blob: 90693615b946e29ea0a11b028457e93894625271 [file] [log] [blame]
/**
* @file tree_schema_internal.h
* @author Radek Krejci <rkrejci@cesnet.cz>
* @brief internal functions for YANG schema trees.
*
* Copyright (c) 2015 - 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
*/
#ifndef LY_TREE_SCHEMA_INTERNAL_H_
#define LY_TREE_SCHEMA_INTERNAL_H_
#include <stdint.h>
#include "set.h"
#include "tree_schema.h"
#define LOGVAL_YANG(CTX, ...) LOGVAL((CTX)->ctx, LY_VLOG_LINE, &(CTX)->line, __VA_ARGS__)
/* These 2 macros checks YANG's identifier grammar rule */
#define is_yangidentstartchar(c) ((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || c == '_')
#define is_yangidentchar(c) ((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || (c >= '0' && c <= '9') || \
c == '_' || c == '-' || c == '.')
/**
* @brief List of YANG statement groups - the (sub)module's substatements
*/
enum yang_module_stmt {
Y_MOD_MODULE_HEADER,
Y_MOD_LINKAGE,
Y_MOD_META,
Y_MOD_REVISION,
Y_MOD_BODY
};
/**
* @brief Types of arguments of YANG statements
*/
enum yang_arg {
Y_IDENTIF_ARG, /**< YANG "identifier-arg-str" rule */
Y_PREF_IDENTIF_ARG, /**< YANG "identifier-ref-arg-str" or node-identifier rule */
Y_STR_ARG, /**< YANG "string" rule */
Y_MAYBE_STR_ARG /**< optional YANG "string" rule */
};
/**
* @brief internal context for schema parsers
*/
struct lys_parser_ctx {
struct ly_ctx *ctx;
struct ly_set tpdfs_nodes;
struct ly_set grps_nodes;
uint64_t line; /**< line number */
uint64_t indent; /**< current position on the line for YANG indentation */
uint8_t mod_version; /**< module's version */
};
struct lysc_incomplete_dflt {
struct lyd_value *dflt;
struct lys_module *dflt_mod;
struct lysc_node *context_node;
};
/**
* @brief internal context for compilation
*/
struct lysc_ctx {
struct ly_ctx *ctx;
struct lys_module *mod;
struct lys_module *mod_def; /**< context module for the definitions of the nodes being currently
processed - groupings are supposed to be evaluated in place where
defined, but its content instances are supposed to be placed into
the target module (mod) */
struct ly_set groupings; /**< stack for groupings circular check */
struct ly_set unres; /**< to validate leafref's target and xpath of when/must */
struct ly_set dflts; /**< set of incomplete default values */
struct ly_set tpdf_chain;
uint16_t path_len;
int options; /**< various @ref scflags. */
#define LYSC_CTX_BUFSIZE 4078
char path[LYSC_CTX_BUFSIZE];
};
/**
* @brief Internal structure for lys_get_prefix().
*/
struct lys_get_prefix_data {
const struct lys_module *context_mod;
struct ly_set prefixes;
};
/**
* @brief Schema mapping of YANG modules to prefixes in values.
*
* Implementation of ly_clb_get_prefix. Inverse function to lys_resolve_prefix.
*
* In this case the @p mod is searched in the list of imports and the import's prefix
* (not the module's itself) prefix is returned.
*/
const char *lys_get_prefix(const struct lys_module *mod, void *private);
/**
* @brief Schema mapping of prefix in values to YANG modules (imports).
*
* Implementation of ly_clb_resolve_prefix. Inverse function to lys_get_prefix().
*
* In this case the @p prefix is searched in the list of imports' prefixes (not the prefixes of the imported modules themselves).
*/
const struct lys_module *lys_resolve_prefix(struct ly_ctx *ctx, const char *prefix, size_t prefix_len, void *private);
/**
* @brief Check the currently present prefixes in the module for collision with the new one.
*
* @param[in] ctx Context for logging.
* @param[in] imports List of current imports of the module to check prefix collision.
