF_ARG("alue", 4, YIN_ARG_VALUE);
break;
}
/* whole argument must be matched */
if (already_read != len) {
arg = YIN_ARG_UNKNOWN;
}
#undef IF_ARG
#undef IF_ARG_PREFIX
#undef IF_ARG_PREFIX_END
return arg;
}
/**
* @brief free argument record, content loaded from lyxml_get_string() can be
* dynamically allocated in some cases so it must be also freed.
*/
static void free_arg_rec(struct yin_parser_ctx *ctx, struct yin_arg_record *record) {
(void)ctx; /* unused */
if (record && record->dynamic_content) {
free(record->content);
}
}
LY_ERR
yin_load_attributes(struct yin_parser_ctx *ctx, const char **data, struct yin_arg_record **attrs)
{
LY_ERR ret = LY_SUCCESS;
struct yin_arg_record *argument_record = NULL;
struct sized_string prefix, name;
/* load all attributes */
while (ctx->xml_ctx.status == LYXML_ATTRIBUTE) {
ret = lyxml_get_attribute(&ctx->xml_ctx, data, &prefix.value, &prefix.len, &name.value, &name.len);
LY_CHECK_GOTO(ret != LY_SUCCESS, cleanup);
if (ctx->xml_ctx.status == LYXML_ATTR_CONTENT) {
LY_ARRAY_NEW_GOTO(ctx->xml_ctx.ctx, *attrs, argument_record, ret, cleanup);
argument_record->name = name.value;
argument_record->name_len = name.len;
argument_record->prefix = prefix.value;
argument_record->prefix_len = prefix.len;
ret = lyxml_get_string(&ctx->xml_ctx, data, &argument_record->content, &argument_record->content_len,
&argument_record->content, &argument_record->content_len, &argument_record->dynamic_content);
LY_CHECK_GOTO(ret != LY_SUCCESS, cleanup);
}
}
cleanup:
if (ret != LY_SUCCESS) {
FREE_ARRAY(ctx, *attrs, free_arg_rec);
*attrs = NULL;
}
return ret;
}
LY_ERR
yin_validate_value(struct yin_parser_ctx *ctx, enum yang_arg val_type, char *val, size_t len)
{
int prefix = 0;
unsigned int c;
size_t utf8_char_len;
size_t already_read = 0;
while (already_read < len) {
LY_CHECK_ERR_RET(ly_getutf8((const char **)&val, &c, &utf8_char_len),
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INCHAR, (val)[-utf8_char_len]), LY_EVALID);
already_read += utf8_char_len;
LY_CHECK_ERR_RET(already_read > len, LOGINT(ctx->xml_ctx.ctx), LY_EINT);
switch (val_type) {
case Y_IDENTIF_ARG:
LY_CHECK_RET(lysp_check_identifierchar((struct lys_parser_ctx *)ctx, c, !already_read, NULL));
break;
case Y_PREF_IDENTIF_ARG:
LY_CHECK_RET(lysp_check_identifierchar((struct lys_parser_ctx *)ctx, c, !already_read, &prefix));
break;
case Y_STR_ARG:
case Y_MAYBE_STR_ARG:
LY_CHECK_RET(lysp_check_stringchar((struct lys_parser_ctx *)ctx, c));
break;
}
}
return LY_SUCCESS;
}
/**
* @brief Parse yin argument.
*
* @param[in,out] ctx Yin parser context for logging and to store current state.
* @param[in] attrs ([Sized array](@ref sizedarrays)) of attributes.
* @param[in,out] data Data to read from.
* @param[in] arg_type Type of argument that is expected in parsed element (use YIN_ARG_NONE for elements without
* special argument).
* @param[out] arg_val Where value of argument should be stored. Can be NULL if arg_type is specified as YIN_ARG_NONE.
* @param[in] val_type Type of expected value of attribute.
* @param[in] current_element Identification of current element, used for logging.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_attribute(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, enum YIN_ARGUMENT arg_type,
const char **arg_val, enum yang_arg val_type, enum yang_keyword current_element)
{
enum YIN_ARGUMENT arg = YIN_ARG_UNKNOWN;
struct yin_arg_record *iter = NULL;
bool found = false;
/* validation of attributes */
LY_ARRAY_FOR(attrs, struct yin_arg_record, iter) {
/* yin arguments represented as attributes have no namespace, which in this case means no prefix */
if (!iter->prefix) {
arg = yin_match_argument_name(iter->name, iter->name_len);
if (arg == YIN_ARG_NONE) {
continue;
} else if (arg == arg_type) {
LY_CHECK_ERR_RET(found, LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LYVE_SYNTAX_YIN, "Duplicit definition of %s attribute in %s element",
yin_attr2str(arg), ly_stmt2str(current_element)), LY_EVALID);
found = true;
LY_CHECK_RET(yin_validate_value(ctx, val_type, iter->content, iter->content_len));
if (iter->dynamic_content) {
*arg_val = lydict_insert_zc(ctx->xml_ctx.ctx, iter->content);
LY_CHECK_RET(!(*arg_val), LY_EMEM);
/* string is no longer supposed to be freed when the sized array is freed */
iter->dynamic_content = 0;
} else {
if (iter->content_len == 0) {
*arg_val = lydict_insert(ctx->xml_ctx.ctx, "", 0);
} else {
*arg_val = lydict_insert(ctx->xml_ctx.ctx, iter->content, iter->content_len);
LY_CHECK_RET(!(*arg_val), LY_EMEM);
}
}
} else {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LYVE_SYNTAX_YIN, "Unexpected attribute \"%.*s\" of %s element.", iter->name_len, iter->name, ly_stmt2str(current_element));
return LY_EVALID;
}
}
}
/* anything else than Y_MAYBE_STR_ARG is mandatory */
if (val_type != Y_MAYBE_STR_ARG && !found) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LYVE_SYNTAX_YIN, "Missing mandatory attribute %s of %s element.", yin_attr2str(arg_type), ly_stmt2str(current_element));
return LY_EVALID;
}
return LY_SUCCESS;
}
/**
* @brief Get record with given type. Array must be sorted in ascending order by array[n].type.
*
* @param[in] type Type of wanted record.
* @param[in] array_size Size of array.
* @param[in] array Searched array.
*
* @return Pointer to desired record on success, NULL if element is not in the array.
*/
static struct yin_subelement *
get_record(enum yang_keyword type, signed char array_size, struct yin_subelement *array)
{
signed char left = 0, right = array_size - 1, middle;
while (left <= right) {
middle = left + (right - left) / 2;
if (array[middle].type == type) {
return &array[middle];
}
if (array[middle].type < type) {
left = middle + 1;
} else {
right = middle - 1;
}
}
return NULL;
}
/**
* @brief Helper function to check mandatory constraint of subelement.
*
* @param[in,out] ctx Yin parser context for logging and to store current state.
* @param[in] subelem_info Array of information about subelements.
* @param[in] subelem_info_size Size of subelem_info array.
* @param[in] current_element Identification of element that is currently being parsed, used for logging.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_check_subelem_mandatory_constraint(struct yin_parser_ctx *ctx, struct yin_subelement *subelem_info,
signed char subelem_info_size, enum yang_keyword current_element)
{
for (signed char i = 0; i < subelem_info_size; ++i) {
/* if there is element that is mandatory and isn't parsed log error and return LY_EVALID */
if (subelem_info[i].flags & YIN_SUBELEM_MANDATORY && !(subelem_info[i].flags & YIN_SUBELEM_PARSED)) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LYVE_SYNTAX_YIN, "Missing mandatory subelement %s of %s element.",
ly_stmt2str(subelem_info[i].type), ly_stmt2str(current_element));
return LY_EVALID;
}
}
return LY_SUCCESS;
}
/**
* @brief Helper function to check "first" constraint of subelement.
*
* @param[in,out] ctx Yin parser context for logging and to store current state.
* @param[in] subelem_info Array of information about subelements.
* @param[in] subelem_info_size Size of subelem_info array.
* @param[in] current_element Identification of element that is currently being parsed, used for logging.
* @param[in] exp_first Record in subelem_info array that is expected to be defined as first subelement.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_check_subelem_first_constraint(struct yin_parser_ctx *ctx, struct yin_subelement *subelem_info,
signed char subelem_info_size, enum yang_keyword current_element,
struct yin_subelement *exp_first)
{
for (signed char i = 0; i < subelem_info_size; ++i) {
if (subelem_info[i].flags & YIN_SUBELEM_PARSED) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LYVE_SYNTAX_YIN, "Subelement %s of %s element must be defined as first subelement.",
ly_stmt2str(exp_first->type), ly_stmt2str(current_element));
return LY_EVALID;
}
}
return LY_SUCCESS;
}
/**
* @brief Helper function to check if array of information about subelements is in ascending order.
*
* @param[in] subelem_info Array of information about subelements.
* @param[in] subelem_info_size Size of subelem_info array.
*
* @return True iff subelem_info array is in ascending order, False otherwise.
*/
#ifndef NDEBUG
static bool
is_ordered(struct yin_subelement *subelem_info, signed char subelem_info_size)
{
enum yang_keyword current = YANG_NONE; /* 0 (minimal value) */
for (signed char i = 0; i < subelem_info_size; ++i) {
if (subelem_info[i].type <= current) {
return false;
}
current = subelem_info[i].type;
}
return true;
}
#endif
/**
* @brief Parse simple element without any special constraints and argument mapped to yin attribute,
* for example prefix or namespace element.
