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gerrit.cesnet.cz / github / CESNET / libyang / 56ca9e45a18bbbaf8ae5b248ea60dfe0a9b07a30 / . / src / tree_schema.c
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/**
* @file tree_schema.c
* @author Radek Krejci <rkrejci@cesnet.cz>
* @brief Schema tree implementation
*
* 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
*/
#define _GNU_SOURCE
#define _POSIX_C_SOURCE 200809L /* strdup */
#include "tree_schema.h"
#include <assert.h>
#include <ctype.h>
#include <dirent.h>
#include <errno.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
#include <unistd.h>
#include "common.h"
#include "compat.h"
#include "context.h"
#include "dict.h"
#include "in.h"
#include "in_internal.h"
#include "log.h"
#include "parser_internal.h"
#include "parser_schema.h"
#include "path.h"
#include "schema_compile.h"
#include "schema_compile_amend.h"
#include "schema_features.h"
#include "set.h"
#include "tree.h"
#include "tree_data.h"
#include "tree_schema_internal.h"
#include "xpath.h"
API LY_ERR
lysc_tree_dfs_full(const struct lysc_node *root, lysc_dfs_clb dfs_clb, void *data)
{
struct lysc_node *elem, *elem2;
const struct lysc_action *acts;
const struct lysc_notif *notifs;
LY_ARRAY_COUNT_TYPE u;
LY_CHECK_ARG_RET(NULL, root, dfs_clb, LY_EINVAL);
LYSC_TREE_DFS_BEGIN(root, elem) {
/* schema node */
LY_CHECK_RET(dfs_clb(elem, data, &LYSC_TREE_DFS_continue));
acts = lysc_node_actions(elem);
LY_ARRAY_FOR(acts, u) {
LYSC_TREE_DFS_BEGIN(&acts[u], elem2) {
/* action subtree */
LY_CHECK_RET(dfs_clb(elem2, data, &LYSC_TREE_DFS_continue));
LYSC_TREE_DFS_END(&acts[u], elem2);
}
}
notifs = lysc_node_notifs(elem);
LY_ARRAY_FOR(notifs, u) {
LYSC_TREE_DFS_BEGIN(&notifs[u], elem2) {
/* notification subtree */
LY_CHECK_RET(dfs_clb(elem2, data, &LYSC_TREE_DFS_continue));
LYSC_TREE_DFS_END(&notifs[u], elem2);
}
}
LYSC_TREE_DFS_END(root, elem);
}
return LY_SUCCESS;
}
API LY_ERR
lysc_module_dfs_full(const struct lys_module *mod, lysc_dfs_clb dfs_clb, void *data)
{
LY_ARRAY_COUNT_TYPE u;
const struct lysc_node *root;
LY_CHECK_ARG_RET(NULL, mod, mod->compiled, dfs_clb, LY_EINVAL);
/* schema nodes */
LY_LIST_FOR(mod->compiled->data, root) {
LY_CHECK_RET(lysc_tree_dfs_full(root, dfs_clb, data));
}
/* RPCs */
LY_ARRAY_FOR(mod->compiled->rpcs, u) {
LY_CHECK_RET(lysc_tree_dfs_full((struct lysc_node *)&mod->compiled->rpcs[u], dfs_clb, data));
}
/* notifications */
LY_ARRAY_FOR(mod->compiled->notifs, u) {
LY_CHECK_RET(lysc_tree_dfs_full((struct lysc_node *)&mod->compiled->notifs[u], dfs_clb, data));
}
return LY_SUCCESS;
}
static void
lys_getnext_into_case(const struct lysc_node_case *first_case, const struct lysc_node **last, const struct lysc_node **next)
{
for ( ; first_case; first_case = (const struct lysc_node_case *)first_case->next) {
if (first_case->child) {
/* there is something to return */
(*next) = first_case->child;
return;
}
}
/* no children in choice's cases, so go to the choice's sibling instead of into it */
(*last) = (*next);
(*next) = (*next)->next;
}
API const struct lysc_node *
lys_getnext(const struct lysc_node *last, const struct lysc_node *parent, const struct lysc_module *module, uint32_t options)
{
const struct lysc_node *next = NULL;
struct lysc_node **snode;
ly_bool action_flag = 0, notif_flag = 0;
const struct lysc_action *actions;
const struct lysc_notif *notifs;
LY_ARRAY_COUNT_TYPE u;
LY_CHECK_ARG_RET(NULL, parent || module, NULL);
next:
if (!last) {
/* first call */
/* get know where to start */
if (parent) {
/* schema subtree */
if ((parent->nodetype == LYS_CHOICE) && (options & LYS_GETNEXT_WITHCASE)) {
if (((struct lysc_node_choice *)parent)->cases) {
next = last = (const struct lysc_node *)((struct lysc_node_choice *)parent)->cases;
}
} else {
snode = lysc_node_children_p(parent, (options & LYS_GETNEXT_OUTPUT) ? LYS_CONFIG_R : LYS_CONFIG_W);
/* do not return anything if the node does not have any children */
if (snode && *snode) {
next = last = *snode;
}
}
} else {
/* top level data */
next = last = module->data;
}
if (!next) {
/* try to get action or notification */
goto repeat;
}
/* test if the next can be returned */
goto check;
} else if (last->nodetype & (LYS_RPC | LYS_ACTION)) {
action_flag = 1;
if (last->parent) {
actions = lysc_node_actions(last->parent);
} else {
actions = module->rpcs;
}
LY_ARRAY_FOR(actions, u) {
if (&actions[u] == (struct lysc_action *)last) {
break;
}
}
if (u + 1 < LY_ARRAY_COUNT(actions)) {
next = (struct lysc_node *)(&actions[u + 1]);
}
goto repeat;
} else if (last->nodetype == LYS_NOTIF) {
action_flag = notif_flag = 1;
if (last->parent) {
notifs = lysc_node_notifs(last->parent);
} else {
notifs = module->notifs;
}
LY_ARRAY_FOR(notifs, u) {
if (&notifs[u] == (struct lysc_notif *)last) {
break;
}
}
if (u + 1 < LY_ARRAY_COUNT(notifs)) {
next = (struct lysc_node *)(&notifs[u + 1]);
}
goto repeat;
} else {
next = last->next;
}
repeat:
if (!next) {
/* possibly go back to parent */
if (last && (last->parent != parent)) {
last = last->parent;
goto next;
} else if (!action_flag) {
action_flag = 1;
next = parent ? (struct lysc_node *)lysc_node_actions(parent) : (struct lysc_node *)module->rpcs;
} else if (!notif_flag) {
notif_flag = 1;
