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gerrit.cesnet.cz / github / CESNET / libyang / bf4e4654977d5ad958cc05c402bf4ef4d0edbb34 / . / src / context.c
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/**
* @file context.c
* @author Radek Krejci <rkrejci@cesnet.cz>
* @brief context implementation for libyang
*
* Copyright (c) 2015 CESNET, z.s.p.o.
*
* This source code is licensed under BSD 3-Clause License (the "License").
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* https://opensource.org/licenses/BSD-3-Clause
*/
#define _GNU_SOURCE
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <errno.h>
#include <fcntl.h>
#include "common.h"
#include "context.h"
#include "dict_private.h"
#include "parser.h"
#include "tree_internal.h"
#define YANG_FAKEMODULE_PATH "../models/yang@2016-02-11.h"
#define IETF_INET_TYPES_PATH "../models/ietf-inet-types@2013-07-15.h"
#define IETF_YANG_TYPES_PATH "../models/ietf-yang-types@2013-07-15.h"
#define IETF_YANG_LIB_PATH "../models/ietf-yang-library@2016-06-21.h"
#define IETF_YANG_LIB_REV "2016-06-21"
#include YANG_FAKEMODULE_PATH
#include IETF_INET_TYPES_PATH
#include IETF_YANG_TYPES_PATH
#include IETF_YANG_LIB_PATH
#define INTERNAL_MODULES_COUNT 4
static struct internal_modules_s {
const char *name;
const char *revision;
const char *data;
uint8_t implemented;
LYS_INFORMAT format;
} internal_modules[INTERNAL_MODULES_COUNT] = {
{"yang", "2016-02-11", (const char*)yang_2016_02_11_yin, 1, LYS_IN_YIN},
{"ietf-inet-types", "2013-07-15", (const char*)ietf_inet_types_2013_07_15_yin, 0, LYS_IN_YIN},
{"ietf-yang-types", "2013-07-15", (const char*)ietf_yang_types_2013_07_15_yin, 0, LYS_IN_YIN},
{"ietf-yang-library", "2016-06-21", (const char*)ietf_yang_library_2016_06_21_yin, 1, LYS_IN_YIN}
};
API struct ly_ctx *
ly_ctx_new(const char *search_dir)
{
struct ly_ctx *ctx;
struct lys_module *module;
char *cwd;
int i;
ctx = calloc(1, sizeof *ctx);
if (!ctx) {
LOGMEM;
return NULL;
}
/* dictionary */
lydict_init(&ctx->dict);
/* models list */
ctx->models.list = calloc(16, sizeof *ctx->models.list);
if (!ctx->models.list) {
LOGMEM;
free(ctx);
return NULL;
}
ctx->models.used = 0;
ctx->models.size = 16;
if (search_dir) {
cwd = get_current_dir_name();
if (chdir(search_dir)) {
LOGERR(LY_ESYS, "Unable to use search directory \"%s\" (%s)",
search_dir, strerror(errno));
free(cwd);
ly_ctx_destroy(ctx, NULL);
return NULL;
}
ctx->models.search_path = get_current_dir_name();
if (chdir(cwd)) {
LOGWRN("Unable to return back to working directory \"%s\" (%s)",
cwd, strerror(errno));
}
free(cwd);
}
ctx->models.module_set_id = 1;
/* load internal modules */
for (i = 0; i < INTERNAL_MODULES_COUNT; i++) {
module = (struct lys_module *)lys_parse_mem(ctx, internal_modules[i].data, internal_modules[i].format);
if (!module) {
ly_ctx_destroy(ctx, NULL);
return NULL;
}
module->implemented = internal_modules[i].implemented;
}
return ctx;
}
API void
ly_ctx_set_searchdir(struct ly_ctx *ctx, const char *search_dir)
{
char *cwd;
if (!ctx) {
return;
}
if (search_dir) {
cwd = get_current_dir_name();
if (chdir(search_dir)) {
LOGERR(LY_ESYS, "Unable to use search directory \"%s\" (%s)",
search_dir, strerror(errno));
free(cwd);
return;
}
free(ctx->models.search_path);
ctx->models.search_path = get_current_dir_name();
if (chdir(cwd)) {