* @param[in] module_prefix Prefix of the module to check collision.
* @param[in] value Newly added prefix value (including its location to distinguish collision with itself).
* @return LY_EEXIST when prefix is already used in the module, LY_SUCCESS otherwise
*/
LY_ERR lysp_check_prefix(struct lys_parser_ctx *ctx, struct lysp_import *imports, const char *module_prefix, const char **value);
/**
* @brief Check date string (4DIGIT "-" 2DIGIT "-" 2DIGIT)
*
* @param[in] ctx Optional context for logging.
* @param[in] date Date string to check (non-necessarily terminated by \0)
* @param[in] date_len Length of the date string, 10 expected.
* @param[in] stmt Statement name for error message.
* @return LY_ERR value.
*/
LY_ERR lysp_check_date(struct lys_parser_ctx *ctx, const char *date, int date_len, const char *stmt);
/**
* @brief Check names of typedefs in the parsed module to detect collisions.
*
* @param[in] ctx Parser context for logging and to maintain tpdfs_nodes
* @param[in] mod Module where the type is being defined.
* @return LY_ERR value.
*/
LY_ERR lysp_check_typedefs(struct lys_parser_ctx *ctx, struct lysp_module *mod);
/**
* @brief Just move the newest revision into the first position, does not sort the rest
* @param[in] revs Sized-array of the revisions in a printable schema tree.
*/
void lysp_sort_revisions(struct lysp_revision *revs);
/**
* @brief Find type specified type definition
*
* @param[in] id Name of the type including possible prefix. Module where the prefix is being searched is start_module.
* @param[in] start_node Context node where the type is being instantiated to be able to search typedefs in parents.
* @param[in] start_module Module where the type is being instantiated for search for typedefs.
* @param[out] type Built-in type identifier of the id. If #LY_TYPE_UNKNOWN, tpdf is expected to contain found YANG schema typedef statement.
* @param[out] tpdf Found type definition.
* @param[out] node Node where the found typedef is defined, NULL in case of a top-level typedef.
* @param[out] module Module where the found typedef is being defined, NULL in case of built-in YANG types.
*/
LY_ERR lysp_type_find(const char *id, struct lysp_node *start_node, struct lysp_module *start_module,
LY_DATA_TYPE *type, const struct lysp_tpdf **tpdf, struct lysp_node **node, struct lysp_module **module);
/**
* @brief Find and parse module of the given name.
*
* @param[in] ctx libyang context.
* @param[in] name Name of the module to load.
* @param[in] revison Optional revision of the module to load. If NULL, the newest revision is loaded.
* @param[in] implement Flag if the loaded module is supposed to be marked as implemented. If revision is NULL and implement flag set,
* the implemented module in the context is returned despite it might not be of the latest revision, because in this case the module
* of the latest revision can not be made implemented.
* @param[in] require_parsed Flag to require parsed module structure in case the module is already in the context,
* but only the compiled structure is available.
* @param[out] mod Parsed module structure.
* @return LY_ERR value.
*/
LY_ERR lysp_load_module(struct ly_ctx *ctx, const char *name, const char *revision, int implement, int require_parsed, struct lys_module **mod);
/**
* @brief Parse included submodule into the simply parsed YANG module.
*
* @param[in] ctx parser context
* @param[in] mod Module including a submodule.
* @param[in,out] inc Include structure holding all available information about the include statement, the parsed
* submodule is stored into this structure.
* @return LY_ERR value.
*/
LY_ERR lysp_load_submodule(struct lys_parser_ctx *ctx, struct lysp_module *mod, struct lysp_include *inc);
/**
* @defgroup scflags Schema compile flags
* @ingroup schematree
*
* @{
*/
#define LYSC_OPT_RPC_INPUT LYS_CONFIG_W /**< Internal option when compiling schema tree of RPC/action input */
#define LYSC_OPT_RPC_OUTPUT LYS_CONFIG_R /**< Internal option when compiling schema tree of RPC/action output */
#define LYSC_OPT_RPC_MASK LYS_CONFIG_MASK /**< mask for the internal RPC options */
#define LYSC_OPT_FREE_SP 0x04 /**< Free the input printable schema */
#define LYSC_OPT_INTERNAL 0x08 /**< Internal compilation caused by dependency */
#define LYSC_OPT_NOTIFICATION 0x10 /**< Internal option when compiling schema tree of Notification */
#define LYSC_OPT_GROUPING 0x20 /** Compiling (validation) of a non-instantiated grouping.