next = parent ? (struct lysc_node *)lysc_node_notifs(parent) : (struct lysc_node *)module->notifs;
} else {
return NULL;
}
goto repeat;
}
check:
switch (next->nodetype) {
case LYS_RPC:
case LYS_ACTION:
case LYS_NOTIF:
case LYS_LEAF:
case LYS_ANYXML:
case LYS_ANYDATA:
case LYS_LIST:
case LYS_LEAFLIST:
break;
case LYS_CASE:
if (options & LYS_GETNEXT_WITHCASE) {
break;
} else {
/* go into */
lys_getnext_into_case((const struct lysc_node_case *)next, &last, &next);
}
goto repeat;
case LYS_CONTAINER:
if (!(((struct lysc_node_container *)next)->flags & LYS_PRESENCE) && (options & LYS_GETNEXT_INTONPCONT)) {
if (((struct lysc_node_container *)next)->child) {
/* go into */
next = ((struct lysc_node_container *)next)->child;
} else {
last = next;
next = next->next;
}
goto repeat;
}
break;
case LYS_CHOICE:
if (options & LYS_GETNEXT_WITHCHOICE) {
break;
} else if ((options & LYS_GETNEXT_NOCHOICE) || !((struct lysc_node_choice *)next)->cases) {
next = next->next;
} else {
if (options & LYS_GETNEXT_WITHCASE) {
next = (struct lysc_node *)((struct lysc_node_choice *)next)->cases;
} else {
/* go into */
lys_getnext_into_case(((struct lysc_node_choice *)next)->cases, &last, &next);
}
}
goto repeat;
default:
/* we should not be here */
LOGINT(module ? module->mod->ctx : parent->module->ctx);
return NULL;
}
return next;
}
API const struct lysc_node *
lys_find_child(const struct lysc_node *parent, const struct lys_module *module, const char *name, size_t name_len,
uint16_t nodetype, uint32_t options)
{
const struct lysc_node *node = NULL;
LY_CHECK_ARG_RET(NULL, module, name, NULL);
if (!nodetype) {
nodetype = LYS_NODETYPE_MASK;
}
while ((node = lys_getnext(node, parent, module->compiled, options))) {
if (!(node->nodetype & nodetype)) {
continue;
}
if (node->module != module) {
continue;
}
if (name_len) {
if (!ly_strncmp(node->name, name, name_len)) {
return node;
}
} else {
if (!strcmp(node->name, name)) {
return node;
}
}
}
return NULL;
}
API LY_ERR
lys_find_xpath_atoms(const struct lysc_node *ctx_node, const char *xpath, uint32_t options, struct ly_set **set)
{
LY_ERR ret = LY_SUCCESS;
struct lyxp_set xp_set;
struct lyxp_expr *exp = NULL;
uint32_t i;
LY_CHECK_ARG_RET(NULL, ctx_node, xpath, set, LY_EINVAL);
if (!(options & LYXP_SCNODE_ALL)) {
options = LYXP_SCNODE;
}
memset(&xp_set, 0, sizeof xp_set);
/* compile expression */
ret = lyxp_expr_parse(ctx_node->module->ctx, xpath, 0, 1, &exp);
LY_CHECK_GOTO(ret, cleanup);
/* atomize expression */
ret = lyxp_atomize(exp, NULL, LY_PREF_JSON, NULL, ctx_node, &xp_set, options);
LY_CHECK_GOTO(ret, cleanup);
/* allocate return set */
ret = ly_set_new(set);
LY_CHECK_GOTO(ret, cleanup);
/* transform into ly_set */
(*set)->objs = malloc(xp_set.used * sizeof *(*set)->objs);
LY_CHECK_ERR_GOTO(!(*set)->objs, LOGMEM(ctx_node->module->ctx); ret = LY_EMEM, cleanup);
(*set)->size = xp_set.used;
for (i = 0; i < xp_set.used; ++i) {
if (xp_set.val.scnodes[i].type == LYXP_NODE_ELEM) {
ret = ly_set_add(*set, xp_set.val.scnodes[i].scnode, 1, NULL);
LY_CHECK_GOTO(ret, cleanup);
}
}
cleanup:
lyxp_set_free_content(&xp_set);
lyxp_expr_free(ctx_node->module->ctx, exp);
return ret;
}
API LY_ERR
lys_find_expr_atoms(const struct lysc_node *ctx_node, const struct lys_module *cur_mod, const struct lyxp_expr *expr,
const struct lysc_prefix *prefixes, uint32_t options, struct ly_set **set)
{
LY_ERR ret = LY_SUCCESS;
struct lyxp_set xp_set = {0};
uint32_t i;
LY_CHECK_ARG_RET(NULL, cur_mod, expr, prefixes, set, LY_EINVAL);
if (!(options & LYXP_SCNODE_ALL)) {
options = LYXP_SCNODE;
}
/* atomize expression */
ret = lyxp_atomize(expr, cur_mod, LY_PREF_SCHEMA_RESOLVED, (void *)prefixes, ctx_node, &xp_set, options);
LY_CHECK_GOTO(ret, cleanup);
/* allocate return set */
ret = ly_set_new(set);
LY_CHECK_GOTO(ret, cleanup);
/* transform into ly_set */
(*set)->objs = malloc(xp_set.used * sizeof *(*set)->objs);
LY_CHECK_ERR_GOTO(!(*set)->objs, LOGMEM(cur_mod->ctx); ret = LY_EMEM, cleanup);
(*set)->size = xp_set.used;
for (i = 0; i < xp_set.used; ++i) {
if ((xp_set.val.scnodes[i].type == LYXP_NODE_ELEM) && (xp_set.val.scnodes[i].in_ctx == LYXP_SET_SCNODE_ATOM_CTX)) {
ret = ly_set_add(*set, xp_set.val.scnodes[i].scnode, 1, NULL);
LY_CHECK_GOTO(ret, cleanup);
}
}
cleanup:
lyxp_set_free_content(&xp_set);
if (ret) {
ly_set_free(*set, NULL);
*set = NULL;
}
return ret;
}
API LY_ERR
lys_find_xpath(const struct lysc_node *ctx_node, const char *xpath, uint32_t options, struct ly_set **set)
{
LY_ERR ret = LY_SUCCESS;
struct lyxp_set xp_set = {0};
struct lyxp_expr *exp = NULL;
uint32_t i;
LY_CHECK_ARG_RET(NULL, ctx_node, xpath, set, LY_EINVAL);
if (!(options & LYXP_SCNODE_ALL)) {
options = LYXP_SCNODE;
}
/* compile expression */
ret = lyxp_expr_parse(ctx_node->module->ctx, xpath, 0, 1, &exp);
LY_CHECK_GOTO(ret, cleanup);
/* atomize expression */
ret = lyxp_atomize(exp, NULL, LY_PREF_JSON, NULL, ctx_node, &xp_set, options);
LY_CHECK_GOTO(ret, cleanup);
/* allocate return set */
ret = ly_set_new(set);
LY_CHECK_GOTO(ret, cleanup);
/* transform into ly_set */
(*set)->objs = malloc(xp_set.used * sizeof *(*set)->objs);
LY_CHECK_ERR_GOTO(!(*set)->objs, LOGMEM(ctx_node->module->ctx); ret = LY_EMEM, cleanup);
(*set)->size = xp_set.used;