LOGWRN("Unable to return back to working directory \"%s\" (%s)",
cwd, strerror(errno));
}
free(cwd);
} else {
free(ctx->models.search_path);
ctx->models.search_path = NULL;
}
}
API const char *
ly_ctx_get_searchdir(const struct ly_ctx *ctx)
{
return ctx->models.search_path;
}
API void
ly_ctx_destroy(struct ly_ctx *ctx, void (*private_destructor)(const struct lys_node *node, void *priv))
{
int i;
if (!ctx) {
return;
}
/* models list */
for (i = 0; i < ctx->models.used; ++i) {
lys_free(ctx->models.list[i], private_destructor, 0);
}
free(ctx->models.search_path);
free(ctx->models.list);
/* dictionary */
lydict_clean(&ctx->dict);
free(ctx);
}
API const struct lys_submodule *
ly_ctx_get_submodule2(const struct lys_module *main_module, const char *submodule)
{
struct lys_submodule *result;
int i;
if (!main_module || !submodule) {
ly_errno = LY_EINVAL;
return NULL;
}
/* search in submodules list */
for (i = 0; i < main_module->inc_size; i++) {
result = main_module->inc[i].submodule;
if (result && ly_strequal(submodule, result->name, 0)) {
return result;
}
}
return NULL;
}
API const struct lys_submodule *
ly_ctx_get_submodule(const struct ly_ctx *ctx, const char *module, const char *revision, const char *submodule,
const char *sub_revision)
{
const struct lys_module *mainmod;
const struct lys_submodule *ret = NULL, *submod;
uint32_t idx = 0;
if (!ctx || !submodule || (revision && !module)) {
ly_errno = LY_EINVAL;
return NULL;
}
while ((mainmod = ly_ctx_get_module_iter(ctx, &idx))) {
if (module && strcmp(mainmod->name, module)) {
/* main module name does not match */
continue;
}
if (revision && (!mainmod->rev || strcmp(revision, mainmod->rev[0].date))) {
/* main module revision does not match */
continue;
}
submod = ly_ctx_get_submodule2(mainmod, submodule);
if (!submod) {
continue;
}
if (!sub_revision) {
/* store only if newer */
if (ret) {
if (submod->rev && (!ret->rev || (strcmp(submod->rev[0].date, ret->rev[0].date) > 0))) {
ret = submod;
}
} else {
ret = submod;
}
} else {
/* store only if revision matches, we are done if it does */
if (!submod->rev) {
continue;
} else if (!strcmp(sub_revision, submod->rev[0].date)) {
ret = submod;
break;
}
}
}
return ret;
}
static const struct lys_module *
ly_ctx_get_module_by(const struct ly_ctx *ctx, const char *key, int offset, const char *revision)
{
int i;
struct lys_module *result = NULL;
if (!ctx || !key) {
ly_errno = LY_EINVAL;
return NULL;
}
for (i = 0; i < ctx->models.used; i++) {
/* use offset to get address of the pointer to string (char**), remember that offset is in
* bytes, so we have to cast the pointer to the module to (char*), finally, we want to have
* string not the pointer to string
*/
if (!ctx->models.list[i] || strcmp(key, *(char**)(((char*)ctx->models.list[i]) + offset))) {
continue;
}
if (!revision) {
/* compare revisons and remember the newest one */
if (result) {
if (!ctx->models.list[i]->rev_size) {
/* the current have no revision, keep the previous with some revision */
continue;
}
if (result->rev_size && strcmp(ctx->models.list[i]->rev[0].date, result->rev[0].date) < 0) {
/* the previous found matching module has a newer revision */
continue;
}
}
/* remember the current match and search for newer version */
result = ctx->models.list[i];
} else {
if (ctx->models.list[i]->rev_size && !strcmp(revision, ctx->models.list[i]->rev[0].date)) {
