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|
// SPDX-License-Identifier: GPL-2.0-or-later
/*
* Copyright (C) 2018 NetDEF, Inc.
* Renato Westphal
*/
#include <zebra.h>
#include "darr.h"
#include "log.h"
#include "lib_errors.h"
#include "yang.h"
#include "yang_translator.h"
#include <libyang/version.h>
#include "northbound.h"
#include "frrstr.h"
#include "lib/config_paths.h"
DEFINE_MTYPE_STATIC(LIB, YANG_MODULE, "YANG module");
DEFINE_MTYPE_STATIC(LIB, YANG_DATA, "YANG data structure");
/* Safe to remove after libyang 2.2.8 */
#if (LY_VERSION_MAJOR < 3)
#define yang_lyd_find_xpath3(ctx_node, tree, xpath, format, prefix_data, vars, \
set) \
lyd_find_xpath3(ctx_node, tree, xpath, vars, set)
#else
#define yang_lyd_find_xpath3(ctx_node, tree, xpath, format, prefix_data, vars, \
set) \
lyd_find_xpath3(ctx_node, tree, xpath, LY_VALUE_JSON, NULL, vars, set)
#endif
/* libyang container. */
struct ly_ctx *ly_native_ctx;
static struct yang_module_embed *embeds, **embedupd = &embeds;
void yang_module_embed(struct yang_module_embed *embed)
{
embed->next = NULL;
*embedupd = embed;
embedupd = &embed->next;
}
static LY_ERR yang_module_imp_clb(const char *mod_name, const char *mod_rev,
const char *submod_name,
const char *submod_rev, void *user_data,
LYS_INFORMAT *format,
const char **module_data,
void (**free_module_data)(void *, void *))
{
struct yang_module_embed *e;
if (!strcmp(mod_name, "ietf-inet-types") ||
!strcmp(mod_name, "ietf-yang-types") ||
!strcmp(mod_name, "ietf-yang-metadata"))
/* libyang has these built in, don't try finding them here */
return LY_ENOTFOUND;
for (e = embeds; e; e = e->next) {
if (e->sub_mod_name && submod_name) {
if (strcmp(e->sub_mod_name, submod_name))
continue;
if (submod_rev && strcmp(e->sub_mod_rev, submod_rev))
continue;
} else {
if (strcmp(e->mod_name, mod_name))
continue;
if (mod_rev && strcmp(e->mod_rev, mod_rev))
continue;
}
*format = e->format;
*module_data = e->data;
return LY_SUCCESS;
}
/* We get here for indirect modules like ietf-inet-types */
zlog_debug(
"YANG model \"%s@%s\" \"%s@%s\"not embedded, trying external file",
mod_name, mod_rev ? mod_rev : "*",
submod_name ? submod_name : "*", submod_rev ? submod_rev : "*");
return LY_ENOTFOUND;
}
/* clang-format off */
static const char *const frr_native_modules[] = {
"frr-interface",
"frr-vrf",
"frr-routing",
"frr-affinity-map",
"frr-route-map",
"frr-nexthop",
"frr-ripd",
"frr-ripngd",
"frr-isisd",
"frr-vrrpd",
"frr-zebra",
"frr-pathd",
};
/* clang-format on */
/* Generate the yang_modules tree. */
static inline int yang_module_compare(const struct yang_module *a,
const struct yang_module *b)
{
return strcmp(a->name, b->name);
}
RB_GENERATE(yang_modules, yang_module, entry, yang_module_compare)
struct yang_modules yang_modules = RB_INITIALIZER(&yang_modules);
struct yang_module *yang_module_load(const char *module_name,
const char **features)
{
struct yang_module *module;
const struct lys_module *module_info;
module_info = ly_ctx_load_module(ly_native_ctx, module_name, NULL,
features);
if (!module_info) {
flog_err(EC_LIB_YANG_MODULE_LOAD,
"%s: failed to load data model: %s", __func__,
module_name);
exit(1);
}
module = XCALLOC(MTYPE_YANG_MODULE, sizeof(*module));
module->name = module_name;
module->info = module_info;
if (RB_INSERT(yang_modules, &yang_modules, module) != NULL) {
flog_err(EC_LIB_YANG_MODULE_LOADED_ALREADY,
"%s: YANG module is loaded already: %s", __func__,
module_name);
exit(1);
}
return module;
}
void yang_module_load_all(void)
{
static const char * const all_features[] = { "*", NULL };
for (size_t i = 0; i < array_size(frr_native_modules); i++)
yang_module_load(frr_native_modules[i], (const char **)all_features);
}
struct yang_module *yang_module_find(const char *module_name)
{
struct yang_module s;
s.name = module_name;
return RB_FIND(yang_modules, &yang_modules, &s);
}
int yang_snodes_iterate_subtree(const struct lysc_node *snode,
const struct lys_module *module,
yang_iterate_cb cb, uint16_t flags, void *arg)
{
const struct lysc_node *child;
int ret = YANG_ITER_CONTINUE;
if (module && snode->module != module)
goto next;
switch (snode->nodetype) {
case LYS_CONTAINER:
if (CHECK_FLAG(flags, YANG_ITER_FILTER_NPCONTAINERS)) {
if (!CHECK_FLAG(snode->flags, LYS_PRESENCE))
goto next;
}
break;
case LYS_LEAF:
if (CHECK_FLAG(flags, YANG_ITER_FILTER_LIST_KEYS)) {
/* Ignore list keys. */
if (lysc_is_key(snode))
goto next;
}
break;
case LYS_INPUT:
case LYS_OUTPUT:
if (CHECK_FLAG(flags, YANG_ITER_FILTER_INPUT_OUTPUT))
goto next;
break;
default:
assert(snode->nodetype != LYS_AUGMENT
&& snode->nodetype != LYS_GROUPING
&& snode->nodetype != LYS_USES);
break;
}
ret = (*cb)(snode, arg);
if (ret == YANG_ITER_STOP)
return ret;
next:
/*
* YANG leafs and leaf-lists can't have child nodes.
