src/schema_compile.h - github/CESNET/libyang - Gitiles

 /**
  * @file schema_compile.h
  * @author Radek Krejci <rkrejci@cesnet.cz>
  * @author Michal Vasko <mvasko@cesnet.cz>
  * @brief Header for schema compilation.
  *
  * Copyright (c) 2015 - 2021 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_SCHEMA_COMPILE_H_
 #define LY_SCHEMA_COMPILE_H_

 #include <stddef.h>
 #include <stdint.h>

 #include "log.h"
 #include "set.h"
 #include "tree.h"
 #include "tree_schema.h"

 struct lyxp_expr;

 /**
  * @brief YANG schema compilation context.
  */
 struct lysc_ctx {
     struct ly_ctx *ctx;         /**< libyang context */
     struct lys_module *cur_mod; /**< module currently being compiled,
                                      - identifier/path - used as the current module for unprefixed nodes
                                      - augment - module where the augment is defined
                                      - deviation - module where the deviation is defined
                                      - uses - module where the uses is defined */
     struct lysp_module *pmod;   /**< parsed module being processed,
                                      - identifier/path - used for searching imports to resolve prefixed nodes
                                      - augment - module where the augment is defined
                                      - deviation - module where the deviation is defined
                                      - uses - module where the grouping is defined */
     struct lysc_ext_instance *ext; /**< extension instance being processed and serving as a source for its substatements
                                      instead of the module itself */
     struct ly_set groupings;    /**< stack for groupings circular check */
     struct ly_set tpdf_chain;   /**< stack for typedefs circular check */
     struct ly_set augs;         /**< set of compiled non-applied top-level augments (stored ::lysc_augment *) */
     struct ly_set devs;         /**< set of compiled non-applied deviations (stored ::lysc_deviation *) */
     struct ly_set uses_augs;    /**< set of compiled non-applied uses augments (stored ::lysc_augment *) */
     struct ly_set uses_rfns;    /**< set of compiled non-applied uses refines (stored ::lysc_refine *) */
     struct lys_depset_unres *unres; /**< dependency set unres sets */
     uint32_t path_len;          /**< number of path bytes used */
     uint32_t compile_opts;      /**< various @ref scflags. */
 #define LYSC_CTX_BUFSIZE 4078
     char path[LYSC_CTX_BUFSIZE];/**< Path identifying the schema node currently being processed */
 };

 /**
  * @brief Structure for unresolved items that may depend on any implemented module data in the dependency set
  * so their resolution can only be performed after the whole dep set compilation is done.
  */
 struct lys_depset_unres {
     struct ly_set whens;                /**< nodes with when to check */
     struct ly_set musts;                /**< set of musts to check */
     struct ly_set leafrefs;             /**< to validate target of leafrefs */
     struct ly_set dflts;                /**< set of incomplete default values */
     struct ly_set disabled;             /**< set of compiled nodes whose if-feature(s) was not satisfied (stored ::lysc_node *) */
     struct ly_set disabled_leafrefs;    /**< subset of the lys_depset_unres.disabled to validate target of disabled leafrefs */
 };

 /**
  * @brief Unres structure global for compilation.
  */
 struct lys_glob_unres {
     struct ly_set dep_sets;     /**< set of dependency sets of modules, see ::lys_compile_depset_all() */
     struct ly_set implementing; /**< set of YANG schemas being atomically implemented (compiled); the first added
                                     module is always the explicitly implemented module, the other ones are dependencies */
     struct ly_set creating;     /**< set of YANG schemas being atomically created (parsed); it is a subset of implemented
                                     and all these modules are freed if any error occurs */
     struct lys_depset_unres ds_unres;   /**< unres specific for the current dependency set */
 };

 /**
  * @brief Structure for storing schema nodes with must expressions and local module for each of them.
  */
 struct lysc_unres_must {
     struct lysc_node *node;     /**< node with the must expression(s) */
     const struct lysp_module **local_mods;  /**< sized array of local modules for must(s) */
 };