for (i = 0; i < xp_set.used; ++i) {
if ((xp_set.val.scnodes[i].type == LYXP_NODE_ELEM) && (xp_set.val.scnodes[i].in_ctx == LYXP_SET_SCNODE_ATOM_CTX)) {
ret = ly_set_add(*set, xp_set.val.scnodes[i].scnode, 1, NULL);
LY_CHECK_GOTO(ret, cleanup);
}
}
cleanup:
lyxp_set_free_content(&xp_set);
lyxp_expr_free(ctx_node->module->ctx, exp);
if (ret) {
ly_set_free(*set, NULL);
*set = NULL;
}
return ret;
}
API LY_ERR
lys_find_lypath_atoms(const struct ly_path *path, struct ly_set **set)
{
LY_ERR ret = LY_SUCCESS;
LY_ARRAY_COUNT_TYPE u, v;
LY_CHECK_ARG_RET(NULL, path, set, LY_EINVAL);
/* allocate return set */
LY_CHECK_RET(ly_set_new(set));
LY_ARRAY_FOR(path, u) {
/* add nodes from the path */
LY_CHECK_GOTO(ret = ly_set_add(*set, (void *)path[u].node, 0, NULL), cleanup);
if (path[u].pred_type == LY_PATH_PREDTYPE_LIST) {
LY_ARRAY_FOR(path[u].predicates, v) {
/* add all the keys in a predicate */
LY_CHECK_GOTO(ret = ly_set_add(*set, (void *)path[u].predicates[v].key, 0, NULL), cleanup);
}
}
}
cleanup:
if (ret) {
ly_set_free(*set, NULL);
*set = NULL;
}
return ret;
}
API LY_ERR
lys_find_path_atoms(const struct ly_ctx *ctx, const struct lysc_node *ctx_node, const char *path, ly_bool output,
struct ly_set **set)
{
LY_ERR ret = LY_SUCCESS;
uint8_t oper;
struct lyxp_expr *expr = NULL;
struct ly_path *p = NULL;
LY_CHECK_ARG_RET(ctx, ctx || ctx_node, path, set, LY_EINVAL);
if (!ctx) {
ctx = ctx_node->module->ctx;
}
/* parse */
ret = lyxp_expr_parse(ctx, path, strlen(path), 0, &expr);
LY_CHECK_GOTO(ret, cleanup);
/* compile */
oper = output ? LY_PATH_OPER_OUTPUT : LY_PATH_OPER_INPUT;
ret = ly_path_compile(ctx, NULL, ctx_node, expr, LY_PATH_LREF_FALSE, oper, LY_PATH_TARGET_MANY,
LY_PREF_JSON, NULL, NULL, &p);
LY_CHECK_GOTO(ret, cleanup);
/* resolve */
ret = lys_find_lypath_atoms(p, set);
cleanup:
ly_path_free(ctx, p);
lyxp_expr_free(ctx, expr);
return ret;
}
API const struct lysc_node *
lys_find_path(const struct ly_ctx *ctx, const struct lysc_node *ctx_node, const char *path, ly_bool output)
{
const struct lysc_node *snode = NULL;
struct lyxp_expr *exp = NULL;
struct ly_path *p = NULL;
LY_ERR ret;
uint8_t oper;
LY_CHECK_ARG_RET(ctx, ctx || ctx_node, NULL);
if (!ctx) {
ctx = ctx_node->module->ctx;
}
/* parse */
ret = lyxp_expr_parse(ctx, path, strlen(path), 0, &exp);
LY_CHECK_GOTO(ret, cleanup);
/* compile */
oper = output ? LY_PATH_OPER_OUTPUT : LY_PATH_OPER_INPUT;
ret = ly_path_compile(ctx, NULL, ctx_node, exp, LY_PATH_LREF_FALSE, oper, LY_PATH_TARGET_MANY,
LY_PREF_JSON, NULL, NULL, &p);
LY_CHECK_GOTO(ret, cleanup);
/* get last node */
snode = p[LY_ARRAY_COUNT(p) - 1].node;
cleanup:
ly_path_free(ctx, p);
lyxp_expr_free(ctx, exp);
return snode;
}
char *
lysc_path_until(const struct lysc_node *node, const struct lysc_node *parent, LYSC_PATH_TYPE pathtype, char *buffer,
size_t buflen)
{
const struct lysc_node *iter;
char *path = NULL;
int len = 0;
LY_CHECK_ARG_RET(NULL, node, NULL);
if (buffer) {
LY_CHECK_ARG_RET(node->module->ctx, buflen > 1, NULL);
}
switch (pathtype) {
case LYSC_PATH_LOG:
case LYSC_PATH_DATA:
for (iter = node; iter && (iter != parent) && (len >= 0); iter = iter->parent) {
char *s, *id;
const char *slash;
if ((pathtype == LYSC_PATH_DATA) && (iter->nodetype & (LYS_CHOICE | LYS_CASE))) {
/* schema-only node */
continue;
}
s = buffer ? strdup(buffer) : path;
id = strdup(iter->name);
if (parent && (iter->parent == parent)) {
slash = "";
} else {
slash = "/";
}
if (!iter->parent || (iter->parent->module != iter->module)) {
/* print prefix */
if (buffer) {
len = snprintf(buffer, buflen, "%s%s:%s%s", slash, iter->module->name, id, s ? s : "");
} else {
len = asprintf(&path, "%s%s:%s%s", slash, iter->module->name, id, s ? s : "");
}
} else {
/* prefix is the same as in parent */
if (buffer) {
len = snprintf(buffer, buflen, "%s%s%s", slash, id, s ? s : "");
} else {
len = asprintf(&path, "%s%s%s", slash, id, s ? s : "");
}
}
free(s);
free(id);
if (buffer && (buflen <= (size_t)len)) {
/* not enough space in buffer */
break;
}
}
if (len < 0) {
free(path);
path = NULL;
} else if (len == 0) {
if (buffer) {
strcpy(buffer, "/");
} else {
path = strdup("/");
}
}
break;
}
if (buffer) {
return buffer;
} else {
return path;
}
}
API char *
lysc_path(const struct lysc_node *node, LYSC_PATH_TYPE pathtype, char *buffer, size_t buflen)
{
return lysc_path_until(node, NULL, pathtype, buffer, buflen);
}
API LY_ERR
lysc_set_private(const struct lysc_node *node, void *priv, void **prev_priv_p)
{
struct lysc_action *act;
struct lysc_notif *notif;
LY_CHECK_ARG_RET(NULL, node, LY_EINVAL);
switch (node->nodetype) {
case LYS_CONTAINER:
case LYS_CHOICE:
case LYS_CASE:
case LYS_LEAF:
case LYS_LEAFLIST:
case LYS_LIST:
case LYS_ANYXML:
case LYS_ANYDATA:
if (prev_priv_p) {
*prev_priv_p = node->priv;
}
((struct lysc_node *)node)->priv = priv;
break;
case LYS_RPC:
case LYS_ACTION:
act = (struct lysc_action *)node;
if (prev_priv_p) {
*prev_priv_p = act->priv;
}
act->priv = priv;
break;
case LYS_NOTIF:
notif = (struct lysc_notif *)node;
if (prev_priv_p) {
*prev_priv_p = notif->priv;
}
notif->priv = priv;
break;
default:
return LY_EINVAL;
}
return LY_SUCCESS;
}
LY_ERR
lys_set_implemented_r(struct lys_module *mod, const char **features, struct lys_glob_unres *unres)
{