*/
if (CHECK_FLAG(snode->nodetype, LYS_LEAF | LYS_LEAFLIST))
return YANG_ITER_CONTINUE;
LY_LIST_FOR (lysc_node_child(snode), child) {
ret = yang_snodes_iterate_subtree(child, module, cb, flags,
arg);
if (ret == YANG_ITER_STOP)
return ret;
}
LY_LIST_FOR ((const struct lysc_node *)lysc_node_notifs(snode), child) {
ret = yang_snodes_iterate_subtree(child, module, cb, flags, arg);
if (ret == YANG_ITER_STOP)
return ret;
}
LY_LIST_FOR ((const struct lysc_node *)lysc_node_actions(snode), child) {
ret = yang_snodes_iterate_subtree(child, module, cb, flags, arg);
if (ret == YANG_ITER_STOP)
return ret;
}
return ret;
}
int yang_snodes_iterate(const struct lys_module *module, yang_iterate_cb cb,
uint16_t flags, void *arg)
{
const struct lys_module *module_iter;
uint32_t idx = 0;
int ret = YANG_ITER_CONTINUE;
idx = ly_ctx_internal_modules_count(ly_native_ctx);
while ((module_iter = ly_ctx_get_module_iter(ly_native_ctx, &idx))) {
struct lysc_node *snode;
if (!module_iter->implemented)
continue;
LY_LIST_FOR (module_iter->compiled->data, snode) {
ret = yang_snodes_iterate_subtree(snode, module, cb,
flags, arg);
if (ret == YANG_ITER_STOP)
return ret;
}
LY_LIST_FOR (&module_iter->compiled->rpcs->node, snode) {
ret = yang_snodes_iterate_subtree(snode, module, cb,
flags, arg);
if (ret == YANG_ITER_STOP)
return ret;
}
LY_LIST_FOR (&module_iter->compiled->notifs->node, snode) {
ret = yang_snodes_iterate_subtree(snode, module, cb,
flags, arg);
if (ret == YANG_ITER_STOP)
return ret;
}
}
return ret;
}
void yang_snode_get_path(const struct lysc_node *snode,
enum yang_path_type type, char *xpath,
size_t xpath_len)
{
switch (type) {
case YANG_PATH_SCHEMA:
(void)lysc_path(snode, LYSC_PATH_LOG, xpath, xpath_len);
break;
case YANG_PATH_DATA:
(void)lysc_path(snode, LYSC_PATH_DATA, xpath, xpath_len);
break;
default:
flog_err(EC_LIB_DEVELOPMENT, "%s: unknown yang path type: %u",
__func__, type);
exit(1);
}
}
LY_ERR yang_resolve_snode_xpath(struct ly_ctx *ly_ctx, const char *xpath,
struct lysc_node ***snodes, bool *simple)
{
struct lysc_node *snode;
struct ly_set *set;
LY_ERR err;
/* lys_find_path will not resolve complex xpaths */
snode = (struct lysc_node *)lys_find_path(ly_ctx, NULL, xpath, 0);
if (snode) {
*darr_append(*snodes) = snode;
*simple = true;
return LY_SUCCESS;
}
/* Try again to catch complex query cases */
err = lys_find_xpath(ly_native_ctx, NULL, xpath, 0, &set);
if (err)
return err;
if (!set->count) {
ly_set_free(set, NULL);
return LY_ENOTFOUND;
}
*simple = false;
darr_ensure_i(*snodes, set->count - 1);
memcpy(*snodes, set->snodes, set->count * sizeof(set->snodes[0]));
ly_set_free(set, NULL);
return LY_SUCCESS;
}
struct lysc_node *yang_find_snode(struct ly_ctx *ly_ctx, const char *xpath,
uint32_t options)
{
struct lysc_node *snode;
snode = (struct lysc_node *)lys_find_path(ly_ctx, NULL, xpath, 0);
return snode;
}
struct lysc_node *yang_snode_real_parent(const struct lysc_node *snode)
{
struct lysc_node *parent = snode->parent;
while (parent) {
switch (parent->nodetype) {
case LYS_CONTAINER:
if (CHECK_FLAG(parent->flags, LYS_PRESENCE))
return parent;
break;
case LYS_LIST:
return parent;
default:
break;
}
parent = parent->parent;
}
return NULL;
}
struct lysc_node *yang_snode_parent_list(const struct lysc_node *snode)
{
struct lysc_node *parent = snode->parent;
while (parent) {
switch (parent->nodetype) {
case LYS_LIST:
return parent;
default:
break;
}
parent = parent->parent;
}
return NULL;
}
bool yang_snode_is_typeless_data(const struct lysc_node *snode)
{
const struct lysc_node_leaf *sleaf;