In this case not all the restrictions are checked since they can be valid only
in the real placement of the grouping. TODO - what specifically is not done */
/** @} scflags */
/**
* @brief Compile printable schema into a validated schema linking all the references.
*
* @param[in, out] mod Schema structure holding pointers to both schema structure types. The ::lys_module#parsed
* member is used as input and ::lys_module#compiled is used to hold the result of the compilation.
* @param[in] options Various options to modify compiler behavior, see [compile flags](@ref scflags).
* @return LY_ERR value - LY_SUCCESS or LY_EVALID.
*/
LY_ERR lys_compile(struct lys_module *mod, int options);
/**
* @brief Get address of a node's actions list if any.
*
* Decides the node's type and in case it has an actions list, returns its address.
* @param[in] node Node to check.
* @return Address of the node's actions member if any, NULL otherwise.
*/
struct lysp_action **lysp_node_actions_p(struct lysp_node *node);
/**
* @brief Get address of a node's notifications list if any.
*
* Decides the node's type and in case it has a notifications list, returns its address.
* @param[in] node Node to check.
* @return Address of the node's notifs member if any, NULL otherwise.
*/
struct lysp_notif **lysp_node_notifs_p(struct lysp_node *node);
/**
* @brief Get address of a node's child pointer if any.
*
* Decides the node's type and in case it has a children list, returns its address.
* @param[in] node Node to check.
* @return Address of the node's child member if any, NULL otherwise.
*/
struct lysp_node **lysp_node_children_p(struct lysp_node *node);
/**
* @brief Get address of a node's child pointer if any.
*
* Decides the node's type and in case it has a children list, returns its address.
* @param[in] node Node to check.
* @param[in] flags Config flag to distinguish input (LYS_CONFIG_W) and output (LYS_CONFIG_R) data in case of RPC/action node.
* @return Address of the node's child member if any, NULL otherwise.
*/
struct lysc_node **lysc_node_children_p(const struct lysc_node *node, uint16_t flags);
/**
* @brief Get address of a node's notifs pointer if any.
*
* Decides the node's type and in case it has a notifs array, returns its address.
* @param[in] node Node to check.
* @return Address of the node's notifs member if any, NULL otherwise.
*/
struct lysc_notif **lysc_node_notifs_p(struct lysc_node *node);
/**
* @brief Get address of a node's actions pointer if any.
*
* Decides the node's type and in case it has a actions array, returns its address.
* @param[in] node Node to check.
* @return Address of the node's actions member if any, NULL otherwise.
*/
struct lysc_action **lysc_node_actions_p(struct lysc_node *node);
/**
* @brief Iterate over the specified type of the extension instances
*
* @param[in] ext ([Sized array](@ref sizedarrays)) of extensions to explore
* @param[in] index Index in the \p ext array where to start searching (first call with 0, the consequent calls with
* the returned index increased by 1 (until the iteration is not terminated by returning LY_ARRAY_SIZE(ext).
* @param[in] substmt Type of the extension (its belongins to the specific substatement) to iterate, use
* #LYEXT_SUBSTMT_ALL to go through all the extensions in the array
* @result index in the ext array, LY_ARRAY_SIZE(ext) value if not present.
*/
unsigned int lysp_ext_instance_iter(struct lysp_ext_instance *ext, unsigned int index, LYEXT_SUBSTMT substmt);
/**
* @brief Get the covering schema module structure for the given parsed module structure.
* @param[in] ctx libyang context to search.
* @param[in] mod Parsed schema structure.
* @return Corresponding lys_module structure for the given parsed schema structure.
