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gerrit.cesnet.cz / github / CESNET / libyang / 11900c85d561ffb04f60d7062f5ac7b40b6ed173 / . / src / parser_yang.c
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/**
* @file parser_yang.c
* @author Michal Vasko <mvasko@cesnet.cz>
* @brief YANG parser
*
* Copyright (c) 2018 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 <ctype.h>
#include <errno.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "context.h"
#include "dict.h"
#include "extensions.h"
#include "log.h"
#include "set.h"
#include "tree.h"
#include "tree_schema.h"
#include "tree_schema_internal.h"
/* Macro to check YANG's yang-char grammar rule */
#define is_yangutf8char(c) ((c >= 0x20 && c <= 0xd77) || c == 0x09 || c == 0x0a || c == 0x0d || \
(c >= 0xe000 && c <= 0xfdcf) || (c >= 0xfdf0 && c <= 0xfffd) || \
(c >= 0x10000 && c <= 0x1fffd) || (c >= 0x20000 && c <= 0x2fffd) || \
(c >= 0x30000 && c <= 0x3fffd) || (c >= 0x40000 && c <= 0x2fffd) || \
(c >= 0x50000 && c <= 0x5fffd) || (c >= 0x60000 && c <= 0x6fffd) || \
(c >= 0x70000 && c <= 0x7fffd) || (c >= 0x80000 && c <= 0x8fffd) || \
(c >= 0x90000 && c <= 0x9fffd) || (c >= 0xa0000 && c <= 0xafffd) || \
(c >= 0xb0000 && c <= 0xbfffd) || (c >= 0xc0000 && c <= 0xcfffd) || \
(c >= 0xd0000 && c <= 0xdfffd) || (c >= 0xe0000 && c <= 0xefffd) || \
(c >= 0xf0000 && c <= 0xffffd) || (c >= 0x100000 && c <= 0x10fffd))
/**
* @brief Try to find object with MEMBER string matching the IDENT in the given ARRAY.
* Macro logs an error message and returns LY_EVALID in case of existence of a matching object.
*
* @param[in] CTX yang parser context for logging.
* @param[in] ARRAY [sized array](@ref sizedarrays) of a generic objects with member named MEMBER to search.
* @param[in] MEMBER Name of the member of the objects in the ARRAY to compare.
* @param[in] STMT Name of the compared YANG statements for logging.
* @param[in] IDENT String trying to find in the ARRAY's objects inside the MEMBER member.
*/
#define CHECK_UNIQUENESS(CTX, ARRAY, MEMBER, STMT, IDENT) \
if (ARRAY) { \
for (unsigned int u = 0; u < LY_ARRAY_SIZE(ARRAY) - 1; ++u) { \
if (!strcmp((ARRAY)[u].MEMBER, IDENT)) { \
LOGVAL_YANG(CTX, LY_VCODE_DUPIDENT, IDENT, STMT); \
return LY_EVALID; \
} \
} \
}
/**
* @brief Insert WORD into the libyang context's dictionary and store as TARGET.
* @param[in] CTX yang parser context to access libyang context.
* @param[in] BUF buffer in case the word is not a constant and can be inserted directly (zero-copy)
* @param[out] TARGET variable where to store the pointer to the inserted value.
* @param[in] WORD string to store.
* @param[in] LEN length of the string in WORD to store.
*/
#define INSERT_WORD(CTX, BUF, TARGET, WORD, LEN) \
if (BUF) {(TARGET) = lydict_insert_zc((CTX)->ctx, WORD);}\
else {(TARGET) = lydict_insert((CTX)->ctx, LEN ? WORD : "", LEN);}
/**
* @brief Move the DATA pointer by COUNT items. Also updates the indent value in yang parser context
* @param[in] CTX yang parser context to update its indent value.
* @param[in,out] DATA pointer to move
* @param[in] COUNT number of items for which the DATA pointer is supposed to move on.
*/
#define MOVE_INPUT(CTX, DATA, COUNT) (*(DATA))+=COUNT;(CTX)->indent+=COUNT
/**
* @brief Loop through all substatements providing, return if there are none.
*
* @param[in] CTX yang parser context for logging.
* @param[in] DATA Raw data to read from.
* @param[out] KW YANG keyword read.
* @param[out] WORD Pointer to the keyword itself.
* @param[out] WORD_LEN Length of the keyword.
* @param[out] ERR Variable for error storing.
*
* @return In case there are no substatements or a fatal error encountered.
*/
#define YANG_READ_SUBSTMT_FOR(CTX, DATA, KW, WORD, WORD_LEN, ERR, CHECKGOTO) \
LY_CHECK_RET(get_keyword(CTX, DATA, &KW, &WORD, &WORD_LEN)); \
if (KW == YANG_SEMICOLON) { \
CHECKGOTO; \
return LY_SUCCESS; \
} \
if (KW != YANG_LEFT_BRACE) { \
LOGVAL_YANG(CTX, LYVE_SYNTAX_YANG, "Invalid keyword \"%s\", expected \";\" or \"{\".", ly_stmt2str(KW)); \
return LY_EVALID; \
} \
for (ERR = get_keyword(CTX, DATA, &KW, &WORD, &WORD_LEN); \
!ERR && (KW != YANG_RIGHT_BRACE); \
ERR = get_keyword(CTX, DATA, &KW, &WORD, &WORD_LEN))
/**
* @brief Check module version is at least 2 (YANG 1.1) because of the keyword presence.
* Logs error message and returns LY_EVALID in case of module in YANG version 1.0.
* @param[in] CTX yang parser context to get current module and for logging.
* @param[in] KW keyword allowed only in YANG version 1.1 (or later) - for logging.
* @param[in] PARENT parent statement where the KW is present - for logging.
*/
#define YANG_CHECK_STMTVER2_RET(CTX, KW, PARENT) \
if ((CTX)->mod_version < 2) {LOGVAL_YANG((CTX), LY_VCODE_INCHILDSTMT2, KW, PARENT); return LY_EVALID;}
#define YANG_CHECK_NONEMPTY(CTX, OBJECT, VALUE_LEN, STMT) \
if (!VALUE_LEN) { \
LOGWRN((CTX)->ctx, "Empty argument of %s statement does not make sense.", STMT); \
}
LY_ERR parse_container(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_uses(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_choice(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_case(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_list(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_grouping(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_grp **groupings);
static LY_ERR parse_finalize_reallocated(struct lys_parser_ctx *ctx, struct lysp_grp *groupings, struct lysp_augment *augments,
struct lysp_action *actions, struct lysp_notif *notifs);
/**
* @brief Add another character to dynamic buffer, a low-level function.
*
* Enlarge if needed. Updates \p input as well as \p buf_used.
*
* @param[in] ctx libyang context for logging.
* @param[in, out] input Input string to process.
* @param[in] len Number of bytes to get from the input string and copy into the buffer.
* @param[in,out] buf Buffer to use, can be moved by realloc().
* @param[in,out] buf_len Current size of the buffer.
* @param[in,out] buf_used Currently used characters of the buffer.
*
* @return LY_ERR values.
*/
LY_ERR
buf_add_char(struct ly_ctx *ctx, const char **input, size_t len, char **buf, size_t *buf_len, size_t *buf_used)
{
if (*buf_len <= (*buf_used) + len) {
*buf_len += 16;
*buf = ly_realloc(*buf, *buf_len);
LY_CHECK_ERR_RET(!*buf, LOGMEM(ctx), LY_EMEM);
}
if (*buf_used) {
memcpy(&(*buf)[*buf_used], *input, len);
} else {
memcpy(*buf, *input, len);
}
(*buf_used) += len;
(*input) += len;
return LY_SUCCESS;
}
/**
* @brief Check that \p c is valid UTF8 code point for YANG string.
*
* @param[in] ctx yang parser context for logging.
* @param[in] c UTF8 code point of a character to check.
* @return LY_ERR values.
*/
static LY_ERR
check_stringchar(struct lys_parser_ctx *ctx, unsigned int c)
{
if (!is_yangutf8char(c)) {
LOGVAL_YANG(ctx, LY_VCODE_INCHAR, c);
return LY_EVALID;
}
return LY_SUCCESS;
}
/**
* @brief Check that \p c is valid UTF8 code point for YANG identifier.
*
* @param[in] ctx yang parser context for logging.
* @param[in] c UTF8 code point of a character to check.
* @param[in] first Flag to check the first character of an identifier, which is more restricted.
* @param[in,out] prefix Storage for internally used flag in case of possible prefixed identifiers:
* 0 - colon not yet found (no prefix)
* 1 - \p c is the colon character
* 2 - prefix already processed, now processing the identifier
*
* If the identifier cannot be prefixed, NULL is expected.
* @return LY_ERR values.
*/
LY_ERR
check_identifierchar(struct lys_parser_ctx *ctx, unsigned int c, int first, int *prefix)
{
if (first || (prefix && (*prefix) == 1)) {
if (!is_yangidentstartchar(c)) {
LOGVAL_YANG(ctx, LYVE_SYNTAX_YANG, "Invalid identifier first character '%c'.", c);
return LY_EVALID;
}
if (prefix) {
if (first) {
(*prefix) = 0;
} else {
(*prefix) = 2;
}
}
} else if (c == ':' && prefix && (*prefix) == 0) {
(*prefix) = 1;
} else if (!is_yangidentchar(c)) {
LOGVAL_YANG(ctx, LYVE_SYNTAX_YANG, "Invalid identifier character '%c'.", c);
return LY_EVALID;
}
return LY_SUCCESS;
}
/**
* @brief Store a single UTF8 character. It depends whether in a dynamically-allocated buffer or just as a pointer to the data.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] input Pointer to the string where to get the character to store. Automatically moved to the next character
* when function returns.
* @param[in] arg Type of the input string to select method of checking character validity.
* @param[in,out] word_p Word pointer. If buffer (\p word_b) was not yet needed, it is just a pointer to the first
* stored character. If buffer was needed (\p word_b is non-NULL or \p need_buf is set), it is pointing to the buffer.
* @param[in,out] word_len Current length of the word pointed to by \p word_p.
* @param[in,out] word_b Word buffer. Is kept NULL as long as it is not requested (word is a substring of the data).
* @param[in,out] buf_len Current length of \p word_b.
* @param[in] need_buf Flag if the dynamically allocated buffer is required.
*
* @return LY_ERR values.
*/
LY_ERR
buf_store_char(struct lys_parser_ctx *ctx, const char **input, enum yang_arg arg,
char **word_p, size_t *word_len, char **word_b, size_t *buf_len, int need_buf)
{
int prefix = 0;
unsigned int c;
size_t len;
/* check valid combination of input paremeters - if need_buf specified, word_b must be provided */
assert(!need_buf || (need_buf && word_b));
/* get UTF8 code point (and number of bytes coding the character) */
LY_CHECK_ERR_RET(ly_getutf8(input, &c, &len),
LOGVAL_YANG(ctx, LY_VCODE_INCHAR, (*input)[-len]), LY_EVALID);
(*input) -= len;
if (c == '\n') {
ctx->indent = 0;
} else {
/* note - even the multibyte character is count as 1 */
++ctx->indent;
}
/* check character validity */
switch (arg) {
case Y_IDENTIF_ARG:
LY_CHECK_RET(check_identifierchar(ctx, c, !(*word_len), NULL));
break;
case Y_PREF_IDENTIF_ARG:
LY_CHECK_RET(check_identifierchar(ctx, c, !(*word_len), &prefix));
break;
case Y_STR_ARG:
case Y_MAYBE_STR_ARG:
LY_CHECK_RET(check_stringchar(ctx, c));
break;
}
if (word_b && *word_b) {
/* add another character into buffer */
if (buf_add_char(ctx->ctx, input, len, word_b, buf_len, word_len)) {
return LY_EMEM;
}
/* in case of realloc */
*word_p = *word_b;
} else if (word_b && need_buf) {
/* first time we need a buffer, copy everything read up to now */
if (*word_len) {
*word_b = malloc(*word_len);
LY_CHECK_ERR_RET(!*word_b, LOGMEM(ctx->ctx), LY_EMEM);
*buf_len = *word_len;
memcpy(*word_b, *word_p, *word_len);
}
/* add this new character into buffer */
if (buf_add_char(ctx->ctx, input, len, word_b, buf_len, word_len)) {
return LY_EMEM;
}
/* in case of realloc */
*word_p = *word_b;
} else {
/* just remember the first character pointer */
if (!*word_p) {
*word_p = (char *)(*input);
}
/* ... and update the word's length */
(*word_len) += len;
(*input) += len;
}
return LY_SUCCESS;
}
/**
* @brief Skip YANG comment in data.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, automatically moved after the comment.
* @param[in] comment Type of the comment to process:
* 1 for a one-line comment,
* 2 for a block comment.
*
* @return LY_ERR values.
*/
LY_ERR
skip_comment(struct lys_parser_ctx *ctx, const char **data, int comment)
{
/* internal statuses: 0 - comment ended,
* 1 - in line comment,
* 2 - in block comment,
* 3 - in block comment with last read character '*'
*/
while (**data && comment) {
switch (comment) {
case 1:
if (**data == '\n') {
comment = 0;
++ctx->line;
}
break;
case 2:
if (**data == '*') {
comment = 3;
} else if (**data == '\n') {
++ctx->line;
}
break;
case 3:
if (**data == '/') {
comment = 0;
} else if (**data != '*') {
if (**data == '\n') {
++ctx->line;
}
comment = 2;
}
break;
default:
LOGINT_RET(ctx->ctx);
}
if (**data == '\n') {
ctx->indent = 0;
} else {
++ctx->indent;
}
++(*data);
}
if (!**data && (comment > 1)) {
LOGVAL_YANG(ctx, LYVE_SYNTAX, "Unexpected end-of-input, non-terminated comment.");
return LY_EVALID;
}
return LY_SUCCESS;
}
/**
* @brief Read a quoted string from data.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] arg Type of YANG keyword argument expected.
* @param[out] word_p Pointer to the read quoted string.
* @param[out] word_b Pointer to a dynamically-allocated buffer holding the read quoted string. If not needed,
* set to NULL. Otherwise equal to \p word_p.
* @param[out] word_len Length of the read quoted string.
* @param[out] buf_len Length of the dynamically-allocated buffer \p word_b.
* @param[in] indent Current indent (number of YANG spaces). Needed for correct multi-line string
* indenation in the final quoted string.
*
* @return LY_ERR values.