*
* @param[in,out] ctx Yin parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] kw Type of current element.
* @param[out] value Where value of attribute should be stored.
* @param[in] arg_type Expected type of attribute.
* @param[in] arg_val_type Type of expected value of attribute.
* @param[in,out] exts Extension instance to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_simple_element(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, enum yang_keyword kw,
const char **value, enum YIN_ARGUMENT arg_type, enum yang_arg arg_val_type, struct lysp_ext_instance **exts)
{
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, arg_type, value, arg_val_type, kw));
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0}
};
return yin_parse_content(ctx, subelems, 1, data, kw, NULL, exts);
}
/**
* @brief Parse pattern element.
*
* @param[in,out] ctx Yin parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] patterns Restrictions to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_pattern(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
struct lysp_type *type)
{
const char *real_value = NULL;
char *saved_value = NULL;
struct lysp_restr *restr;
LY_ARRAY_NEW_RET(ctx->xml_ctx.ctx, type->patterns, restr, LY_EMEM);
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &real_value, Y_STR_ARG, YANG_PATTERN));
size_t len = strlen(real_value);
saved_value = malloc(len + 2);
LY_CHECK_ERR_RET(!saved_value, LOGMEM(ctx->xml_ctx.ctx), LY_EMEM);
memmove(saved_value + 1, real_value, len);
FREE_STRING(ctx->xml_ctx.ctx, real_value);
saved_value[0] = 0x06;
saved_value[len + 1] = '\0';
restr->arg = lydict_insert_zc(ctx->xml_ctx.ctx, saved_value);
LY_CHECK_ERR_RET(!restr->arg, LOGMEM(ctx->xml_ctx.ctx), LY_EMEM);
type->flags |= LYS_SET_PATTERN;
struct yin_subelement subelems[6] = {
{YANG_DESCRIPTION, &restr->dsc, YIN_SUBELEM_UNIQUE},
{YANG_ERROR_APP_TAG, &restr->eapptag, YIN_SUBELEM_UNIQUE},
{YANG_ERROR_MESSAGE, &restr->emsg, YIN_SUBELEM_UNIQUE},
{YANG_MODIFIER, &restr->arg, YIN_SUBELEM_UNIQUE},
{YANG_REFERENCE, &restr->ref, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0}
};
return yin_parse_content(ctx, subelems, 6, data, YANG_PATTERN, NULL, &restr->exts);
}
static LY_ERR
yin_parse_fracdigits(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
struct lysp_type *type)
{
const char *temp_val = NULL;
char *ptr;
unsigned long int num;
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &temp_val, Y_STR_ARG, YANG_FRACTION_DIGITS));
if (temp_val[0] == '\0' || (temp_val[0] == '0') || !isdigit(temp_val[0])) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL, strlen(temp_val), temp_val, "fraction-digits");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
errno = 0;
num = strtoul(temp_val, &ptr, 10);
if (*ptr != '\0') {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL, strlen(temp_val), temp_val, "fraction-digits");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
if ((errno == ERANGE) || (num > 18)) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL, strlen(temp_val), temp_val, "fraction-digits");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
type->fraction_digits = num;
type->flags |= LYS_SET_FRDIGITS;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, &index, 0}
};
return yin_parse_content(ctx, subelems, 1, data, YANG_FRACTION_DIGITS, NULL, &type->exts);
}
/**
* @brief Parse enum or bit element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] enum_kw Identification of actual keyword, can be set to YANG_BIT or YANG_ENUM.
* @param[in,out] enums Enums or bits to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_enum_bit(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
enum yang_keyword enum_kw, struct lysp_type *type)
{
assert(enum_kw == YANG_BIT || enum_kw == YANG_ENUM);
struct lysp_type_enum *en;
struct lysp_type_enum **enums;
if (enum_kw == YANG_BIT) {
enums = &type->bits;
} else {
enums = &type->enums;
}
LY_ARRAY_NEW_RET(ctx->xml_ctx.ctx, *enums, en, LY_EMEM);
type->flags |= (enum_kw == YANG_ENUM) ? LYS_SET_ENUM : LYS_SET_BIT;
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_NAME, &en->name, Y_IDENTIF_ARG, enum_kw));
if (enum_kw == YANG_ENUM) {
LY_CHECK_RET(lysp_check_enum_name((struct lys_parser_ctx *)ctx, en->name, strlen(en->name)));
YANG_CHECK_NONEMPTY((struct lys_parser_ctx *)ctx, strlen(en->name), "enum");
}
CHECK_UNIQUENESS((struct lys_parser_ctx *)ctx, *enums, name, ly_stmt2str(enum_kw), en->name);
struct yin_subelement subelems[6] = {
{YANG_DESCRIPTION, &en->dsc, YIN_SUBELEM_UNIQUE},
{YANG_IF_FEATURE, &en->iffeatures, 0},
{YANG_REFERENCE, &en->ref, YIN_SUBELEM_UNIQUE},
{YANG_STATUS, &en->flags, YIN_SUBELEM_UNIQUE},
{(enum_kw == YANG_ENUM) ? YANG_VALUE : YANG_POSITION, en, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0}
};
return yin_parse_content(ctx, subelems, 6, data, enum_kw, NULL, &en->exts);
}
/**
* @brief Parse simple element without any special constraints and argument mapped to yin attribute, that can have
* more instances, such as base or if-feature.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] kw Type of current element.
* @param[out] values Parsed values to add to.
* @param[in] arg_type Expected type of attribute.
* @param[in] arg_val_type Type of expected value of attribute.
* @param[in,out] exts Extension instance to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_simple_elements(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, enum yang_keyword kw,
const char ***values, enum YIN_ARGUMENT arg_type, enum yang_arg arg_val_type, struct lysp_ext_instance **exts)
{
const char **value;
LY_ARRAY_NEW_RET(ctx->xml_ctx.ctx, *values, value, LY_EMEM);
uint32_t index = LY_ARRAY_SIZE(*values) - 1;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, &index, 0}
};
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, arg_type, value, arg_val_type, kw));
return yin_parse_content(ctx, subelems, 1, data, kw, NULL, exts);
}
/**
* @brief Parse require instance element.
*
* @param[in,out] ctx Yin parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @prama[out] type Type structure to store value, flag and extensions.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_pasrse_reqinstance(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs,
const char **data, struct lysp_type *type)
{
const char *temp_val = NULL;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0}
};
type->flags |= LYS_SET_REQINST;
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &temp_val, Y_STR_ARG, YANG_REQUIRE_INSTANCE));
if (strcmp(temp_val, "true") == 0) {
type->require_instance = 1;
} else if (strcmp(temp_val, "false") != 0) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL_YIN, temp_val, "require-instance");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return yin_parse_content(ctx, subelems, 1, data, YANG_REQUIRE_INSTANCE, NULL, &type->exts);
}
/**
* @brief Parse modifier element.
*
* @param[in,out] ctx Yin parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] pat Value to write to.
* @param[in,out] exts Extension instances to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_modifier(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
const char **pat, struct lysp_ext_instance **exts)
{
assert(**pat == 0x06);
const char *temp_val;
char *modified_val;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0}
};
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &temp_val, Y_STR_ARG, YANG_MODIFIER));
if (strcmp(temp_val, "invert-match") != 0) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL_YIN, temp_val, "modifier");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
lydict_remove(ctx->xml_ctx.ctx, temp_val);
/* allocate new value */
modified_val = malloc(strlen(*pat) + 1);
LY_CHECK_ERR_RET(!modified_val, LOGMEM(ctx->xml_ctx.ctx), LY_EMEM);
strcpy(modified_val, *pat);
lydict_remove(ctx->xml_ctx.ctx, *pat);
/* modify the new value */
modified_val[0] = 0x15;
*pat = lydict_insert_zc(ctx->xml_ctx.ctx, modified_val);
return yin_parse_content(ctx, subelems, 1, data, YANG_MODIFIER, NULL, exts);
}
/**
* @brief Parse a restriction element (length, range or one instance of must).
*
* @param[in,out] ctx Yin parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] restr_kw Identificaton of element that is being parsed, can be set to YANG_MUST, YANG_LENGTH or YANG_RANGE.
* @param[in]
*/
static LY_ERR
yin_parse_restriction(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
enum yang_keyword restr_kw, struct lysp_restr *restr)
{
assert(restr_kw == YANG_MUST || restr_kw == YANG_LENGTH || restr_kw == YANG_RANGE);
struct yin_subelement subelems[5] = {
{YANG_DESCRIPTION, &restr->dsc, YIN_SUBELEM_UNIQUE},
{YANG_ERROR_APP_TAG, &restr->eapptag, YIN_SUBELEM_UNIQUE},
{YANG_ERROR_MESSAGE, &restr->emsg, YIN_SUBELEM_UNIQUE},
{YANG_REFERENCE, &restr->ref, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0}
};
/* argument of must is called condition, but argument of length and range is called value */
enum YIN_ARGUMENT arg_type = (restr_kw == YANG_MUST) ? YIN_ARG_CONDITION : YIN_ARG_VALUE;
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, arg_type, &restr->arg, Y_STR_ARG, restr_kw));
return yin_parse_content(ctx, subelems, 5, data, restr_kw, NULL, &restr->exts);
}
/**
* @brief Parse must element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] restrs Restrictions to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_must(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, struct lysp_restr **restrs)
{
struct lysp_restr *restr;
LY_ARRAY_NEW_RET(ctx->xml_ctx.ctx, *restrs, restr, LY_EMEM);
return yin_parse_restriction(ctx, attrs, data, YANG_MUST, restr);
}
/**
* @brief Parse position or value element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] kw Type of current element, can be set to YANG_POSITION or YANG_VALUE.