*/
struct lys_module *lysp_find_module(struct ly_ctx *ctx, const struct lysp_module *mod);
/**
* @brief Find the module referenced by prefix in the provided parsed mod.
*
* @param[in] mod Schema module where the prefix was used.
* @param[in] prefix Prefix used to reference a module.
* @param[in] len Length of the prefix since it is not necessary NULL-terminated.
* @return Pointer to the module or NULL if the module is not found.
*/
struct lysp_module *lysp_module_find_prefix(const struct lysp_module *mod, const char *prefix, size_t len);
/**
* @brief Find the module referenced by prefix in the provided compiled mod.
*
* @param[in] mod Schema module where the prefix was used.
* @param[in] prefix Prefix used to reference a module.
* @param[in] len Length of the prefix since it is not necessary NULL-terminated.
* @return Pointer to the module or NULL if the module is not found.
*/
struct lysc_module *lysc_module_find_prefix(const struct lysc_module *mod, const char *prefix, size_t len);
/**
* @brief Check statement's status for invalid combination.
*
* The modX parameters are used just to determine if both flags are in the same module,
* so any of the schema module structure can be used, but both modules must be provided
* in the same type.
*
* @param[in] ctx Compile context for logging.
* @param[in] flags1 Flags of the referencing node.
* @param[in] mod1 Module of the referencing node,
* @param[in] name1 Schema node name of the referencing node.
* @param[in] flags2 Flags of the referenced node.
* @param[in] mod2 Module of the referenced node,
* @param[in] name2 Schema node name of the referenced node.
* @return LY_ERR value
*/
LY_ERR lysc_check_status(struct lysc_ctx *ctx,
uint16_t flags1, void *mod1, const char *name1,
uint16_t flags2, void *mod2, const char *name2);
/**
* @brief Find the node according to the given descendant/absolute schema nodeid.
* Used in unique, refine and augment statements.
*
* @param[in] ctx Compile context
* @param[in] nodeid Descendant-schema-nodeid (according to the YANG grammar)
* @param[in] nodeid_len Length of the given nodeid, if it is not NULL-terminated string.
* @param[in] context_node Node where the nodeid is specified to correctly resolve prefixes and to start searching.
* If no context node is provided, the nodeid is actually expected to be the absolute schema node .
* @param[in] context_module Explicit module to resolve prefixes in @nodeid.
* @param[in] nodetype Optional (can be 0) restriction for target's nodetype. If target exists, but does not match
* the given nodetype, LY_EDENIED is returned (and target is provided), but no error message is printed.
* The value can be even an ORed value to allow multiple nodetypes.
* @param[in] implement Flag if the modules mentioned in the nodeid are supposed to be made implemented.
* @param[out] target Found target node if any. In case of RPC/action input/output node, LYS_ACTION node is actually returned
* since the input/output has not a standalone node structure and it is part of ::lysc_action which is better compatible with ::lysc_node.
* @param[out] result_flag Output parameter to announce if the schema nodeid goes through the action's input/output or a Notification.
* The LYSC_OPT_RPC_INPUT, LYSC_OPT_RPC_OUTPUT and LYSC_OPT_NOTIFICATION are used as flags.
* @return LY_ERR values - LY_ENOTFOUND, LY_EVALID, LY_EDENIED or LY_SUCCESS.
*/
LY_ERR lys_resolve_schema_nodeid(struct lysc_ctx *ctx, const char *nodeid, size_t nodeid_len, const struct lysc_node *context_node,
const struct lys_module *context_module, int nodetype, int implement,
const struct lysc_node **target, uint16_t *result_flag);
/**
* @brief Find the module referenced by prefix in the provided mod.
*
* Reverse function to lys_prefix_find_module().
*
* @param[in] mod Schema module where the prefix was used.
* @param[in] prefix Prefix used to reference a module.
* @param[in] len Length of the prefix since it is not necessary NULL-terminated.
* @return Pointer to the module or NULL if the module is not found.
*/
struct lys_module *lys_module_find_prefix(const struct lys_module *mod, const char *prefix, size_t len);
/**
* @brief Find the prefix used to referenced the import module in the provided mod.