switch (snode->nodetype) {
case LYS_LEAF:
sleaf = (struct lysc_node_leaf *)snode;
if (sleaf->type->basetype == LY_TYPE_EMPTY)
return true;
return false;
case LYS_LEAFLIST:
return false;
default:
return true;
}
}
const char *yang_snode_get_default(const struct lysc_node *snode)
{
const struct lysc_node_leaf *sleaf;
switch (snode->nodetype) {
case LYS_LEAF:
sleaf = (const struct lysc_node_leaf *)snode;
return sleaf->dflt ? lyd_value_get_canonical(sleaf->module->ctx,
sleaf->dflt)
: NULL;
case LYS_LEAFLIST:
/* TODO: check leaf-list default values */
return NULL;
default:
return NULL;
}
}
const struct lysc_type *yang_snode_get_type(const struct lysc_node *snode)
{
struct lysc_node_leaf *sleaf = (struct lysc_node_leaf *)snode;
struct lysc_type *type;
if (!CHECK_FLAG(sleaf->nodetype, LYS_LEAF | LYS_LEAFLIST))
return NULL;
type = sleaf->type;
while (type->basetype == LY_TYPE_LEAFREF)
type = ((struct lysc_type_leafref *)type)->realtype;
return type;
}
unsigned int yang_snode_num_keys(const struct lysc_node *snode)
{
const struct lysc_node_leaf *skey;
uint count = 0;
if (!CHECK_FLAG(snode->nodetype, LYS_LIST))
return 0;
/* Walk list of children */
LY_FOR_KEYS (snode, skey) {
count++;
}
return count;
}
char *yang_dnode_get_path(const struct lyd_node *dnode, char *xpath,
size_t xpath_len)
{
return lyd_path(dnode, LYD_PATH_STD, xpath, xpath_len);
}
struct lyd_node *yang_dnode_get(const struct lyd_node *dnode, const char *xpath)
{
struct ly_set *set = NULL;
struct lyd_node *dnode_ret = NULL;
/*
* XXX a lot of the code uses this for style I guess. It shouldn't, as
* it adds to the xpath parsing complexity in libyang.
*/
if (xpath[0] == '.' && xpath[1] == '/')
xpath += 2;
if (lyd_find_xpath(dnode, xpath, &set)) {
/*
* Commenting out the below assert failure as it crashes mgmtd
* when bad xpath is passed.
*
* assert(0); XXX replicates old libyang1 base code
*/
goto exit;
}
if (set->count == 0)
goto exit;
if (set->count > 1) {
flog_warn(EC_LIB_YANG_DNODE_NOT_FOUND,
"%s: found %u elements (expected 0 or 1) [xpath %s]",
__func__, set->count, xpath);
goto exit;
}
dnode_ret = set->dnodes[0];
exit:
ly_set_free(set, NULL);
return dnode_ret;
}
struct lyd_node *yang_dnode_getf(const struct lyd_node *dnode,
const char *xpath_fmt, ...)
{
va_list ap;
char xpath[XPATH_MAXLEN];
va_start(ap, xpath_fmt);
vsnprintf(xpath, sizeof(xpath), xpath_fmt, ap);
va_end(ap);
return yang_dnode_get(dnode, xpath);
}
bool yang_dnode_exists(const struct lyd_node *dnode, const char *xpath)
{
struct ly_set *set = NULL;
bool exists = false;
if (xpath[0] == '.' && xpath[1] == '/')
xpath += 2;
if (lyd_find_xpath(dnode, xpath, &set))
return false;
exists = set->count > 0;
ly_set_free(set, NULL);
return exists;
}
bool yang_dnode_existsf(const struct lyd_node *dnode, const char *xpath_fmt,
...)
{
va_list ap;
char xpath[XPATH_MAXLEN];
va_start(ap, xpath_fmt);
vsnprintf(xpath, sizeof(xpath), xpath_fmt, ap);
va_end(ap);
return yang_dnode_exists(dnode, xpath);
}
void yang_dnode_iterate(yang_dnode_iter_cb cb, void *arg,
const struct lyd_node *dnode, const char *xpath_fmt,
...)
{
va_list ap;
char xpath[XPATH_MAXLEN];
struct ly_set *set;
va_start(ap, xpath_fmt);
vsnprintf(xpath, sizeof(xpath), xpath_fmt, ap);
va_end(ap);
if (lyd_find_xpath(dnode, xpath, &set)) {
assert(0); /* XXX libyang2: ly1 code asserted success */
return;
}
for (unsigned int i = 0; i < set->count; i++) {
int ret;
ret = (*cb)(set->dnodes[i], arg);
if (ret == YANG_ITER_STOP)
break;
}
ly_set_free(set, NULL);
}
uint32_t yang_dnode_count(const struct lyd_node *dnode, const char *xpath_fmt,
...)