* @param[out] enm Enum structure to save value, flags and extensions.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_value_pos_element(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
enum yang_keyword kw, struct lysp_type_enum *enm)
{
assert(kw == YANG_POSITION || kw == YANG_VALUE);
const char *temp_val = NULL;
char *ptr;
long int num;
unsigned long int unum;
/* set value flag */
enm->flags |= LYS_SET_VALUE;
/* get attribute value */
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &temp_val, Y_STR_ARG, kw));
if (!temp_val || temp_val[0] == '\0' || (temp_val[0] == '+') ||
((temp_val[0] == '0') && (temp_val[1] != '\0')) || ((kw == YANG_POSITION) && !strcmp(temp_val, "-0"))) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL, strlen(temp_val), temp_val, ly_stmt2str(kw));
goto error;
}
/* convert value */
errno = 0;
if (kw == YANG_VALUE) {
num = strtol(temp_val, &ptr, 10);
if (num < INT64_C(-2147483648) || num > INT64_C(2147483647)) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL, strlen(temp_val), temp_val, ly_stmt2str(kw));
goto error;
}
} else {
unum = strtoul(temp_val, &ptr, 10);
if (unum > UINT64_C(4294967295)) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL, strlen(temp_val), temp_val, ly_stmt2str(kw));
goto error;
}
}
/* check if whole argument value was converted */
if (*ptr != '\0') {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL, strlen(temp_val), temp_val, ly_stmt2str(kw));
goto error;
}
if (errno == ERANGE) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_OOB, strlen(temp_val), temp_val, ly_stmt2str(kw));
goto error;
}
/* save correctly ternary operator can't be used because num and unum have different signes */
if (kw == YANG_VALUE) {
enm->value = num;
} else {
enm->value = unum;
}
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
/* parse subelements */
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0}
};
return yin_parse_content(ctx, subelems, 1, data, kw, NULL, &enm->exts);
error:
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
/**
* @brief Function to parse meta tags (description, contact, ...) eg. elements with
* text element as child
*
* @param[in,out] ctx Yin parser context for logging and to store current state.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] Type of element can be set to YANG_ORGANIZATION or YANG_CONTACT or YANG_DESCRIPTION or YANG_REFERENCE.
* @param[out] value Where the content of meta element should be stored.
* @param[in,out] exts Extension instance to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_meta_element(struct yin_parser_ctx *ctx, const char **data, enum yang_keyword elem_type,
const char **value, struct lysp_ext_instance **exts)
{
assert(elem_type == YANG_ORGANIZATION || elem_type == YANG_CONTACT || elem_type == YANG_DESCRIPTION || elem_type == YANG_REFERENCE);
struct yin_subelement subelems[2] = {
{YANG_CUSTOM, NULL, 0},
{YIN_TEXT, value, YIN_SUBELEM_MANDATORY | YIN_SUBELEM_UNIQUE | YIN_SUBELEM_FIRST}
};
return yin_parse_content(ctx, subelems, 2, data, elem_type, NULL, exts);
}
/**
* @brief Parse error-message element.
*
* @param[in,out] ctx Yin parser context for logging and to store current state.
* @param[in,out] data Data to read from.
* @param[out] value Where the content of error-message element should be stored.
* @param[in,out] exts Extension instance to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_err_msg_element(struct yin_parser_ctx *ctx, const char **data, const char **value,
struct lysp_ext_instance **exts)
{
struct yin_subelement subelems[2] = {
{YANG_CUSTOM, NULL, 0},
{YIN_VALUE, value, YIN_SUBELEM_MANDATORY | YIN_SUBELEM_UNIQUE | YIN_SUBELEM_FIRST}
};
return yin_parse_content(ctx, subelems, 2, data, YANG_ERROR_MESSAGE, NULL, exts);
}
/**
* @brief parse type element.
*
* @brief Parse position or value element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] type Type to wrote to.
* @param[in,out] exts Extension instance to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_type(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, struct lysp_type *type)
{
struct yin_subelement subelems[11] = {
{YANG_BASE, type, 0},
{YANG_BIT, type, 0},
{YANG_ENUM, type, 0},
{YANG_FRACTION_DIGITS, type, YIN_SUBELEM_UNIQUE},
{YANG_LENGTH, type, YIN_SUBELEM_UNIQUE},
{YANG_PATH, type, YIN_SUBELEM_UNIQUE},
{YANG_PATTERN, type, 0},
{YANG_RANGE, type, YIN_SUBELEM_UNIQUE},
{YANG_REQUIRE_INSTANCE, type, YIN_SUBELEM_UNIQUE},
{YANG_TYPE, type},
{YANG_CUSTOM, NULL, 0},
};
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_NAME, &type->name, Y_PREF_IDENTIF_ARG, YANG_TYPE));
return yin_parse_content(ctx, subelems, 11, data, YANG_TYPE, NULL, &type->exts);
}
/**
* @brief Parse max-elements element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] max Value to write to.
* @param[in] flags Flags to write to.
* @param[in,out] exts Extension instances to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_maxelements(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, uint32_t *max,
uint16_t *flags, struct lysp_ext_instance **exts)
{
const char *temp_val = NULL;
char *ptr;
unsigned long int num;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0},
};
*flags |= LYS_SET_MAX;
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &temp_val, Y_STR_ARG, YANG_MAX_ELEMENTS));
if (!temp_val || temp_val[0] == '\0' || temp_val[0] == '0' || (temp_val[0] != 'u' && !isdigit(temp_val[0]))) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL, strlen(temp_val), temp_val, "max-elements");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
if (strcmp(temp_val, "unbounded")) {
errno = 0;
num = strtoul(temp_val, &ptr, 10);
if (*ptr != '\0') {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL, strlen(temp_val), temp_val, "max-elements");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
if ((errno == ERANGE) || (num > UINT32_MAX)) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_OOB, strlen(temp_val), temp_val, "max-elements");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
*max = num;
}
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return yin_parse_content(ctx, subelems, 1, data, YANG_MAX_ELEMENTS, NULL, exts);
}
/**
* @brief Parse max-elements element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] min Value to write to.
* @param[in] flags Flags to write to.
* @param[in,out] exts Extension instances to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_minelements(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, uint32_t *min,
uint16_t *flags, struct lysp_ext_instance **exts)
{
const char *temp_val = NULL;
char *ptr;
unsigned long int num;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0},
};
*flags |= LYS_SET_MIN;
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &temp_val, Y_STR_ARG, YANG_MIN_ELEMENTS));
if (!temp_val || temp_val[0] == '\0' || (temp_val[0] == '0' && temp_val[1] != '\0')) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL, strlen(temp_val), temp_val, "min-elements");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
errno = 0;
num = strtoul(temp_val, &ptr, 10);
if (ptr[0] != 0) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL, strlen(temp_val), temp_val, "min-elements");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
if (errno == ERANGE || num > UINT32_MAX) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_OOB, strlen(temp_val), temp_val, "min-elements");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
*min = num;
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return yin_parse_content(ctx, subelems, 1, data, YANG_MIN_ELEMENTS, NULL, exts);
}
/**
* @brief Parse min-elements or max-elements element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] parent Identification of parent element.
* @param[in] current Identification of current element.
* @param[in] dest Where the parsed value and flags should be stored.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_minmax(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
enum yang_keyword parent, enum yang_keyword current, void *dest)
{
assert(current == YANG_MAX_ELEMENTS || current == YANG_MIN_ELEMENTS);
assert(parent == YANG_LEAF_LIST || parent == YANG_REFINE || parent == YANG_LIST);
uint32_t *lim;
uint16_t *flags;
struct lysp_ext_instance **exts;
if (parent == YANG_LEAF_LIST) {
lim = (current == YANG_MAX_ELEMENTS) ? &((struct lysp_node_leaflist *)dest)->max : &((struct lysp_node_leaflist *)dest)->min;
flags = &((struct lysp_node_leaflist *)dest)->flags;
exts = &((struct lysp_node_leaflist *)dest)->exts;
} else if (parent == YANG_REFINE) {
lim = (current == YANG_MAX_ELEMENTS) ? &((struct lysp_refine *)dest)->max : &((struct lysp_refine *)dest)->min;
flags = &((struct lysp_refine *)dest)->flags;
exts = &((struct lysp_refine *)dest)->exts;
} else {
lim = (current == YANG_MAX_ELEMENTS) ? &((struct lysp_node_list *)dest)->max : &((struct lysp_node_list *)dest)->min;
flags = &((struct lysp_node_list *)dest)->flags;
exts = &((struct lysp_node_list *)dest)->exts;
}
if (current == YANG_MAX_ELEMENTS) {
LY_CHECK_RET(yin_parse_maxelements(ctx, attrs, data, lim, flags, exts));
} else {
LY_CHECK_RET(yin_parse_minelements(ctx, attrs, data, lim, flags, exts));
}
return LY_SUCCESS;
}
/**
* @brief Parser ordered-by element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[out] flags Flags to write to.