*/
static LY_ERR
read_qstring(struct lys_parser_ctx *ctx, const char **data, enum yang_arg arg, char **word_p, char **word_b, size_t *word_len,
size_t *buf_len)
{
/* string: 0 - string ended, 1 - string with ', 2 - string with ", 3 - string with " with last character \,
* 4 - string finished, now skipping whitespaces looking for +,
* 5 - string continues after +, skipping whitespaces */
unsigned int string, block_indent = 0, current_indent = 0, need_buf = 0;
const char *c;
if (**data == '\"') {
string = 2;
current_indent = block_indent = ctx->indent + 1;
} else {
assert(**data == '\'');
string = 1;
}
MOVE_INPUT(ctx, data, 1);
while (**data && string) {
switch (string) {
case 1:
switch (**data) {
case '\'':
/* string may be finished, but check for + */
string = 4;
MOVE_INPUT(ctx, data, 1);
break;
default:
/* check and store character */
LY_CHECK_RET(buf_store_char(ctx, data, arg, word_p, word_len, word_b, buf_len, need_buf));
break;
}
break;
case 2:
switch (**data) {
case '\"':
/* string may be finished, but check for + */
string = 4;
MOVE_INPUT(ctx, data, 1);
break;
case '\\':
/* special character following */
string = 3;
++(*data);
break;
case ' ':
if (current_indent < block_indent) {
++current_indent;
MOVE_INPUT(ctx, data, 1);
} else {
/* check and store character */
LY_CHECK_RET(buf_store_char(ctx, data, arg, word_p, word_len, word_b, buf_len, need_buf));
}
break;
case '\t':
if (current_indent < block_indent) {
assert(need_buf);
current_indent += 8;
ctx->indent += 8;
for (; current_indent > block_indent; --current_indent, --ctx->indent) {
/* store leftover spaces from the tab */
c = " ";
LY_CHECK_RET(buf_store_char(ctx, &c, arg, word_p, word_len, word_b, buf_len, need_buf));
}
++(*data);
} else {
/* check and store character */
LY_CHECK_RET(buf_store_char(ctx, data, arg, word_p, word_len, word_b, buf_len, need_buf));
/* additional characters for indentation - only 1 was count in buf_store_char */
ctx->indent += 7;
}
break;
case '\n':
if (block_indent) {
/* we will be removing the indents so we need our own buffer */
need_buf = 1;
/* remove trailing tabs and spaces */
while ((*word_len) && ((*word_p)[(*word_len) - 1] == '\t' || (*word_p)[(*word_len) - 1] == ' ')) {
--(*word_len);
}
/* start indentation */
current_indent = 0;
}
/* check and store character */
LY_CHECK_RET(buf_store_char(ctx, data, arg, word_p, word_len, word_b, buf_len, need_buf));
/* maintain line number */
++ctx->line;
/* reset context indentation counter for possible string after this one */
ctx->indent = 0;
break;
default:
/* first non-whitespace character, stop eating indentation */
current_indent = block_indent;
/* check and store character */
LY_CHECK_RET(buf_store_char(ctx, data, arg, word_p, word_len, word_b, buf_len, need_buf));
break;
}
break;
case 3:
/* string encoded characters */
switch (**data) {
case 'n':
c = "\n";
break;
case 't':
c = "\t";
break;
case '\"':
c = *data;
break;
case '\\':
c = *data;
break;
default:
LOGVAL_YANG(ctx, LYVE_SYNTAX_YANG, "Double-quoted string unknown special character '\\%c'.", **data);
return LY_EVALID;
}
/* check and store character */
LY_CHECK_RET(buf_store_char(ctx, &c, arg, word_p, word_len, word_b, buf_len, need_buf));
string = 2;
++(*data);
break;
case 4:
switch (**data) {
case '+':
/* string continues */
string = 5;
need_buf = 1;
break;
case '\n':
++ctx->line;
/* fallthrough */
case ' ':
case '\t':
/* just skip */
break;
default:
/* string is finished */
goto string_end;
}
MOVE_INPUT(ctx, data, 1);
break;
case 5:
switch (**data) {
case '\n':
++ctx->line;
/* fallthrough */
case ' ':
case '\t':
/* skip */
break;
case '\'':
string = 1;
break;
case '\"':
string = 2;
break;
default:
/* it must be quoted again */
LOGVAL_YANG(ctx, LYVE_SYNTAX_YANG, "Both string parts divided by '+' must be quoted.");
return LY_EVALID;
}
MOVE_INPUT(ctx, data, 1);
break;
default:
return LY_EINT;
}
}
string_end:
if (arg <= Y_PREF_IDENTIF_ARG && !(*word_len)) {
/* empty identifier */
LOGVAL_YANG(ctx, LYVE_SYNTAX_YANG, "Statement argument is required.");
return LY_EVALID;
}
return LY_SUCCESS;
}
/**
* @brief Get another YANG string from the raw data.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] arg Type of YANG keyword argument expected.
* @param[out] flags optional output argument to get flag of the argument's quoting (LYS_*QOUTED - see [schema node flags](@ref snodeflags))
* @param[out] word_p Pointer to the read string. Can return NULL if \p arg is #Y_MAYBE_STR_ARG.
* @param[out] word_b Pointer to a dynamically-allocated buffer holding the read string. If not needed,
* set to NULL. Otherwise equal to \p word_p.
* @param[out] word_len Length of the read string.
*
* @return LY_ERR values.
*/
LY_ERR
get_argument(struct lys_parser_ctx *ctx, const char **data, enum yang_arg arg,
uint16_t *flags, char **word_p, char **word_b, size_t *word_len)
{
size_t buf_len = 0;
/* word buffer - dynamically allocated */
*word_b = NULL;
/* word pointer - just a pointer to data */
*word_p = NULL;
*word_len = 0;
while (**data) {
switch (**data) {
case '\'':
case '\"':
if (*word_len) {
/* invalid - quotes cannot be in unquoted string and only optsep, ; or { can follow it */
LOGVAL_YANG(ctx, LY_VCODE_INSTREXP, 1, *data,
"unquoted string character, optsep, semicolon or opening brace");
return LY_EVALID;
}
if (flags) {
(*flags) |= (**data) == '\'' ? LYS_SINGLEQUOTED : LYS_DOUBLEQUOTED;
}
LY_CHECK_RET(read_qstring(ctx, data, arg, word_p, word_b, word_len, &buf_len));
goto str_end;
case '/':
if ((*data)[1] == '/') {
/* one-line comment */
MOVE_INPUT(ctx, data, 2);
LY_CHECK_RET(skip_comment(ctx, data, 1));
} else if ((*data)[1] == '*') {
/* block comment */
MOVE_INPUT(ctx, data, 2);
LY_CHECK_RET(skip_comment(ctx, data, 2));
} else {
/* not a comment after all */
LY_CHECK_RET(buf_store_char(ctx, data, arg, word_p, word_len, word_b, &buf_len, 0));
}
break;
case ' ':
if (*word_len) {
/* word is finished */
goto str_end;
}
MOVE_INPUT(ctx, data, 1);
break;
case '\t':
if (*word_len) {
/* word is finished */
goto str_end;
}
/* tabs count for 8 spaces */
ctx->indent += 8;
++(*data);
break;
case '\n':
if (*word_len) {
/* word is finished */
goto str_end;
}
/* reset indent */
ctx->indent = 0;
/* track line numbers */
++ctx->line;
++(*data);
break;
case ';':
case '{':
if (*word_len || (arg == Y_MAYBE_STR_ARG)) {
/* word is finished */
goto str_end;
}
LOGVAL_YANG(ctx, LY_VCODE_INSTREXP, 1, *data, "an argument");
return LY_EVALID;
case '}':
/* invalid - braces cannot be in unquoted string (opening braces terminates the string and can follow it) */
LOGVAL_YANG(ctx, LY_VCODE_INSTREXP, 1, *data,
"unquoted string character, optsep, semicolon or opening brace");
return LY_EVALID;
default:
LY_CHECK_RET(buf_store_char(ctx, data, arg, word_p, word_len, word_b, &buf_len, 0));
break;
}
}
/* unexpected end of loop */
LOGVAL_YANG(ctx, LY_VCODE_EOF);
return LY_EVALID;
str_end:
/* terminating NULL byte for buf */
if (*word_b) {
(*word_b) = ly_realloc(*word_b, (*word_len) + 1);
LY_CHECK_ERR_RET(!(*word_b), LOGMEM(ctx->ctx), LY_EMEM);
(*word_b)[*word_len] = '\0';
*word_p = *word_b;
}
return LY_SUCCESS;
}
/**
* @brief Get another YANG keyword from the raw data.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[out] kw YANG keyword read.
* @param[out] word_p Pointer to the keyword in the data. Useful for extension instances.
* @param[out] word_len Length of the keyword in the data. Useful for extension instances.
*
* @return LY_ERR values.
*/
LY_ERR
get_keyword(struct lys_parser_ctx *ctx, const char **data, enum yang_keyword *kw, char **word_p, size_t *word_len)
{
int prefix;
const char *word_start;
unsigned int c;
size_t len;
if (word_p) {
*word_p = NULL;
*word_len = 0;
}
/* first skip "optsep", comments */
while (**data) {
switch (**data) {
case '/':
if ((*data)[1] == '/') {
/* one-line comment */
MOVE_INPUT(ctx, data, 2);
LY_CHECK_RET(skip_comment(ctx, data, 1));
} else if ((*data)[1] == '*') {
/* block comment */
MOVE_INPUT(ctx, data, 2);
LY_CHECK_RET(skip_comment(ctx, data, 2));
} else {
/* error - not a comment after all, keyword cannot start with slash */
LOGVAL_YANG(ctx, LYVE_SYNTAX_YANG, "Invalid identifier first character '/'.");
return LY_EVALID;
}
continue;
case '\n':
/* skip whitespaces (optsep) */
++ctx->line;
ctx->indent = 0;
break;
case ' ':
/* skip whitespaces (optsep) */
++ctx->indent;
break;
case '\t':
/* skip whitespaces (optsep) */
ctx->indent += 8;
break;
default:
/* either a keyword start or an invalid character */
goto keyword_start;
}
++(*data);
}
keyword_start:
word_start = *data;
*kw = match_kw(ctx, data);
if (*kw == YANG_SEMICOLON || *kw == YANG_LEFT_BRACE || *kw == YANG_RIGHT_BRACE) {
goto success;
}
if (*kw != YANG_NONE) {
/* make sure we have the whole keyword */
switch (**data) {
case '\n':
case '\t':
case ' ':
/* mandatory "sep" is just checked, not eaten so nothing in the context is updated */
break;
case ':':
/* keyword is not actually a keyword, but prefix of an extension.
* To avoid repeated check of the prefix syntax, move to the point where the colon was read
* and we will be checking the keyword (extension instance) itself */
prefix = 1;
MOVE_INPUT(ctx, data, 1);
goto extension;
case '{':
/* allowed only for input and output statements which can be without arguments */
if (*kw == YANG_INPUT || *kw == YANG_OUTPUT) {
break;
}
/* fallthrough */
default:
MOVE_INPUT(ctx, data, 1);
LOGVAL_YANG(ctx, LY_VCODE_INSTREXP, (int)(*data - word_start), word_start,
"a keyword followed by a separator");
return LY_EVALID;
}
} else {
/* still can be an extension */
prefix = 0;
extension:
while (**data && (**data != ' ') && (**data != '\t') && (**data != '\n') && (**data != '{') && (**data != ';')) {
LY_CHECK_ERR_RET(ly_getutf8(data, &c, &len),
LOGVAL_YANG(ctx, LY_VCODE_INCHAR, (*data)[-len]), LY_EVALID);
++ctx->indent;
/* check character validity */
LY_CHECK_RET(check_identifierchar(ctx, c, *data - len == word_start ? 1 : 0, &prefix));
}
if (!**data) {
LOGVAL_YANG(ctx, LY_VCODE_EOF);
return LY_EVALID;
}
/* prefix is mandatory for extension instances */
if (prefix != 2) {
LOGVAL_YANG(ctx, LY_VCODE_INSTREXP, (int)(*data - word_start), word_start, "a keyword");
return LY_EVALID;
}
*kw = YANG_CUSTOM;
}
success:
if (word_p) {
*word_p = (char *)word_start;
*word_len = *data - word_start;
}
return LY_SUCCESS;
}
/**
* @brief Parse extension instance substatements.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] word Extension instance substatement name (keyword).
* @param[in] word_len Extension instance substatement name length.
* @param[in,out] child Children of this extension instance to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_ext_substmt(struct lys_parser_ctx *ctx, const char **data, char *word, size_t word_len,
struct lysp_stmt **child)
{
char *buf;
LY_ERR ret = LY_SUCCESS;
enum yang_keyword kw;
struct lysp_stmt *stmt, *par_child;
stmt = calloc(1, sizeof *stmt);
LY_CHECK_ERR_RET(!stmt, LOGMEM(NULL), LY_EMEM);
/* insert into parent statements */
if (!*child) {
*child = stmt;
} else {
for (par_child = *child; par_child->next; par_child = par_child->next);
par_child->next = stmt;
}
stmt->stmt = lydict_insert(ctx->ctx, word, word_len);
/* get optional argument */
LY_CHECK_RET(get_argument(ctx, data, Y_MAYBE_STR_ARG, &stmt->flags, &word, &buf, &word_len));
if (word) {
if (buf) {
stmt->arg = lydict_insert_zc(ctx->ctx, word);
} else {
stmt->arg = lydict_insert(ctx->ctx, word, word_len);
}
}
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, ) {
LY_CHECK_RET(parse_ext_substmt(ctx, data, word, word_len, &stmt->child));
}
return ret;
}
/**
* @brief Parse extension instance.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] ext_name Extension instance substatement name (keyword).
* @param[in] ext_name_len Extension instance substatement name length.
* @param[in] insubstmt Type of the keyword 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
parse_ext(struct lys_parser_ctx *ctx, const char **data, const char *ext_name, int ext_name_len, LYEXT_SUBSTMT insubstmt,
uint32_t insubstmt_index, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
struct lysp_ext_instance *e;
enum yang_keyword kw;
LY_ARRAY_NEW_RET(ctx->ctx, *exts, e, LY_EMEM);
/* store name and insubstmt info */
e->name = lydict_insert(ctx->ctx, ext_name, ext_name_len);
e->insubstmt = insubstmt;
e->insubstmt_index = insubstmt_index;
/* get optional argument */
LY_CHECK_RET(get_argument(ctx, data, Y_MAYBE_STR_ARG, NULL, &word, &buf, &word_len));
if (word) {
INSERT_WORD(ctx, buf, e->argument, word, word_len);
}
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
LY_CHECK_RET(parse_ext_substmt(ctx, data, word, word_len, &e->child));
}
return ret;
}
/**
* @brief Parse a generic text field without specific constraints. Those are contact, organization,
* description, etc...
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] substmt Type of this substatement.
* @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
parse_text_field(struct lys_parser_ctx *ctx, const char **data, LYEXT_SUBSTMT substmt, uint32_t substmt_index,
const char **value, enum yang_arg arg, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
if (*value) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, lyext_substmt2str(substmt));
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, arg, NULL, &word, &buf, &word_len));
/* store value and spend buf if allocated */
INSERT_WORD(ctx, buf, *value, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, substmt, substmt_index, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), lyext_substmt2str(substmt));
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the yang-version statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[out] version Storage for the parsed information.
* @param[in, out] exts Extension instances to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_yangversion(struct lys_parser_ctx *ctx, const char **data, uint8_t *version, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
if (*version) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "yang-version");
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if ((word_len == 3) && !strncmp(word, "1.0", word_len)) {
*version = LYS_VERSION_1_0;
} else if ((word_len == 3) && !strncmp(word, "1.1", word_len)) {
*version = LYS_VERSION_1_1;
} else {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "yang-version");
free(buf);
return LY_EVALID;
}
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_VERSION, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "yang-version");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the belongs-to statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] belongsto Place to store the parsed value.