*
* Reverse function to lys_module_find_prefix().
*
* Note that original prefixes are present only in the parsed schema. In case it is not available
* (only compiled schema available), the own prefix of the import module is returned instead.
*
* @param[in] mod Schema module where the import module was used.
* @param[in] import Module referenced in mod.
* @return Prefix of the import module.
*/
const char *lys_prefix_find_module(const struct lys_module *mod, const struct lys_module *import);
/**
* @brief Stringify schema nodetype.
* @param[in] nodetype Nodetype to stringify.
* @return Constant string with the name of the node's type.
*/
const char *lys_nodetype2str(uint16_t nodetype);
/**
* @brief Stringify YANG built-in type.
* @param[in] basetype Built-in tyep ID to stringify.
* @return Constant string with the name of the built-in type.
*/
const char *lys_datatype2str(LY_DATA_TYPE basetype);
/**
* @brief Parse YANG module from a string.
*
* The modules are added into the context and the latest_revision flag is updated.
*
* @param[in] ctx libyang context where to process the data model.
* @param[in] data The string containing the dumped data model in the specified
* format.
* @param[in] format Format of the input data (YANG or YIN).
* @param[in] implement Flag if the schema is supposed to be marked as implemented.
* @param[in] custom_check Callback to check the parsed schema before it is accepted.
* @param[in] check_data Caller's data to pass to the custom_check callback.
* @return Pointer to the data model structure or NULL on error.
*/
struct lys_module *lys_parse_mem_module(struct ly_ctx *ctx, const char *data, LYS_INFORMAT format, int implement,
LY_ERR (*custom_check)(struct ly_ctx *ctx, struct lysp_module *mod, struct lysp_submodule *submod, void *check_data),
void *check_data);
/**
* @brief Parse YANG submodule from a string.
*
* The latest_revision flag of submodule is updated.
*
* @param[in] ctx libyang context where to process the data model.
* @param[in] data The string containing the dumped data model in the specified
* format.
* @param[in] format Format of the input data (YANG or YIN).
* @param[in] main_ctx Parser context of the main module.
* @param[in] custom_check Callback to check the parsed schema before it is accepted.
* @param[in] check_data Caller's data to pass to the custom_check callback.
* @return Pointer to the data model structure or NULL on error.
*/
struct lysp_submodule *lys_parse_mem_submodule(struct ly_ctx *ctx, const char *data, LYS_INFORMAT format, struct lys_parser_ctx *main_ctx,
LY_ERR (*custom_check)(struct ly_ctx *ctx, struct lysp_module *mod, struct lysp_submodule *submod, void *check_data),
void *check_data);
/**
* @brief Parse YANG module or submodule from a file descriptor.
*
* The modules are added into the context, submodules not. The latest_revision flag is updated in both cases.
*
* \note Current implementation supports only reading data from standard (disk) file, not from sockets, pipes, etc.
*
* @param[in] ctx libyang context where to process the data model.
* @param[in] fd File descriptor of a regular file (e.g. sockets are not supported) containing the schema
* in the specified format.
* @param[in] format Format of the input data (YANG or YIN).
* @param[in] implement Flag if the schema is supposed to be marked as implemented.
* @param[in] main_ctx Parser context of the main module in case of parsing submodule. This flag decides if the module
* or submodule was expected to be parsed.
* @param[in] custom_check Callback to check the parsed schema before it is accepted.
* @param[in] check_data Caller's data to pass to the custom_check callback.
* @return Pointer to the data model structure or NULL on error.
*/
void *lys_parse_fd_(struct ly_ctx *ctx, int fd, LYS_INFORMAT format, int implement, struct lys_parser_ctx *main_ctx,
LY_ERR (*custom_check)(struct ly_ctx *ctx, struct lysp_module *mod, struct lysp_submodule *submod, void *data),
void *check_data);
/**
* @brief Parse YANG module from a file descriptor.
*
* The modules are added into the context. The latest_revision flag is updated.