 /**
  * @brief Structure for storing leafref node and its local module.
  */
 struct lysc_unres_leafref {
     struct lysc_node *node;     /**< leaf/leaf-list node with leafref type */
     const struct lysp_module *local_mod;    /**< local module of the leafref type */
 };

 /**
  * @brief Structure for remembering default values of leaves and leaf-lists. They are resolved at schema compilation
  * end when the whole schema tree is available.
  */
 struct lysc_unres_dflt {
     union {
         struct lysc_node_leaf *leaf;
         struct lysc_node_leaflist *llist;
     };
     struct lysp_qname *dflt;
     struct lysp_qname *dflts;           /**< this is a sized array */
 };

 /**
  * @brief Duplicate string into dictionary
  * @param[in] CTX libyang context of the dictionary.
  * @param[in] ORIG String to duplicate.
  * @param[out] DUP Where to store the result.
  * @param[out] RET Where to store the return code.
  */
 #define DUP_STRING(CTX, ORIG, DUP, RET) if (ORIG) {RET = lydict_insert(CTX, ORIG, 0, &DUP);}
 #define DUP_STRING_RET(CTX, ORIG, DUP) if (ORIG) {LY_ERR __ret = lydict_insert(CTX, ORIG, 0, &DUP); LY_CHECK_RET(__ret);}
 #define DUP_STRING_GOTO(CTX, ORIG, DUP, RET, GOTO) if (ORIG) {LY_CHECK_GOTO(RET = lydict_insert(CTX, ORIG, 0, &DUP), GOTO);}

 #define DUP_ARRAY(CTX, ORIG_ARRAY, NEW_ARRAY, DUP_FUNC) \
     if (ORIG_ARRAY) { \
         LY_ARRAY_COUNT_TYPE __u; \
         LY_ARRAY_CREATE_RET(CTX, NEW_ARRAY, LY_ARRAY_COUNT(ORIG_ARRAY), LY_EMEM); \
         LY_ARRAY_FOR(ORIG_ARRAY, __u) { \
             LY_ARRAY_INCREMENT(NEW_ARRAY); \
             LY_CHECK_RET(DUP_FUNC(CTX, &(NEW_ARRAY)[__u], &(ORIG_ARRAY)[__u])); \
         } \
     }

 #define COMPILE_OP_ARRAY_GOTO(CTX, ARRAY_P, ARRAY_C, PARENT, FUNC, USES_STATUS, RET, GOTO) \
     if (ARRAY_P) { \
         LY_ARRAY_COUNT_TYPE __u = (ARRAY_C) ? LY_ARRAY_COUNT(ARRAY_C) : 0; \
         LY_ARRAY_CREATE_GOTO((CTX)->ctx, ARRAY_C, __u + LY_ARRAY_COUNT(ARRAY_P), RET, GOTO); \
         LY_ARRAY_FOR(ARRAY_P, __u) { \
             LY_ARRAY_INCREMENT(ARRAY_C); \
             RET = FUNC(CTX, &(ARRAY_P)[__u], PARENT, &(ARRAY_C)[LY_ARRAY_COUNT(ARRAY_C) - 1], USES_STATUS); \
             if (RET == LY_EDENIED) { \
                 LY_ARRAY_DECREMENT(ARRAY_C); \
                 RET = LY_SUCCESS; \
             } else if (RET) { \
                 goto GOTO; \
             } \
         } \
     }

 #define COMPILE_ARRAY_GOTO(CTX, ARRAY_P, ARRAY_C, FUNC, RET, GOTO) \
     if (ARRAY_P) { \
         LY_ARRAY_COUNT_TYPE __u = (ARRAY_C) ? LY_ARRAY_COUNT(ARRAY_C) : 0; \
         LY_ARRAY_CREATE_GOTO((CTX)->ctx, ARRAY_C, __u + LY_ARRAY_COUNT(ARRAY_P), RET, GOTO); \
         LY_ARRAY_FOR(ARRAY_P, __u) { \
             LY_ARRAY_INCREMENT(ARRAY_C); \
             RET = FUNC(CTX, &(ARRAY_P)[__u], &(ARRAY_C)[LY_ARRAY_COUNT(ARRAY_C) - 1]); \
             LY_CHECK_GOTO(RET, GOTO); \
         } \
     }