* @param[in,out] prefix Place to store the parsed belongs-to prefix value.
* @param[in,out] exts Extension instances to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_belongsto(struct lys_parser_ctx *ctx, const char **data, const char **belongsto, const char **prefix, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
if (*belongsto) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "belongs-to");
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, *belongsto, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_PREFIX:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_PREFIX, 0, prefix, Y_IDENTIF_ARG, exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_BELONGSTO, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "belongs-to");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* mandatory substatements */
if (!*prefix) {
LOGVAL_YANG(ctx, LY_VCODE_MISSTMT, "prefix", "belongs-to");
return LY_EVALID;
}
return ret;
}
/**
* @brief Parse the revision-date statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] rev Array to store the parsed value in.
* @param[in,out] exts Extension instances to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_revisiondate(struct lys_parser_ctx *ctx, const char **data, char *rev, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
if (rev[0]) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "revision-date");
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
/* check value */
if (lysp_check_date(ctx, word, word_len, "revision-date")) {
free(buf);
return LY_EVALID;
}
/* store value and spend buf if allocated */
strncpy(rev, word, word_len);
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_REVISIONDATE, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "revision-date");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the include statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in] module_name Name of the module to check name collisions.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] includes Parsed includes to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_include(struct lys_parser_ctx *ctx, const char *module_name, const char **data, struct lysp_include **includes)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_include *inc;
LY_ARRAY_NEW_RET(ctx->ctx, *includes, inc, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, inc->name, word, word_len);
/* submodules share the namespace with the module names, so there must not be
* a module of the same name in the context, no need for revision matching */
if (!strcmp(module_name, inc->name) || ly_ctx_get_module_latest(ctx->ctx, inc->name)) {
LOGVAL_YANG(ctx, LYVE_SYNTAX_YANG, "Name collision between module and submodule of name \"%s\".", inc->name);
return LY_EVALID;
}
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_DESCRIPTION:
YANG_CHECK_STMTVER2_RET(ctx, "description", "include");
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &inc->dsc, Y_STR_ARG, &inc->exts));
break;
case YANG_REFERENCE:
YANG_CHECK_STMTVER2_RET(ctx, "reference", "include");
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &inc->ref, Y_STR_ARG, &inc->exts));
break;
case YANG_REVISION_DATE:
LY_CHECK_RET(parse_revisiondate(ctx, data, inc->rev, &inc->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &inc->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "include");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the import statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in] module_prefix Prefix of the module to check prefix collisions.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] imports Parsed imports to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_import(struct lys_parser_ctx *ctx, const char *module_prefix, const char **data, struct lysp_import **imports)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_import *imp;
LY_ARRAY_NEW_RET(ctx->ctx, *imports, imp, LY_EVALID);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, imp->name, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_PREFIX:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_PREFIX, 0, &imp->prefix, Y_IDENTIF_ARG, &imp->exts));
LY_CHECK_RET(lysp_check_prefix(ctx, *imports, module_prefix, &imp->prefix), LY_EVALID);
break;
case YANG_DESCRIPTION:
YANG_CHECK_STMTVER2_RET(ctx, "description", "import");
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &imp->dsc, Y_STR_ARG, &imp->exts));
break;
case YANG_REFERENCE:
YANG_CHECK_STMTVER2_RET(ctx, "reference", "import");
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &imp->ref, Y_STR_ARG, &imp->exts));
break;
case YANG_REVISION_DATE:
LY_CHECK_RET(parse_revisiondate(ctx, data, imp->rev, &imp->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &imp->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "import");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* mandatory substatements */
LY_CHECK_ERR_RET(!imp->prefix, LOGVAL_YANG(ctx, LY_VCODE_MISSTMT, "prefix", "import"), LY_EVALID);
return ret;
}
/**
* @brief Parse the revision statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] revs Parsed revisions to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_revision(struct lys_parser_ctx *ctx, const char **data, struct lysp_revision **revs)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_revision *rev;
LY_ARRAY_NEW_RET(ctx->ctx, *revs, rev, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
/* check value */
if (lysp_check_date(ctx, word, word_len, "revision")) {
return LY_EVALID;
}
strncpy(rev->date, word, word_len);
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &rev->dsc, Y_STR_ARG, &rev->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &rev->ref, Y_STR_ARG, &rev->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &rev->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "revision");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse a generic text field that can have more instances such as base.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] substmt Type of this substatement.
* @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
parse_text_fields(struct lys_parser_ctx *ctx, const char **data, LYEXT_SUBSTMT substmt, const char ***texts, enum yang_arg arg,
struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
const char **item;
size_t word_len;
enum yang_keyword kw;
/* allocate new pointer */
LY_ARRAY_NEW_RET(ctx->ctx, *texts, item, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, arg, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, *item, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, substmt, LY_ARRAY_SIZE(*texts) - 1, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), lyext_substmt2str(substmt));
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the config statement.
*
* @param[in] ctx yang parser context for logging.
* @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
parse_config(struct lys_parser_ctx *ctx, const char **data, uint16_t *flags, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
if (*flags & LYS_CONFIG_MASK) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "config");
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if ((word_len == 4) && !strncmp(word, "true", word_len)) {
*flags |= LYS_CONFIG_W;
} else if ((word_len == 5) && !strncmp(word, "false", word_len)) {
*flags |= LYS_CONFIG_R;
} else {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "config");
free(buf);
return LY_EVALID;
}
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_CONFIG, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "config");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the mandatory statement.
*
* @param[in] ctx yang parser context for logging.
* @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
parse_mandatory(struct lys_parser_ctx *ctx, const char **data, uint16_t *flags, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
if (*flags & LYS_MAND_MASK) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "mandatory");
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if ((word_len == 4) && !strncmp(word, "true", word_len)) {
*flags |= LYS_MAND_TRUE;
} else if ((word_len == 5) && !strncmp(word, "false", word_len)) {
*flags |= LYS_MAND_FALSE;
} else {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "mandatory");
free(buf);
return LY_EVALID;
}
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_MANDATORY, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "mandatory");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse a restriction such as range or length.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] restr_kw Type of this particular restriction.
* @param[in,out] exts Extension instances to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_restr(struct lys_parser_ctx *ctx, const char **data, enum yang_keyword restr_kw, struct lysp_restr *restr)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
YANG_CHECK_NONEMPTY(ctx, NULL, word_len, ly_stmt2str(restr_kw));
INSERT_WORD(ctx, buf, restr->arg, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &restr->dsc, Y_STR_ARG, &restr->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &restr->ref, Y_STR_ARG, &restr->exts));
break;
case YANG_ERROR_APP_TAG:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_ERRTAG, 0, &restr->eapptag, Y_STR_ARG, &restr->exts));
break;
case YANG_ERROR_MESSAGE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_ERRMSG, 0, &restr->emsg, Y_STR_ARG, &restr->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &restr->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), ly_stmt2str(restr_kw));
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse a restriction that can have more instances such as must.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] restr_kw Type of this particular restriction.
* @param[in,out] restrs Restrictions to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_restrs(struct lys_parser_ctx *ctx, const char **data, enum yang_keyword restr_kw, struct lysp_restr **restrs)
{
struct lysp_restr *restr;
LY_ARRAY_NEW_RET(ctx->ctx, *restrs, restr, LY_EMEM);
return parse_restr(ctx, data, restr_kw, restr);
}
/**
* @brief Parse the status statement.
*
* @param[in] ctx yang parser context for logging.
* @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
parse_status(struct lys_parser_ctx *ctx, const char **data, uint16_t *flags, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
if (*flags & LYS_STATUS_MASK) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "status");
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if ((word_len == 7) && !strncmp(word, "current", word_len)) {
*flags |= LYS_STATUS_CURR;
} else if ((word_len == 10) && !strncmp(word, "deprecated", word_len)) {
*flags |= LYS_STATUS_DEPRC;
} else if ((word_len == 8) && !strncmp(word, "obsolete", word_len)) {
*flags |= LYS_STATUS_OBSLT;
} else {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "status");
free(buf);
return LY_EVALID;
}
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_STATUS, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "status");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the when statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] when_p When pointer to parse to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_when(struct lys_parser_ctx *ctx, const char **data, struct lysp_when **when_p)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_when *when;
if (*when_p) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "when");
return LY_EVALID;
}
when = calloc(1, sizeof *when);
LY_CHECK_ERR_RET(!when, LOGMEM(ctx->ctx), LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
YANG_CHECK_NONEMPTY(ctx, when, word_len, "when");
INSERT_WORD(ctx, buf, when->cond, word, word_len);
*when_p = when;
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &when->dsc, Y_STR_ARG, &when->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &when->ref, Y_STR_ARG, &when->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &when->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "when");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the anydata or anyxml statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] kw Type of this particular keyword.
* @param[in,out] siblings Siblings to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_any(struct lys_parser_ctx *ctx, const char **data, enum yang_keyword kw, struct lysp_node *parent, struct lysp_node **siblings)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
struct lysp_node *iter;
struct lysp_node_anydata *any;
/* create structure */
any = calloc(1, sizeof *any);
LY_CHECK_ERR_RET(!any, LOGMEM(ctx->ctx), LY_EMEM);
any->nodetype = kw == YANG_ANYDATA ? LYS_ANYDATA : LYS_ANYXML;
any->parent = parent;
/* insert into siblings */
if (!*siblings) {
*siblings = (struct lysp_node *)any;
} else {
for (iter = *siblings; iter->next; iter = iter->next);
iter->next = (struct lysp_node *)any;
}
/* get name */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, any->name, word, word_len);
/* parse substatements */
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CONFIG:
LY_CHECK_RET(parse_config(ctx, data, &any->flags, &any->exts));
break;
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &any->dsc, Y_STR_ARG, &any->exts));
break;
case YANG_IF_FEATURE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &any->iffeatures, Y_STR_ARG, &any->exts));
break;
case YANG_MANDATORY:
LY_CHECK_RET(parse_mandatory(ctx, data, &any->flags, &any->exts));
break;
case YANG_MUST:
LY_CHECK_RET(parse_restrs(ctx, data, kw, &any->musts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &any->ref, Y_STR_ARG, &any->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &any->flags, &any->exts));
break;
case YANG_WHEN:
LY_CHECK_RET(parse_when(ctx, data, &any->when));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &any->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw),
(any->nodetype & LYS_ANYDATA) == LYS_ANYDATA ? ly_stmt2str(YANG_ANYDATA) : ly_stmt2str(YANG_ANYXML));
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the value or position statement. Substatement of type enum statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] val_kw Type of this particular keyword.
* @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
parse_type_enum_value_pos(struct lys_parser_ctx *ctx, const char **data, enum yang_keyword val_kw, int64_t *value, uint16_t *flags,
struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word, *ptr;
size_t word_len;
long int num;
unsigned long int unum;
enum yang_keyword kw;
if (*flags & LYS_SET_VALUE) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, ly_stmt2str(val_kw));
return LY_EVALID;
}
*flags |= LYS_SET_VALUE;
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if (!word_len || (word[0] == '+') || ((word[0] == '0') && (word_len > 1)) || ((val_kw == YANG_VALUE) && !strncmp(word, "-0", 2))) {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, ly_stmt2str(val_kw));
goto error;
}
errno = 0;
if (val_kw == YANG_VALUE) {
num = strtol(word, &ptr, 10);
if (num < INT64_C(-2147483648) || num > INT64_C(2147483647)) {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, ly_stmt2str(val_kw));
goto error;
}
} else {
unum = strtoul(word, &ptr, 10);
if (unum > UINT64_C(4294967295)) {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, ly_stmt2str(val_kw));
goto error;
}
}
/* we have not parsed the whole argument */
if ((size_t)(ptr - word) != word_len) {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, ly_stmt2str(val_kw));
goto error;
}
if (errno == ERANGE) {
LOGVAL_YANG(ctx, LY_VCODE_OOB, word_len, word, ly_stmt2str(val_kw));
goto error;
}
if (val_kw == YANG_VALUE) {
*value = num;
} else {
*value = unum;
}
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, val_kw == YANG_VALUE ? LYEXT_SUBSTMT_VALUE : LYEXT_SUBSTMT_POSITION, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), ly_stmt2str(val_kw));
return LY_EVALID;
}
}
return ret;
error:
free(buf);
return LY_EVALID;
}
/**
* @brief Parse the enum or bit statement. Substatement of type statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] enum_kw Type of this particular keyword.
* @param[in,out] enums Enums or bits to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_type_enum(struct lys_parser_ctx *ctx, const char **data, enum yang_keyword enum_kw, struct lysp_type_enum **enums)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len, u;
enum yang_keyword kw;
struct lysp_type_enum *enm;
LY_ARRAY_NEW_RET(ctx->ctx, *enums, enm, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, enum_kw == YANG_ENUM ? Y_STR_ARG : Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
if (enum_kw == YANG_ENUM) {
if (!word_len) {
LOGVAL_YANG(ctx, LYVE_SYNTAX_YANG, "Enum name must not be zero-length.");
free(buf);
return LY_EVALID;
} else if (isspace(word[0]) || isspace(word[word_len - 1])) {
LOGVAL_YANG(ctx, LYVE_SYNTAX_YANG, "Enum name must not have any leading or trailing whitespaces (\"%.*s\").",
word_len, word);
free(buf);
return LY_EVALID;
} else {
for (u = 0; u < word_len; ++u) {
if (iscntrl(word[u])) {
LOGWRN(ctx->ctx, "Control characters in enum name should be avoided (\"%.*s\", character number %d).",
word_len, word, u + 1);
break;
}
}
}
} else { /* YANG_BIT */
}
if (enum_kw == YANG_ENUM) {
YANG_CHECK_NONEMPTY(ctx, NULL, word_len, "enum");
}
INSERT_WORD(ctx, buf, enm->name, word, word_len);
CHECK_UNIQUENESS(ctx, *enums, name, ly_stmt2str(enum_kw), enm->name);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &enm->dsc, Y_STR_ARG, &enm->exts));
break;
case YANG_IF_FEATURE:
YANG_CHECK_STMTVER2_RET(ctx, "if-feature", ly_stmt2str(enum_kw));
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &enm->iffeatures, Y_STR_ARG, &enm->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &enm->ref, Y_STR_ARG, &enm->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &enm->flags, &enm->exts));
break;
case YANG_VALUE:
case YANG_POSITION:
LY_CHECK_RET(parse_type_enum_value_pos(ctx, data, kw, &enm->value, &enm->flags, &enm->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &enm->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), ly_stmt2str(enum_kw));
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the fraction-digits statement. Substatement of type statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] fracdig Value to write to.