struct lys_module *m;
assert(!mod->implemented);
/* we have module from the current context */
m = ly_ctx_get_module_implemented(mod->ctx, mod->name);
if (m) {
assert(m != mod);
/* check collision with other implemented revision */
LOGERR(mod->ctx, LY_EDENIED, "Module \"%s%s%s\" is present in the context in other implemented revision (%s).",
mod->name, mod->revision ? "@" : "", mod->revision ? mod->revision : "", m->revision ? m->revision : "none");
return LY_EDENIED;
}
/* enable features */
LY_CHECK_RET(lys_enable_features(mod->parsed, features));
/* add the module into newly implemented module set */
LY_CHECK_RET(ly_set_add(&unres->implementing, mod, 1, NULL));
/* mark the module implemented, check for collision was already done */
mod->implemented = 1;
/* compile the schema */
return lys_compile(mod, 0, unres);
}
API LY_ERR
lys_set_implemented(struct lys_module *mod, const char **features)
{
LY_ERR ret = LY_SUCCESS, r;
struct lys_glob_unres unres = {0};
LY_CHECK_ARG_RET(NULL, mod, LY_EINVAL);
if (mod->implemented) {
/* mod is already implemented, set the features */
r = lys_set_features(mod->parsed, features);
if (r == LY_EEXIST) {
/* no changes */
return LY_SUCCESS;
} else if (r) {
/* error */
return r;
}
/* full recompilation */
return lys_recompile(mod->ctx, 1);
}
/* implement this module and any other required modules, recursively */
ret = lys_set_implemented_r(mod, features, &unres);
/* the first module being implemented is finished, resolve global unres, consolidate the set */
if (!ret) {
ret = lys_compile_unres_glob(mod->ctx, &unres);
}
if (ret) {
/* failure, full compile revert */
lys_compile_unres_glob_revert(mod->ctx, &unres);
}
lys_compile_unres_glob_erase(mod->ctx, &unres);
return ret;
}
static LY_ERR
lys_resolve_import_include(struct lys_parser_ctx *pctx, struct lysp_module *pmod)
{
struct lysp_import *imp;
struct lysp_include *inc;
LY_ARRAY_COUNT_TYPE u, v;
pmod->parsing = 1;
LY_ARRAY_FOR(pmod->imports, u) {
imp = &pmod->imports[u];
if (!imp->module) {
LY_CHECK_RET(lysp_load_module(PARSER_CTX(pctx), imp->name, imp->rev[0] ? imp->rev : NULL, 0, NULL,
pctx->unres, &imp->module));
}
/* check for importing the same module twice */
for (v = 0; v < u; ++v) {
if (imp->module == pmod->imports[v].module) {
LOGWRN(PARSER_CTX(pctx), "Single revision of the module \"%s\" imported twice.", imp->name);
}
}
}
LY_ARRAY_FOR(pmod->includes, u) {
inc = &pmod->includes[u];
if (!inc->submodule) {
LY_CHECK_RET(lysp_load_submodule(pctx, inc));
}
}
pmod->parsing = 0;
return LY_SUCCESS;
}
LY_ERR
lys_parse_submodule(struct ly_ctx *ctx, struct ly_in *in, LYS_INFORMAT format, struct lys_parser_ctx *main_ctx,
LY_ERR (*custom_check)(const struct ly_ctx *, struct lysp_module *, struct lysp_submodule *, void *),
void *check_data, struct lysp_submodule **submodule)
{
LY_ERR ret;
struct lysp_submodule *submod = NULL, *latest_sp;
struct lys_yang_parser_ctx *yangctx = NULL;
struct lys_yin_parser_ctx *yinctx = NULL;
struct lys_parser_ctx *pctx;
LY_CHECK_ARG_RET(ctx, ctx, in, LY_EINVAL);
switch (format) {
case LYS_IN_YIN:
ret = yin_parse_submodule(&yinctx, ctx, main_ctx, in, &submod);
pctx = (struct lys_parser_ctx *)yinctx;
break;
case LYS_IN_YANG:
ret = yang_parse_submodule(&yangctx, ctx, main_ctx, in, &submod);
pctx = (struct lys_parser_ctx *)yangctx;
break;
default:
LOGERR(ctx, LY_EINVAL, "Invalid schema input format.");
ret = LY_EINVAL;
break;
}
LY_CHECK_GOTO(ret, error);
assert(submod);
/* make sure that the newest revision is at position 0 */
lysp_sort_revisions(submod->revs);
/* decide the latest revision */
latest_sp = ly_ctx_get_submodule(NULL, submod->mod, submod->name, NULL);
if (latest_sp) {
if (submod->revs) {
if (!latest_sp->revs) {
/* latest has no revision, so mod is anyway newer */
submod->latest_revision = latest_sp->latest_revision;
/* the latest_sp is zeroed later when the new module is being inserted into the context */
} else if (strcmp(submod->revs[0].date, latest_sp->revs[0].date) > 0) {
submod->latest_revision = latest_sp->latest_revision;
/* the latest_sp is zeroed later when the new module is being inserted into the context */
} else {
latest_sp = NULL;
}
} else {
latest_sp = NULL;
}
} else {
submod->latest_revision = 1;
}
if (custom_check) {
LY_CHECK_GOTO(ret = custom_check(ctx, NULL, submod, check_data), error);
}
if (latest_sp) {
latest_sp->latest_revision = 0;
}
lys_parser_fill_filepath(ctx, in, &submod->filepath);
/* resolve imports and includes */
LY_CHECK_GOTO(ret = lys_resolve_import_include(pctx, (struct lysp_module *)submod), error);
/* remap possibly changed and reallocated typedefs and groupings list back to the main context */
memcpy(&main_ctx->tpdfs_nodes, &pctx->tpdfs_nodes, sizeof main_ctx->tpdfs_nodes);
memcpy(&main_ctx->grps_nodes, &pctx->grps_nodes, sizeof main_ctx->grps_nodes);
if (format == LYS_IN_YANG) {
yang_parser_ctx_free(yangctx);
} else {
yin_parser_ctx_free(yinctx);
}
*submodule = submod;
return LY_SUCCESS;
error:
lysp_module_free((struct lysp_module *)submod);
if (format == LYS_IN_YANG) {
yang_parser_ctx_free(yangctx);
} else {
yin_parser_ctx_free(yinctx);
}
return ret;
}
/**
* @brief Add ietf-netconf metadata to the parsed module. Operation, filter, and select are added.