 #define COMPILE_EXTS_GOTO(CTX, EXTS_P, EXT_C, PARENT, RET, GOTO) \
     if (EXTS_P) { \
         LY_ARRAY_COUNT_TYPE __u = (EXT_C) ? LY_ARRAY_COUNT(EXT_C) : 0; \
         LY_ARRAY_CREATE_GOTO((CTX)->ctx, EXT_C, __u + LY_ARRAY_COUNT(EXTS_P), RET, GOTO); \
         LY_ARRAY_FOR(EXTS_P, __u) { \
             LY_ARRAY_INCREMENT(EXT_C); \
             RET = lys_compile_ext(CTX, &(EXTS_P)[__u], &(EXT_C)[LY_ARRAY_COUNT(EXT_C) - 1], PARENT, NULL); \
             if (RET == LY_ENOT) { \
                 LY_ARRAY_DECREMENT(EXT_C); \
                 RET = LY_SUCCESS; \
             } else if (RET) { \
                 goto GOTO; \
             } \
         } \
     }

 /**
  * @brief Fill in the prepared compiled extension instance structure according to the parsed extension instance.
  *
  * @param[in] ctx Compilation context.
  * @param[in] ext_p Parsed extension instance.
  * @param[in,out] ext Prepared compiled extension instance.
  * @param[in] parent Extension instance parent.
  * @param[in] ext_mod Optional module with the extension instance extension definition, set only for internal annotations.
  * @return LY_SUCCESS on success.
  * @return LY_ENOT if the extension is disabled and should be ignored.
  * @return LY_ERR on error.
  */
 LY_ERR lys_compile_ext(struct lysc_ctx *ctx, struct lysp_ext_instance *ext_p, struct lysc_ext_instance *ext, void *parent,
         const struct lys_module *ext_mod);

 /**
  * @brief Find and process the referenced base identities from another identity or identityref
  *
  * For bases in identity set backlinks to them from the base identities. For identityref, store
  * the array of pointers to the base identities. So one of the ident or bases parameter must be set
  * to distinguish these two use cases.
  *
  * @param[in] ctx Compile context, not only for logging but also to get the current module to resolve prefixes.
  * @param[in] base_pmod Module where to resolve @p bases_p prefixes.
  * @param[in] bases_p Array of names (including prefix if necessary) of base identities.
  * @param[in] ident Referencing identity to work with, NULL for identityref.
  * @param[in] bases Array of bases of identityref to fill in.
  * @return LY_ERR value.
  */
 LY_ERR lys_compile_identity_bases(struct lysc_ctx *ctx, const struct lysp_module *base_pmod, const char **bases_p,
         struct lysc_ident *ident, struct lysc_ident ***bases);

 /**
  * @brief Perform a complet compilation of identites in a module and all its submodules.
  *
  * @param[in] mod Module to process.
  * @return LY_ERR value.
  */
 LY_ERR lys_compile_identities(struct lys_module *mod);

 /**
  * @brief Compile schema into a validated schema linking all the references. Must have been implemented before.
  *
  * @param[in] mod Pointer to the 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,out] unres Dep set unres structure to add to.
  * @return LY_SUCCESS on success.
  * @return LY_ERR on error.
  */
 LY_ERR lys_compile(struct lys_module *mod, struct lys_depset_unres *unres);

 /**
  * @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 Check parsed expression for any prefixes of unimplemented modules.
  *
  * @param[in] ctx libyang context.
  * @param[in] expr Parsed expression.
  * @param[in] format Prefix format.
  * @param[in] prefix_data Format-specific data (see ::ly_resolve_prefix()).
  * @param[in] implement Whether all the non-implemented modules should are implemented or the first
  * non-implemented module, if any, returned in @p mod_p.
  * @param[in,out] unres Global unres structure of newly implemented modules.
  * @param[out] mod_p Module that is not implemented.
  * @return LY_SUCCESS on success.
  * @return LY_ERECOMPILE if @p implement is set.
  * @return LY_ERR on error.
  */
 LY_ERR lys_compile_expr_implement(const struct ly_ctx *ctx, const struct lyxp_expr *expr, LY_VALUE_FORMAT format,
         void *prefix_data, ly_bool implement, struct lys_glob_unres *unres, const struct lys_module **mod_p);