* @param[in,out] exts Extension instances to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_type_fracdigits(struct lys_parser_ctx *ctx, const char **data, uint8_t *fracdig, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word, *ptr;
size_t word_len;
unsigned long int num;
enum yang_keyword kw;
if (*fracdig) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "fraction-digits");
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if (!word_len || (word[0] == '0') || !isdigit(word[0])) {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "fraction-digits");
free(buf);
return LY_EVALID;
}
errno = 0;
num = strtoul(word, &ptr, 10);
/* we have not parsed the whole argument */
if ((size_t)(ptr - word) != word_len) {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "fraction-digits");
free(buf);
return LY_EVALID;
}
if ((errno == ERANGE) || (num > 18)) {
LOGVAL_YANG(ctx, LY_VCODE_OOB, word_len, word, "fraction-digits");
free(buf);
return LY_EVALID;
}
*fracdig = num;
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_FRACDIGITS, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "fraction-digits");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the require-instance statement. Substatement of type statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @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
parse_type_reqinstance(struct lys_parser_ctx *ctx, const char **data, uint8_t *reqinst, uint16_t *flags,
struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
if (*flags & LYS_SET_REQINST) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "require-instance");
return LY_EVALID;
}
*flags |= LYS_SET_REQINST;
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if ((word_len == 4) && !strncmp(word, "true", word_len)) {
*reqinst = 1;
} else if ((word_len != 5) || strncmp(word, "false", word_len)) {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "require-instance");
free(buf);
return LY_EVALID;
}
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_REQINSTANCE, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "require-instance");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the modifier statement. Substatement of type pattern statement.
*
* @param[in] ctx yang parser context for logging.
* @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
parse_type_pattern_modifier(struct lys_parser_ctx *ctx, const char **data, const char **pat, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
if ((*pat)[0] == 0x15) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "modifier");
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if ((word_len != 12) || strncmp(word, "invert-match", word_len)) {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "modifier");
free(buf);
return LY_EVALID;
}
free(buf);
/* replace the value in the dictionary */
buf = malloc(strlen(*pat) + 1);
LY_CHECK_ERR_RET(!buf, LOGMEM(ctx->ctx), LY_EMEM);
strcpy(buf, *pat);
lydict_remove(ctx->ctx, *pat);
assert(buf[0] == 0x06);
buf[0] = 0x15;
*pat = lydict_insert_zc(ctx->ctx, buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_MODIFIER, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "modifier");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the pattern statement. Substatement of type statement.
*
* @param[in] ctx yang parser context for logging.
* @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
parse_type_pattern(struct lys_parser_ctx *ctx, const char **data, struct lysp_restr **patterns)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_restr *restr;
LY_ARRAY_NEW_RET(ctx->ctx, *patterns, restr, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
/* add special meaning first byte */
if (buf) {
buf = realloc(buf, word_len + 2);
word = buf;
} else {
buf = malloc(word_len + 2);
}
LY_CHECK_ERR_RET(!buf, LOGMEM(ctx->ctx), LY_EMEM);
memmove(buf + 1, word, word_len);
buf[0] = 0x06; /* pattern's default regular-match flag */
buf[word_len + 1] = '\0'; /* terminating NULL byte */
restr->arg = lydict_insert_zc(ctx->ctx, buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &restr->dsc, Y_STR_ARG, &restr->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &restr->ref, Y_STR_ARG, &restr->exts));
break;
case YANG_ERROR_APP_TAG:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_ERRTAG, 0, &restr->eapptag, Y_STR_ARG, &restr->exts));
break;
case YANG_ERROR_MESSAGE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_ERRMSG, 0, &restr->emsg, Y_STR_ARG, &restr->exts));
break;
case YANG_MODIFIER:
YANG_CHECK_STMTVER2_RET(ctx, "modifier", "pattern");
LY_CHECK_RET(parse_type_pattern_modifier(ctx, data, &restr->arg, &restr->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &restr->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "pattern");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the type statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] type Type to wrote to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_type(struct lys_parser_ctx *ctx, const char **data, struct lysp_type *type)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_type *nest_type;
if (type->name) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "type");
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_PREF_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, type->name, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_BASE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_BASE, &type->bases, Y_PREF_IDENTIF_ARG, &type->exts));
type->flags |= LYS_SET_BASE;
break;
case YANG_BIT:
LY_CHECK_RET(parse_type_enum(ctx, data, kw, &type->bits));
type->flags |= LYS_SET_BIT;
break;
case YANG_ENUM:
LY_CHECK_RET(parse_type_enum(ctx, data, kw, &type->enums));
type->flags |= LYS_SET_ENUM;
break;
case YANG_FRACTION_DIGITS:
LY_CHECK_RET(parse_type_fracdigits(ctx, data, &type->fraction_digits, &type->exts));
type->flags |= LYS_SET_FRDIGITS;
break;
case YANG_LENGTH:
if (type->length) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, ly_stmt2str(kw));
return LY_EVALID;
}
type->length = calloc(1, sizeof *type->length);
LY_CHECK_ERR_RET(!type->length, LOGMEM(ctx->ctx), LY_EMEM);
LY_CHECK_RET(parse_restr(ctx, data, kw, type->length));
type->flags |= LYS_SET_LENGTH;
break;
case YANG_PATH:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_PATH, 0, &type->path, Y_STR_ARG, &type->exts));
type->flags |= LYS_SET_PATH;
break;
case YANG_PATTERN:
LY_CHECK_RET(parse_type_pattern(ctx, data, &type->patterns));
type->flags |= LYS_SET_PATTERN;
break;
case YANG_RANGE:
if (type->range) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, ly_stmt2str(kw));
return LY_EVALID;
}
type->range = calloc(1, sizeof *type->range);
LY_CHECK_ERR_RET(!type->range, LOGMEM(ctx->ctx), LY_EVALID);
LY_CHECK_RET(parse_restr(ctx, data, kw, type->range));
type->flags |= LYS_SET_RANGE;
break;
case YANG_REQUIRE_INSTANCE:
LY_CHECK_RET(parse_type_reqinstance(ctx, data, &type->require_instance, &type->flags, &type->exts));
/* LYS_SET_REQINST checked and set inside parse_type_reqinstance() */
break;
case YANG_TYPE:
LY_ARRAY_NEW_RET(ctx->ctx, type->types, nest_type, LY_EMEM);
LY_CHECK_RET(parse_type(ctx, data, nest_type));
type->flags |= LYS_SET_TYPE;
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &type->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "type");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the leaf statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] siblings Siblings to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_leaf(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_node **siblings)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_node *iter;
struct lysp_node_leaf *leaf;
/* create structure */
leaf = calloc(1, sizeof *leaf);
LY_CHECK_ERR_RET(!leaf, LOGMEM(ctx->ctx), LY_EMEM);
leaf->nodetype = LYS_LEAF;
leaf->parent = parent;
/* insert into siblings */
if (!*siblings) {
*siblings = (struct lysp_node *)leaf;
} else {
for (iter = *siblings; iter->next; iter = iter->next);
iter->next = (struct lysp_node *)leaf;
}
/* get name */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, leaf->name, word, word_len);
/* parse substatements */
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_CONFIG:
LY_CHECK_RET(parse_config(ctx, data, &leaf->flags, &leaf->exts));
break;
case YANG_DEFAULT:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DEFAULT, 0, &leaf->dflt, Y_STR_ARG, &leaf->exts));
break;
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &leaf->dsc, Y_STR_ARG, &leaf->exts));
break;
case YANG_IF_FEATURE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &leaf->iffeatures, Y_STR_ARG, &leaf->exts));
break;
case YANG_MANDATORY:
LY_CHECK_RET(parse_mandatory(ctx, data, &leaf->flags, &leaf->exts));
break;
case YANG_MUST:
LY_CHECK_RET(parse_restrs(ctx, data, kw, &leaf->musts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &leaf->ref, Y_STR_ARG, &leaf->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &leaf->flags, &leaf->exts));
break;
case YANG_TYPE:
LY_CHECK_RET(parse_type(ctx, data, &leaf->type));
break;
case YANG_UNITS:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_UNITS, 0, &leaf->units, Y_STR_ARG, &leaf->exts));
break;
case YANG_WHEN:
LY_CHECK_RET(parse_when(ctx, data, &leaf->when));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &leaf->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "leaf");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* mandatory substatements */
if (!leaf->type.name) {
LOGVAL_YANG(ctx, LY_VCODE_MISSTMT, "type", "leaf");
return LY_EVALID;
}
if ((leaf->flags & LYS_MAND_TRUE) && (leaf->dflt)) {
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMSCOMB, "mandatory", "default", "leaf");
return LY_EVALID;
}
return ret;
}
/**
* @brief Parse the max-elements statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @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.
*/
LY_ERR
parse_maxelements(struct lys_parser_ctx *ctx, const char **data, uint32_t *max, uint16_t *flags, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word, *ptr;
size_t word_len;
unsigned long int num;
enum yang_keyword kw;
if (*flags & LYS_SET_MAX) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "max-elements");
return LY_EVALID;
}
*flags |= LYS_SET_MAX;
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if (!word_len || (word[0] == '0') || ((word[0] != 'u') && !isdigit(word[0]))) {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "max-elements");
free(buf);
return LY_EVALID;
}
if (strncmp(word, "unbounded", word_len)) {
errno = 0;
num = strtoul(word, &ptr, 10);
/* we have not parsed the whole argument */
if ((size_t)(ptr - word) != word_len) {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "max-elements");
free(buf);
return LY_EVALID;
}
if ((errno == ERANGE) || (num > UINT32_MAX)) {
LOGVAL_YANG(ctx, LY_VCODE_OOB, word_len, word, "max-elements");
free(buf);
return LY_EVALID;
}
*max = num;
}
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_MAX, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "max-elements");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the min-elements statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @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.
*/
LY_ERR
parse_minelements(struct lys_parser_ctx *ctx, const char **data, uint32_t *min, uint16_t *flags, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word, *ptr;
size_t word_len;
unsigned long int num;
enum yang_keyword kw;
if (*flags & LYS_SET_MIN) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "min-elements");
return LY_EVALID;
}
*flags |= LYS_SET_MIN;
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if (!word_len || !isdigit(word[0]) || ((word[0] == '0') && (word_len > 1))) {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "min-elements");
free(buf);
return LY_EVALID;
}
errno = 0;
num = strtoul(word, &ptr, 10);
/* we have not parsed the whole argument */
if ((size_t)(ptr - word) != word_len) {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "min-elements");
free(buf);
return LY_EVALID;
}
if ((errno == ERANGE) || (num > UINT32_MAX)) {
LOGVAL_YANG(ctx, LY_VCODE_OOB, word_len, word, "min-elements");
free(buf);
return LY_EVALID;
}
*min = num;
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_MIN, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "min-elements");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the ordered-by statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] flags Flags to write to.
* @param[in,out] exts Extension instances to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_orderedby(struct lys_parser_ctx *ctx, const char **data, uint16_t *flags, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
if (*flags & LYS_ORDBY_MASK) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "ordered-by");
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if ((word_len == 6) && !strncmp(word, "system", word_len)) {
*flags |= LYS_ORDBY_SYSTEM;
} else if ((word_len == 4) && !strncmp(word, "user", word_len)) {
*flags |= LYS_ORDBY_USER;
} else {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "ordered-by");
free(buf);
return LY_EVALID;
}
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_ORDEREDBY, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "ordered-by");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the leaf-list statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] siblings Siblings to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_leaflist(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_node **siblings)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_node *iter;
struct lysp_node_leaflist *llist;
/* create structure */
llist = calloc(1, sizeof *llist);
LY_CHECK_ERR_RET(!llist, LOGMEM(ctx->ctx), LY_EMEM);
llist->nodetype = LYS_LEAFLIST;
llist->parent = parent;
/* insert into siblings */
if (!*siblings) {
*siblings = (struct lysp_node *)llist;
} else {
for (iter = *siblings; iter->next; iter = iter->next);
iter->next = (struct lysp_node *)llist;
}
/* get name */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, llist->name, word, word_len);
/* parse substatements */
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_CONFIG:
LY_CHECK_RET(parse_config(ctx, data, &llist->flags, &llist->exts));
break;
case YANG_DEFAULT:
YANG_CHECK_STMTVER2_RET(ctx, "default", "leaf-list");
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_DEFAULT, &llist->dflts, Y_STR_ARG, &llist->exts));
break;
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &llist->dsc, Y_STR_ARG, &llist->exts));
break;
case YANG_IF_FEATURE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &llist->iffeatures, Y_STR_ARG, &llist->exts));
break;
case YANG_MAX_ELEMENTS:
LY_CHECK_RET(parse_maxelements(ctx, data, &llist->max, &llist->flags, &llist->exts));
break;
case YANG_MIN_ELEMENTS:
LY_CHECK_RET(parse_minelements(ctx, data, &llist->min, &llist->flags, &llist->exts));
break;
case YANG_MUST:
LY_CHECK_RET(parse_restrs(ctx, data, kw, &llist->musts));
break;
case YANG_ORDERED_BY:
LY_CHECK_RET(parse_orderedby(ctx, data, &llist->flags, &llist->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &llist->ref, Y_STR_ARG, &llist->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &llist->flags, &llist->exts));
break;
case YANG_TYPE:
LY_CHECK_RET(parse_type(ctx, data, &llist->type));
break;
case YANG_UNITS:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_UNITS, 0, &llist->units, Y_STR_ARG, &llist->exts));
break;
case YANG_WHEN:
LY_CHECK_RET(parse_when(ctx, data, &llist->when));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &llist->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "llist");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* mandatory substatements */
if (!llist->type.name) {
LOGVAL_YANG(ctx, LY_VCODE_MISSTMT, "type", "leaf-list");
return LY_EVALID;
}
if ((llist->min) && (llist->dflts)) {
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMSCOMB, "min-elements", "default", "leaf-list");
return LY_EVALID;
}
if (llist->max && llist->min > llist->max) {
LOGVAL_YANG(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 ret;
}
/**
* @brief Parse the refine statement.
*
* @param[in] ctx yang parser context for logging.