/* matching revision */
result = ctx->models.list[i];
break;
}
}
}
return result;
}
API const struct lys_module *
ly_ctx_get_module_by_ns(const struct ly_ctx *ctx, const char *ns, const char *revision)
{
return ly_ctx_get_module_by(ctx, ns, offsetof(struct lys_module, ns), revision);
}
API const struct lys_module *
ly_ctx_get_module(const struct ly_ctx *ctx, const char *name, const char *revision)
{
return ly_ctx_get_module_by(ctx, name, offsetof(struct lys_module, name), revision);
}
API const struct lys_module *
ly_ctx_get_module_older(const struct ly_ctx *ctx, const struct lys_module *module)
{
int i;
const struct lys_module *result = NULL, *iter;
if (!ctx || !module || !module->rev_size) {
ly_errno = LY_EINVAL;
return NULL;
}
for (i = 0; i < ctx->models.used; i++) {
iter = ctx->models.list[i];
if (iter == module || !iter->rev_size) {
/* iter is the module itself or iter has no revision */
continue;
}
if (!ly_strequal(module->name, iter->name, 0)) {
/* different module */
continue;
}
if (strcmp(iter->rev[0].date, module->rev[0].date) < 0) {
/* iter is older than module */
if (result) {
if (strcmp(iter->rev[0].date, result->rev[0].date) > 0) {
/* iter is newer than current result */
result = iter;
}
} else {
result = iter;
}
}
}
return result;
}
API void
ly_ctx_set_module_clb(struct ly_ctx *ctx, ly_module_clb clb, void *user_data)
{
ctx->module_clb = clb;
ctx->module_clb_data = user_data;
}
API ly_module_clb
ly_ctx_get_module_clb(const struct ly_ctx *ctx, void **user_data)
{
if (user_data) {
*user_data = ctx->module_clb_data;
}
return ctx->module_clb;
}
const struct lys_module *
ly_ctx_load_sub_module(struct ly_ctx *ctx, struct lys_module *module, const char *name, const char *revision,
int implement, struct unres_schema *unres)
{
const struct lys_module *mod;
char *module_data;
int i;
void (*module_data_free)(void *module_data) = NULL;
LYS_INFORMAT format = LYS_IN_UNKNOWN;
if (!module) {
/* exception for internal modules */
for (i = 0; i < INTERNAL_MODULES_COUNT; i++) {
if (ly_strequal(name, internal_modules[i].name, 0)) {
if (!revision || ly_strequal(revision, internal_modules[i].revision, 0)) {
/* return internal module */
return (struct lys_module *)ly_ctx_get_module(ctx, name, revision);
}
}
}
if (revision) {
/* try to get the schema with the specific revision from the context */
mod = ly_ctx_get_module(ctx, name, revision);
if (mod) {
/* we get such a module, make it implemented */
if (lys_set_implemented(mod)) {
/* the schema cannot be implemented */
mod = NULL;
}
return mod;
}
}
} else {
/* searching for submodule, try if it is already loaded */
mod = (struct lys_module *)ly_ctx_get_submodule2(module, name);
if (mod) {
if (!revision || (mod->rev_size && ly_strequal(mod->rev[0].date, revision, 0))) {
/* success */
return mod;
} else {
/* there is already another revision of the submodule */
LOGVAL(LYE_INARG, LY_VLOG_NONE, NULL, mod->rev[0].date, "revision");
LOGVAL(LYE_SPEC, LY_VLOG_NONE, NULL, "Multiple revisions of a submodule included.");
return NULL;
}
}
}
if (ctx->module_clb) {
if (module) {
mod = lys_main_module(module);
module_data = ctx->module_clb(mod->name, (mod->rev_size ? mod->rev[0].date : NULL), name, revision, ctx->module_clb_data, &format, &module_data_free);
} else {
module_data = ctx->module_clb(name, revision, NULL, NULL, ctx->module_clb_data, &format, &module_data_free);