*
* @param[in] mod Parsed module to add to.
* @return LY_SUCCESS on success.
* @return LY_ERR on error.
*/
static LY_ERR
lys_parsed_add_internal_ietf_netconf(struct lysp_module *mod)
{
struct lysp_ext_instance *ext_p;
struct lysp_stmt *stmt;
struct lysp_import *imp;
/*
* 1) edit-config's operation
*/
LY_ARRAY_NEW_RET(mod->mod->ctx, mod->exts, ext_p, LY_EMEM);
LY_CHECK_ERR_RET(!ext_p, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "md_:annotation", 0, &ext_p->name));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "operation", 0, &ext_p->argument));
ext_p->flags = LYS_INTERNAL;
ext_p->insubstmt = LYEXT_SUBSTMT_SELF;
ext_p->insubstmt_index = 0;
ext_p->child = stmt = calloc(1, sizeof *ext_p->child);
LY_CHECK_ERR_RET(!stmt, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "type", 0, &stmt->stmt));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "enumeration", 0, &stmt->arg));
stmt->kw = LY_STMT_TYPE;
stmt->child = calloc(1, sizeof *stmt->child);
stmt = stmt->child;
LY_CHECK_ERR_RET(!stmt, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "enum", 0, &stmt->stmt));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "merge", 0, &stmt->arg));
stmt->kw = LY_STMT_ENUM;
stmt->next = calloc(1, sizeof *stmt->child);
stmt = stmt->next;
LY_CHECK_ERR_RET(!stmt, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "enum", 0, &stmt->stmt));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "replace", 0, &stmt->arg));
stmt->kw = LY_STMT_ENUM;
stmt->next = calloc(1, sizeof *stmt->child);
stmt = stmt->next;
LY_CHECK_ERR_RET(!stmt, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "enum", 0, &stmt->stmt));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "create", 0, &stmt->arg));
stmt->kw = LY_STMT_ENUM;
stmt->next = calloc(1, sizeof *stmt->child);
stmt = stmt->next;
LY_CHECK_ERR_RET(!stmt, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "enum", 0, &stmt->stmt));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "delete", 0, &stmt->arg));
stmt->kw = LY_STMT_ENUM;
stmt->next = calloc(1, sizeof *stmt->child);
stmt = stmt->next;
LY_CHECK_ERR_RET(!stmt, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "enum", 0, &stmt->stmt));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "remove", 0, &stmt->arg));
stmt->kw = LY_STMT_ENUM;
/*
* 2) filter's type
*/
LY_ARRAY_NEW_RET(mod->mod->ctx, mod->exts, ext_p, LY_EMEM);
LY_CHECK_ERR_RET(!ext_p, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "md_:annotation", 0, &ext_p->name));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "type", 0, &ext_p->argument));
ext_p->flags = LYS_INTERNAL;
ext_p->insubstmt = LYEXT_SUBSTMT_SELF;
ext_p->insubstmt_index = 0;
ext_p->child = stmt = calloc(1, sizeof *ext_p->child);
LY_CHECK_ERR_RET(!stmt, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "type", 0, &stmt->stmt));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "enumeration", 0, &stmt->arg));
stmt->kw = LY_STMT_TYPE;
stmt->child = calloc(1, sizeof *stmt->child);
stmt = stmt->child;
LY_CHECK_ERR_RET(!stmt, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "enum", 0, &stmt->stmt));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "subtree", 0, &stmt->arg));
stmt->kw = LY_STMT_ENUM;
stmt->next = calloc(1, sizeof *stmt->child);
stmt = stmt->next;
LY_CHECK_ERR_RET(!stmt, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "enum", 0, &stmt->stmt));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "xpath", 0, &stmt->arg));
stmt->kw = LY_STMT_ENUM;
/* if-feature for enum allowed only for YANG 1.1 modules */
if (mod->version >= LYS_VERSION_1_1) {
stmt->child = calloc(1, sizeof *stmt->child);
stmt = stmt->child;
LY_CHECK_ERR_RET(!stmt, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "if-feature", 0, &stmt->stmt));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "xpath", 0, &stmt->arg));
stmt->kw = LY_STMT_IF_FEATURE;
}
/*
* 3) filter's select
*/
LY_ARRAY_NEW_RET(mod->mod->ctx, mod->exts, ext_p, LY_EMEM);
LY_CHECK_ERR_RET(!ext_p, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "md_:annotation", 0, &ext_p->name));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "select", 0, &ext_p->argument));
ext_p->flags = LYS_INTERNAL;
ext_p->insubstmt = LYEXT_SUBSTMT_SELF;
ext_p->insubstmt_index = 0;
ext_p->child = stmt = calloc(1, sizeof *ext_p->child);
LY_CHECK_ERR_RET(!stmt, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "type", 0, &stmt->stmt));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "yang_:xpath1.0", 0, &stmt->arg));
stmt->kw = LY_STMT_TYPE;
/* create new imports for the used prefixes */
LY_ARRAY_NEW_RET(mod->mod->ctx, mod->imports, imp, LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "ietf-yang-metadata", 0, &imp->name));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "md_", 0, &imp->prefix));
imp->flags = LYS_INTERNAL;
LY_ARRAY_NEW_RET(mod->mod->ctx, mod->imports, imp, LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "ietf-yang-types", 0, &imp->name));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "yang_", 0, &imp->prefix));
imp->flags = LYS_INTERNAL;
return LY_SUCCESS;
}
/**
* @brief Add ietf-netconf-with-defaults "default" metadata to the parsed module.