 /**
  * @brief Compile all flagged modules in a dependency set, recursively if recompilation is needed.
  *
  * Steps taken when adding a new module (::ly_ctx_load_module(), ::lys_parse()):
  *
  * 1) parse module and add it into context with all imports and includes also parsed and in context
  *    (::lys_parse_load(), ::lys_parse_in(), lys_parse_localfile() - static)
  * 2) implement it (perform one-time compilation tasks - compile identities and add reference to augment/deviation
  *    target modules, implement those as well, ::_lys_set_implemented())
  * 3) create dep set of the module (::lys_unres_dep_sets_create())
  * 4) (re)compile all the modules in the dep set and collect unres (::lys_compile_dep_set_r())
  * 5) resolve unres (lys_compile_unres_depset() - static), new modules may be implemented like in 2) and if
  *    require recompilation, free all compiled modules and do 4)
  * 6) all modules that needed to be (re)compiled are now, with all their dependencies
  *
  * What can cause new modules to be implemented when resolving unres in 5):
  * - leafref
  * - when, must
  * - identityref, instance-identifier default value
  * - new implemented module augments, deviations
  *
  * @param[in] ctx libyang context.
  * @param[in,out] unres Global unres to use.
  * @return LY_ERR value.
  */
 LY_ERR lys_compile_depset_all(struct ly_ctx *ctx, struct lys_glob_unres *unres);

 /**
  * @brief Implement a single module. Does not actually compile, only marks to_compile!
  *
  * @param[in] mod Module to implement.
  * @param[in] features Features to set, see ::lys_set_features().
  * @param[in,out] unres Global unres to use.
  * @return LY_ERR value.
  */
 LY_ERR lys_implement(struct lys_module *mod, const char **features, struct lys_glob_unres *unres);

 #endif /* LY_SCHEMA_COMPILE_H_ */
	/**
	* @file schema_compile.h
	* @author Radek Krejci <rkrejci@cesnet.cz>
	* @author Michal Vasko <mvasko@cesnet.cz>
	* @brief Header for schema compilation.
	*
	* Copyright (c) 2015 - 2021 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_SCHEMA_COMPILE_H_
	#define LY_SCHEMA_COMPILE_H_

	#include <stddef.h>
	#include <stdint.h>

	#include "log.h"
	#include "set.h"
	#include "tree.h"
	#include "tree_schema.h"

	struct lyxp_expr;

	/**
	* @brief YANG schema compilation context.
	*/
	struct lysc_ctx {
	struct ly_ctx ctx; /< libyang context /
	struct lys_module cur_mod; /*< module currently being compiled,
	- identifier/path - used as the current module for unprefixed nodes
	- augment - module where the augment is defined
	- deviation - module where the deviation is defined
	- uses - module where the uses is defined */
	struct lysp_module pmod; /*< parsed module being processed,
	- identifier/path - used for searching imports to resolve prefixed nodes
	- augment - module where the augment is defined
	- deviation - module where the deviation is defined
	- uses - module where the grouping is defined */
	struct lysc_ext_instance ext; /*< extension instance being processed and serving as a source for its substatements
	instead of the module itself */
	struct ly_set groupings; /*< stack for groupings circular check /
	struct ly_set tpdf_chain; /*< stack for typedefs circular check /
	struct ly_set augs; /*< set of compiled non-applied top-level augments (stored ::lysc_augment ) */
	struct ly_set devs; /*< set of compiled non-applied deviations (stored ::lysc_deviation ) */
	struct ly_set uses_augs; /*< set of compiled non-applied uses augments (stored ::lysc_augment ) */
	struct ly_set uses_rfns; /*< set of compiled non-applied uses refines (stored ::lysc_refine ) */
	struct lys_depset_unres unres; /< dependency set unres sets /
	uint32_t path_len; /*< number of path bytes used /
	uint32_t compile_opts; /*< various @ref scflags. /
	#define LYSC_CTX_BUFSIZE 4078
	char path[LYSC_CTX_BUFSIZE];/*< Path identifying the schema node currently being processed /
	};