{
va_list ap;
char xpath[XPATH_MAXLEN];
struct ly_set *set;
uint32_t count;
va_start(ap, xpath_fmt);
vsnprintf(xpath, sizeof(xpath), xpath_fmt, ap);
va_end(ap);
if (lyd_find_xpath(dnode, xpath, &set)) {
assert(0);
return 0;
}
count = set->count;
ly_set_free(set, NULL);
return count;
}
bool yang_dnode_is_default(const struct lyd_node *dnode, const char *xpath)
{
const struct lysc_node *snode;
struct lysc_node_leaf *sleaf;
if (xpath)
dnode = yang_dnode_get(dnode, xpath);
assert(dnode);
snode = dnode->schema;
switch (snode->nodetype) {
case LYS_LEAF:
sleaf = (struct lysc_node_leaf *)snode;
if (sleaf->type->basetype == LY_TYPE_EMPTY)
return false;
return lyd_is_default(dnode);
case LYS_LEAFLIST:
/* TODO: check leaf-list default values */
return false;
case LYS_CONTAINER:
if (CHECK_FLAG(snode->flags, LYS_PRESENCE))
return false;
return true;
default:
return false;
}
}
bool yang_dnode_is_defaultf(const struct lyd_node *dnode, const char *xpath_fmt,
...)
{
if (!xpath_fmt)
return yang_dnode_is_default(dnode, NULL);
else {
va_list ap;
char xpath[XPATH_MAXLEN];
va_start(ap, xpath_fmt);
vsnprintf(xpath, sizeof(xpath), xpath_fmt, ap);
va_end(ap);
return yang_dnode_is_default(dnode, xpath);
}
}
bool yang_dnode_is_default_recursive(const struct lyd_node *dnode)
{
struct lyd_node *root, *dnode_iter;
if (!yang_dnode_is_default(dnode, NULL))
return false;
if (CHECK_FLAG(dnode->schema->nodetype, LYS_LEAF | LYS_LEAFLIST))
return true;
LY_LIST_FOR (lyd_child(dnode), root) {
LYD_TREE_DFS_BEGIN (root, dnode_iter) {
if (!yang_dnode_is_default(dnode_iter, NULL))
return false;
LYD_TREE_DFS_END(root, dnode_iter);
}
}
return true;
}
void yang_dnode_change_leaf(struct lyd_node *dnode, const char *value)
{
assert(dnode->schema->nodetype == LYS_LEAF);
lyd_change_term(dnode, value);
}
struct lyd_node *yang_dnode_new(struct ly_ctx *ly_ctx, bool config_only)
{
struct lyd_node *dnode = NULL;
int options = config_only ? LYD_VALIDATE_NO_STATE : 0;
if (lyd_validate_all(&dnode, ly_ctx, options, NULL) != 0) {
/* Should never happen. */
flog_err(EC_LIB_LIBYANG, "%s: lyd_validate() failed", __func__);
exit(1);
}
return dnode;
}
struct lyd_node *yang_dnode_dup(const struct lyd_node *dnode)
{
struct lyd_node *dup = NULL;
LY_ERR err;
err = lyd_dup_siblings(dnode, NULL,
LYD_DUP_RECURSIVE | LYD_DUP_WITH_FLAGS, &dup);
assert(!err);
return dup;
}
void yang_dnode_free(struct lyd_node *dnode)
{
while (dnode->parent)
dnode = lyd_parent(dnode);
lyd_free_all(dnode);
}
void yang_dnode_rpc_output_add(struct lyd_node *output, const char *xpath,
const char *value)
{
LY_ERR err;
err = lyd_new_path(output, ly_native_ctx, xpath, value,
LYD_NEW_PATH_OUTPUT | LYD_NEW_PATH_UPDATE, NULL);
assert(err == LY_SUCCESS);
}
struct yang_data *yang_data_new(const char *xpath, const char *value)
{
struct yang_data *data;
data = XCALLOC(MTYPE_YANG_DATA, sizeof(*data));
strlcpy(data->xpath, xpath, sizeof(data->xpath));
if (value)
data->value = strdup(value);
return data;
}
void yang_data_free(struct yang_data *data)
{
if (data->value)
free(data->value);
XFREE(MTYPE_YANG_DATA, data);
}
struct list *yang_data_list_new(void)
{
struct list *list;
list = list_new();
list->del = (void (*)(void *))yang_data_free;
return list;
}
struct yang_data *yang_data_list_find(const struct list *list,
const char *xpath_fmt, ...)