*
* @param[in] mod Parsed module to add to.
* @return LY_SUCCESS on success.
* @return LY_ERR on error.
*/
static LY_ERR
lys_parsed_add_internal_ietf_netconf_with_defaults(struct lysp_module *mod)
{
struct lysp_ext_instance *ext_p;
struct lysp_stmt *stmt;
struct lysp_import *imp;
/* add new extension instance */
LY_ARRAY_NEW_RET(mod->mod->ctx, mod->exts, ext_p, LY_EMEM);
/* fill in the extension instance fields */
LY_CHECK_ERR_RET(!ext_p, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "md_:annotation", 0, &ext_p->name));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "default", 0, &ext_p->argument));
ext_p->flags = LYS_INTERNAL;
ext_p->insubstmt = LYEXT_SUBSTMT_SELF;
ext_p->insubstmt_index = 0;
ext_p->child = stmt = calloc(1, sizeof *ext_p->child);
LY_CHECK_ERR_RET(!stmt, LOGMEM(mod->mod->ctx), LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "type", 0, &stmt->stmt));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "boolean", 0, &stmt->arg));
stmt->kw = LY_STMT_TYPE;
/* create new import for the used prefix */
LY_ARRAY_NEW_RET(mod->mod->ctx, mod->imports, imp, LY_EMEM);
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "ietf-yang-metadata", 0, &imp->name));
LY_CHECK_RET(lydict_insert(mod->mod->ctx, "md_", 0, &imp->prefix));
imp->flags = LYS_INTERNAL;
return LY_SUCCESS;
}
LY_ERR
lys_create_module(struct ly_ctx *ctx, struct ly_in *in, LYS_INFORMAT format, ly_bool implement,
LY_ERR (*custom_check)(const struct ly_ctx *ctx, struct lysp_module *mod, struct lysp_submodule *submod, void *data),
void *check_data, const char **features, struct lys_glob_unres *unres, struct lys_module **module)
{
struct lys_module *mod = NULL, *latest, *mod_dup, *mod_impl;
struct lysp_submodule *submod;
LY_ERR ret;
LY_ARRAY_COUNT_TYPE u;
struct lys_yang_parser_ctx *yangctx = NULL;
struct lys_yin_parser_ctx *yinctx = NULL;
struct lys_parser_ctx *pctx = NULL;
char *filename, *rev, *dot;
size_t len;
assert(ctx && in && (!features || implement) && unres);
if (module) {
*module = NULL;
}
mod = calloc(1, sizeof *mod);
LY_CHECK_ERR_RET(!mod, LOGMEM(ctx), LY_EMEM);
mod->ctx = ctx;
/* parse */
switch (format) {
case LYS_IN_YIN:
ret = yin_parse_module(&yinctx, in, mod, unres);
pctx = (struct lys_parser_ctx *)yinctx;
break;
case LYS_IN_YANG:
ret = yang_parse_module(&yangctx, in, mod, unres);
pctx = (struct lys_parser_ctx *)yangctx;
break;
default:
LOGERR(ctx, LY_EINVAL, "Invalid schema input format.");
ret = LY_EINVAL;
break;
}
LY_CHECK_GOTO(ret, free_mod_cleanup);
/* make sure that the newest revision is at position 0 */
lysp_sort_revisions(mod->parsed->revs);
if (mod->parsed->revs) {
LY_CHECK_GOTO(ret = lydict_insert(ctx, mod->parsed->revs[0].date, 0, &mod->revision), free_mod_cleanup);
}
/* decide the latest revision */
latest = (struct lys_module *)ly_ctx_get_module_latest(ctx, mod->name);
if (latest) {
if (mod->revision) {
if (!latest->revision) {
/* latest has no revision, so mod is anyway newer */
mod->latest_revision = latest->latest_revision;
/* the latest is zeroed later when the new module is being inserted into the context */
} else if (strcmp(mod->revision, latest->revision) > 0) {
mod->latest_revision = latest->latest_revision;
/* the latest is zeroed later when the new module is being inserted into the context */
} else {
latest = NULL;
}
} else {
latest = NULL;
}
} else {
mod->latest_revision = 1;
}
if (custom_check) {
LY_CHECK_GOTO(ret = custom_check(ctx, mod->parsed, NULL, check_data), free_mod_cleanup);
}
/* check whether it is not already in the context in the same revision */
mod_dup = (struct lys_module *)ly_ctx_get_module(ctx, mod->name, mod->revision);
if (implement) {
mod_impl = ly_ctx_get_module_implemented(ctx, mod->name);
if (mod_impl && (mod_impl != mod_dup)) {
LOGERR(ctx, LY_EDENIED, "Module \"%s@%s\" is already implemented in the context.", mod_impl->name,
mod_impl->revision ? mod_impl->revision : "<none>");
ret = LY_EDENIED;
goto free_mod_cleanup;
}
}
if (mod_dup) {
if (implement) {
if (!mod_dup->implemented) {
/* just implement it */
LY_CHECK_GOTO(ret = lys_set_implemented_r(mod_dup, features, unres), free_mod_cleanup);
goto free_mod_cleanup;
}
/* nothing to do */
LOGVRB("Module \"%s@%s\" is already implemented in the context.", mod_dup->name,
mod_dup->revision ? mod_dup->revision : "<none>");
goto free_mod_cleanup;
}
/* nothing to do */
LOGVRB("Module \"%s@%s\" is already present in the context.", mod_dup->name,
mod_dup->revision ? mod_dup->revision : "<none>");
goto free_mod_cleanup;
}
switch (in->type) {
case LY_IN_FILEPATH:
/* check that name and revision match filename */
filename = strrchr(in->method.fpath.filepath, '/');
if (!filename) {
filename = in->method.fpath.filepath;
} else {
filename++;
}
rev = strchr(filename, '@');
dot = strrchr(filename, '.');
/* name */
len = strlen(mod->name);
if (strncmp(filename, mod->name, len) ||
((rev && (rev != &filename[len])) || (!rev && (dot != &filename[len])))) {
LOGWRN(ctx, "File name \"%s\" does not match module name \"%s\".", filename, mod->name);