*
* \note Current implementation supports only reading data from standard (disk) file, not from sockets, pipes, etc.
*
* @param[in] ctx libyang context where to process the data model.
* @param[in] fd File descriptor of a regular file (e.g. sockets are not supported) containing the schema
* in the specified format.
* @param[in] format Format of the input data (YANG or YIN).
* @param[in] implement Flag if the schema is supposed to be marked as implemented.
* @param[in] custom_check Callback to check the parsed schema before it is accepted.
* @param[in] check_data Caller's data to pass to the custom_check callback.
* @return Pointer to the data model structure or NULL on error.
*/
struct lys_module *lys_parse_fd_module(struct ly_ctx *ctx, int fd, LYS_INFORMAT format, int implement,
LY_ERR (*custom_check)(struct ly_ctx *ctx, struct lysp_module *mod, struct lysp_submodule *submod, void *check_data),
void *check_data);
/**
* @brief Parse YANG submodule from a file descriptor.
*
* The latest_revision flag of submodules is updated.
*
* \note Current implementation supports only reading data from standard (disk) file, not from sockets, pipes, etc.
*
* @param[in] ctx libyang context where to process the data model.
* @param[in] fd File descriptor of a regular file (e.g. sockets are not supported) containing the schema
* in the specified format.
* @param[in] format Format of the input data (YANG or YIN).
* @param[in] main_ctx Parser context of the main module.
* @param[in] custom_check Callback to check the parsed schema before it is accepted.
* @param[in] check_data Caller's data to pass to the custom_check callback.
* @return Pointer to the data model structure or NULL on error.
*/
struct lysp_submodule *lys_parse_fd_submodule(struct ly_ctx *ctx, int fd, LYS_INFORMAT format, struct lys_parser_ctx *main_ctx,
LY_ERR (*custom_check)(struct ly_ctx *ctx, struct lysp_module *mod, struct lysp_submodule *submod, void *check_data),
void *check_data);
/**
* @brief Parse YANG module from a filepath.
*
* The modules are added into the context. The latest_revision flag is updated.
*
* \note Current implementation supports only reading data from standard (disk) file, not from sockets, pipes, etc.
*
* @param[in] ctx libyang context where to process the data model.
* @param[in] path Path to the file with the model in the specified format.
* @param[in] format Format of the input data (YANG or YIN).
* @param[in] implement Flag if the schema is supposed to be marked as implemented.
* @param[in] custom_check Callback to check the parsed schema before it is accepted.
* @param[in] check_data Caller's data to pass to the custom_check callback.
* @return Pointer to the data model structure or NULL on error.
*/
struct lys_module *lys_parse_path_(struct ly_ctx *ctx, const char *path, LYS_INFORMAT format, int implement,
LY_ERR (*custom_check)(struct ly_ctx *ctx, struct lysp_module *mod, struct lysp_submodule *submod, void *data),
void *check_data);
/**
* @brief Load the (sub)module into the context.
*
* This function does not check the presence of the (sub)module in context, it should be done before calling this function.
*
* module_name and submodule_name are alternatives - only one of the
*
* @param[in] ctx libyang context where to work.
* @param[in] name Name of the (sub)module to load.
* @param[in] revision Optional revision of the (sub)module to load, if NULL the newest revision is being loaded.
* @param[in] implement Flag if the (sub)module is supposed to be marked as implemented.
* @param[in] main_ctx Parser context of the main module in case of loading submodule.
* @param[out] result Parsed YANG schema tree of the requested module (struct lys_module*) or submodule (struct lysp_submodule*).
* If it is a module, it is already in the context!
* @return LY_ERR value, in case of LY_SUCCESS, the \arg result is always provided.
*/
LY_ERR lys_module_localfile(struct ly_ctx *ctx, const char *name, const char *revision, int implement, struct lys_parser_ctx *main_ctx,
void **result);
/**
* @brief Create pre-compiled features array.
*
* Features are compiled in two steps to allow forward references between them via their if-feature statements.