* @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
parse_refine(struct lys_parser_ctx *ctx, const char **data, struct lysp_refine **refines)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_refine *rf;
LY_ARRAY_NEW_RET(ctx->ctx, *refines, rf, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
YANG_CHECK_NONEMPTY(ctx, NULL, word_len, "refine");
INSERT_WORD(ctx, buf, rf->nodeid, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CONFIG:
LY_CHECK_RET(parse_config(ctx, data, &rf->flags, &rf->exts));
break;
case YANG_DEFAULT:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_DEFAULT, &rf->dflts, Y_STR_ARG, &rf->exts));
break;
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &rf->dsc, Y_STR_ARG, &rf->exts));
break;
case YANG_IF_FEATURE:
YANG_CHECK_STMTVER2_RET(ctx, "if-feature", "refine");
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &rf->iffeatures, Y_STR_ARG, &rf->exts));
break;
case YANG_MAX_ELEMENTS:
LY_CHECK_RET(parse_maxelements(ctx, data, &rf->max, &rf->flags, &rf->exts));
break;
case YANG_MIN_ELEMENTS:
LY_CHECK_RET(parse_minelements(ctx, data, &rf->min, &rf->flags, &rf->exts));
break;
case YANG_MUST:
LY_CHECK_RET(parse_restrs(ctx, data, kw, &rf->musts));
break;
case YANG_MANDATORY:
LY_CHECK_RET(parse_mandatory(ctx, data, &rf->flags, &rf->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &rf->ref, Y_STR_ARG, &rf->exts));
break;
case YANG_PRESENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_PRESENCE, 0, &rf->presence, Y_STR_ARG, &rf->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &rf->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "refine");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the typedef statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] typedefs Typedefs to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_typedef(struct lys_parser_ctx *ctx, struct lysp_node *parent, const char **data, struct lysp_tpdf **typedefs)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_tpdf *tpdf;
LY_ARRAY_NEW_RET(ctx->ctx, *typedefs, tpdf, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, tpdf->name, word, word_len);
/* parse substatements */
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_DEFAULT:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DEFAULT, 0, &tpdf->dflt, Y_STR_ARG, &tpdf->exts));
break;
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &tpdf->dsc, Y_STR_ARG, &tpdf->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &tpdf->ref, Y_STR_ARG, &tpdf->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &tpdf->flags, &tpdf->exts));
break;
case YANG_TYPE:
LY_CHECK_RET(parse_type(ctx, data, &tpdf->type));
break;
case YANG_UNITS:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_UNITS, 0, &tpdf->units, Y_STR_ARG, &tpdf->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &tpdf->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "typedef");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* mandatory substatements */
if (!tpdf->type.name) {
LOGVAL_YANG(ctx, LY_VCODE_MISSTMT, "type", "typedef");
return LY_EVALID;
}
/* store data for collision check */
if (parent && !(parent->nodetype & (LYS_GROUPING | LYS_ACTION | LYS_INOUT | LYS_NOTIF))) {
ly_set_add(&ctx->tpdfs_nodes, parent, 0);
}
return ret;
}
/**
* @brief Parse the input or output statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in] kw Type of this particular keyword
* @param[in,out] inout_p Input/output pointer to write to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_inout(struct lys_parser_ctx *ctx, const char **data, enum yang_keyword inout_kw, struct lysp_node *parent, struct lysp_action_inout *inout_p)
{
LY_ERR ret = LY_SUCCESS;
char *word;
size_t word_len;
enum yang_keyword kw;
if (inout_p->nodetype) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, ly_stmt2str(inout_kw));
return LY_EVALID;
}
/* initiate structure */
inout_p->nodetype = &((struct lysp_action*)parent)->input == inout_p ? LYS_INPUT : LYS_OUTPUT;
inout_p->parent = parent;
/* parse substatements */
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_ANYDATA:
YANG_CHECK_STMTVER2_RET(ctx, "anydata", ly_stmt2str(inout_kw));
/* fall through */
case YANG_ANYXML:
LY_CHECK_RET(parse_any(ctx, data, kw, (struct lysp_node*)inout_p, &inout_p->data));
break;
case YANG_CHOICE:
LY_CHECK_RET(parse_choice(ctx, data, (struct lysp_node*)inout_p, &inout_p->data));
break;
case YANG_CONTAINER:
LY_CHECK_RET(parse_container(ctx, data, (struct lysp_node*)inout_p, &inout_p->data));
break;
case YANG_LEAF:
LY_CHECK_RET(parse_leaf(ctx, data, (struct lysp_node*)inout_p, &inout_p->data));
break;
case YANG_LEAF_LIST:
LY_CHECK_RET(parse_leaflist(ctx, data, (struct lysp_node*)inout_p, &inout_p->data));
break;
case YANG_LIST:
LY_CHECK_RET(parse_list(ctx, data, (struct lysp_node*)inout_p, &inout_p->data));
break;
case YANG_USES:
LY_CHECK_RET(parse_uses(ctx, data, (struct lysp_node*)inout_p, &inout_p->data));
break;
case YANG_TYPEDEF:
LY_CHECK_RET(parse_typedef(ctx, (struct lysp_node*)inout_p, data, &inout_p->typedefs));
break;
case YANG_MUST:
YANG_CHECK_STMTVER2_RET(ctx, "must", ly_stmt2str(inout_kw));
LY_CHECK_RET(parse_restrs(ctx, data, kw, &inout_p->musts));
break;
case YANG_GROUPING:
LY_CHECK_RET(parse_grouping(ctx, data, (struct lysp_node*)inout_p, &inout_p->groupings));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &inout_p->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), ly_stmt2str(inout_kw));
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* finalize parent pointers to the reallocated items */
LY_CHECK_RET(parse_finalize_reallocated(ctx, inout_p->groupings, NULL, NULL, NULL));
return ret;
}
/**
* @brief Parse the action statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] actions Actions to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_action(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_action **actions)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_action *act;
LY_ARRAY_NEW_RET(ctx->ctx, *actions, act, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, act->name, word, word_len);
act->nodetype = LYS_ACTION;
act->parent = parent;
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &act->dsc, Y_STR_ARG, &act->exts));
break;
case YANG_IF_FEATURE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &act->iffeatures, Y_STR_ARG, &act->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &act->ref, Y_STR_ARG, &act->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &act->flags, &act->exts));
break;
case YANG_INPUT:
LY_CHECK_RET(parse_inout(ctx, data, kw, (struct lysp_node*)act, &act->input));
break;
case YANG_OUTPUT:
LY_CHECK_RET(parse_inout(ctx, data, kw, (struct lysp_node*)act, &act->output));
break;
case YANG_TYPEDEF:
LY_CHECK_RET(parse_typedef(ctx, (struct lysp_node*)act, data, &act->typedefs));
break;
case YANG_GROUPING:
LY_CHECK_RET(parse_grouping(ctx, data, (struct lysp_node*)act, &act->groupings));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &act->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), parent ? "action" : "rpc");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* finalize parent pointers to the reallocated items */
LY_CHECK_RET(parse_finalize_reallocated(ctx, act->groupings, NULL, NULL, NULL));
return ret;
}
/**
* @brief Parse the notification statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] notifs Notifications to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_notif(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_notif **notifs)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_notif *notif;
LY_ARRAY_NEW_RET(ctx->ctx, *notifs, notif, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, notif->name, word, word_len);
notif->nodetype = LYS_NOTIF;
notif->parent = parent;
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &notif->dsc, Y_STR_ARG, &notif->exts));
break;
case YANG_IF_FEATURE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &notif->iffeatures, Y_STR_ARG, &notif->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &notif->ref, Y_STR_ARG, &notif->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &notif->flags, &notif->exts));
break;
case YANG_ANYDATA:
YANG_CHECK_STMTVER2_RET(ctx, "anydata", "notification");
/* fall through */
case YANG_ANYXML:
LY_CHECK_RET(parse_any(ctx, data, kw, (struct lysp_node*)notif, &notif->data));
break;
case YANG_CHOICE:
LY_CHECK_RET(parse_case(ctx, data, (struct lysp_node*)notif, &notif->data));
break;
case YANG_CONTAINER:
LY_CHECK_RET(parse_container(ctx, data, (struct lysp_node*)notif, &notif->data));
break;
case YANG_LEAF:
LY_CHECK_RET(parse_leaf(ctx, data, (struct lysp_node*)notif, &notif->data));
break;
case YANG_LEAF_LIST:
LY_CHECK_RET(parse_leaflist(ctx, data, (struct lysp_node*)notif, &notif->data));
break;
case YANG_LIST:
LY_CHECK_RET(parse_list(ctx, data, (struct lysp_node*)notif, &notif->data));
break;
case YANG_USES:
LY_CHECK_RET(parse_uses(ctx, data, (struct lysp_node*)notif, &notif->data));
break;
case YANG_MUST:
YANG_CHECK_STMTVER2_RET(ctx, "must", "notification");
LY_CHECK_RET(parse_restrs(ctx, data, kw, &notif->musts));
break;
case YANG_TYPEDEF:
LY_CHECK_RET(parse_typedef(ctx, (struct lysp_node*)notif, data, &notif->typedefs));
break;
case YANG_GROUPING:
LY_CHECK_RET(parse_grouping(ctx, data, (struct lysp_node*)notif, &notif->groupings));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &notif->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "notification");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* finalize parent pointers to the reallocated items */
LY_CHECK_RET(parse_finalize_reallocated(ctx, notif->groupings, NULL, NULL, NULL));
return ret;
}
/**
* @brief Parse the grouping statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] groupings Groupings to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_grouping(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_grp **groupings)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_grp *grp;
LY_ARRAY_NEW_RET(ctx->ctx, *groupings, grp, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, grp->name, word, word_len);
grp->nodetype = LYS_GROUPING;
grp->parent = parent;
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &grp->dsc, Y_STR_ARG, &grp->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &grp->ref, Y_STR_ARG, &grp->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &grp->flags, &grp->exts));
break;
case YANG_ANYDATA:
YANG_CHECK_STMTVER2_RET(ctx, "anydata", "grouping");
/* fall through */
case YANG_ANYXML:
LY_CHECK_RET(parse_any(ctx, data, kw, (struct lysp_node*)grp, &grp->data));
break;
case YANG_CHOICE:
LY_CHECK_RET(parse_choice(ctx, data, (struct lysp_node*)grp, &grp->data));
break;
case YANG_CONTAINER:
LY_CHECK_RET(parse_container(ctx, data, (struct lysp_node*)grp, &grp->data));
break;
case YANG_LEAF:
LY_CHECK_RET(parse_leaf(ctx, data, (struct lysp_node*)grp, &grp->data));
break;
case YANG_LEAF_LIST:
LY_CHECK_RET(parse_leaflist(ctx, data, (struct lysp_node*)grp, &grp->data));
break;
case YANG_LIST:
LY_CHECK_RET(parse_list(ctx, data, (struct lysp_node*)grp, &grp->data));
break;
case YANG_USES:
LY_CHECK_RET(parse_uses(ctx, data, (struct lysp_node*)grp, &grp->data));
break;
case YANG_TYPEDEF:
LY_CHECK_RET(parse_typedef(ctx, (struct lysp_node*)grp, data, &grp->typedefs));
break;
case YANG_ACTION:
YANG_CHECK_STMTVER2_RET(ctx, "action", "grouping");
LY_CHECK_RET(parse_action(ctx, data, (struct lysp_node*)grp, &grp->actions));
break;
case YANG_GROUPING:
LY_CHECK_RET(parse_grouping(ctx, data, (struct lysp_node*)grp, &grp->groupings));
break;
case YANG_NOTIFICATION:
YANG_CHECK_STMTVER2_RET(ctx, "notification", "grouping");
LY_CHECK_RET(parse_notif(ctx, data, (struct lysp_node*)grp, &grp->notifs));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &grp->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "grouping");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* finalize parent pointers to the reallocated items */
LY_CHECK_RET(parse_finalize_reallocated(ctx, grp->groupings, NULL, grp->actions, grp->notifs));
return ret;
}
/**
* @brief Parse the refine statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] augments Augments to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_augment(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_augment **augments)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_augment *aug;
LY_ARRAY_NEW_RET(ctx->ctx, *augments, aug, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
YANG_CHECK_NONEMPTY(ctx, NULL, word_len, "augment");
INSERT_WORD(ctx, buf, aug->nodeid, word, word_len);
aug->nodetype = LYS_AUGMENT;
aug->parent = parent;
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &aug->dsc, Y_STR_ARG, &aug->exts));
break;
case YANG_IF_FEATURE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &aug->iffeatures, Y_STR_ARG, &aug->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &aug->ref, Y_STR_ARG, &aug->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &aug->flags, &aug->exts));
break;
case YANG_WHEN:
LY_CHECK_RET(parse_when(ctx, data, &aug->when));
break;
case YANG_ANYDATA:
YANG_CHECK_STMTVER2_RET(ctx, "anydata", "augment");
/* fall through */
case YANG_ANYXML:
LY_CHECK_RET(parse_any(ctx, data, kw, (struct lysp_node*)aug, &aug->child));
break;
case YANG_CASE:
LY_CHECK_RET(parse_case(ctx, data, (struct lysp_node*)aug, &aug->child));
break;
case YANG_CHOICE:
LY_CHECK_RET(parse_choice(ctx, data, (struct lysp_node*)aug, &aug->child));
break;
case YANG_CONTAINER:
LY_CHECK_RET(parse_container(ctx, data, (struct lysp_node*)aug, &aug->child));
break;
case YANG_LEAF:
LY_CHECK_RET(parse_leaf(ctx, data, (struct lysp_node*)aug, &aug->child));
break;
case YANG_LEAF_LIST:
LY_CHECK_RET(parse_leaflist(ctx, data, (struct lysp_node*)aug, &aug->child));
break;
case YANG_LIST:
LY_CHECK_RET(parse_list(ctx, data, (struct lysp_node*)aug, &aug->child));
break;
case YANG_USES:
LY_CHECK_RET(parse_uses(ctx, data, (struct lysp_node*)aug, &aug->child));
break;
case YANG_ACTION:
YANG_CHECK_STMTVER2_RET(ctx, "action", "augment");
LY_CHECK_RET(parse_action(ctx, data, (struct lysp_node*)aug, &aug->actions));
break;
case YANG_NOTIFICATION:
YANG_CHECK_STMTVER2_RET(ctx, "notification", "augment");
LY_CHECK_RET(parse_notif(ctx, data, (struct lysp_node*)aug, &aug->notifs));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &aug->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "augment");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* finalize parent pointers to the reallocated items */
LY_CHECK_RET(parse_finalize_reallocated(ctx, NULL, NULL, aug->actions, aug->notifs));
return ret;
}
/**
* @brief Finalize some of the structures in case they are stored in sized array,
* which can be possibly reallocated and some other data may point to them.
*
* Update parent pointers in the nodes inside grouping/augment/RPC/Notification, which could be reallocated.
*
* @param[in] mod Parsed module to be updated.
* @return LY_ERR value (currently only LY_SUCCESS, but it can change in future).