}
if (rev) {
len = dot - ++rev;
if (!mod->parsed->revs || (len != LY_REV_SIZE - 1) || strncmp(mod->parsed->revs[0].date, rev, len)) {
LOGWRN(ctx, "File name \"%s\" does not match module revision \"%s\".", filename,
mod->parsed->revs ? mod->parsed->revs[0].date : "none");
}
}
break;
case LY_IN_FD:
case LY_IN_FILE:
case LY_IN_MEMORY:
/* nothing special to do */
break;
case LY_IN_ERROR:
LOGINT(ctx);
ret = LY_EINT;
goto free_mod_cleanup;
}
lys_parser_fill_filepath(ctx, in, &mod->filepath);
if (latest) {
latest->latest_revision = 0;
}
/* add internal data in case specific modules were parsed */
if (!strcmp(mod->name, "ietf-netconf")) {
LY_CHECK_GOTO(ret = lys_parsed_add_internal_ietf_netconf(mod->parsed), free_mod_cleanup);
} else if (!strcmp(mod->name, "ietf-netconf-with-defaults")) {
LY_CHECK_GOTO(ret = lys_parsed_add_internal_ietf_netconf_with_defaults(mod->parsed), free_mod_cleanup);
}
/* add the module into newly created module set, will also be freed from there on any error */
LY_CHECK_GOTO(ret = ly_set_add(&unres->creating, mod, 1, NULL), free_mod_cleanup);
/* add into context */
ret = ly_set_add(&ctx->list, mod, 1, NULL);
LY_CHECK_GOTO(ret, cleanup);
ctx->module_set_id++;
/* resolve includes and all imports */
LY_CHECK_GOTO(ret = lys_resolve_import_include(pctx, mod->parsed), cleanup);
/* check name collisions */
LY_CHECK_GOTO(ret = lysp_check_dup_typedefs(pctx, mod->parsed), cleanup);
/* TODO groupings */
LY_CHECK_GOTO(ret = lysp_check_dup_features(pctx, mod->parsed), cleanup);
LY_CHECK_GOTO(ret = lysp_check_dup_identities(pctx, mod->parsed), cleanup);
/* compile features */
LY_CHECK_GOTO(ret = lys_compile_feature_iffeatures(mod->parsed), cleanup);
if (!implement) {
/* pre-compile identities of the module */
LY_CHECK_GOTO(ret = lys_identity_precompile(NULL, ctx, mod->parsed, mod->parsed->identities, &mod->identities), cleanup);
/* pre-compile identities of any submodules */
LY_ARRAY_FOR(mod->parsed->includes, u) {
submod = mod->parsed->includes[u].submodule;
ret = lys_identity_precompile(NULL, ctx, (struct lysp_module *)submod, submod->identities, &mod->identities);
LY_CHECK_GOTO(ret, cleanup);
}
} else {
/* implement (compile) */
LY_CHECK_GOTO(ret = lys_set_implemented_r(mod, features, unres), cleanup);
}
/* success */
goto cleanup;
free_mod_cleanup:
lys_module_free(mod, NULL);
mod = NULL;
cleanup:
if (pctx) {
ly_set_erase(&pctx->tpdfs_nodes, NULL);
}
if (format == LYS_IN_YANG) {
yang_parser_ctx_free(yangctx);
} else {
yin_parser_ctx_free(yinctx);
}
if (!ret && module) {
*module = mod;
}
return ret;
}
static LYS_INFORMAT
lys_parse_get_format(const struct ly_in *in, LYS_INFORMAT format)
{
if (!format && (in->type == LY_IN_FILEPATH)) {
/* unknown format - try to detect it from filename's suffix */
const char *path = in->method.fpath.filepath;
size_t len = strlen(path);
/* ignore trailing whitespaces */
for ( ; len > 0 && isspace(path[len - 1]); len--) {}
if ((len >= LY_YANG_SUFFIX_LEN + 1) &&
!strncmp(&path[len - LY_YANG_SUFFIX_LEN], LY_YANG_SUFFIX, LY_YANG_SUFFIX_LEN)) {
format = LYS_IN_YANG;
} else if ((len >= LY_YIN_SUFFIX_LEN + 1) &&
!strncmp(&path[len - LY_YIN_SUFFIX_LEN], LY_YIN_SUFFIX, LY_YIN_SUFFIX_LEN)) {
format = LYS_IN_YIN;
} /* else still unknown */
}
return format;
}
API LY_ERR
lys_parse(struct ly_ctx *ctx, struct ly_in *in, LYS_INFORMAT format, const char **features, const struct lys_module **module)
{
LY_ERR ret;
struct lys_glob_unres unres = {0};
if (module) {
*module = NULL;
}
LY_CHECK_ARG_RET(NULL, ctx, in, LY_EINVAL);
format = lys_parse_get_format(in, format);
LY_CHECK_ARG_RET(ctx, format, LY_EINVAL);
/* remember input position */
in->func_start = in->current;
ret = lys_create_module(ctx, in, format, 1, NULL, NULL, features, &unres, (struct lys_module **)module);
LY_CHECK_GOTO(ret, cleanup);
/* resolve global unres */
ret = lys_compile_unres_glob(ctx, &unres);
LY_CHECK_GOTO(ret, cleanup);
cleanup:
if (ret) {
lys_compile_unres_glob_revert(ctx, &unres);
}
lys_compile_unres_glob_erase(ctx, &unres);
if (ret && module) {
*module = NULL;
}
return ret;
}
API LY_ERR
lys_parse_mem(struct ly_ctx *ctx, const char *data, LYS_INFORMAT format, const struct lys_module **module)
{
LY_ERR ret;
struct ly_in *in = NULL;
LY_CHECK_ARG_RET(ctx, data, format != LYS_IN_UNKNOWN, LY_EINVAL);
LY_CHECK_ERR_RET(ret = ly_in_new_memory(data, &in), LOGERR(ctx, ret, "Unable to create input handler."), ret);
ret = lys_parse(ctx, in, format, NULL, module);
ly_in_free(in, 0);
return ret;
}
API LY_ERR
lys_parse_fd(struct ly_ctx *ctx, int fd, LYS_INFORMAT format, const struct lys_module **module)
{
LY_ERR ret;
struct ly_in *in = NULL;
LY_CHECK_ARG_RET(ctx, fd > -1, format != LYS_IN_UNKNOWN, LY_EINVAL);
LY_CHECK_ERR_RET(ret = ly_in_new_fd(fd, &in), LOGERR(ctx, ret, "Unable to create input handler."), ret);
ret = lys_parse(ctx, in, format, NULL, module);
ly_in_free(in, 0);
return ret;
}
API LY_ERR
lys_parse_path(struct ly_ctx *ctx, const char *path, LYS_INFORMAT format, const struct lys_module **module)