	/**
	* @brief Structure for unresolved items that may depend on any implemented module data in the dependency set
	* so their resolution can only be performed after the whole dep set compilation is done.
	*/
	struct lys_depset_unres {
	struct ly_set whens; /*< nodes with when to check /
	struct ly_set musts; /*< set of musts to check /
	struct ly_set leafrefs; /*< to validate target of leafrefs /
	struct ly_set dflts; /*< set of incomplete default values /
	struct ly_set disabled; /*< set of compiled nodes whose if-feature(s) was not satisfied (stored ::lysc_node ) */
	struct ly_set disabled_leafrefs; /*< subset of the lys_depset_unres.disabled to validate target of disabled leafrefs /
	};

	/**
	* @brief Unres structure global for compilation.
	*/
	struct lys_glob_unres {
	struct ly_set dep_sets; /*< set of dependency sets of modules, see ::lys_compile_depset_all() /
	struct ly_set implementing; /**< set of YANG schemas being atomically implemented (compiled); the first added
	module is always the explicitly implemented module, the other ones are dependencies */
	struct ly_set creating; /**< set of YANG schemas being atomically created (parsed); it is a subset of implemented
	and all these modules are freed if any error occurs */
	struct lys_depset_unres ds_unres; /*< unres specific for the current dependency set /
	};

	/**
	* @brief Structure for storing schema nodes with must expressions and local module for each of them.
	*/
	struct lysc_unres_must {
	struct lysc_node node; /< node with the must expression(s) /
	const struct lysp_module local_mods; /< sized array of local modules for must(s) */
	};

	/**
	* @brief Structure for storing leafref node and its local module.
	*/
	struct lysc_unres_leafref {
	struct lysc_node node; /< leaf/leaf-list node with leafref type /
	const struct lysp_module local_mod; /< local module of the leafref type /
	};

	/**
	* @brief Structure for remembering default values of leaves and leaf-lists. They are resolved at schema compilation
	* end when the whole schema tree is available.
	*/
	struct lysc_unres_dflt {
	union {
	struct lysc_node_leaf *leaf;
	struct lysc_node_leaflist *llist;
	};
	struct lysp_qname *dflt;
	struct lysp_qname dflts; /< this is a sized array /
	};

	/**
	* @brief Duplicate string into dictionary
	* @param[in] CTX libyang context of the dictionary.
	* @param[in] ORIG String to duplicate.
	* @param[out] DUP Where to store the result.
	* @param[out] RET Where to store the return code.
	*/
	#define DUP_STRING(CTX, ORIG, DUP, RET) if (ORIG) {RET = lydict_insert(CTX, ORIG, 0, &DUP);}
	#define DUP_STRING_RET(CTX, ORIG, DUP) if (ORIG) {LY_ERR __ret = lydict_insert(CTX, ORIG, 0, &DUP); LY_CHECK_RET(__ret);}
	#define DUP_STRING_GOTO(CTX, ORIG, DUP, RET, GOTO) if (ORIG) {LY_CHECK_GOTO(RET = lydict_insert(CTX, ORIG, 0, &DUP), GOTO);}

	#define DUP_ARRAY(CTX, ORIG_ARRAY, NEW_ARRAY, DUP_FUNC) \
	if (ORIG_ARRAY) { \
	LY_ARRAY_COUNT_TYPE __u; \
	LY_ARRAY_CREATE_RET(CTX, NEW_ARRAY, LY_ARRAY_COUNT(ORIG_ARRAY), LY_EMEM); \
	LY_ARRAY_FOR(ORIG_ARRAY, __u) { \
	LY_ARRAY_INCREMENT(NEW_ARRAY); \
	LY_CHECK_RET(DUP_FUNC(CTX, &(NEW_ARRAY)[__u], &(ORIG_ARRAY)[__u])); \
	} \
	}