*/
static LY_ERR
parse_finalize_reallocated(struct lys_parser_ctx *ctx, struct lysp_grp *groupings, struct lysp_augment *augments,
struct lysp_action *actions, struct lysp_notif *notifs)
{
unsigned int u, v;
struct lysp_node *child;
/* finalize parent pointers to the reallocated items */
/* gropings */
LY_ARRAY_FOR(groupings, u) {
LY_LIST_FOR(groupings[u].data, child) {
child->parent = (struct lysp_node*)&groupings[u];
}
LY_ARRAY_FOR(groupings[u].actions, v) {
groupings[u].actions[v].parent = (struct lysp_node*)&groupings[u];
}
LY_ARRAY_FOR(groupings[u].notifs, v) {
groupings[u].notifs[v].parent = (struct lysp_node*)&groupings[u];
}
LY_ARRAY_FOR(groupings[u].groupings, v) {
groupings[u].groupings[v].parent = (struct lysp_node*)&groupings[u];
}
if (groupings[u].typedefs) {
ly_set_add(&ctx->tpdfs_nodes, &groupings[u], 0);
}
}
/* augments */
LY_ARRAY_FOR(augments, u) {
LY_LIST_FOR(augments[u].child, child) {
child->parent = (struct lysp_node*)&augments[u];
}
LY_ARRAY_FOR(augments[u].actions, v) {
augments[u].actions[v].parent = (struct lysp_node*)&augments[u];
}
LY_ARRAY_FOR(augments[u].notifs, v) {
augments[u].notifs[v].parent = (struct lysp_node*)&augments[u];
}
}
/* actions */
LY_ARRAY_FOR(actions, u) {
if (actions[u].input.parent) {
actions[u].input.parent = (struct lysp_node*)&actions[u];
LY_LIST_FOR(actions[u].input.data, child) {
child->parent = (struct lysp_node*)&actions[u].input;
}
LY_ARRAY_FOR(actions[u].input.groupings, v) {
actions[u].input.groupings[v].parent = (struct lysp_node*)&actions[u].input;
}
if (actions[u].input.typedefs) {
ly_set_add(&ctx->tpdfs_nodes, &actions[u].input, 0);
}
}
if (actions[u].output.parent) {
actions[u].output.parent = (struct lysp_node*)&actions[u];
LY_LIST_FOR(actions[u].output.data, child) {
child->parent = (struct lysp_node*)&actions[u].output;
}
LY_ARRAY_FOR(actions[u].output.groupings, v) {
actions[u].output.groupings[v].parent = (struct lysp_node*)&actions[u].output;
}
if (actions[u].output.typedefs) {
ly_set_add(&ctx->tpdfs_nodes, &actions[u].output, 0);
}
}
LY_ARRAY_FOR(actions[u].groupings, v) {
actions[u].groupings[v].parent = (struct lysp_node*)&actions[u];
}
if (actions[u].typedefs) {
ly_set_add(&ctx->tpdfs_nodes, &actions[u], 0);
}
}
/* notifications */
LY_ARRAY_FOR(notifs, u) {
LY_LIST_FOR(notifs[u].data, child) {
child->parent = (struct lysp_node*)&notifs[u];
}
LY_ARRAY_FOR(notifs[u].groupings, v) {
notifs[u].groupings[v].parent = (struct lysp_node*)&notifs[u];
}
if (notifs[u].typedefs) {
ly_set_add(&ctx->tpdfs_nodes, &notifs[u], 0);
}
}
return LY_SUCCESS;
}
/**
* @brief Parse the uses statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] siblings Siblings to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_uses(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_node **siblings)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_node *iter;
struct lysp_node_uses *uses;
/* create structure */
uses = calloc(1, sizeof *uses);
LY_CHECK_ERR_RET(!uses, LOGMEM(ctx->ctx), LY_EMEM);
uses->nodetype = LYS_USES;
uses->parent = parent;
/* insert into siblings */
if (!*siblings) {
*siblings = (struct lysp_node *)uses;
} else {
for (iter = *siblings; iter->next; iter = iter->next);
iter->next = (struct lysp_node *)uses;
}
/* get name */
LY_CHECK_RET(get_argument(ctx, data, Y_PREF_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, uses->name, word, word_len);
/* parse substatements */
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &uses->dsc, Y_STR_ARG, &uses->exts));
break;
case YANG_IF_FEATURE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &uses->iffeatures, Y_STR_ARG, &uses->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &uses->ref, Y_STR_ARG, &uses->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &uses->flags, &uses->exts));
break;
case YANG_WHEN:
LY_CHECK_RET(parse_when(ctx, data, &uses->when));
break;
case YANG_REFINE:
LY_CHECK_RET(parse_refine(ctx, data, &uses->refines));
break;
case YANG_AUGMENT:
LY_CHECK_RET(parse_augment(ctx, data, (struct lysp_node*)uses, &uses->augments));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &uses->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "uses");
return LY_EVALID;
}
}
checks:
/* finalize parent pointers to the reallocated items */
LY_CHECK_RET(parse_finalize_reallocated(ctx, NULL, uses->augments, NULL, NULL));
return ret;
}
/**
* @brief Parse the case statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] siblings Siblings to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_case(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_node **siblings)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_node *iter;
struct lysp_node_case *cas;
/* create structure */
cas = calloc(1, sizeof *cas);
LY_CHECK_ERR_RET(!cas, LOGMEM(ctx->ctx), LY_EMEM);
cas->nodetype = LYS_CASE;
cas->parent = parent;
/* insert into siblings */
if (!*siblings) {
*siblings = (struct lysp_node *)cas;
} else {
for (iter = *siblings; iter->next; iter = iter->next);
iter->next = (struct lysp_node *)cas;
}
/* get name */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, cas->name, word, word_len);
/* parse substatements */
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &cas->dsc, Y_STR_ARG, &cas->exts));
break;
case YANG_IF_FEATURE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &cas->iffeatures, Y_STR_ARG, &cas->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &cas->ref, Y_STR_ARG, &cas->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &cas->flags, &cas->exts));
break;
case YANG_WHEN:
LY_CHECK_RET(parse_when(ctx, data, &cas->when));
break;
case YANG_ANYDATA:
YANG_CHECK_STMTVER2_RET(ctx, "anydata", "case");
/* fall through */
case YANG_ANYXML:
LY_CHECK_RET(parse_any(ctx, data, kw, (struct lysp_node*)cas, &cas->child));
break;
case YANG_CHOICE:
LY_CHECK_RET(parse_choice(ctx, data, (struct lysp_node*)cas, &cas->child));
break;
case YANG_CONTAINER:
LY_CHECK_RET(parse_container(ctx, data, (struct lysp_node*)cas, &cas->child));
break;
case YANG_LEAF:
LY_CHECK_RET(parse_leaf(ctx, data, (struct lysp_node*)cas, &cas->child));
break;
case YANG_LEAF_LIST:
LY_CHECK_RET(parse_leaflist(ctx, data, (struct lysp_node*)cas, &cas->child));
break;
case YANG_LIST:
LY_CHECK_RET(parse_list(ctx, data, (struct lysp_node*)cas, &cas->child));
break;
case YANG_USES:
LY_CHECK_RET(parse_uses(ctx, data, (struct lysp_node*)cas, &cas->child));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &cas->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "case");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the choice statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] siblings Siblings to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_choice(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_node **siblings)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_node *iter;
struct lysp_node_choice *choice;
/* create structure */
choice = calloc(1, sizeof *choice);
LY_CHECK_ERR_RET(!choice, LOGMEM(ctx->ctx), LY_EMEM);
choice->nodetype = LYS_CHOICE;
choice->parent = parent;
/* insert into siblings */
if (!*siblings) {
*siblings = (struct lysp_node *)choice;
} else {
for (iter = *siblings; iter->next; iter = iter->next);
iter->next = (struct lysp_node *)choice;
}
/* get name */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, choice->name, word, word_len);
/* parse substatements */
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_CONFIG:
LY_CHECK_RET(parse_config(ctx, data, &choice->flags, &choice->exts));
break;
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &choice->dsc, Y_STR_ARG, &choice->exts));
break;
case YANG_IF_FEATURE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &choice->iffeatures, Y_STR_ARG, &choice->exts));
break;
case YANG_MANDATORY:
LY_CHECK_RET(parse_mandatory(ctx, data, &choice->flags, &choice->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &choice->ref, Y_STR_ARG, &choice->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &choice->flags, &choice->exts));
break;
case YANG_WHEN:
LY_CHECK_RET(parse_when(ctx, data, &choice->when));
break;
case YANG_DEFAULT:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DEFAULT, 0, &choice->dflt, Y_PREF_IDENTIF_ARG, &choice->exts));
break;
case YANG_ANYDATA:
YANG_CHECK_STMTVER2_RET(ctx, "anydata", "choice");
/* fall through */
case YANG_ANYXML:
LY_CHECK_RET(parse_any(ctx, data, kw, (struct lysp_node*)choice, &choice->child));
break;
case YANG_CASE:
LY_CHECK_RET(parse_case(ctx, data, (struct lysp_node*)choice, &choice->child));
break;
case YANG_CHOICE:
YANG_CHECK_STMTVER2_RET(ctx, "choice", "choice");
LY_CHECK_RET(parse_choice(ctx, data, (struct lysp_node*)choice, &choice->child));
break;
case YANG_CONTAINER:
LY_CHECK_RET(parse_container(ctx, data, (struct lysp_node*)choice, &choice->child));
break;
case YANG_LEAF:
LY_CHECK_RET(parse_leaf(ctx, data, (struct lysp_node*)choice, &choice->child));
break;
case YANG_LEAF_LIST:
LY_CHECK_RET(parse_leaflist(ctx, data, (struct lysp_node*)choice, &choice->child));
break;
case YANG_LIST:
LY_CHECK_RET(parse_list(ctx, data, (struct lysp_node*)choice, &choice->child));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &choice->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "choice");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
if ((choice->flags & LYS_MAND_TRUE) && choice->dflt) {
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMSCOMB, "mandatory", "default", "choice");
return LY_EVALID;
}
return ret;
}
/**
* @brief Parse the container statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] siblings Siblings to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_container(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_node **siblings)
{
LY_ERR ret = 0;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_node *iter;
struct lysp_node_container *cont;
/* create structure */
cont = calloc(1, sizeof *cont);
LY_CHECK_ERR_RET(!cont, LOGMEM(ctx->ctx), LY_EMEM);
cont->nodetype = LYS_CONTAINER;
cont->parent = parent;
/* insert into siblings */
if (!*siblings) {
*siblings = (struct lysp_node *)cont;
} else {
for (iter = *siblings; iter->next; iter = iter->next);
iter->next = (struct lysp_node *)cont;
}
/* get name */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, cont->name, word, word_len);
/* parse substatements */
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_CONFIG:
LY_CHECK_RET(parse_config(ctx, data, &cont->flags, &cont->exts));
break;
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &cont->dsc, Y_STR_ARG, &cont->exts));
break;
case YANG_IF_FEATURE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &cont->iffeatures, Y_STR_ARG, &cont->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &cont->ref, Y_STR_ARG, &cont->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &cont->flags, &cont->exts));
break;
case YANG_WHEN:
LY_CHECK_RET(parse_when(ctx, data, &cont->when));
break;
case YANG_PRESENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_PRESENCE, 0, &cont->presence, Y_STR_ARG, &cont->exts));
break;
case YANG_ANYDATA:
YANG_CHECK_STMTVER2_RET(ctx, "anydata", "container");
/* fall through */
case YANG_ANYXML:
LY_CHECK_RET(parse_any(ctx, data, kw, (struct lysp_node*)cont, &cont->child));
break;
case YANG_CHOICE:
LY_CHECK_RET(parse_choice(ctx, data, (struct lysp_node*)cont, &cont->child));
break;
case YANG_CONTAINER:
LY_CHECK_RET(parse_container(ctx, data, (struct lysp_node*)cont, &cont->child));
break;
case YANG_LEAF:
LY_CHECK_RET(parse_leaf(ctx, data, (struct lysp_node*)cont, &cont->child));
break;
case YANG_LEAF_LIST:
LY_CHECK_RET(parse_leaflist(ctx, data, (struct lysp_node*)cont, &cont->child));
break;
case YANG_LIST:
LY_CHECK_RET(parse_list(ctx, data, (struct lysp_node*)cont, &cont->child));
break;
case YANG_USES:
LY_CHECK_RET(parse_uses(ctx, data, (struct lysp_node*)cont, &cont->child));
break;
case YANG_TYPEDEF:
LY_CHECK_RET(parse_typedef(ctx, (struct lysp_node*)cont, data, &cont->typedefs));
break;
case YANG_MUST:
LY_CHECK_RET(parse_restrs(ctx, data, kw, &cont->musts));
break;
case YANG_ACTION:
YANG_CHECK_STMTVER2_RET(ctx, "action", "container");
LY_CHECK_RET(parse_action(ctx, data, (struct lysp_node*)cont, &cont->actions));
break;
case YANG_GROUPING:
LY_CHECK_RET(parse_grouping(ctx, data, (struct lysp_node*)cont, &cont->groupings));
break;
case YANG_NOTIFICATION:
YANG_CHECK_STMTVER2_RET(ctx, "notification", "container");
LY_CHECK_RET(parse_notif(ctx, data, (struct lysp_node*)cont, &cont->notifs));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &cont->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "container");
return LY_EVALID;
}
}
checks:
/* finalize parent pointers to the reallocated items */
LY_CHECK_RET(parse_finalize_reallocated(ctx, cont->groupings, NULL, cont->actions, cont->notifs));
return ret;
}
/**
* @brief Parse the list statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] siblings Siblings to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_list(struct lys_parser_ctx *ctx, const char **data, struct lysp_node *parent, struct lysp_node **siblings)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_node *iter;
struct lysp_node_list *list;
/* create structure */
list = calloc(1, sizeof *list);
LY_CHECK_ERR_RET(!list, LOGMEM(ctx->ctx), LY_EMEM);
list->nodetype = LYS_LIST;
list->parent = parent;
/* insert into siblings */
if (!*siblings) {
*siblings = (struct lysp_node *)list;
} else {
for (iter = *siblings; iter->next; iter = iter->next);
iter->next = (struct lysp_node *)list;
}
/* get name */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, list->name, word, word_len);
/* parse substatements */
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_CONFIG:
LY_CHECK_RET(parse_config(ctx, data, &list->flags, &list->exts));
break;
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &list->dsc, Y_STR_ARG, &list->exts));
break;
case YANG_IF_FEATURE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &list->iffeatures, Y_STR_ARG, &list->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &list->ref, Y_STR_ARG, &list->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &list->flags, &list->exts));
break;
case YANG_WHEN:
LY_CHECK_RET(parse_when(ctx, data, &list->when));
break;
case YANG_KEY:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_KEY, 0, &list->key, Y_STR_ARG, &list->exts));
break;
case YANG_MAX_ELEMENTS:
LY_CHECK_RET(parse_maxelements(ctx, data, &list->max, &list->flags, &list->exts));
break;
case YANG_MIN_ELEMENTS:
LY_CHECK_RET(parse_minelements(ctx, data, &list->min, &list->flags, &list->exts));
break;
case YANG_ORDERED_BY:
LY_CHECK_RET(parse_orderedby(ctx, data, &list->flags, &list->exts));
break;
case YANG_UNIQUE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_UNIQUE, &list->uniques, Y_STR_ARG, &list->exts));
break;
case YANG_ANYDATA:
YANG_CHECK_STMTVER2_RET(ctx, "anydata", "list");
/* fall through */
case YANG_ANYXML:
LY_CHECK_RET(parse_any(ctx, data, kw, (struct lysp_node*)list, &list->child));
break;
case YANG_CHOICE:
LY_CHECK_RET(parse_choice(ctx, data, (struct lysp_node*)list, &list->child));
break;
case YANG_CONTAINER:
LY_CHECK_RET(parse_container(ctx, data, (struct lysp_node*)list, &list->child));
break;
case YANG_LEAF:
LY_CHECK_RET(parse_leaf(ctx, data, (struct lysp_node*)list, &list->child));
break;
case YANG_LEAF_LIST:
LY_CHECK_RET(parse_leaflist(ctx, data, (struct lysp_node*)list, &list->child));
break;
case YANG_LIST:
LY_CHECK_RET(parse_list(ctx, data, (struct lysp_node*)list, &list->child));
break;
case YANG_USES:
LY_CHECK_RET(parse_uses(ctx, data, (struct lysp_node*)list, &list->child));
break;
case YANG_TYPEDEF:
LY_CHECK_RET(parse_typedef(ctx, (struct lysp_node*)list, data, &list->typedefs));
break;
case YANG_MUST:
LY_CHECK_RET(parse_restrs(ctx, data, kw, &list->musts));
break;
case YANG_ACTION:
YANG_CHECK_STMTVER2_RET(ctx, "action", "list");
LY_CHECK_RET(parse_action(ctx, data, (struct lysp_node*)list, &list->actions));
break;
case YANG_GROUPING:
LY_CHECK_RET(parse_grouping(ctx, data, (struct lysp_node*)list, &list->groupings));
break;
case YANG_NOTIFICATION:
YANG_CHECK_STMTVER2_RET(ctx, "notification", "list");
LY_CHECK_RET(parse_notif(ctx, data, (struct lysp_node*)list, &list->notifs));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &list->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "list");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* finalize parent pointers to the reallocated items */
LY_CHECK_RET(parse_finalize_reallocated(ctx, list->groupings, NULL, list->actions, list->notifs));
if (list->max && list->min > list->max) {
LOGVAL_YANG(ctx, LYVE_SEMANTICS,
"Invalid combination of min-elements and max-elements: min value %u is bigger than the max value %u.",
list->min, list->max);
return LY_EVALID;
}
return ret;
}
/**
* @brief Parse the yin-element statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] flags Flags to write to.