{
LY_ERR ret;
struct ly_in *in = NULL;
LY_CHECK_ARG_RET(ctx, path, format != LYS_IN_UNKNOWN, LY_EINVAL);
LY_CHECK_ERR_RET(ret = ly_in_new_filepath(path, 0, &in),
LOGERR(ctx, ret, "Unable to create input handler for filepath %s.", path), ret);
ret = lys_parse(ctx, in, format, NULL, module);
ly_in_free(in, 0);
return ret;
}
API LY_ERR
lys_search_localfile(const char * const *searchpaths, ly_bool cwd, const char *name, const char *revision,
char **localfile, LYS_INFORMAT *format)
{
LY_ERR ret = LY_EMEM;
size_t len, flen, match_len = 0, dir_len;
ly_bool implicit_cwd = 0;
char *wd, *wn = NULL;
DIR *dir = NULL;
struct dirent *file;
char *match_name = NULL;
LYS_INFORMAT format_aux, match_format = 0;
struct ly_set *dirs;
struct stat st;
LY_CHECK_ARG_RET(NULL, localfile, LY_EINVAL);
/* start to fill the dir fifo with the context's search path (if set)
* and the current working directory */
LY_CHECK_RET(ly_set_new(&dirs));
len = strlen(name);
if (cwd) {
wd = get_current_dir_name();
if (!wd) {
LOGMEM(NULL);
goto cleanup;
} else {
/* add implicit current working directory (./) to be searched,
* this directory is not searched recursively */
ret = ly_set_add(dirs, wd, 0, NULL);
LY_CHECK_GOTO(ret, cleanup);
implicit_cwd = 1;
}
}
if (searchpaths) {
for (uint64_t i = 0; searchpaths[i]; i++) {
/* check for duplicities with the implicit current working directory */
if (implicit_cwd && !strcmp(dirs->objs[0], searchpaths[i])) {
implicit_cwd = 0;
continue;
}
wd = strdup(searchpaths[i]);
if (!wd) {
LOGMEM(NULL);
goto cleanup;
} else {
ret = ly_set_add(dirs, wd, 0, NULL);
LY_CHECK_GOTO(ret, cleanup);
}
}
}
wd = NULL;
/* start searching */
while (dirs->count) {
free(wd);
free(wn); wn = NULL;
dirs->count--;
wd = (char *)dirs->objs[dirs->count];
dirs->objs[dirs->count] = NULL;
LOGVRB("Searching for \"%s\" in %s.", name, wd);
if (dir) {
closedir(dir);
}
dir = opendir(wd);
dir_len = strlen(wd);
if (!dir) {
LOGWRN(NULL, "Unable to open directory \"%s\" for searching (sub)modules (%s).", wd, strerror(errno));
} else {
while ((file = readdir(dir))) {
if (!strcmp(".", file->d_name) || !strcmp("..", file->d_name)) {
/* skip . and .. */
continue;
}
free(wn);
if (asprintf(&wn, "%s/%s", wd, file->d_name) == -1) {
LOGMEM(NULL);
goto cleanup;
}
if (stat(wn, &st) == -1) {
LOGWRN(NULL, "Unable to get information about \"%s\" file in \"%s\" when searching for (sub)modules (%s)",
file->d_name, wd, strerror(errno));
continue;
}
if (S_ISDIR(st.st_mode) && (dirs->count || !implicit_cwd)) {
/* we have another subdirectory in searchpath to explore,
* subdirectories are not taken into account in current working dir (dirs->set.g[0]) */
ret = ly_set_add(dirs, wn, 0, NULL);
LY_CHECK_GOTO(ret, cleanup);
/* continue with the next item in current directory */
wn = NULL;
continue;
} else if (!S_ISREG(st.st_mode)) {
/* not a regular file (note that we see the target of symlinks instead of symlinks */
continue;
}
/* here we know that the item is a file which can contain a module */
if (strncmp(name, file->d_name, len) ||
((file->d_name[len] != '.') && (file->d_name[len] != '@'))) {
/* different filename than the module we search for */
continue;
}
/* get type according to filename suffix */
flen = strlen(file->d_name);
if ((flen >= LY_YANG_SUFFIX_LEN + 1) &&
!strcmp(&file->d_name[flen - LY_YANG_SUFFIX_LEN], LY_YANG_SUFFIX)) {
format_aux = LYS_IN_YANG;
} else if ((flen >= LY_YIN_SUFFIX_LEN + 1) &&
!strcmp(&file->d_name[flen - LY_YIN_SUFFIX_LEN], LY_YIN_SUFFIX)) {
format_aux = LYS_IN_YIN;
} else {
/* not supportde suffix/file format */
continue;
}
if (revision) {
/* we look for the specific revision, try to get it from the filename */
if (file->d_name[len] == '@') {
/* check revision from the filename */
if (strncmp(revision, &file->d_name[len + 1], strlen(revision))) {
/* another revision */
continue;
} else {
/* exact revision */
free(match_name);
match_name = wn;
wn = NULL;
match_len = dir_len + 1 + len;
match_format = format_aux;
goto success;
}
} else {
/* continue trying to find exact revision match, use this only if not found */
free(match_name);
match_name = wn;
wn = NULL;
match_len = dir_len + 1 + len;
match_format = format_aux;
continue;
}
} else {
/* remember the revision and try to find the newest one */
if (match_name) {
if ((file->d_name[len] != '@') ||
lysp_check_date(NULL, &file->d_name[len + 1],
flen - ((format_aux == LYS_IN_YANG) ? LY_YANG_SUFFIX_LEN : LY_YIN_SUFFIX_LEN) - len - 1, NULL)) {
continue;
} else if ((match_name[match_len] == '@') &&
(strncmp(&match_name[match_len + 1], &file->d_name[len + 1], LY_REV_SIZE - 1) >= 0)) {
continue;
}
free(match_name);
}
match_name = wn;
wn = NULL;
match_len = dir_len + 1 + len;
match_format = format_aux;
continue;
}
}
}
}
success:
(*localfile) = match_name;
match_name = NULL;
if (format) {
(*format) = match_format;
}
ret = LY_SUCCESS;
cleanup:
free(wn);
free(wd);
if (dir) {
closedir(dir);
}
free(match_name);
ly_set_free(dirs, free);
return ret;
}