}
if (!module_data) {
if (module || revision) {
/* we already know that the specified revision is not present in context, and we have no other
* option in case of submodules */
LOGERR(LY_ESYS, "User module retrieval callback failed!");
return NULL;
} else {
/* get the newest revision from the context */
return ly_ctx_get_module(ctx, name, revision);
}
}
if (module) {
mod = (struct lys_module *)lys_submodule_parse(module, module_data, format, unres);
} else {
mod = (struct lys_module *)lys_parse_mem(ctx, module_data, format);
}
if (module_data_free) {
module_data_free(module_data);
}
} else {
mod = lyp_search_file(ctx, module, name, revision, implement, unres);
}
return mod;
}
API const struct lys_module *
ly_ctx_load_module(struct ly_ctx *ctx, const char *name, const char *revision)
{
if (!ctx || !name) {
ly_errno = LY_EINVAL;
return NULL;
}
return ly_ctx_load_sub_module(ctx, NULL, name, revision, 1, NULL);
}
/*
* mods - set of removed modules, if NULL all modules are supposed to be removed so any backlink is invalid
*/
static int
ctx_modules_maintain_backlinks(struct ly_ctx *ctx, struct ly_set *mods)
{
int o;
uint8_t j;
unsigned int u, v;
struct lys_module *mod;
struct lys_node *elem, *next;
struct lys_node_leaf *leaf;
/* maintain backlinks (start with internal ietf-yang-library which have leafs as possible targets of leafrefs */
for (o = INTERNAL_MODULES_COUNT - 1; o < ctx->models.used; o++) {
mod = ctx->models.list[o]; /* shortcut */
/* 1) features */
for (j = 0; j < mod->features_size; j++) {
if (!mod->features[j].depfeatures) {
continue;
}
for (v = 0; v < mod->features[j].depfeatures->number; v++) {
if (!mods || ly_set_contains(mods, ((struct lys_feature *)mod->features[j].depfeatures->set.g[v])->module) != -1) {
/* depending feature is in module to remove */
ly_set_rm_index(mod->features[j].depfeatures, v);
v--;
}
}
if (!mod->features[j].depfeatures->number) {
/* all backlinks removed */
ly_set_free(mod->features[j].depfeatures);
mod->features[j].depfeatures = NULL;
}
}
/* identities */
for (u = 0; u < mod->ident_size; u++) {
if (!mod->ident[u].der) {
continue;
}
for (v = 0; v < mod->ident[u].der->number; v++) {
if (!mods || ly_set_contains(mods, ((struct lys_ident *)mod->ident[u].der->set.g[v])->module) != -1) {
/* derived identity is in module to remove */
ly_set_rm_index(mod->ident[u].der, v);
v--;
}
}
if (!mod->ident[u].der->number) {
/* all backlinks removed */
ly_set_free(mod->ident[u].der);
mod->ident[u].der = NULL;
}
}
/* leafrefs */
for (elem = next = mod->data; elem; elem = next) {
if (elem->nodetype & (LYS_LEAF | LYS_LEAFLIST)) {
leaf = (struct lys_node_leaf *)elem; /* shortcut */
if (leaf->backlinks) {
if (!mods) {
/* remove all backlinks */
ly_set_free(leaf->backlinks);
leaf->backlinks = NULL;
} else {
for (v = 0; v < leaf->backlinks->number; v++) {
if (ly_set_contains(mods, leaf->backlinks->set.s[v]->module) != -1) {
/* derived identity is in module to remove */
ly_set_rm_index(leaf->backlinks, v);
v--;
}
}
if (!leaf->backlinks->number) {
/* all backlinks removed */
ly_set_free(leaf->backlinks);
leaf->backlinks = NULL;
}
}
}
}
/* select next element to process */
next = elem->child;
/* child exception for leafs, leaflists, anyxml and groupings */
if (elem->nodetype & (LYS_LEAF | LYS_LEAFLIST | LYS_ANYDATA | LYS_GROUPING)) {