{
char xpath[XPATH_MAXLEN];
struct yang_data *data;
struct listnode *node;
va_list ap;
va_start(ap, xpath_fmt);
vsnprintf(xpath, sizeof(xpath), xpath_fmt, ap);
va_end(ap);
for (ALL_LIST_ELEMENTS_RO(list, node, data))
if (strmatch(data->xpath, xpath))
return data;
return NULL;
}
/* Make libyang log its errors using FRR logging infrastructure. */
static void ly_zlog_cb(LY_LOG_LEVEL level, const char *msg, const char *data_path
#if !(LY_VERSION_MAJOR < 3)
,
const char *schema_path, uint64_t line
#endif
)
{
int priority = LOG_ERR;
switch (level) {
case LY_LLERR:
priority = LOG_ERR;
break;
case LY_LLWRN:
priority = LOG_WARNING;
break;
case LY_LLVRB:
case LY_LLDBG:
priority = LOG_DEBUG;
break;
}
if (data_path)
zlog(priority, "libyang: %s (%s)", msg, data_path);
#if !(LY_VERSION_MAJOR < 3)
else if (schema_path)
zlog(priority, "libyang %s (%s)\n", msg, schema_path);
else if (line)
zlog(priority, "libyang %s (line %" PRIu64 ")\n", msg, line);
#endif
else
zlog(priority, "libyang: %s", msg);
}
LY_ERR yang_parse_notification(const char *xpath, LYD_FORMAT format,
const char *data, struct lyd_node **notif)
{
struct lyd_node *tree;
struct ly_set *set = NULL;
struct ly_in *in = NULL;
LY_ERR err;
err = ly_in_new_memory(data, &in);
if (err) {
zlog_err("Failed to initialize ly_in: %s", ly_last_errmsg());
return err;
}
err = lyd_parse_op(ly_native_ctx, NULL, in, format, LYD_TYPE_NOTIF_YANG,
&tree, NULL);
ly_in_free(in, 0);
if (err) {
zlog_err("Failed to parse notification: %s", ly_last_errmsg());
return err;
}
err = yang_lyd_find_xpath3(NULL, tree, xpath, LY_VALUE_JSON, NULL, NULL,
&set);
if (err) {
zlog_err("Failed to parse notification: %s", ly_last_errmsg());
lyd_free_all(tree);
return err;
}
if (set->count == 0) {
zlog_err("Notification not found in the parsed tree: %s", xpath);
ly_set_free(set, NULL);
lyd_free_all(tree);
return LY_ENOTFOUND;
}
*notif = set->dnodes[0];
ly_set_free(set, NULL);
return LY_SUCCESS;
}
LY_ERR yang_parse_rpc(const char *xpath, LYD_FORMAT format, const char *data,
bool reply, struct lyd_node **rpc)
{
const struct lysc_node *snode;
struct lyd_node *parent = NULL;
struct ly_in *in = NULL;
LY_ERR err;
snode = lys_find_path(ly_native_ctx, NULL, xpath, 0);
if (!snode) {
zlog_err("Failed to find RPC/action schema node: %s", xpath);
return LY_ENOTFOUND;
}
/* If it's an action, create its parent */
if (snode->nodetype == LYS_ACTION) {
char *parent_xpath = XSTRDUP(MTYPE_TMP, xpath);
if (yang_xpath_pop_node(parent_xpath) != NB_OK) {
XFREE(MTYPE_TMP, parent_xpath);
zlog_err("Invalid action xpath: %s", xpath);
return LY_EINVAL;
}
err = lyd_new_path2(NULL, ly_native_ctx, parent_xpath, NULL, 0,
0, 0, NULL, &parent);
XFREE(MTYPE_TMP, parent_xpath);
if (err) {
zlog_err("Failed to create parent node for action: %s",
ly_last_errmsg());
return err;
}
} else if (snode->nodetype != LYS_RPC) {
zlog_err("Schema node is not an RPC/action: %s", xpath);
return LY_EINVAL;
}
err = ly_in_new_memory(data, &in);
if (err) {
lyd_free_all(parent);
zlog_err("Failed to initialize ly_in: %s", ly_last_errmsg());
return err;
}
err = lyd_parse_op(ly_native_ctx, parent, in, format,
reply ? LYD_TYPE_REPLY_YANG : LYD_TYPE_RPC_YANG,
NULL, rpc);
ly_in_free(in, 0);
if (err) {
lyd_free_all(parent);
zlog_err("Failed to parse RPC/action: %s", ly_last_errmsg());
return err;
}
return LY_SUCCESS;
}
static ssize_t yang_print_darr(void *arg, const void *buf, size_t count)
{
uint8_t *dst = darr_append_n(*(uint8_t **)arg, count);
memcpy(dst, buf, count);
return count;
}
LY_ERR yang_print_tree_append(uint8_t **darr, const struct lyd_node *root,
LYD_FORMAT format, uint32_t options)
{
LY_ERR err;
err = lyd_print_clb(yang_print_darr, darr, root, format, options);
if (err)
zlog_err("Failed to save yang tree: %s", ly_last_errmsg());
else if (format != LYD_LYB)
*darr_append(*darr) = 0;