* @param[in,out] exts Extension instance to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_orderedby(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
uint16_t *flags, struct lysp_ext_instance **exts)
{
const char *temp_val;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0},
};
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &temp_val, Y_STR_ARG, YANG_ORDERED_BY));
if (strcmp(temp_val, "system") == 0) {
*flags |= LYS_ORDBY_SYSTEM;
} else if (strcmp(temp_val, "user") == 0) {
*flags |= LYS_ORDBY_USER;
} else {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL, strlen(temp_val), temp_val, "ordered-by");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return yin_parse_content(ctx, subelems, 1, data, YANG_ORDERED_BY, NULL, exts);
}
/**
* @brief parse any-data or any-xml element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] any_kw Identification of current element, can be set to YANG_ANY_DATA or YANG_ANY_XML
* @param[in] node_meta Meta information about node parent and siblings.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_any(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
enum yang_keyword any_kw, struct tree_node_meta *node_meta)
{
struct lysp_node *iter;
struct lysp_node_anydata *any;
/* create structure */
any = calloc(1, sizeof *any);
LY_CHECK_ERR_RET(!any, LOGMEM(ctx->xml_ctx.ctx), LY_EMEM);
any->nodetype = (any_kw == YANG_ANYDATA) ? LYS_ANYDATA : LYS_ANYXML;
any->parent = node_meta->parent;
/* insert into siblings */
if (!*(node_meta->siblings)) {
*(node_meta->siblings) = (struct lysp_node *)any;
} else {
for (iter = *(node_meta->siblings); iter->next; iter = iter->next);
iter->next = (struct lysp_node *)any;
}
/* parser argument */
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_NAME, &any->name, Y_IDENTIF_ARG, any_kw));
struct yin_subelement subelems[9] = {
{YANG_CONFIG, &any->flags, YIN_SUBELEM_UNIQUE},
{YANG_DESCRIPTION, &any->dsc, YIN_SUBELEM_UNIQUE},
{YANG_IF_FEATURE, &any->iffeatures, 0},
{YANG_MANDATORY, &any->flags, YIN_SUBELEM_UNIQUE},
{YANG_MUST, &any->musts, 0},
{YANG_REFERENCE, &any->ref, YIN_SUBELEM_UNIQUE},
{YANG_STATUS, &any->flags, YIN_SUBELEM_UNIQUE},
{YANG_WHEN, &any->when, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0},
};
return yin_parse_content(ctx, subelems, 9, data, any_kw, NULL, &any->exts);
}
/**
* @brief parse leaf element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] node_meta Meta information about node parent and siblings.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_leaf(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
struct tree_node_meta *node_meta)
{
struct lysp_node *iter;
struct lysp_node_leaf *leaf;
/* create structure */
leaf = calloc(1, sizeof *leaf);
LY_CHECK_ERR_RET(!leaf, LOGMEM(ctx->xml_ctx.ctx), LY_EMEM);
leaf->nodetype = LYS_LEAF;
leaf->parent = node_meta->parent;
/* insert into siblings */
if (!*(node_meta->siblings)) {
*node_meta->siblings = (struct lysp_node *)leaf;
} else {
for (iter = *node_meta->siblings; iter->next; iter = iter->next);
iter->next = (struct lysp_node *)leaf;
}
/* parser argument */
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_NAME, &leaf->name, Y_IDENTIF_ARG, YANG_LEAF));
/* parse content */
struct yin_subelement subelems[12] = {
{YANG_CONFIG, &leaf->flags, YIN_SUBELEM_UNIQUE},
{YANG_DEFAULT, &leaf->dflt, YIN_SUBELEM_UNIQUE},
{YANG_DESCRIPTION, &leaf->dsc, YIN_SUBELEM_UNIQUE},
{YANG_IF_FEATURE, &leaf->iffeatures, 0},
{YANG_MANDATORY, &leaf->flags, YIN_SUBELEM_UNIQUE},
{YANG_MUST, &leaf->musts, 0},
{YANG_REFERENCE, &leaf->ref, YIN_SUBELEM_UNIQUE},
{YANG_STATUS, &leaf->flags, YIN_SUBELEM_UNIQUE},
{YANG_TYPE, &leaf->type, YIN_SUBELEM_UNIQUE | YIN_SUBELEM_MANDATORY},
{YANG_UNITS, &leaf->units, YIN_SUBELEM_UNIQUE},
{YANG_WHEN, &leaf->when, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0},
};
return yin_parse_content(ctx, subelems, 12, data, YANG_LEAF, NULL, &leaf->exts);
}
/**
* @brief Parse leaf-list element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] node_meta Meta information about node parent and siblings.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_leaflist(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
struct tree_node_meta *node_meta)
{
struct lysp_node *iter;
struct lysp_node_leaflist *llist;
llist = calloc(1, sizeof *llist);
LY_CHECK_ERR_RET(!llist, LOGMEM(ctx->xml_ctx.ctx), LY_EMEM);
llist->nodetype = LYS_LEAFLIST;
llist->parent = node_meta->parent;
/* insert into siblings */
if (!*(node_meta->siblings)) {
*node_meta->siblings = (struct lysp_node *)llist;
} else {
for (iter = *node_meta->siblings; iter->next; iter = iter->next);
iter->next = (struct lysp_node *)llist;
}
/* parse argument */
yin_parse_attribute(ctx, attrs, YIN_ARG_NAME, &llist->name, Y_IDENTIF_ARG, YANG_LEAF_LIST);
/* parse content */
struct yin_subelement subelems[14] = {
{YANG_CONFIG, &llist->flags, YIN_SUBELEM_UNIQUE},
{YANG_DEFAULT, &llist->dflts, 0},
{YANG_DESCRIPTION, &llist->dsc, YIN_SUBELEM_UNIQUE},
{YANG_IF_FEATURE, &llist->iffeatures, 0},
{YANG_MAX_ELEMENTS, llist, YIN_SUBELEM_UNIQUE},
{YANG_MIN_ELEMENTS, llist, YIN_SUBELEM_UNIQUE},
{YANG_MUST, &llist->musts, 0},
{YANG_ORDERED_BY, &llist->flags, YIN_SUBELEM_UNIQUE},
{YANG_REFERENCE, &llist->ref, YIN_SUBELEM_UNIQUE},
{YANG_STATUS, &llist->flags, YIN_SUBELEM_UNIQUE},
{YANG_TYPE, &llist->type, YIN_SUBELEM_UNIQUE | YIN_SUBELEM_MANDATORY},
{YANG_UNITS, &llist->units, YIN_SUBELEM_UNIQUE},
{YANG_WHEN, &llist->when, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0},
};
LY_CHECK_RET(yin_parse_content(ctx, subelems, 14, data, YANG_LEAF_LIST, NULL, &llist->exts));
/* invalid combination of subelements */
if ((llist->min) && (llist->dflts)) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INCHILDSTMSCOMB, "min-elements", "default", "leaf-list");
return LY_EVALID;
}
if (llist->max && llist->min > llist->max) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LYVE_SEMANTICS,
"Invalid combination of min-elements and max-elements: min value %u is bigger than the max value %u.",
llist->min, llist->max);
return LY_EVALID;
}
return LY_SUCCESS;
}
/**
* @brief Parse typedef element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] typedef_meta Meta information about node parent and typedefs to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_typedef(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
struct typedef_meta *typedef_meta)
{
struct lysp_tpdf *tpdf;
LY_ARRAY_NEW_RET(ctx->xml_ctx.ctx, *typedef_meta->typedefs, tpdf, LY_EMEM);
/* parse argument */
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_NAME, &tpdf->name, Y_IDENTIF_ARG, YANG_TYPEDEF));
/* parse content */
struct yin_subelement subelems[7] = {
{YANG_DEFAULT, &tpdf->dflt, YIN_SUBELEM_UNIQUE},
{YANG_DESCRIPTION, &tpdf->dsc, YIN_SUBELEM_UNIQUE},
{YANG_REFERENCE, &tpdf->ref, YIN_SUBELEM_UNIQUE},
{YANG_STATUS, &tpdf->flags, YIN_SUBELEM_UNIQUE},
{YANG_TYPE, &tpdf->type, YIN_SUBELEM_UNIQUE | YIN_SUBELEM_MANDATORY},
{YANG_UNITS, &tpdf->units, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0},
};
LY_CHECK_RET(yin_parse_content(ctx, subelems, 7, data, YANG_TYPEDEF, NULL, &tpdf->exts));
/* store data for collision check */
if (typedef_meta->parent && !(typedef_meta->parent->nodetype & (LYS_GROUPING | LYS_ACTION | LYS_INOUT | LYS_NOTIF))) {
ly_set_add(&ctx->tpdfs_nodes, typedef_meta->parent, 0);
}
return LY_SUCCESS;
}
/**
* @brief Parse refine element.
*
* @param[in,out] ctx YIN parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] refines Refines to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_refine(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
struct lysp_refine **refines)
{
struct lysp_refine *rf;
/* allocate new refine */
LY_ARRAY_NEW_RET(ctx->xml_ctx.ctx, *refines, rf, LY_EMEM);
/* parse attribute */
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_TARGET_NODE, &rf->nodeid, Y_STR_ARG, YANG_REFINE));
YANG_CHECK_NONEMPTY((struct lys_parser_ctx *)ctx, strlen(rf->nodeid), "refine");
/* parse content */
struct yin_subelement subelems[11] = {
{YANG_CONFIG, &rf->flags, YIN_SUBELEM_UNIQUE},
{YANG_DEFAULT, &rf->dflts, 0},
{YANG_DESCRIPTION, &rf->dsc, YIN_SUBELEM_UNIQUE},
{YANG_IF_FEATURE, &rf->iffeatures, 0},
{YANG_MANDATORY, &rf->flags, YIN_SUBELEM_UNIQUE},
{YANG_MAX_ELEMENTS, rf, YIN_SUBELEM_UNIQUE},
{YANG_MIN_ELEMENTS, rf, YIN_SUBELEM_UNIQUE},
{YANG_MUST, &rf->musts, 0},
{YANG_PRESENCE, &rf->presence, YIN_SUBELEM_UNIQUE},
{YANG_REFERENCE, &rf->ref, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0},
};
return yin_parse_content(ctx, subelems, 11, data, YANG_REFINE, NULL, &rf->exts);
}
/**
* @brief Map keyword type to substatement info.