next = NULL;
}
if (!next) {
/* no children, try siblings */
next = elem->next;
}
while (!next) {
/* parent is already processed, go to its sibling */
elem = lys_parent(elem);
if (!elem) {
/* we are done, no next element to process */
break;
}
/* no siblings, go back through parents */
next = elem->next;
}
}
}
return EXIT_SUCCESS;
}
API int
ly_ctx_remove_module(struct ly_ctx *ctx, const char *name, const char *revision,
void (*private_destructor)(const struct lys_node *node, void *priv))
{
struct lys_module *mod = NULL;
struct ly_set *mods;
uint8_t j, imported;
int i, o;
unsigned int u;
if (!ctx || !name) {
ly_errno = LY_EINVAL;
return EXIT_FAILURE;
}
/* get the module */
mod = (struct lys_module *)ly_ctx_get_module(ctx, name, revision);
if (!mod) {
ly_errno = LY_EINVAL;
return EXIT_FAILURE;
}
/* avoid removing internal modules ... */
for (i = 0; i < INTERNAL_MODULES_COUNT; i++) {
if (mod == ctx->models.list[i]) {
LOGERR(LY_EINVAL, "Internal module \"%s\" cannot be removed.", name);
return EXIT_FAILURE;
}
}
/* ... and hide the module from the further processing of the context modules list */
for (i = INTERNAL_MODULES_COUNT; i < ctx->models.used; i++) {
if (mod == ctx->models.list[i]) {
ctx->models.list[i] = NULL;
break;
}
}
/* get the complete list of modules to remove because of dependencies,
* we are going also to remove all the imported (not implemented) modules
* that are not used in any other module */
mods = ly_set_new();
ly_set_add(mods, mod, 0);
checkdependency:
for (i = INTERNAL_MODULES_COUNT; i < ctx->models.used; i++) {
mod = ctx->models.list[i]; /* shortcut */
if (!mod) {
/* skip modules already selected for removing */
continue;
}
/* check depndency of imported modules */
for (j = 0; j < mod->imp_size; j++) {
for (u = 0; u < mods->number; u++) {
if (mod->imp[j].module == mods->set.g[u]) {
/* module is importing some module to remove, so it must be also removed */
ly_set_add(mods, mod, 0);
ctx->models.list[i] = NULL;
/* we have to start again because some of the already checked modules can
* depend on the one we have just decided to remove */
goto checkdependency;
}
}
}
/* check if the imported module is used in any module supposed to be kept */
if (!mod->implemented) {
imported = 0;
for (o = INTERNAL_MODULES_COUNT; o < ctx->models.used; o++) {
if (!ctx->models.list[o]) {
/* skip modules already selected for removing */
continue;
}
for (j = 0; j < ctx->models.list[o]->imp_size; j++) {
if (ctx->models.list[o]->imp[j].module == mod) {
/* the module is used in some other module not yet selected to be deleted */
imported = 1;
goto imported;
}
}
}
imported:
if (!imported) {
/* module is not implemented and neither imported by any other module in context
* which is supposed to be kept after this operation, so we are going to remove also
* this useless module */
ly_set_add(mods, mod, 0);
ctx->models.list[i] = NULL;
/* we have to start again, this time not because other module can depend on this one
* (we know that there is no such module), but because the module can have import
* that could became useless. If there are no imports, we can continue */
if (mod->imp_size) {
goto checkdependency;
}
}
}
}
/* consolidate the modules list */
for (i = o = INTERNAL_MODULES_COUNT; i < ctx->models.used; i++) {
if (ctx->models.list[o]) {
/* used cell */
o++;
} else {