return err;
}
uint8_t *yang_print_tree(const struct lyd_node *root, LYD_FORMAT format,
uint32_t options)
{
uint8_t *darr = NULL;
if (yang_print_tree_append(&darr, root, format, options))
return NULL;
return darr;
}
char *yang_convert_lyd_format(const char *data, size_t data_len,
LYD_FORMAT in_format, LYD_FORMAT out_format,
bool shrink)
{
struct lyd_node *tree = NULL;
uint32_t options = LYD_PRINT_WD_EXPLICIT | LYD_PRINT_WITHSIBLINGS;
uint8_t *result = NULL;
LY_ERR err;
assert(out_format != LYD_LYB);
if (in_format != LYD_LYB && (!data_len || data[data_len - 1] != 0)) {
zlog_err("Corrupt input data, no NUL terminating byte");
return NULL;
}
if (in_format == out_format)
return darr_strdup((const char *)data);
err = lyd_parse_data_mem(ly_native_ctx, (const char *)data, in_format,
LYD_PARSE_ONLY, 0, &tree);
if (err) {
flog_err_sys(EC_LIB_LIBYANG,
"cannot parse input data to convert: %s",
ly_last_errmsg());
return NULL;
}
if (shrink)
options |= LYD_PRINT_SHRINK;
/* Take a guess at the initial capacity based on input data size */
darr_ensure_cap(result, data_len);
err = yang_print_tree_append(&result, tree, out_format, options);
lyd_free_all(tree);
if (err) {
darr_free(result);
return NULL;
}
return (char *)result;
}
const char *yang_print_errors(struct ly_ctx *ly_ctx, char *buf, size_t buf_len)
{
const struct ly_err_item *ei;
ei = ly_err_first(ly_ctx);
if (!ei)
return "";
strlcpy(buf, "YANG error(s):\n", buf_len);
#if (LY_VERSION_MAJOR < 3)
#define data_path path
#else
#define data_path data_path
#endif
for (; ei; ei = ei->next) {
if (ei->data_path) {
strlcat(buf, " Path: ", buf_len);
strlcat(buf, ei->data_path, buf_len);
strlcat(buf, "\n", buf_len);
}
strlcat(buf, " Error: ", buf_len);
strlcat(buf, ei->msg, buf_len);
strlcat(buf, "\n", buf_len);
}
#undef data_path
ly_err_clean(ly_ctx, NULL);
return buf;
}
void yang_debugging_set(bool enable)
{
if (enable) {
ly_log_level(LY_LLDBG);
ly_log_dbg_groups(0xFF);
} else {
ly_log_level(LY_LLERR);
ly_log_dbg_groups(0);
}
}
struct ly_ctx *yang_ctx_new_setup(bool embedded_modules, bool explicit_compile)
{
struct ly_ctx *ctx = NULL;
const char *yang_models_path = YANG_MODELS_PATH;
uint options;
LY_ERR err;
if (access(yang_models_path, R_OK | X_OK)) {
yang_models_path = NULL;
if (errno == ENOENT)
zlog_info("yang model directory \"%s\" does not exist",
YANG_MODELS_PATH);
else
flog_err_sys(EC_LIB_LIBYANG,
"cannot access yang model directory \"%s\"",
YANG_MODELS_PATH);
}
options = LY_CTX_NO_YANGLIBRARY | LY_CTX_DISABLE_SEARCHDIR_CWD;
if (explicit_compile)
options |= LY_CTX_EXPLICIT_COMPILE;
err = ly_ctx_new(yang_models_path, options, &ctx);
if (err)
return NULL;
if (embedded_modules)
ly_ctx_set_module_imp_clb(ctx, yang_module_imp_clb, NULL);
return ctx;
}
void yang_init(bool embedded_modules, bool defer_compile)
{
/* Initialize libyang global parameters that affect all containers. */
ly_set_log_clb(ly_zlog_cb
#if (LY_VERSION_MAJOR < 3)
,
1
#endif
);
ly_log_options(LY_LOLOG | LY_LOSTORE);
/* Initialize libyang container for native models. */
ly_native_ctx = yang_ctx_new_setup(embedded_modules, defer_compile);
if (!ly_native_ctx) {
flog_err(EC_LIB_LIBYANG, "%s: ly_ctx_new() failed", __func__);
exit(1);
}
yang_translator_init();
}
void yang_init_loading_complete(void)
{
/* Compile everything */
if (ly_ctx_compile(ly_native_ctx) != LY_SUCCESS) {
flog_err(EC_LIB_YANG_MODULE_LOAD,
"%s: failed to compile loaded modules: %s", __func__,
ly_errmsg(ly_native_ctx));
exit(1);
}
}
void yang_terminate(void)
{
struct yang_module *module;
yang_translator_terminate();
while (!RB_EMPTY(yang_modules, &yang_modules)) {
module = RB_ROOT(yang_modules, &yang_modules);
/*
* We shouldn't call ly_ctx_remove_module() here because this
* function also removes other modules that depend on it.
*
* ly_ctx_destroy() will release all memory for us.