	#define COMPILE_OP_ARRAY_GOTO(CTX, ARRAY_P, ARRAY_C, PARENT, FUNC, USES_STATUS, RET, GOTO) \
	if (ARRAY_P) { \
	LY_ARRAY_COUNT_TYPE __u = (ARRAY_C) ? LY_ARRAY_COUNT(ARRAY_C) : 0; \
	LY_ARRAY_CREATE_GOTO((CTX)->ctx, ARRAY_C, __u + LY_ARRAY_COUNT(ARRAY_P), RET, GOTO); \
	LY_ARRAY_FOR(ARRAY_P, __u) { \
	LY_ARRAY_INCREMENT(ARRAY_C); \
	RET = FUNC(CTX, &(ARRAY_P)[__u], PARENT, &(ARRAY_C)[LY_ARRAY_COUNT(ARRAY_C) - 1], USES_STATUS); \
	if (RET == LY_EDENIED) { \
	LY_ARRAY_DECREMENT(ARRAY_C); \
	RET = LY_SUCCESS; \
	} else if (RET) { \
	goto GOTO; \
	} \
	} \
	}

	#define COMPILE_ARRAY_GOTO(CTX, ARRAY_P, ARRAY_C, FUNC, RET, GOTO) \
	if (ARRAY_P) { \
	LY_ARRAY_COUNT_TYPE __u = (ARRAY_C) ? LY_ARRAY_COUNT(ARRAY_C) : 0; \
	LY_ARRAY_CREATE_GOTO((CTX)->ctx, ARRAY_C, __u + LY_ARRAY_COUNT(ARRAY_P), RET, GOTO); \
	LY_ARRAY_FOR(ARRAY_P, __u) { \
	LY_ARRAY_INCREMENT(ARRAY_C); \
	RET = FUNC(CTX, &(ARRAY_P)[__u], &(ARRAY_C)[LY_ARRAY_COUNT(ARRAY_C) - 1]); \
	LY_CHECK_GOTO(RET, GOTO); \
	} \
	}

	#define COMPILE_EXTS_GOTO(CTX, EXTS_P, EXT_C, PARENT, RET, GOTO) \
	if (EXTS_P) { \
	LY_ARRAY_COUNT_TYPE __u = (EXT_C) ? LY_ARRAY_COUNT(EXT_C) : 0; \
	LY_ARRAY_CREATE_GOTO((CTX)->ctx, EXT_C, __u + LY_ARRAY_COUNT(EXTS_P), RET, GOTO); \
	LY_ARRAY_FOR(EXTS_P, __u) { \
	LY_ARRAY_INCREMENT(EXT_C); \
	RET = lys_compile_ext(CTX, &(EXTS_P)[__u], &(EXT_C)[LY_ARRAY_COUNT(EXT_C) - 1], PARENT, NULL); \
	if (RET == LY_ENOT) { \
	LY_ARRAY_DECREMENT(EXT_C); \
	RET = LY_SUCCESS; \
	} else if (RET) { \
	goto GOTO; \
	} \
	} \
	}

	/**
	* @brief Fill in the prepared compiled extension instance structure according to the parsed extension instance.
	*
	* @param[in] ctx Compilation context.
	* @param[in] ext_p Parsed extension instance.
	* @param[in,out] ext Prepared compiled extension instance.
	* @param[in] parent Extension instance parent.
	* @param[in] ext_mod Optional module with the extension instance extension definition, set only for internal annotations.
	* @return LY_SUCCESS on success.
	* @return LY_ENOT if the extension is disabled and should be ignored.
	* @return LY_ERR on error.
	*/
	LY_ERR lys_compile_ext(struct lysc_ctx ctx, struct lysp_ext_instance ext_p, struct lysc_ext_instance ext, void parent,
	const struct lys_module *ext_mod);