* In case of not implemented schemas, the precompiled list of features is stored in lys_module structure and
* the compilation is not finished (if-feature and extensions are missing) and all the features are permanently
* disabled without a chance to change it. The list is used as target for any if-feature statement in any
* implemented module to get valid data to evaluate its result. The compilation is finished via
* lys_feature_precompile_finish() in implemented modules. In case a not implemented module becomes implemented,
* the precompiled list is reused to finish the compilation to preserve pointers already used in various compiled
* if-feature structures.
*
* @param[in] ctx_sc Compile context - alternative to the combination of @p ctx and @p module.
* @param[in] ctx libyang context.
* @param[in] module Module of the features.
* @param[in] features_p Array if the parsed features definitions to precompile.
* @param[in,out] features Pointer to the storage of the (pre)compiled features array where the new features are
* supposed to be added. The storage is supposed to be initiated to NULL when the first parsed features are going
* to be processed.
* @return LY_ERR value.
*/
LY_ERR lys_feature_precompile(struct lysc_ctx *ctx_sc, struct ly_ctx *ctx, struct lys_module *module, struct lysp_feature *features_p, struct lysc_feature **features);
/**
* @brief Get the @ref ifftokens from the given position in the 2bits array
* (libyang format of the if-feature expression).
* @param[in] list The 2bits array with the compiled if-feature expression.
* @param[in] pos Position (0-based) to specify from which position get the operator.
*/
uint8_t lysc_iff_getop(uint8_t *list, int pos);
/**
* @brief Macro to free [sized array](@ref sizedarrays) of items using the provided free function. The ARRAY itself is also freed,
* but the memory is not sanitized.
*/
#define FREE_ARRAY(CTX, ARRAY, FUNC) {uint64_t c__; LY_ARRAY_FOR(ARRAY, c__){FUNC(CTX, &(ARRAY)[c__]);}LY_ARRAY_FREE(ARRAY);}
/**
* @brief Macro to free the specified MEMBER of a structure using the provided free function. The memory is not sanitized.
*/
#define FREE_MEMBER(CTX, MEMBER, FUNC) if (MEMBER) {FUNC(CTX, MEMBER);free(MEMBER);}
/**
* @brief Macro to free [sized array](@ref sizedarrays) of strings stored in the context's dictionary. The ARRAY itself is also freed,
* but the memory is not sanitized.
*/
#define FREE_STRINGS(CTX, ARRAY) {uint64_t c__; LY_ARRAY_FOR(ARRAY, c__){FREE_STRING(CTX, ARRAY[c__]);}LY_ARRAY_FREE(ARRAY);}
/**
* @brief Free the parsed submodule structure.
* @param[in] ctx libyang context where the string data resides in a dictionary.
* @param[in,out] submod Parsed schema submodule structure to free.
*/
void lysp_submodule_free(struct ly_ctx *ctx, struct lysp_submodule *submod);
/**
* @brief Free the compiled type structure.
* @param[in] ctx libyang context where the string data resides in a dictionary.
* @param[in,out] type Compiled type structure to be freed. The structure has refcount, so it is freed only in case the value is decreased to 0.
*/
void lysc_type_free(struct ly_ctx *ctx, struct lysc_type *type);
/**
* @brief Free the compiled if-feature structure.
* @param[in] ctx libyang context where the string data resides in a dictionary.
* @param[in,out] iff Compiled if-feature structure to be cleaned.
* Since the structure is typically part of the sized array, the structure itself is not freed.
*/
void lysc_iffeature_free(struct ly_ctx *ctx, struct lysc_iffeature *iff);
/**
* @brief Free the compiled must structure.
* @param[in] ctx libyang context where the string data resides in a dictionary.
* @param[in,out] must Compiled must structure to be cleaned.
* Since the structure is typically part of the sized array, the structure itself is not freed.
*/
void lysc_must_free(struct ly_ctx *ctx, struct lysc_must *must);
/**
* @brief Free the data inside compiled input/output structure.
* @param[in] ctx libyang context where the string data resides in a dictionary.
* @param[in,out] inout Compiled inout structure to be cleaned.