*
* @param[in] kw Keyword type.
*
* @return correct LYEXT_SUBSTMT information.
*/
static LYEXT_SUBSTMT
kw2lyext_substmt(enum yang_keyword kw)
{
switch (kw) {
case YANG_ARGUMENT:
return LYEXT_SUBSTMT_ARGUMENT;
case YANG_BASE:
return LYEXT_SUBSTMT_BASE;
case YANG_BELONGS_TO:
return LYEXT_SUBSTMT_BELONGSTO;
case YANG_CONTACT:
return LYEXT_SUBSTMT_CONTACT;
case YANG_DEFAULT:
return LYEXT_SUBSTMT_DEFAULT;
case YANG_DESCRIPTION:
return LYEXT_SUBSTMT_DESCRIPTION;
case YANG_ERROR_APP_TAG:
return LYEXT_SUBSTMT_ERRTAG;
case YANG_ERROR_MESSAGE:
return LYEXT_SUBSTMT_ERRMSG;
case YANG_KEY:
return LYEXT_SUBSTMT_KEY;
case YANG_NAMESPACE:
return LYEXT_SUBSTMT_NAMESPACE;
case YANG_ORGANIZATION:
return LYEXT_SUBSTMT_ORGANIZATION;
case YANG_PATH:
return LYEXT_SUBSTMT_PATH;
case YANG_PREFIX:
return LYEXT_SUBSTMT_PREFIX;
case YANG_PRESENCE:
return LYEXT_SUBSTMT_PRESENCE;
case YANG_REFERENCE:
return LYEXT_SUBSTMT_REFERENCE;
case YANG_REVISION_DATE:
return LYEXT_SUBSTMT_REVISIONDATE;
case YANG_UNITS:
return LYEXT_SUBSTMT_UNITS;
case YANG_VALUE:
return LYEXT_SUBSTMT_VALUE;
case YANG_YANG_VERSION:
return LYEXT_SUBSTMT_VERSION;
case YANG_MODIFIER:
return LYEXT_SUBSTMT_MODIFIER;
case YANG_REQUIRE_INSTANCE:
return LYEXT_SUBSTMT_REQINSTANCE;
case YANG_YIN_ELEMENT:
return LYEXT_SUBSTMT_YINELEM;
case YANG_CONFIG:
return LYEXT_SUBSTMT_CONFIG;
case YANG_MANDATORY:
return LYEXT_SUBSTMT_MANDATORY;
case YANG_ORDERED_BY:
return LYEXT_SUBSTMT_ORDEREDBY;
case YANG_STATUS:
return LYEXT_SUBSTMT_STATUS;
case YANG_FRACTION_DIGITS:
return LYEXT_SUBSTMT_FRACDIGITS;
case YANG_MAX_ELEMENTS:
return LYEXT_SUBSTMT_MAX;
case YANG_MIN_ELEMENTS:
return LYEXT_SUBSTMT_MIN;
case YANG_POSITION:
return LYEXT_SUBSTMT_POSITION;
case YANG_UNIQUE:
return LYEXT_SUBSTMT_UNIQUE;
case YANG_IF_FEATURE:
return LYEXT_SUBSTMT_IFFEATURE;
default:
return LYEXT_SUBSTMT_SELF;
}
}
/**
* @brief Parse belongs-to element.
*
* @param[in] ctx Yin parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of current element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[out] submod Structure of submodule that is being parsed.
* @param[in,out] exts Extension instances to add to.
*
* @return LY_ERR values
*/
static LY_ERR
yin_parse_belongs_to(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
struct lysp_submodule *submod, struct lysp_ext_instance **exts)
{
struct yin_subelement subelems[2] = {
{YANG_PREFIX, &submod->prefix, YIN_SUBELEM_MANDATORY | YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0}
};
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_MODULE, &submod->belongsto, Y_IDENTIF_ARG, YANG_BELONGS_TO));
return yin_parse_content(ctx, subelems, 2, data, YANG_BELONGS_TO, NULL, exts);
}
LY_ERR
yin_parse_content(struct yin_parser_ctx *ctx, struct yin_subelement *subelem_info, signed char subelem_info_size,
const char **data, enum yang_keyword current_element, const char **text_content, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
struct sized_string prefix, name;
char *out = NULL;
size_t out_len = 0;
int dynamic = 0;
struct yin_arg_record *attrs = NULL;
enum yang_keyword kw = YANG_NONE;
struct yin_subelement *subelem = NULL;
struct lysp_type *type, *nested_type;
assert(is_ordered(subelem_info, subelem_info_size));
if (ctx->xml_ctx.status == LYXML_ELEM_CONTENT) {
ret = lyxml_get_string(&ctx->xml_ctx, data, &out, &out_len, &out, &out_len, &dynamic);
/* current element has subelements as content */
if (ret == LY_EINVAL) {
while (ctx->xml_ctx.status == LYXML_ELEMENT) {
ret = lyxml_get_element(&ctx->xml_ctx, data, &prefix.value, &prefix.len, &name.value, &name.len);
LY_CHECK_GOTO(ret, cleanup);
if (!name.value) {
/* end of current element reached */
break;
}
ret = yin_load_attributes(ctx, data, &attrs);
LY_CHECK_GOTO(ret, cleanup);
kw = yin_match_keyword(ctx, name.value, name.len, prefix.value, prefix.len, current_element);
/* check if this element can be child of current element */
subelem = get_record(kw, subelem_info_size, subelem_info);
if (!subelem) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_UNEXP_SUBELEM, name.len, name.value, ly_stmt2str(current_element));
ret = LY_EVALID;
goto cleanup;
}
/* TODO check relative order */
/* if element is unique and already defined log error */
if ((subelem->flags & YIN_SUBELEM_UNIQUE) && (subelem->flags & YIN_SUBELEM_PARSED)) {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LYVE_SYNTAX_YIN, "Redefinition of %s element in %s element.", ly_stmt2str(kw), ly_stmt2str(current_element));
return LY_EVALID;
}
if (subelem->flags & YIN_SUBELEM_FIRST) {
ret = yin_check_subelem_first_constraint(ctx, subelem_info, subelem_info_size, current_element, subelem);
LY_CHECK_GOTO(ret, cleanup);
}
subelem->flags |= YIN_SUBELEM_PARSED;
switch (kw) {
case YANG_CUSTOM:
ret = yin_parse_extension_instance(ctx, attrs, data, name2fullname(name.value, prefix.len),
namelen2fulllen(name.len, prefix.len),
kw2lyext_substmt(current_element),
(subelem->dest) ? *((uint32_t*)subelem->dest) : 0, exts);
break;
case YANG_ACTION:
break;
case YANG_ANYDATA:
case YANG_ANYXML:
ret = yin_parse_any(ctx, attrs, data, kw, (struct tree_node_meta *)subelem->dest);
break;
case YANG_ARGUMENT:
ret = yin_parse_argument_element(ctx, attrs, data, (struct yin_argument_meta *)subelem->dest, exts);
break;
case YANG_AUGMENT:
break;
case YANG_BASE:
if (current_element == YANG_TYPE) {
type = (struct lysp_type *)subelem->dest;
ret = yin_parse_simple_elements(ctx, attrs, data, kw, &type->bases, YIN_ARG_NAME,
Y_PREF_IDENTIF_ARG, exts);
type->flags |= LYS_SET_BASE;
} else if (current_element == YANG_IDENTITY) {
ret = yin_parse_simple_elements(ctx, attrs, data, kw, (const char ***)subelem->dest,
YIN_ARG_NAME, Y_PREF_IDENTIF_ARG, exts);
} else {
LOGINT(ctx->xml_ctx.ctx);
ret = LY_EINT;
}
break;
case YANG_BELONGS_TO:
ret = yin_parse_belongs_to(ctx, attrs, data, (struct lysp_submodule *)subelem->dest, exts);
break;
case YANG_BIT:
case YANG_ENUM:
ret = yin_parse_enum_bit(ctx, attrs, data, kw, (struct lysp_type *)subelem->dest);
break;
case YANG_CASE:
break;
case YANG_CHOICE:
break;
case YANG_CONFIG:
ret = yin_parse_config(ctx, attrs, data, (uint16_t *)subelem->dest, exts);
break;
case YANG_CONTACT:
case YANG_DESCRIPTION:
case YANG_ORGANIZATION:
case YANG_REFERENCE:
ret = yin_parse_meta_element(ctx, data, kw, (const char **)subelem->dest, exts);
break;
case YANG_CONTAINER:
break;
case YANG_DEFAULT:
if (subelem->flags & YIN_SUBELEM_UNIQUE) {
ret = yin_parse_simple_element(ctx, attrs, data, kw, (const char **)subelem->dest,
YIN_ARG_VALUE, Y_STR_ARG, exts);
} else {
ret = yin_parse_simple_elements(ctx, attrs, data, kw, (const char ***)subelem->dest,
YIN_ARG_VALUE, Y_STR_ARG, exts);
}
break;
case YANG_DEVIATE:
break;
case YANG_DEVIATION:
break;
case YANG_ERROR_APP_TAG:
ret = yin_parse_simple_element(ctx, attrs, data, kw, (const char **)subelem->dest,