/* the current output cell is empty, move here an input cell */
ctx->models.list[o] = ctx->models.list[i];
ctx->models.list[i] = NULL;
}
}
/* get the last used cell to get know the number of used */
while (!ctx->models.list[o]) {
o--;
}
ctx->models.used = o + 1;
ctx->models.module_set_id++;
/* maintain backlinks (start with internal ietf-yang-library which have leafs as possible targets of leafrefs */
ctx_modules_maintain_backlinks(ctx, mods);
/* free the modules */
for (u = 0; u < mods->number; u++) {
/* remove the module */
lys_free((struct lys_module *)mods->set.g[u], private_destructor, 0);
}
ly_set_free(mods);
return EXIT_SUCCESS;
}
API void
ly_ctx_clean(struct ly_ctx *ctx, void (*private_destructor)(const struct lys_node *node, void *priv))
{
int i;
if (!ctx) {
return;
}
/* models list */
for (i = INTERNAL_MODULES_COUNT; i < ctx->models.used; ++i) {
lys_free(ctx->models.list[i], private_destructor, 0);
ctx->models.list[i] = NULL;
}
ctx->models.used = INTERNAL_MODULES_COUNT;
ctx->models.module_set_id++;
/* maintain backlinks (actually done only with ietf-yang-library since its leafs cna be target of leafref) */
ctx_modules_maintain_backlinks(ctx, NULL);
}
API const struct lys_module *
ly_ctx_get_module_iter(const struct ly_ctx *ctx, uint32_t *idx)
{
if (!ctx || !idx) {
ly_errno = LY_EINVAL;
return NULL;
}
if (*idx >= (unsigned)ctx->models.used) {
return NULL;
}
return ctx->models.list[(*idx)++];
}
static int
ylib_feature(struct lyd_node *parent, struct lys_module *cur_mod)
{
int i, j;
/* module features */
for (i = 0; i < cur_mod->features_size; ++i) {
if (!(cur_mod->features[i].flags & LYS_FENABLED)) {
continue;
}
if (!lyd_new_leaf(parent, NULL, "feature", cur_mod->features[i].name)) {
return EXIT_FAILURE;
}
}
/* submodule features */
for (i = 0; i < cur_mod->inc_size && cur_mod->inc[i].submodule; ++i) {
for (j = 0; j < cur_mod->inc[i].submodule->features_size; ++j) {
if (!(cur_mod->inc[i].submodule->features[j].flags & LYS_FENABLED)) {
continue;
}
if (!lyd_new_leaf(parent, NULL, "feature", cur_mod->inc[i].submodule->features[j].name)) {
return EXIT_FAILURE;
}
}
}
return EXIT_SUCCESS;
}
static int
ylib_deviation(struct lyd_node *parent, struct lys_module *cur_mod)
{
uint32_t i = 0, j;
const struct lys_module *mod;
struct lyd_node *cont;
const char *ptr;
if (cur_mod->deviated) {
while ((mod = ly_ctx_get_module_iter(cur_mod->ctx, &i))) {
if (mod == cur_mod) {
continue;
}
for (j = 0; j < mod->deviation_size; ++j) {
ptr = strstr(mod->deviation[j].target_name, cur_mod->name);
if (ptr && ptr[strlen(cur_mod->name)] == ':') {
cont = lyd_new(parent, NULL, "deviation");
if (!cont) {
return EXIT_FAILURE;
}
if (!lyd_new_leaf(cont, NULL, "name", mod->name)) {
return EXIT_FAILURE;
}
if (!lyd_new_leaf(cont, NULL, "revision", (mod->rev_size ? mod->rev[0].date : ""))) {
return EXIT_FAILURE;
}
break;
}
}
}
}
return EXIT_SUCCESS;
}
static int
ylib_submodules(struct lyd_node *parent, struct lys_module *cur_mod)
{
int i;
char *str;
struct lyd_node *item;
for (i = 0; i < cur_mod->inc_size && cur_mod->inc[i].submodule; ++i) {
item = lyd_new(parent, NULL, "submodule");
if (!item) {
return EXIT_FAILURE;
}
if (!lyd_new_leaf(item, NULL, "name", cur_mod->inc[i].submodule->name)) {
return EXIT_FAILURE;
}
if (!lyd_new_leaf(item, NULL, "revision", (cur_mod->inc[i].submodule->rev_size ?