*/
RB_REMOVE(yang_modules, &yang_modules, module);
XFREE(MTYPE_YANG_MODULE, module);
}
ly_ctx_destroy(ly_native_ctx);
}
const struct lyd_node *yang_dnode_get_parent(const struct lyd_node *dnode,
const char *name)
{
const struct lyd_node *orig_dnode = dnode;
while (orig_dnode) {
switch (orig_dnode->schema->nodetype) {
case LYS_LIST:
case LYS_CONTAINER:
if (!strcmp(orig_dnode->schema->name, name))
return orig_dnode;
break;
default:
break;
}
orig_dnode = lyd_parent(orig_dnode);
}
return NULL;
}
bool yang_is_last_list_dnode(const struct lyd_node *dnode)
{
return (((dnode->next == NULL)
|| (dnode->next
&& (strcmp(dnode->next->schema->name, dnode->schema->name)
!= 0)))
&& dnode->prev
&& ((dnode->prev == dnode)
|| (strcmp(dnode->prev->schema->name, dnode->schema->name)
!= 0)));
}
bool yang_is_last_level_dnode(const struct lyd_node *dnode)
{
const struct lyd_node *parent;
const struct lyd_node *key_leaf;
uint8_t keys_size;
switch (dnode->schema->nodetype) {
case LYS_LIST:
assert(dnode->parent);
parent = lyd_parent(dnode);
uint snode_num_keys = yang_snode_num_keys(parent->schema);
/* XXX libyang2: q: really don't understand this code. */
key_leaf = dnode->prev;
for (keys_size = 1; keys_size < snode_num_keys; keys_size++)
key_leaf = key_leaf->prev;
if (key_leaf->prev == dnode)
return true;
break;
case LYS_CONTAINER:
return true;
default:
break;
}
return false;
}
const struct lyd_node *
yang_get_subtree_with_no_sibling(const struct lyd_node *dnode)
{
bool parent = true;
const struct lyd_node *node;
node = dnode;
if (node->schema->nodetype != LYS_LIST)
return node;
while (parent) {
switch (node->schema->nodetype) {
case LYS_CONTAINER:
if (!CHECK_FLAG(node->schema->flags, LYS_PRESENCE)) {
if (node->parent
&& (node->parent->schema->module
== dnode->schema->module))
node = lyd_parent(node);
else
parent = false;
} else
parent = false;
break;
case LYS_LIST:
if (yang_is_last_list_dnode(node)
&& yang_is_last_level_dnode(node)) {
if (node->parent
&& (node->parent->schema->module
== dnode->schema->module))
node = lyd_parent(node);
else
parent = false;
} else
parent = false;
break;
default:
parent = false;
break;
}
}
return node;
}
uint32_t yang_get_list_pos(const struct lyd_node *node)
{
return lyd_list_pos(node);
}
uint32_t yang_get_list_elements_count(const struct lyd_node *node)
{
unsigned int count;
const struct lysc_node *schema;
if (!node
|| ((node->schema->nodetype != LYS_LIST)
&& (node->schema->nodetype != LYS_LEAFLIST))) {
return 0;
}
schema = node->schema;
count = 0;
do {
if (node->schema == schema)
++count;
node = node->next;
} while (node);
return count;
}
int yang_get_key_preds(char *s, const struct lysc_node *snode,
struct yang_list_keys *keys, ssize_t space)
{
const struct lysc_node_leaf *skey;
ssize_t len2, len = 0;
ssize_t i = 0;
LY_FOR_KEYS (snode, skey) {
assert(i < keys->num);
len2 = snprintf(s + len, space - len, "[%s='%s']", skey->name,
keys->key[i]);
if (len2 > space - len)
len = space;
else
len += len2;
i++;
}
assert(i == keys->num);
return i;
}
int yang_get_node_keys(struct lyd_node *node, struct yang_list_keys *keys)
{
struct lyd_node *child = lyd_child(node);
keys->num = 0;
for (; child && lysc_is_key(child->schema); child = child->next) {
const char *value = lyd_get_value(child);
if (!value)
return NB_ERR;
strlcpy(keys->key[keys->num], value,
sizeof(keys->key[keys->num]));
keys->num++;
}
return NB_OK;
}
int yang_xpath_pop_node(char *xpath)
{
int len = strlen(xpath);
bool abs = xpath[0] == '/';
char *slash;
/* "//" or "/" => NULL */
if (abs && (len == 1 || (len == 2 && xpath[1] == '/')))
return NB_ERR_NOT_FOUND;
slash = (char *)frrstr_back_to_char(xpath, '/');
/* "/foo/bar/" or "/foo/bar//" => "/foo " */
if (slash && slash == &xpath[len - 1]) {
xpath[--len] = 0;
slash = (char *)frrstr_back_to_char(xpath, '/');
if (slash && slash == &xpath[len - 1]) {
xpath[--len] = 0;
slash = (char *)frrstr_back_to_char(xpath, '/');
}
}
if (!slash)
return NB_ERR_NOT_FOUND;
*slash = 0;
return NB_OK;
}
/*
* ------------------------
* Libyang Future Functions
* ------------------------
*
* All these functions are implemented in libyang versions (perhaps unreleased)
* beyond what we require currently so we must supply the functionality.