* @param[in,out] exts Extension instances to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_yinelement(struct lys_parser_ctx *ctx, const char **data, uint16_t *flags, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
if (*flags & LYS_YINELEM_MASK) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "yin-element");
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if ((word_len == 4) && !strncmp(word, "true", word_len)) {
*flags |= LYS_YINELEM_TRUE;
} else if ((word_len == 5) && !strncmp(word, "false", word_len)) {
*flags |= LYS_YINELEM_FALSE;
} else {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "yin-element");
free(buf);
return LY_EVALID;
}
free(buf);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_YINELEM, 0, exts));
LY_CHECK_RET(ret); break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "yin-element");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the yin-element statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] argument 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
parse_argument(struct lys_parser_ctx *ctx, const char **data, const char **argument, uint16_t *flags, struct lysp_ext_instance **exts)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
if (*argument) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, "argument");
return LY_EVALID;
}
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, *argument, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_YIN_ELEMENT:
LY_CHECK_RET(parse_yinelement(ctx, data, flags, exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_ARGUMENT, 0, exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "argument");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the extension statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] extensions Extensions to add to.
*
* @return LY_ERR values.
*/
static LY_ERR
parse_extension(struct lys_parser_ctx *ctx, const char **data, struct lysp_ext **extensions)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_ext *ex;
LY_ARRAY_NEW_RET(ctx->ctx, *extensions, ex, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, ex->name, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &ex->dsc, Y_STR_ARG, &ex->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &ex->ref, Y_STR_ARG, &ex->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &ex->flags, &ex->exts));
break;
case YANG_ARGUMENT:
LY_CHECK_RET(parse_argument(ctx, data, &ex->argument, &ex->flags, &ex->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &ex->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "extension");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the deviate statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] deviates Deviates to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_deviate(struct lys_parser_ctx *ctx, const char **data, struct lysp_deviate **deviates)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len, dev_mod;
enum yang_keyword kw;
struct lysp_deviate *iter, *d;
struct lysp_deviate_add *d_add = NULL;
struct lysp_deviate_rpl *d_rpl = NULL;
struct lysp_deviate_del *d_del = NULL;
const char **d_units, ***d_uniques, ***d_dflts;
struct lysp_restr **d_musts;
uint16_t *d_flags;
uint32_t *d_min, *d_max;
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
if ((word_len == 13) && !strncmp(word, "not-supported", word_len)) {
dev_mod = LYS_DEV_NOT_SUPPORTED;
} else if ((word_len == 3) && !strncmp(word, "add", word_len)) {
dev_mod = LYS_DEV_ADD;
} else if ((word_len == 7) && !strncmp(word, "replace", word_len)) {
dev_mod = LYS_DEV_REPLACE;
} else if ((word_len == 6) && !strncmp(word, "delete", word_len)) {
dev_mod = LYS_DEV_DELETE;
} else {
LOGVAL_YANG(ctx, LY_VCODE_INVAL, word_len, word, "deviate");
free(buf);
return LY_EVALID;
}
free(buf);
/* create structure */
switch (dev_mod) {
case LYS_DEV_NOT_SUPPORTED:
d = calloc(1, sizeof *d);
LY_CHECK_ERR_RET(!d, LOGMEM(ctx->ctx), LY_EMEM);
break;
case LYS_DEV_ADD:
d_add = calloc(1, sizeof *d_add);
LY_CHECK_ERR_RET(!d_add, LOGMEM(ctx->ctx), LY_EMEM);
d = (struct lysp_deviate *)d_add;
d_units = &d_add->units;
d_uniques = &d_add->uniques;
d_dflts = &d_add->dflts;
d_musts = &d_add->musts;
d_flags = &d_add->flags;
d_min = &d_add->min;
d_max = &d_add->max;
break;
case LYS_DEV_REPLACE:
d_rpl = calloc(1, sizeof *d_rpl);
LY_CHECK_ERR_RET(!d_rpl, LOGMEM(ctx->ctx), LY_EMEM);
d = (struct lysp_deviate *)d_rpl;
d_units = &d_rpl->units;
d_flags = &d_rpl->flags;
d_min = &d_rpl->min;
d_max = &d_rpl->max;
break;
case LYS_DEV_DELETE:
d_del = calloc(1, sizeof *d_del);
LY_CHECK_ERR_RET(!d_del, LOGMEM(ctx->ctx), LY_EMEM);
d = (struct lysp_deviate *)d_del;
d_units = &d_del->units;
d_uniques = &d_del->uniques;
d_dflts = &d_del->dflts;
d_musts = &d_del->musts;
d_flags = &d_del->flags;
break;
default:
assert(0);
LOGINT_RET(ctx->ctx);
}
d->mod = dev_mod;
/* insert into siblings */
if (!*deviates) {
*deviates = d;
} else {
for (iter = *deviates; iter->next; iter = iter->next);
iter->next = d;
}
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_CONFIG:
switch (dev_mod) {
case LYS_DEV_NOT_SUPPORTED:
case LYS_DEV_DELETE:
LOGVAL_YANG(ctx, LY_VCODE_INDEV, ly_devmod2str(dev_mod), ly_stmt2str(kw));
return LY_EVALID;
default:
LY_CHECK_RET(parse_config(ctx, data, d_flags, &d->exts));
break;
}
break;
case YANG_DEFAULT:
switch (dev_mod) {
case LYS_DEV_NOT_SUPPORTED:
LOGVAL_YANG(ctx, LY_VCODE_INDEV, ly_devmod2str(dev_mod), ly_stmt2str(kw));
return LY_EVALID;
case LYS_DEV_REPLACE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DEFAULT, 0, &d_rpl->dflt, Y_STR_ARG, &d->exts));
break;
default:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_DEFAULT, d_dflts, Y_STR_ARG, &d->exts));
break;
}
break;
case YANG_MANDATORY:
switch (dev_mod) {
case LYS_DEV_NOT_SUPPORTED:
case LYS_DEV_DELETE:
LOGVAL_YANG(ctx, LY_VCODE_INDEV, ly_devmod2str(dev_mod), ly_stmt2str(kw));
return LY_EVALID;
default:
LY_CHECK_RET(parse_mandatory(ctx, data, d_flags, &d->exts));
break;
}
break;
case YANG_MAX_ELEMENTS:
switch (dev_mod) {
case LYS_DEV_NOT_SUPPORTED:
case LYS_DEV_DELETE:
LOGVAL_YANG(ctx, LY_VCODE_INDEV, ly_devmod2str(dev_mod), ly_stmt2str(kw));
return LY_EVALID;
default:
LY_CHECK_RET(parse_maxelements(ctx, data, d_max, d_flags, &d->exts));
break;
}
break;
case YANG_MIN_ELEMENTS:
switch (dev_mod) {
case LYS_DEV_NOT_SUPPORTED:
case LYS_DEV_DELETE:
LOGVAL_YANG(ctx, LY_VCODE_INDEV, ly_devmod2str(dev_mod), ly_stmt2str(kw));
return LY_EVALID;
default:
LY_CHECK_RET(parse_minelements(ctx, data, d_min, d_flags, &d->exts));
break;
}
break;
case YANG_MUST:
switch (dev_mod) {
case LYS_DEV_NOT_SUPPORTED:
case LYS_DEV_REPLACE:
LOGVAL_YANG(ctx, LY_VCODE_INDEV, ly_devmod2str(dev_mod), ly_stmt2str(kw));
return LY_EVALID;
default:
LY_CHECK_RET(parse_restrs(ctx, data, kw, d_musts));
break;
}
break;
case YANG_TYPE:
switch (dev_mod) {
case LYS_DEV_NOT_SUPPORTED:
case LYS_DEV_ADD:
case LYS_DEV_DELETE:
LOGVAL_YANG(ctx, LY_VCODE_INDEV, ly_devmod2str(dev_mod), ly_stmt2str(kw));
return LY_EVALID;
default:
if (d_rpl->type) {
LOGVAL_YANG(ctx, LY_VCODE_DUPSTMT, ly_stmt2str(kw));
return LY_EVALID;
}
d_rpl->type = calloc(1, sizeof *d_rpl->type);
LY_CHECK_ERR_RET(!d_rpl->type, LOGMEM(ctx->ctx), LY_EMEM);
LY_CHECK_RET(parse_type(ctx, data, d_rpl->type));
break;
}
break;
case YANG_UNIQUE:
switch (dev_mod) {
case LYS_DEV_NOT_SUPPORTED:
case LYS_DEV_REPLACE:
LOGVAL_YANG(ctx, LY_VCODE_INDEV, ly_devmod2str(dev_mod), ly_stmt2str(kw));
return LY_EVALID;
default:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_UNIQUE, d_uniques, Y_STR_ARG, &d->exts));
break;
}
break;
case YANG_UNITS:
switch (dev_mod) {
case LYS_DEV_NOT_SUPPORTED:
LOGVAL_YANG(ctx, LY_VCODE_INDEV, ly_devmod2str(dev_mod), ly_stmt2str(kw));
return LY_EVALID;
default:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_UNITS, 0, d_units, Y_STR_ARG, &d->exts));
break;
}
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &d->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "deviate");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the deviation statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] deviations Deviations to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_deviation(struct lys_parser_ctx *ctx, const char **data, struct lysp_deviation **deviations)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_deviation *dev;
LY_ARRAY_NEW_RET(ctx->ctx, *deviations, dev, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_STR_ARG, NULL, &word, &buf, &word_len));
YANG_CHECK_NONEMPTY(ctx, NULL, word_len, "deviation");
INSERT_WORD(ctx, buf, dev->nodeid, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &dev->dsc, Y_STR_ARG, &dev->exts));
break;
case YANG_DEVIATE:
LY_CHECK_RET(parse_deviate(ctx, data, &dev->deviates));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &dev->ref, Y_STR_ARG, &dev->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &dev->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "deviation");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* mandatory substatements */
if (!dev->deviates) {
LOGVAL_YANG(ctx, LY_VCODE_MISSTMT, "deviate", "deviation");
return LY_EVALID;
}
return ret;
}
/**
* @brief Parse the feature statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] features Features to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_feature(struct lys_parser_ctx *ctx, const char **data, struct lysp_feature **features)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_feature *feat;
LY_ARRAY_NEW_RET(ctx->ctx, *features, feat, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, feat->name, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &feat->dsc, Y_STR_ARG, &feat->exts));
break;
case YANG_IF_FEATURE:
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &feat->iffeatures, Y_STR_ARG, &feat->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &feat->ref, Y_STR_ARG, &feat->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &feat->flags, &feat->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &feat->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "feature");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse the identity statement.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] identities Identities to add to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_identity(struct lys_parser_ctx *ctx, const char **data, struct lysp_ident **identities)
{
LY_ERR ret = LY_SUCCESS;
char *buf, *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_ident *ident;
LY_ARRAY_NEW_RET(ctx->ctx, *identities, ident, LY_EMEM);
/* get value */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, ident->name, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret,) {
switch (kw) {
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &ident->dsc, Y_STR_ARG, &ident->exts));
break;
case YANG_IF_FEATURE:
YANG_CHECK_STMTVER2_RET(ctx, "if-feature", "identity");
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_IFFEATURE, &ident->iffeatures, Y_STR_ARG, &ident->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &ident->ref, Y_STR_ARG, &ident->exts));
break;
case YANG_STATUS:
LY_CHECK_RET(parse_status(ctx, data, &ident->flags, &ident->exts));
break;
case YANG_BASE:
if (ident->bases && ctx->mod_version < 2) {
LOGVAL_YANG(ctx, LYVE_SYNTAX_YANG, "Identity can be derived from multiple base identities only in YANG 1.1 modules");
return LY_EVALID;
}
LY_CHECK_RET(parse_text_fields(ctx, data, LYEXT_SUBSTMT_BASE, &ident->bases, Y_PREF_IDENTIF_ARG, &ident->exts));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &ident->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "identity");
return LY_EVALID;
}
}
return ret;
}
/**
* @brief Parse module substatements.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[in,out] mod Module to write to.
*
* @return LY_ERR values.