* Since the structure is part of the RPC/action structure, it is not freed itself.
*/
void lysc_action_inout_free(struct ly_ctx *ctx, struct lysc_action_inout *inout);
/**
* @brief Free the data inside compiled RPC/action structure.
* @param[in] ctx libyang context where the string data resides in a dictionary.
* @param[in,out] action Compiled action structure to be cleaned.
* Since the structure is typically part of the sized array, the structure itself is not freed.
*/
void lysc_action_free(struct ly_ctx *ctx, struct lysc_action *action);
/**
* @brief Free the items inside the compiled Notification structure.
* @param[in] ctx libyang context where the string data resides in a dictionary.
* @param[in,out] action Compiled Notification structure to be cleaned.
* Since the structure is typically part of the sized array, the structure itself is not freed.
*/
void lysc_notif_free(struct ly_ctx *ctx, struct lysc_notif *notif);
/**
* @brief Free the compiled extension instance structure.
* @param[in] ctx libyang context where the string data resides in a dictionary.
* @param[in,out] ext Compiled extension instance structure to be cleaned.
* Since the structure is typically part of the sized array, the structure itself is not freed.
*/
void lysc_ext_instance_free(struct ly_ctx *ctx, struct lysc_ext_instance *ext);
/**
* @brief Free the compiled node structure.
* @param[in] ctx libyang context where the string data resides in a dictionary.
* @param[in,out] node Compiled node structure to be freed.
*/
void lysc_node_free(struct ly_ctx *ctx, struct lysc_node *node);
/**
* @brief Free the compiled container node structure.
*
* Only the container-specific members are freed, for generic node free function,
* use lysc_node_free().
*
* @param[in] ctx libyang context where the string data resides in a dictionary.
* @param[in,out] node Compiled container node structure to be freed.
*/
void lysc_node_container_free(struct ly_ctx *ctx, struct lysc_node_container *node);
/**
* @brief Free the compiled schema structure.
* @param[in,out] module Compiled schema module structure to free.
* @param[in] private_destructor Function to remove private data from the compiled schema tree.
*/
void lysc_module_free(struct lysc_module *module, void (*private_destructor)(const struct lysc_node *node, void *priv));
/**
* @brief Free the schema structure. It just frees, it does not remove the schema from its context.
* @param[in,out] module Schema module structure to free.
* @param[in] private_destructor Function to remove private data from the compiled schema tree.
*/
void lys_module_free(struct lys_module *module, void (*private_destructor)(const struct lysc_node *node, void *priv));
/**
* @brief Parse submodule from YANG data.
* @param[in] ctx Parser context.
* @param[in] data Input data to be parsed.
* @param[out] submod Pointer to the parsed submodule structure.
* @return LY_ERR value - LY_SUCCESS, LY_EINVAL or LY_EVALID.
*/
LY_ERR yang_parse_submodule(struct lys_parser_ctx *ctx, const char *data, struct lysp_submodule **submod);
/**
* @brief Parse module from YANG data.
* @param[in] ctx Parser context.
* @param[in] data Input data to be parsed.
* @param[in, out] mod Prepared module structure where the parsed information, including the parsed
* module structure, will be filled in.
* @return LY_ERR value - LY_SUCCESS, LY_EINVAL or LY_EVALID.
*/
LY_ERR yang_parse_module(struct lys_parser_ctx *ctx, const char *data, struct lys_module *mod);
/**
* @brief Make the specific module implemented, use the provided value as flag.
*
* @param[in] ctx libyang context to change.
* @param[in] mod Module from the given context to make implemented. It is not an error
* to provide already implemented module, it just does nothing.
* @param[in] implemented Flag value for the ::lys_module#implemented item.
* @return LY_SUCCESS or LY_EDENIED in case the context contains some other revision of the
* same module which is already implemented.
*/
LY_ERR ly_ctx_module_implement_internal(struct ly_ctx *ctx, struct lys_module *mod, uint8_t implemented);
#endif /* LY_TREE_SCHEMA_INTERNAL_H_ */