YIN_ARG_VALUE, Y_STR_ARG, exts);
break;
case YANG_ERROR_MESSAGE:
ret = yin_parse_err_msg_element(ctx, data, (const char **)subelem->dest, exts);
break;
case YANG_EXTENSION:
ret = yin_parse_extension(ctx, attrs, data, (struct lysp_ext **)subelem->dest);
break;
case YANG_FEATURE:
break;
case YANG_FRACTION_DIGITS:
ret = yin_parse_fracdigits(ctx, attrs, data, (struct lysp_type *)subelem->dest);
break;
case YANG_GROUPING:
break;
case YANG_IDENTITY:
break;
case YANG_IF_FEATURE:
ret = yin_parse_simple_elements(ctx, attrs, data, kw,
(const char ***)subelem->dest, YIN_ARG_NAME, Y_STR_ARG, exts);
break;
case YANG_IMPORT:
ret = yin_parse_import(ctx, attrs, data, (struct lysp_module *)subelem->dest);
break;
case YANG_INCLUDE:
break;
case YANG_INPUT:
break;
case YANG_KEY:
ret = yin_parse_simple_element(ctx, attrs, data, kw, (const char **)subelem->dest, YIN_ARG_VALUE,
Y_STR_ARG, exts);
break;
case YANG_LEAF:
ret = yin_parse_leaf(ctx, attrs, data, (struct tree_node_meta *)subelem->dest);
break;
case YANG_LEAF_LIST:
ret = yin_parse_leaflist(ctx, attrs, data, (struct tree_node_meta *)subelem->dest);
break;
case YANG_LENGTH:
type = (struct lysp_type *)subelem->dest;
type->length = calloc(1, sizeof *type->length);
LY_CHECK_ERR_GOTO(!type->length, LOGMEM(ctx->xml_ctx.ctx); ret = LY_EMEM, cleanup);
ret = yin_parse_restriction(ctx, attrs, data, kw, type->length);
type->flags |= LYS_SET_LENGTH;
break;
case YANG_LIST:
break;
case YANG_MANDATORY:
ret = yin_parse_mandatory(ctx, attrs, data, (uint16_t *)subelem->dest, exts);
break;
case YANG_MAX_ELEMENTS:
case YANG_MIN_ELEMENTS:
ret = yin_parse_minmax(ctx, attrs, data, current_element, kw, subelem->dest);
break;
case YANG_MODIFIER:
ret = yin_parse_modifier(ctx, attrs, data, (const char **)subelem->dest, exts);
break;
case YANG_MODULE:
break;
case YANG_MUST:
ret = yin_parse_must(ctx, attrs, data, (struct lysp_restr **)subelem->dest);
break;
case YANG_NAMESPACE:
ret = yin_parse_simple_element(ctx, attrs, data, kw, (const char **)subelem->dest,
YIN_ARG_URI, Y_STR_ARG, exts);
break;
case YANG_NOTIFICATION:
break;
case YANG_ORDERED_BY:
ret = yin_parse_orderedby(ctx, attrs, data, (uint16_t *)subelem->dest, exts);
break;
case YANG_OUTPUT:
break;
case YANG_PATH:
type = (struct lysp_type *)subelem->dest;
ret = yin_parse_simple_element(ctx, attrs, data, kw, &type->path,
YIN_ARG_VALUE, Y_STR_ARG, exts);
type->flags |= LYS_SET_PATH;
break;
case YANG_PATTERN:
ret = yin_parse_pattern(ctx, attrs, data, (struct lysp_type *)subelem->dest);
break;
case YANG_VALUE:
case YANG_POSITION:
ret = yin_parse_value_pos_element(ctx, attrs, data, kw,
(struct lysp_type_enum *)subelem->dest);
break;
case YANG_PREFIX:
ret = yin_parse_simple_element(ctx, attrs, data, kw,
(const char **)subelem->dest, YIN_ARG_VALUE, Y_IDENTIF_ARG, exts);
break;
case YANG_PRESENCE:
ret = yin_parse_simple_element(ctx, attrs, data, kw, (const char **)subelem->dest, YIN_ARG_VALUE,
Y_STR_ARG, exts);
break;
case YANG_RANGE:
type = (struct lysp_type *)subelem->dest;
type->range = calloc(1, sizeof *type->range);
LY_CHECK_ERR_GOTO(!type->range, LOGMEM(ctx->xml_ctx.ctx); ret = LY_EMEM, cleanup);
ret = yin_parse_restriction(ctx, attrs, data, kw, type->range);
type->flags |= LYS_SET_RANGE;
break;
case YANG_REFINE:
ret = yin_parse_refine(ctx, attrs, data, (struct lysp_refine **)subelem->dest);
break;
case YANG_REQUIRE_INSTANCE:
ret = yin_pasrse_reqinstance(ctx, attrs, data, (struct lysp_type *)subelem->dest);
break;
case YANG_REVISION:
break;
case YANG_REVISION_DATE:
ret = yin_parse_revision_date(ctx, attrs, data, (char *)subelem->dest, exts);
break;
case YANG_RPC:
break;
case YANG_STATUS:
ret = yin_parse_status(ctx, attrs, data, (uint16_t *)subelem->dest, exts);
break;
case YANG_SUBMODULE:
break;
case YANG_TYPE:
/* type as child of another type */
type = (struct lysp_type *)subelem->dest;
if (current_element == YANG_TYPE) {
LY_ARRAY_NEW_GOTO(ctx->xml_ctx.ctx, type->types, nested_type, ret, cleanup);
type->flags |= LYS_SET_TYPE;
type = nested_type;
}
ret = yin_parse_type(ctx, attrs, data, type);
break;
case YANG_TYPEDEF:
ret = yin_parse_typedef(ctx, attrs, data, (struct typedef_meta *)subelem->dest);
break;
case YANG_UNIQUE:
ret = yin_parse_simple_elements(ctx, attrs, data, kw, (const char ***)subelem->dest,
YIN_ARG_TAG, Y_STR_ARG, exts);
break;
case YANG_UNITS:
ret = yin_parse_simple_element(ctx, attrs, data, kw, (const char **)subelem->dest,
YIN_ARG_NAME, Y_STR_ARG, exts);
break;
case YANG_USES:
break;
case YANG_WHEN:
ret = yin_parse_when(ctx, attrs, data, (struct lysp_when **)subelem->dest);
break;
case YANG_YANG_VERSION:
ret = yin_parse_yangversion(ctx, attrs, data, (uint8_t *)subelem->dest, exts);
break;
case YANG_YIN_ELEMENT:
ret = yin_parse_yin_element_element(ctx, attrs, data, (uint16_t *)subelem->dest, exts);
break;
case YIN_TEXT:
case YIN_VALUE:
ret = yin_parse_content(ctx, NULL, 0, data, kw, (const char **)subelem->dest, NULL);
break;
default:
LOGINT(ctx->xml_ctx.ctx);
return LY_EINT;
}
LY_CHECK_GOTO(ret, cleanup);
FREE_ARRAY(ctx, attrs, free_arg_rec);
attrs = NULL;
subelem = NULL;
}
} else {
/* elements with text or none content */
/* save text content, if text_content isn't set, it's just ignored */
LY_CHECK_RET(yin_validate_value(ctx, Y_STR_ARG, out, out_len));
if (text_content) {
if (dynamic) {
*text_content = lydict_insert_zc(ctx->xml_ctx.ctx, out);
if (!*text_content) {
free(out);
return LY_EMEM;
}
} else {
if (out_len == 0) {
*text_content = lydict_insert(ctx->xml_ctx.ctx, "", 0);
} else {
*text_content = lydict_insert(ctx->xml_ctx.ctx, out, out_len);
}
}
}
/* load closing element */
LY_CHECK_RET(lyxml_get_element(&ctx->xml_ctx, data, &prefix.value, &prefix.len, &name.value, &name.len));
}
LY_CHECK_RET(yin_check_subelem_mandatory_constraint(ctx, subelem_info, subelem_info_size, current_element));
}
cleanup:
FREE_ARRAY(ctx, attrs, free_arg_rec);
return ret;
}
LY_ERR
yin_parse_revision_date(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, char *rev,
struct lysp_ext_instance **exts)
{
const char *temp_rev;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0}
};
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_DATE, &temp_rev, Y_STR_ARG, YANG_REVISION_DATE));
LY_CHECK_ERR_RET(lysp_check_date((struct lys_parser_ctx *)ctx, temp_rev, strlen(temp_rev), "revision-date") != LY_SUCCESS,
FREE_STRING(ctx->xml_ctx.ctx, temp_rev), LY_EVALID);
strcpy(rev, temp_rev);
FREE_STRING(ctx->xml_ctx.ctx, temp_rev);
return yin_parse_content(ctx, subelems, 1, data, YANG_REVISION_DATE, NULL, exts);
}
/**
* @brief Parse config element.
*
* @param[in] ctx Yin parser context for logging and to store current state.
* @param[in] attrs [Sized array](@ref sizedarrays) of attributes of import element.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] flags Flags to add to.