cur_mod->inc[i].submodule->rev[0].date : ""))) {
return EXIT_FAILURE;
}
if (cur_mod->inc[i].submodule->filepath) {
if (asprintf(&str, "file://%s", cur_mod->inc[i].submodule->filepath) == -1) {
LOGMEM;
return EXIT_FAILURE;
} else if (!lyd_new_leaf(item, NULL, "schema", str)) {
free(str);
return EXIT_FAILURE;
}
free(str);
}
}
return EXIT_SUCCESS;
}
API struct lyd_node *
ly_ctx_info(struct ly_ctx *ctx)
{
int i;
char id[8];
char *str;
const struct lys_module *mod;
struct lyd_node *root, *cont;
if (!ctx) {
ly_errno = LY_EINVAL;
return NULL;
}
mod = ly_ctx_get_module(ctx, "ietf-yang-library", IETF_YANG_LIB_REV);
if (!mod || !mod->data) {
LOGINT;
return NULL;
}
root = lyd_new(NULL, mod, "modules-state");
if (!root) {
return NULL;
}
for (i = 0; i < ctx->models.used; ++i) {
cont = lyd_new(root, NULL, "module");
if (!cont) {
lyd_free(root);
return NULL;
}
if (!lyd_new_leaf(cont, NULL, "name", ctx->models.list[i]->name)) {
lyd_free(root);
return NULL;
}
if (!lyd_new_leaf(cont, NULL, "revision", (ctx->models.list[i]->rev_size ?
ctx->models.list[i]->rev[0].date : ""))) {
lyd_free(root);
return NULL;
}
if (ctx->models.list[i]->filepath) {
if (asprintf(&str, "file://%s", ctx->models.list[i]->filepath) == -1) {
LOGMEM;
lyd_free(root);
return NULL;
} else if (!lyd_new_leaf(cont, NULL, "schema", str)) {
free(str);
lyd_free(root);
return NULL;
}
free(str);
}
if (!lyd_new_leaf(cont, NULL, "namespace", ctx->models.list[i]->ns)) {
lyd_free(root);
return NULL;
}
if (ylib_feature(cont, ctx->models.list[i])) {
lyd_free(root);
return NULL;
}
if (ylib_deviation(cont, ctx->models.list[i])) {
lyd_free(root);
return NULL;
}
if (ctx->models.list[i]->implemented
&& !lyd_new_leaf(cont, NULL, "conformance-type", "implement")) {
lyd_free(root);
return NULL;
}
if (!ctx->models.list[i]->implemented
&& !lyd_new_leaf(cont, NULL, "conformance-type", "import")) {
lyd_free(root);
return NULL;
}
if (ylib_submodules(cont, ctx->models.list[i])) {
lyd_free(root);
return NULL;
}
}
sprintf(id, "%u", ctx->models.module_set_id);
if (!lyd_new_leaf(root, mod, "module-set-id", id)) {
lyd_free(root);
return NULL;
}
if (lyd_validate(&root, LYD_OPT_NOSIBLINGS, NULL)) {
lyd_free(root);
return NULL;
}
return root;
}
API const struct lys_node *
ly_ctx_get_node(struct ly_ctx *ctx, const struct lys_node *start, const char *nodeid)
{
const struct lys_node *node;
if (!ctx || !nodeid || ((nodeid[0] != '/') && !start)) {
ly_errno = LY_EINVAL;
return NULL;
}
/* sets error and everything */
node = resolve_json_nodeid(nodeid, ctx, start);
return node;
}