*/
LY_ERR
parse_module(struct lys_parser_ctx *ctx, const char **data, struct lysp_module *mod)
{
LY_ERR ret = 0;
char *buf, *word;
size_t word_len;
enum yang_keyword kw, prev_kw = 0;
enum yang_module_stmt mod_stmt = Y_MOD_MODULE_HEADER;
struct lysp_submodule *dup;
/* (sub)module name */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, mod->mod->name, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
#define CHECK_ORDER(SECTION) \
if (mod_stmt > SECTION) {LOGVAL_YANG(ctx, LY_VCODE_INORD, ly_stmt2str(kw), ly_stmt2str(prev_kw)); return LY_EVALID;}mod_stmt = SECTION
switch (kw) {
/* module header */
case YANG_NAMESPACE:
case YANG_PREFIX:
CHECK_ORDER(Y_MOD_MODULE_HEADER);
break;
case YANG_YANG_VERSION:
CHECK_ORDER(Y_MOD_MODULE_HEADER);
break;
/* linkage */
case YANG_INCLUDE:
case YANG_IMPORT:
CHECK_ORDER(Y_MOD_LINKAGE);
break;
/* meta */
case YANG_ORGANIZATION:
case YANG_CONTACT:
case YANG_DESCRIPTION:
case YANG_REFERENCE:
CHECK_ORDER(Y_MOD_META);
break;
/* revision */
case YANG_REVISION:
CHECK_ORDER(Y_MOD_REVISION);
break;
/* body */
case YANG_ANYDATA:
case YANG_ANYXML:
case YANG_AUGMENT:
case YANG_CHOICE:
case YANG_CONTAINER:
case YANG_DEVIATION:
case YANG_EXTENSION:
case YANG_FEATURE:
case YANG_GROUPING:
case YANG_IDENTITY:
case YANG_LEAF:
case YANG_LEAF_LIST:
case YANG_LIST:
case YANG_NOTIFICATION:
case YANG_RPC:
case YANG_TYPEDEF:
case YANG_USES:
case YANG_CUSTOM:
mod_stmt = Y_MOD_BODY;
break;
default:
/* error handled in the next switch */
break;
}
#undef CHECK_ORDER
prev_kw = kw;
switch (kw) {
/* module header */
case YANG_YANG_VERSION:
LY_CHECK_RET(parse_yangversion(ctx, data, &mod->mod->version, &mod->exts));
ctx->mod_version = mod->mod->version;
break;
case YANG_NAMESPACE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_NAMESPACE, 0, &mod->mod->ns, Y_STR_ARG, &mod->exts));
break;
case YANG_PREFIX:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_PREFIX, 0, &mod->mod->prefix, Y_IDENTIF_ARG, &mod->exts));
break;
/* linkage */
case YANG_INCLUDE:
LY_CHECK_RET(parse_include(ctx, mod->mod->name, data, &mod->includes));
break;
case YANG_IMPORT:
LY_CHECK_RET(parse_import(ctx, mod->mod->prefix, data, &mod->imports));
break;
/* meta */
case YANG_ORGANIZATION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_ORGANIZATION, 0, &mod->mod->org, Y_STR_ARG, &mod->exts));
break;
case YANG_CONTACT:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_CONTACT, 0, &mod->mod->contact, Y_STR_ARG, &mod->exts));
break;
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &mod->mod->dsc, Y_STR_ARG, &mod->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &mod->mod->ref, Y_STR_ARG, &mod->exts));
break;
/* revision */
case YANG_REVISION:
LY_CHECK_RET(parse_revision(ctx, data, &mod->revs));
break;
/* body */
case YANG_ANYDATA:
YANG_CHECK_STMTVER2_RET(ctx, "anydata", "module");
/* fall through */
case YANG_ANYXML:
LY_CHECK_RET(parse_any(ctx, data, kw, NULL, &mod->data));
break;
case YANG_CHOICE:
LY_CHECK_RET(parse_choice(ctx, data, NULL, &mod->data));
break;
case YANG_CONTAINER:
LY_CHECK_RET(parse_container(ctx, data, NULL, &mod->data));
break;
case YANG_LEAF:
LY_CHECK_RET(parse_leaf(ctx, data, NULL, &mod->data));
break;
case YANG_LEAF_LIST:
LY_CHECK_RET(parse_leaflist(ctx, data, NULL, &mod->data));
break;
case YANG_LIST:
LY_CHECK_RET(parse_list(ctx, data, NULL, &mod->data));
break;
case YANG_USES:
LY_CHECK_RET(parse_uses(ctx, data, NULL, &mod->data));
break;
case YANG_AUGMENT:
LY_CHECK_RET(parse_augment(ctx, data, NULL, &mod->augments));
break;
case YANG_DEVIATION:
LY_CHECK_RET(parse_deviation(ctx, data, &mod->deviations));
break;
case YANG_EXTENSION:
LY_CHECK_RET(parse_extension(ctx, data, &mod->extensions));
break;
case YANG_FEATURE:
LY_CHECK_RET(parse_feature(ctx, data, &mod->features));
break;
case YANG_GROUPING:
LY_CHECK_RET(parse_grouping(ctx, data, NULL, &mod->groupings));
break;
case YANG_IDENTITY:
LY_CHECK_RET(parse_identity(ctx, data, &mod->identities));
break;
case YANG_NOTIFICATION:
LY_CHECK_RET(parse_notif(ctx, data, NULL, &mod->notifs));
break;
case YANG_RPC:
LY_CHECK_RET(parse_action(ctx, data, NULL, &mod->rpcs));
break;
case YANG_TYPEDEF:
LY_CHECK_RET(parse_typedef(ctx, NULL, data, &mod->typedefs));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &mod->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "module");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* finalize parent pointers to the reallocated items */
LY_CHECK_RET(parse_finalize_reallocated(ctx, mod->groupings, mod->augments, mod->rpcs, mod->notifs));
/* mandatory substatements */
if (!mod->mod->ns) {
LOGVAL_YANG(ctx, LY_VCODE_MISSTMT, "namespace", "module");
return LY_EVALID;
} else if (!mod->mod->prefix) {
LOGVAL_YANG(ctx, LY_VCODE_MISSTMT, "prefix", "module");
return LY_EVALID;
}
/* submodules share the namespace with the module names, so there must not be
* a submodule of the same name in the context, no need for revision matching */
dup = ly_ctx_get_submodule(ctx->ctx, NULL, mod->mod->name, NULL);
if (dup) {
LOGVAL_YANG(ctx, LYVE_SYNTAX_YANG, "Name collision between module and submodule of name \"%s\".", mod->mod->name);
return LY_EVALID;
}
return ret;
}
/**
* @brief Parse submodule substatements.
*
* @param[in] ctx yang parser context for logging.
* @param[in,out] data Data to read from, always moved to currently handled character.
* @param[out] submod Parsed submodule structure.
*
* @return LY_ERR values.
*/
LY_ERR
parse_submodule(struct lys_parser_ctx *ctx, const char **data, struct lysp_submodule *submod)
{
LY_ERR ret = 0;
char *buf, *word;
size_t word_len;
enum yang_keyword kw, prev_kw = 0;
enum yang_module_stmt mod_stmt = Y_MOD_MODULE_HEADER;
struct lysp_submodule *dup;
/* submodule name */
LY_CHECK_RET(get_argument(ctx, data, Y_IDENTIF_ARG, NULL, &word, &buf, &word_len));
INSERT_WORD(ctx, buf, submod->name, word, word_len);
YANG_READ_SUBSTMT_FOR(ctx, data, kw, word, word_len, ret, goto checks) {
#define CHECK_ORDER(SECTION) \
if (mod_stmt > SECTION) {LOGVAL_YANG(ctx, LY_VCODE_INORD, ly_stmt2str(kw), ly_stmt2str(prev_kw)); return LY_EVALID;}mod_stmt = SECTION
switch (kw) {
/* module header */
case YANG_BELONGS_TO:
CHECK_ORDER(Y_MOD_MODULE_HEADER);
break;
case YANG_YANG_VERSION:
CHECK_ORDER(Y_MOD_MODULE_HEADER);
break;
/* linkage */
case YANG_INCLUDE:
case YANG_IMPORT:
CHECK_ORDER(Y_MOD_LINKAGE);
break;
/* meta */
case YANG_ORGANIZATION:
case YANG_CONTACT:
case YANG_DESCRIPTION:
case YANG_REFERENCE:
CHECK_ORDER(Y_MOD_META);
break;
/* revision */
case YANG_REVISION:
CHECK_ORDER(Y_MOD_REVISION);
break;
/* body */
case YANG_ANYDATA:
case YANG_ANYXML:
case YANG_AUGMENT:
case YANG_CHOICE:
case YANG_CONTAINER:
case YANG_DEVIATION:
case YANG_EXTENSION:
case YANG_FEATURE:
case YANG_GROUPING:
case YANG_IDENTITY:
case YANG_LEAF:
case YANG_LEAF_LIST:
case YANG_LIST:
case YANG_NOTIFICATION:
case YANG_RPC:
case YANG_TYPEDEF:
case YANG_USES:
case YANG_CUSTOM:
mod_stmt = Y_MOD_BODY;
break;
default:
/* error handled in the next switch */
break;
}
#undef CHECK_ORDER
prev_kw = kw;
switch (kw) {
/* module header */
case YANG_YANG_VERSION:
LY_CHECK_RET(parse_yangversion(ctx, data, &submod->version, &submod->exts));
ctx->mod_version = submod->version;
break;
case YANG_BELONGS_TO:
LY_CHECK_RET(parse_belongsto(ctx, data, &submod->belongsto, &submod->prefix, &submod->exts));
break;
/* linkage */
case YANG_INCLUDE:
LY_CHECK_RET(parse_include(ctx, submod->name, data, &submod->includes));
break;
case YANG_IMPORT:
LY_CHECK_RET(parse_import(ctx, submod->prefix, data, &submod->imports));
break;
/* meta */
case YANG_ORGANIZATION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_ORGANIZATION, 0, &submod->org, Y_STR_ARG, &submod->exts));
break;
case YANG_CONTACT:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_CONTACT, 0, &submod->contact, Y_STR_ARG, &submod->exts));
break;
case YANG_DESCRIPTION:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_DESCRIPTION, 0, &submod->dsc, Y_STR_ARG, &submod->exts));
break;
case YANG_REFERENCE:
LY_CHECK_RET(parse_text_field(ctx, data, LYEXT_SUBSTMT_REFERENCE, 0, &submod->ref, Y_STR_ARG, &submod->exts));
break;
/* revision */
case YANG_REVISION:
LY_CHECK_RET(parse_revision(ctx, data, &submod->revs));
break;
/* body */
case YANG_ANYDATA:
YANG_CHECK_STMTVER2_RET(ctx, "anydata", "submodule");
/* fall through */
case YANG_ANYXML:
LY_CHECK_RET(parse_any(ctx, data, kw, NULL, &submod->data));
break;
case YANG_CHOICE:
LY_CHECK_RET(parse_choice(ctx, data, NULL, &submod->data));
break;
case YANG_CONTAINER:
LY_CHECK_RET(parse_container(ctx, data, NULL, &submod->data));
break;
case YANG_LEAF:
LY_CHECK_RET(parse_leaf(ctx, data, NULL, &submod->data));
break;
case YANG_LEAF_LIST:
LY_CHECK_RET(parse_leaflist(ctx, data, NULL, &submod->data));
break;
case YANG_LIST:
LY_CHECK_RET(parse_list(ctx, data, NULL, &submod->data));
break;
case YANG_USES:
LY_CHECK_RET(parse_uses(ctx, data, NULL, &submod->data));
break;
case YANG_AUGMENT:
LY_CHECK_RET(parse_augment(ctx, data, NULL, &submod->augments));
break;
case YANG_DEVIATION:
LY_CHECK_RET(parse_deviation(ctx, data, &submod->deviations));
break;
case YANG_EXTENSION:
LY_CHECK_RET(parse_extension(ctx, data, &submod->extensions));
break;
case YANG_FEATURE:
LY_CHECK_RET(parse_feature(ctx, data, &submod->features));
break;
case YANG_GROUPING:
LY_CHECK_RET(parse_grouping(ctx, data, NULL, &submod->groupings));
break;
case YANG_IDENTITY:
LY_CHECK_RET(parse_identity(ctx, data, &submod->identities));
break;
case YANG_NOTIFICATION:
LY_CHECK_RET(parse_notif(ctx, data, NULL, &submod->notifs));
break;
case YANG_RPC:
LY_CHECK_RET(parse_action(ctx, data, NULL, &submod->rpcs));
break;
case YANG_TYPEDEF:
LY_CHECK_RET(parse_typedef(ctx, NULL, data, &submod->typedefs));
break;
case YANG_CUSTOM:
LY_CHECK_RET(parse_ext(ctx, data, word, word_len, LYEXT_SUBSTMT_SELF, 0, &submod->exts));
break;
default:
LOGVAL_YANG(ctx, LY_VCODE_INCHILDSTMT, ly_stmt2str(kw), "submodule");
return LY_EVALID;
}
}
LY_CHECK_RET(ret);
checks:
/* finalize parent pointers to the reallocated items */
LY_CHECK_RET(parse_finalize_reallocated(ctx, submod->groupings, submod->augments, submod->rpcs, submod->notifs));
/* mandatory substatements */
if (!submod->belongsto) {
LOGVAL_YANG(ctx, LY_VCODE_MISSTMT, "belongs-to", "submodule");
return LY_EVALID;
}
/* submodules share the namespace with the module names, so there must not be
* a submodule of the same name in the context, no need for revision matching */
dup = ly_ctx_get_submodule(ctx->ctx, NULL, submod->name, NULL);
if (dup && strcmp(dup->belongsto, submod->belongsto)) {
LOGVAL_YANG(ctx, LYVE_SYNTAX_YANG, "Name collision between submodules of name \"%s\".", dup->name);
return LY_EVALID;
}
return ret;
}
LY_ERR
yang_parse_submodule(struct lys_parser_ctx *context, const char *data, struct lysp_submodule **submod)
{
LY_ERR ret = LY_SUCCESS;
char *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_submodule *mod_p = NULL;
/* "module"/"submodule" */
ret = get_keyword(context, &data, &kw, &word, &word_len);
LY_CHECK_GOTO(ret, cleanup);
if (kw == YANG_MODULE) {
LOGERR(context->ctx, LY_EDENIED, "Input data contains module in situation when a submodule is expected.");
ret = LY_EINVAL;
goto cleanup;
} else if (kw != YANG_SUBMODULE) {
LOGVAL_YANG(context, LYVE_SYNTAX, "Invalid keyword \"%s\", expected \"module\" or \"submodule\".",
ly_stmt2str(kw));
ret = LY_EVALID;
goto cleanup;
}
mod_p = calloc(1, sizeof *mod_p);
LY_CHECK_ERR_GOTO(!mod_p, LOGMEM(context->ctx), cleanup);
mod_p->parsing = 1;
/* substatements */
ret = parse_submodule(context, &data, mod_p);
LY_CHECK_GOTO(ret, cleanup);
/* read some trailing spaces or new lines */
while(*data && isspace(*data)) {
data++;
}
if (*data) {
LOGVAL_YANG(context, LYVE_SYNTAX, "Trailing garbage \"%.*s%s\" after submodule, expected end-of-input.",
15, data, strlen(data) > 15 ? "..." : "");
ret = LY_EVALID;
goto cleanup;
}
mod_p->parsing = 0;
*submod = mod_p;
cleanup:
if (ret) {
lysp_submodule_free(context->ctx, mod_p);
}
return ret;
}
LY_ERR
yang_parse_module(struct lys_parser_ctx *context, const char *data, struct lys_module *mod)
{
LY_ERR ret = LY_SUCCESS;
char *word;
size_t word_len;
enum yang_keyword kw;
struct lysp_module *mod_p = NULL;
/* "module"/"submodule" */
ret = get_keyword(context, &data, &kw, &word, &word_len);
LY_CHECK_GOTO(ret, cleanup);
if (kw == YANG_SUBMODULE) {
LOGERR(context->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_YANG(context, LYVE_SYNTAX, "Invalid keyword \"%s\", expected \"module\" or \"submodule\".",
ly_stmt2str(kw));
ret = LY_EVALID;
goto cleanup;
}
mod_p = calloc(1, sizeof *mod_p);
LY_CHECK_ERR_GOTO(!mod_p, LOGMEM(context->ctx), cleanup);
mod_p->mod = mod;
mod_p->parsing = 1;
/* substatements */
ret = parse_module(context, &data, mod_p);
LY_CHECK_GOTO(ret, cleanup);
/* read some trailing spaces or new lines */
while(*data && isspace(*data)) {
data++;
}
if (*data) {
LOGVAL_YANG(context, LYVE_SYNTAX, "Trailing garbage \"%.*s%s\" after module, expected end-of-input.",
15, data, strlen(data) > 15 ? "..." : "");
ret = LY_EVALID;
goto cleanup;
}
mod_p->parsing = 0;
mod->parsed = mod_p;
cleanup:
if (ret) {
lysp_module_free(mod_p);
}
return ret;
}