* @param[in,out] exts Extension instances to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_config(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, uint16_t *flags,
struct lysp_ext_instance **exts)
{
const char *temp_val = NULL;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0}
};
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &temp_val, Y_STR_ARG, YANG_CONFIG));
if (strcmp(temp_val, "true") == 0) {
*flags |= LYS_CONFIG_W;
} else if (strcmp(temp_val, "false") == 0) {
*flags |= LYS_CONFIG_R;
} else {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL_YIN, temp_val, "config");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return yin_parse_content(ctx, subelems, 1, data, YANG_CONFIG, NULL, exts);
}
LY_ERR
yin_parse_yangversion(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, uint8_t *version,
struct lysp_ext_instance **exts)
{
const char *temp_version = NULL;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0}
};
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &temp_version, Y_STR_ARG, YANG_YANG_VERSION));
if (strcmp(temp_version, "1.0") == 0) {
*version = LYS_VERSION_1_0;
} else if (strcmp(temp_version, "1.1") == 0) {
*version = LYS_VERSION_1_1;
} else {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL_YIN, temp_version, "yang-version");
FREE_STRING(ctx->xml_ctx.ctx, temp_version);
return LY_EVALID;
}
FREE_STRING(ctx->xml_ctx.ctx, temp_version);
ctx->mod_version = *version;
return yin_parse_content(ctx, subelems, 1, data, YANG_YANG_VERSION, NULL, exts);
}
LY_ERR
yin_parse_import(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, struct lysp_module *mod)
{
struct lysp_import *imp;
/* allocate new element in sized array for import */
LY_ARRAY_NEW_RET(ctx->xml_ctx.ctx, mod->imports, imp, LY_EMEM);
struct yin_subelement subelems[5] = {
{YANG_DESCRIPTION, &imp->dsc, YIN_SUBELEM_UNIQUE},
{YANG_PREFIX, &imp->prefix, YIN_SUBELEM_MANDATORY | YIN_SUBELEM_UNIQUE},
{YANG_REFERENCE, &imp->ref, YIN_SUBELEM_UNIQUE},
{YANG_REVISION_DATE, imp->rev, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0}
};
/* parse import attributes */
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_MODULE, &imp->name, Y_IDENTIF_ARG, YANG_IMPORT));
LY_CHECK_RET(yin_parse_content(ctx, subelems, 5, data, YANG_IMPORT, NULL, &imp->exts));
/* check prefix validity */
LY_CHECK_RET(lysp_check_prefix((struct lys_parser_ctx *)ctx, mod->imports, mod->mod->prefix, &imp->prefix), LY_EVALID);
return yin_parse_content(ctx, subelems, 5, data, YANG_IMPORT, NULL, &imp->exts);
}
LY_ERR
yin_parse_mandatory(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, uint16_t *flags,
struct lysp_ext_instance **exts)
{
const char *temp_val = NULL;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0}
};
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &temp_val, Y_STR_ARG, YANG_MANDATORY));
if (strcmp(temp_val, "true") == 0) {
*flags |= LYS_MAND_TRUE;
} else if (strcmp(temp_val, "false") == 0) {
*flags |= LYS_MAND_FALSE;
} else {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL_YIN, temp_val, "mandatory");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return yin_parse_content(ctx, subelems, 1, data, YANG_MANDATORY, NULL, exts);
}
LY_ERR
yin_parse_status(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, uint16_t *flags,
struct lysp_ext_instance **exts)
{
const char *value = NULL;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0}
};
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &value, Y_STR_ARG, YANG_STATUS));
if (strcmp(value, "current") == 0) {
*flags |= LYS_STATUS_CURR;
} else if (strcmp(value, "deprecated") == 0) {
*flags |= LYS_STATUS_DEPRC;
} else if (strcmp(value, "obsolete") == 0) {
*flags |= LYS_STATUS_OBSLT;
} else {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL_YIN, value, "status");
FREE_STRING(ctx->xml_ctx.ctx, value);
return LY_EVALID;
}
FREE_STRING(ctx->xml_ctx.ctx, value);
return yin_parse_content(ctx, subelems, 1, data, YANG_STATUS, NULL, exts);
}
LY_ERR
yin_parse_when(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, struct lysp_when **when_p)
{
struct lysp_when *when;
when = calloc(1, sizeof *when);
LY_CHECK_ERR_RET(!when, LOGMEM(ctx->xml_ctx.ctx), LY_EMEM);
yin_parse_attribute(ctx, attrs, YIN_ARG_CONDITION, &when->cond, Y_STR_ARG, YANG_WHEN);
*when_p = when;
struct yin_subelement subelems[3] = {
{YANG_DESCRIPTION, &when->dsc, YIN_SUBELEM_UNIQUE},
{YANG_REFERENCE, &when->ref, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0}
};
return yin_parse_content(ctx, subelems, 3, data, YANG_WHEN, NULL, &when->exts);
}
LY_ERR
yin_parse_yin_element_element(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
uint16_t *flags, struct lysp_ext_instance **exts)
{
const char *temp_val = NULL;
struct yin_subelement subelems[1] = {
{YANG_CUSTOM, NULL, 0}
};
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_VALUE, &temp_val, Y_STR_ARG, YANG_YIN_ELEMENT));
if (strcmp(temp_val, "true") == 0) {
*flags |= LYS_YINELEM_TRUE;
} else if (strcmp(temp_val, "false") == 0) {
*flags |= LYS_YINELEM_FALSE;
} else {
LOGVAL_PARSER((struct lys_parser_ctx *)ctx, LY_VCODE_INVAL_YIN, temp_val, "yin-element");
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return LY_EVALID;
}
FREE_STRING(ctx->xml_ctx.ctx, temp_val);
return yin_parse_content(ctx, subelems, 1, data, YANG_YIN_ELEMENT, NULL, exts);
}
LY_ERR
yin_parse_extension_instance(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, const char *ext_name,
int ext_name_len, LYEXT_SUBSTMT subelem, uint32_t subelem_index, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *out;
const char *name, *prefix;
size_t out_len, prefix_len, name_len;
int dynamic;
struct lysp_ext_instance *e;
struct lysp_stmt *last_subelem = NULL, *new_subelem = NULL;
struct yin_arg_record *iter;
LY_ARRAY_NEW_RET(ctx->xml_ctx.ctx, *exts, e, LY_EMEM);
e->yin = 0;
/* store name and insubstmt info */
e->name = lydict_insert(ctx->xml_ctx.ctx, ext_name, ext_name_len);
e->insubstmt = subelem;
e->insubstmt_index = subelem_index;
e->yin |= LYS_YIN;
/* store attributes as subelements */
LY_ARRAY_FOR_ITER(attrs, struct yin_arg_record, iter) {
if (!iter->prefix) {
new_subelem = calloc(1, sizeof(*new_subelem));
if (!e->child) {
e->child = new_subelem;
} else {
last_subelem->next = new_subelem;
}
last_subelem = new_subelem;
last_subelem->flags |= LYS_YIN_ATTR;
last_subelem->stmt = lydict_insert(ctx->xml_ctx.ctx, iter->name, iter->name_len);
LY_CHECK_ERR_RET(!last_subelem->stmt, LOGMEM(ctx->xml_ctx.ctx), LY_EMEM);
if (iter->dynamic_content) {
last_subelem->arg = lydict_insert_zc(ctx->xml_ctx.ctx, iter->content);
LY_CHECK_ERR_RET(!last_subelem->arg, LOGMEM(ctx->xml_ctx.ctx), LY_EMEM);
} else {
last_subelem->arg = lydict_insert(ctx->xml_ctx.ctx, iter->content, iter->content_len);
LY_CHECK_ERR_RET(!last_subelem->arg, LOGMEM(ctx->xml_ctx.ctx), LY_EMEM);
}
}
}
/* parse subelements */
if (ctx->xml_ctx.status == LYXML_ELEM_CONTENT) {
ret = lyxml_get_string(&ctx->xml_ctx, data, &out, &out_len, &out, &out_len, &dynamic);
if (ret == LY_EINVAL) {
while (ctx->xml_ctx.status == LYXML_ELEMENT) {
LY_CHECK_RET(lyxml_get_element(&ctx->xml_ctx, data, &prefix, &prefix_len, &name, &name_len));
if (!name) {
/* end of extension instance reached */
break;
}
LY_CHECK_RET(yin_parse_element_generic(ctx, name, name_len, prefix, prefix_len, data, &new_subelem));
if (!e->child) {
e->child = new_subelem;
} else {