	/**
	* @brief Find and process the referenced base identities from another identity or identityref
	*
	* For bases in identity set backlinks to them from the base identities. For identityref, store
	* the array of pointers to the base identities. So one of the ident or bases parameter must be set
	* to distinguish these two use cases.
	*
	* @param[in] ctx Compile context, not only for logging but also to get the current module to resolve prefixes.
	* @param[in] base_pmod Module where to resolve @p bases_p prefixes.
	* @param[in] bases_p Array of names (including prefix if necessary) of base identities.
	* @param[in] ident Referencing identity to work with, NULL for identityref.
	* @param[in] bases Array of bases of identityref to fill in.
	* @return LY_ERR value.
	*/
	LY_ERR lys_compile_identity_bases(struct lysc_ctx ctx, const struct lysp_module base_pmod, const char **bases_p,
	struct lysc_ident ident, struct lysc_ident **bases);

	/**
	* @brief Perform a complet compilation of identites in a module and all its submodules.
	*
	* @param[in] mod Module to process.
	* @return LY_ERR value.
	*/
	LY_ERR lys_compile_identities(struct lys_module *mod);

	/**
	* @brief Compile schema into a validated schema linking all the references. Must have been implemented before.
	*
	* @param[in] mod Pointer to the 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,out] unres Dep set unres structure to add to.
	* @return LY_SUCCESS on success.
	* @return LY_ERR on error.
	*/
	LY_ERR lys_compile(struct lys_module mod, struct lys_depset_unres unres);

	/**
	* @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 Check parsed expression for any prefixes of unimplemented modules.
	*
	* @param[in] ctx libyang context.
	* @param[in] expr Parsed expression.
	* @param[in] format Prefix format.
	* @param[in] prefix_data Format-specific data (see ::ly_resolve_prefix()).
	* @param[in] implement Whether all the non-implemented modules should are implemented or the first
	* non-implemented module, if any, returned in @p mod_p.
	* @param[in,out] unres Global unres structure of newly implemented modules.
	* @param[out] mod_p Module that is not implemented.
	* @return LY_SUCCESS on success.
	* @return LY_ERECOMPILE if @p implement is set.
	* @return LY_ERR on error.
	*/
	LY_ERR lys_compile_expr_implement(const struct ly_ctx ctx, const struct lyxp_expr expr, LY_VALUE_FORMAT format,
	void prefix_data, ly_bool implement, struct lys_glob_unres unres, const struct lys_module **mod_p);

	/**
	* @brief Compile all flagged modules in a dependency set, recursively if recompilation is needed.
	*
	* Steps taken when adding a new module (::ly_ctx_load_module(), ::lys_parse()):
	*
	* 1) parse module and add it into context with all imports and includes also parsed and in context
	* (::lys_parse_load(), ::lys_parse_in(), lys_parse_localfile() - static)
	* 2) implement it (perform one-time compilation tasks - compile identities and add reference to augment/deviation
	* target modules, implement those as well, ::_lys_set_implemented())
	* 3) create dep set of the module (::lys_unres_dep_sets_create())
	* 4) (re)compile all the modules in the dep set and collect unres (::lys_compile_dep_set_r())
	* 5) resolve unres (lys_compile_unres_depset() - static), new modules may be implemented like in 2) and if
	* require recompilation, free all compiled modules and do 4)
	* 6) all modules that needed to be (re)compiled are now, with all their dependencies
	*
	* What can cause new modules to be implemented when resolving unres in 5):
	* - leafref
	* - when, must
	* - identityref, instance-identifier default value
	* - new implemented module augments, deviations
	*
	* @param[in] ctx libyang context.
	* @param[in,out] unres Global unres to use.
	* @return LY_ERR value.
	*/
	LY_ERR lys_compile_depset_all(struct ly_ctx ctx, struct lys_glob_unres unres);

	/**
	* @brief Implement a single module. Does not actually compile, only marks to_compile!
	*
	* @param[in] mod Module to implement.
	* @param[in] features Features to set, see ::lys_set_features().
	* @param[in,out] unres Global unres to use.
	* @return LY_ERR value.
	*/
	LY_ERR lys_implement(struct lys_module mod, const char features, struct lys_glob_unres unres);

	#endif /* LY_SCHEMA_COMPILE_H_ */