last_subelem->next = new_subelem;
}
last_subelem = new_subelem;
}
} else {
/* save text content */
if (dynamic) {
e->argument = lydict_insert_zc(ctx->xml_ctx.ctx, out);
if (!e->argument) {
free(out);
return LY_EMEM;
}
} else {
e->argument = lydict_insert(ctx->xml_ctx.ctx, out, out_len);
LY_CHECK_RET(!e->argument, LY_EMEM);
}
LY_CHECK_RET(lyxml_get_element(&ctx->xml_ctx, data, &prefix, &prefix_len, &name, &name_len));
LY_CHECK_RET(name, LY_EINT);
}
}
return LY_SUCCESS;
}
LY_ERR
yin_parse_element_generic(struct yin_parser_ctx *ctx, const char *name, size_t name_len, const char *prefix,
size_t prefix_len, const char **data, struct lysp_stmt **element)
{
LY_ERR ret = LY_SUCCESS;
const char *temp_prefix, *temp_name;
char *out = NULL;
size_t out_len, temp_name_len, temp_prefix_len;
int dynamic;
struct yin_arg_record *subelem_args = NULL;
struct lysp_stmt *last = NULL, *new = NULL;
/* allocate new structure for element */
*element = calloc(1, sizeof(**element));
(*element)->stmt = lydict_insert(ctx->xml_ctx.ctx, name, name_len);
LY_CHECK_ERR_RET(!(*element)->stmt, LOGMEM(ctx->xml_ctx.ctx), LY_EMEM);
last = (*element)->child;
/* load attributes */
while(ctx->xml_ctx.status == LYXML_ATTRIBUTE) {
/* add new element to linked-list */
new = calloc(1, sizeof(*last));
LY_CHECK_ERR_GOTO(ret, LOGMEM(ctx->xml_ctx.ctx), err);
if (!(*element)->child) {
/* save first */
(*element)->child = new;
} else {
last->next = new;
}
last = new;
last->flags |= LYS_YIN_ATTR;
ret = lyxml_get_attribute(&ctx->xml_ctx, data, &temp_prefix, &prefix_len, &temp_name, &temp_name_len);
LY_CHECK_GOTO(ret, err);
ret = lyxml_get_string(&ctx->xml_ctx, data, &out, &out_len, &out, &out_len, &dynamic);
LY_CHECK_GOTO(ret, err);
last->stmt = lydict_insert(ctx->xml_ctx.ctx, temp_name, temp_name_len);
LY_CHECK_ERR_GOTO(!last->stmt, LOGMEM(ctx->xml_ctx.ctx); ret = LY_EMEM, err);
/* attributes with prefix are ignored */
if (!temp_prefix) {
if (dynamic) {
last->arg = lydict_insert_zc(ctx->xml_ctx.ctx, out);
if (!last->arg) {
free(out);
LOGMEM(ctx->xml_ctx.ctx);
ret = LY_EMEM;
goto err;
}
} else {
last->arg = lydict_insert(ctx->xml_ctx.ctx, out, out_len);
LY_CHECK_ERR_GOTO(!last->arg, LOGMEM(ctx->xml_ctx.ctx); ret = LY_EMEM, err);
}
}
}
/* parse content of element */
ret = lyxml_get_string(&ctx->xml_ctx, data, &out, &out_len, &out, &out_len, &dynamic);
if (ret == LY_EINVAL) {
while (ctx->xml_ctx.status == LYXML_ELEMENT) {
/* parse subelements */
ret = lyxml_get_element(&ctx->xml_ctx, data, &temp_prefix, &temp_prefix_len, &temp_name, &temp_name_len);
LY_CHECK_GOTO(ret, err);
if (!name) {
/* end of element reached */
break;
}
ret = yin_parse_element_generic(ctx, temp_name, temp_name_len, temp_prefix, temp_prefix_len, data, &last->next);
LY_CHECK_GOTO(ret, err);
last = last->next;
}
} else {
/* save element content */
if (out_len != 0) {
if (dynamic) {
(*element)->arg = lydict_insert_zc(ctx->xml_ctx.ctx, out);
if (!(*element)->arg) {
free(out);
LOGMEM(ctx->xml_ctx.ctx);
ret = LY_EMEM;
goto err;
}
} else {
(*element)->arg = lydict_insert(ctx->xml_ctx.ctx, out, out_len);
LY_CHECK_ERR_GOTO(!(*element)->arg, LOGMEM(ctx->xml_ctx.ctx); ret = LY_EMEM, err);
}
}
/* read closing tag */
ret = lyxml_get_element(&ctx->xml_ctx, data, &temp_prefix, &prefix_len, &temp_name, &temp_name_len);
LY_CHECK_GOTO(ret, err);
}
FREE_ARRAY(ctx, subelem_args, free_arg_rec);
return LY_SUCCESS;
err:
FREE_ARRAY(ctx, subelem_args, free_arg_rec);
return ret;
}
LY_ERR
yin_parse_argument_element(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data,
struct yin_argument_meta *arg_meta, struct lysp_ext_instance **exts)
{
struct yin_subelement subelems[2] = {
{YANG_YIN_ELEMENT, arg_meta->flags, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0}
};
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_NAME, arg_meta->argument, Y_IDENTIF_ARG, YANG_ARGUMENT));
return yin_parse_content(ctx, subelems, 2, data, YANG_ARGUMENT, NULL, exts);
}
LY_ERR
yin_parse_extension(struct yin_parser_ctx *ctx, struct yin_arg_record *attrs, const char **data, struct lysp_ext **extensions)
{
struct lysp_ext *ex;
LY_ARRAY_NEW_RET(ctx->xml_ctx.ctx, *extensions, ex, LY_EMEM);
LY_CHECK_RET(yin_parse_attribute(ctx, attrs, YIN_ARG_NAME, &ex->name, Y_IDENTIF_ARG, YANG_EXTENSION));
struct yin_argument_meta arg_info = {&ex->flags, &ex->argument};
struct yin_subelement subelems[5] = {
{YANG_ARGUMENT, &arg_info, YIN_SUBELEM_UNIQUE},
{YANG_DESCRIPTION, &ex->dsc, YIN_SUBELEM_UNIQUE},
{YANG_REFERENCE, &ex->ref, YIN_SUBELEM_UNIQUE},
{YANG_STATUS, &ex->flags, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0}
};
return yin_parse_content(ctx, subelems, 5, data, YANG_EXTENSION, NULL, &ex->exts);
}
/**
* @brief Parse module substatements.
*
* @param[in,out] ctx Yin parser context for logging and to store current state.
* @param[in] mod_attrs Attributes of module element.
* @param[in,out] data Data to read from.
* @param[out] mod Parsed module structure.
*
* @return LY_ERR values.
*/
static LY_ERR
yin_parse_mod(struct yin_parser_ctx *ctx, struct yin_arg_record *mod_attrs, const char **data, struct lysp_module **mod)
{
struct yin_subelement subelems[9] = {
{YANG_CONTACT, &(*mod)->mod->contact, YIN_SUBELEM_UNIQUE},
{YANG_DESCRIPTION, &(*mod)->mod->dsc, YIN_SUBELEM_UNIQUE},
{YANG_EXTENSION, &(*mod)->exts, 0},
{YANG_IMPORT, *mod, 0},
{YANG_NAMESPACE, &(*mod)->mod->ns, YIN_SUBELEM_MANDATORY | YIN_SUBELEM_UNIQUE},
{YANG_ORGANIZATION, &(*mod)->mod->org, YIN_SUBELEM_UNIQUE},
{YANG_PREFIX, &(*mod)->mod->prefix, YIN_SUBELEM_MANDATORY | YIN_SUBELEM_UNIQUE},
{YANG_REFERENCE, &(*mod)->mod->ref, YIN_SUBELEM_UNIQUE},
{YANG_CUSTOM, NULL, 0}
};
LY_CHECK_RET(yin_parse_attribute(ctx, mod_attrs, YIN_ARG_NAME, &(*mod)->mod->name, Y_IDENTIF_ARG, YANG_MODULE));
return yin_parse_content(ctx, subelems, 9, data, YANG_MODULE, NULL, &(*mod)->exts);
}
LY_ERR
yin_parse_module(struct ly_ctx *ctx, const char *data, struct lys_module *mod)
{
LY_ERR ret = LY_SUCCESS;
enum yang_keyword kw = YANG_NONE;
struct lysp_module *mod_p = NULL;
const char *prefix, *name;
size_t prefix_len, name_len;
struct yin_arg_record *attrs = NULL;
struct yin_parser_ctx yin_ctx;
/* initialize context */
memset(&yin_ctx, 0, sizeof yin_ctx);
yin_ctx.xml_ctx.ctx = ctx;
yin_ctx.xml_ctx.line = 1;
/* check submodule */
ret = lyxml_get_element(&yin_ctx.xml_ctx, &data, &prefix, &prefix_len, &name, &name_len);
LY_CHECK_GOTO(ret, cleanup);
ret = yin_load_attributes(&yin_ctx, &data, &attrs);
LY_CHECK_GOTO(ret, cleanup);
kw = yin_match_keyword(&yin_ctx, name, name_len, prefix, prefix_len, YANG_NONE);
if (kw == YANG_SUBMODULE) {
LOGERR(ctx, LY_EDENIED, "Input data contains submodule which cannot be parsed directly without its main module.");
ret = LY_EINVAL;
goto cleanup;
} else if (kw != YANG_MODULE) {
LOGVAL_PARSER((struct lys_parser_ctx *)&yin_ctx, LYVE_SYNTAX, "Invalid keyword \"%s\", expected \"module\" or \"submodule\".",
ly_stmt2str(kw));
ret = LY_EVALID;
goto cleanup;
}
/* allocate module */
mod_p = calloc(1, sizeof *mod_p);
LY_CHECK_ERR_GOTO(!mod_p, LOGMEM(ctx), cleanup);
mod_p->mod = mod;
mod_p->parsing = 1;
/* parse module substatements */
ret = yin_parse_mod(&yin_ctx, attrs, &data, &mod_p);
LY_CHECK_GOTO(ret, cleanup);
mod_p->parsing = 0;
mod->parsed = mod_p;
cleanup:
if (ret != LY_SUCCESS) {
lysp_module_free(mod_p);
}
FREE_ARRAY(&yin_ctx, attrs, free_arg_rec);
lyxml_context_clear(&yin_ctx.xml_ctx);
return ret;
}