*/
/*
* Safe to remove after libyang v2.1.xxx is required (.144 has a bug so
* something > .144) https://github.com/CESNET/libyang/issues/2149
*/
LY_ERR yang_lyd_new_list(struct lyd_node_inner *parent,
const struct lysc_node *snode,
const struct yang_list_keys *list_keys,
struct lyd_node **node)
{
#if defined(HAVE_LYD_NEW_LIST3) && 0
LY_ERR err;
const char *keys[LIST_MAXKEYS];
assert(list_keys->num <= LIST_MAXKEYS);
for (int i = 0; i < list_keys->num; i++)
keys[i] = list_keys->key[i];
err = lyd_new_list3(&parent->node, snode->module, snode->name, keys,
NULL, 0, node);
return err;
#else
struct lyd_node *pnode = &parent->node;
const char(*keys)[LIST_MAXKEYLEN] = list_keys->key;
assert(list_keys->num <= 8);
switch (list_keys->num) {
case 0:
return lyd_new_list(pnode, snode->module, snode->name, false,
node);
case 1:
return lyd_new_list(pnode, snode->module, snode->name, false,
node, keys[0]);
case 2:
return lyd_new_list(pnode, snode->module, snode->name, false,
node, keys[0], keys[1]);
case 3:
return lyd_new_list(pnode, snode->module, snode->name, false,
node, keys[0], keys[1], keys[2]);
case 4:
return lyd_new_list(pnode, snode->module, snode->name, false,
node, keys[0], keys[1], keys[2], keys[3]);
case 5:
return lyd_new_list(pnode, snode->module, snode->name, false,
node, keys[0], keys[1], keys[2], keys[3],
keys[4]);
case 6:
return lyd_new_list(pnode, snode->module, snode->name, false,
node, keys[0], keys[1], keys[2], keys[3],
keys[4], keys[5]);
case 7:
return lyd_new_list(pnode, snode->module, snode->name, false,
node, keys[0], keys[1], keys[2], keys[3],
keys[4], keys[5], keys[6]);
case 8:
return lyd_new_list(pnode, snode->module, snode->name, false,
node, keys[0], keys[1], keys[2], keys[3],
keys[4], keys[5], keys[6], keys[7]);
}
_Static_assert(LIST_MAXKEYS == 8, "max key mismatch in switch unroll");
/*NOTREACHED*/
return LY_EINVAL;
#endif
}
/*
* Safe to remove after libyang v2.1.144 is required
*/
LY_ERR yang_lyd_trim_xpath(struct lyd_node **root, const char *xpath)
{
LY_ERR err;
#ifdef HAVE_LYD_TRIM_XPATH
err = lyd_trim_xpath(root, xpath, NULL);
if (err) {
flog_err_sys(EC_LIB_LIBYANG,
"cannot obtain specific result for xpath \"%s\": %s",
xpath, yang_ly_strerrcode(err));
return err;
}
return LY_SUCCESS;
#else
struct lyd_node *node, *sib;
struct lyd_node **remove = NULL;
struct ly_set *set = NULL;
uint32_t i;
*root = lyd_first_sibling(*root);
err = yang_lyd_find_xpath3(NULL, *root, xpath, LY_VALUE_JSON, NULL,
NULL, &set);
if (err) {
flog_err_sys(EC_LIB_LIBYANG,
"cannot obtain specific result for xpath \"%s\": %s",
xpath, yang_ly_strerrcode(err));
return err;
}
/*
* Mark keepers and sweep deleting non-keepers.
*
* NOTE: We assume the data-nodes have NULL priv pointers and use that
* for our mark.
*/
/* Mark */
for (i = 0; i < set->count; i++) {
for (node = set->dnodes[i]; node; node = &node->parent->node) {
if (node->priv)
break;
if (node == set->dnodes[i])
node->priv = (void *)2;
else
node->priv = (void *)1;
}
}
darr_ensure_cap(remove, 128);
LY_LIST_FOR(*root, sib) {
LYD_TREE_DFS_BEGIN (sib, node) {
/*
* If this is a direct matching node then include its
* subtree which won't be marked and would otherwise
* be removed.
*/
if (node->priv == (void *)2)
LYD_TREE_DFS_continue = 1;
else if (!node->priv) {
*darr_append(remove) = node;
LYD_TREE_DFS_continue = 1;
}
LYD_TREE_DFS_END(sib, node);
}
}
darr_foreach_i (remove, i) {
if (remove[i] == *root)
*root = (*root)->next;
lyd_free_tree(remove[i]);
}
darr_free(remove);
ly_set_free(set, NULL);
return LY_SUCCESS;
#endif
}
/* Can be replaced by `lyd_parse_data` with libyang >= 2.1.156 */
LY_ERR yang_lyd_parse_data(const struct ly_ctx *ctx, struct lyd_node *parent,
struct ly_in *in, LYD_FORMAT format,
uint32_t parse_options, uint32_t validate_options,
struct lyd_node **tree)
{
struct lyd_node *child;
LY_ERR err;
err = lyd_parse_data(ctx, parent, in, format, parse_options,
validate_options, tree);
if (err)
return err;
if (!parent || !(parse_options & LYD_PARSE_ONLY))
return LY_SUCCESS;
/*
* Versions prior to 2.1.156 don't return `tree` if `parent` is not NULL
* and validation is disabled (`LYD_PARSE_ONLY`). To work around this,
* go through the children and find the one with `LYD_NEW` flag set.
*/
*tree = NULL;
LY_LIST_FOR (lyd_child_no_keys(parent), child) {
if (child->flags & LYD_NEW) {
*tree = child;
break;
}
}
assert(tree);
return LY_SUCCESS;
}
/*
* Safe to remove after libyang v2.1.128 is required
*/
const char *yang_ly_strerrcode(LY_ERR err)
{
#ifdef HAVE_LY_STRERRCODE
return ly_strerrcode(err);
#else
switch (err) {
case LY_SUCCESS:
return "ok";
case LY_EMEM:
return "out of memory";
case LY_ESYS:
return "system error";
case LY_EINVAL:
return "invalid value given";
case LY_EEXIST:
return "item exists";
case LY_ENOTFOUND:
return "item not found";
case LY_EINT:
return "operation interrupted";
case LY_EVALID:
return "validation failed";
case LY_EDENIED:
return "access denied";
case LY_EINCOMPLETE:
return "incomplete";
case LY_ERECOMPILE:
return "compile error";
case LY_ENOT:
return "not";
case LY_EPLUGIN:
case LY_EOTHER:
return "other";
default:
return "unknown";
}
#endif
}
/*
* Safe to remove after libyang v2.1.128 is required
*/
const char *yang_ly_strvecode(LY_VECODE vecode)
{
#ifdef HAVE_LY_STRVECODE
return ly_strvecode(vecode);
#else
switch (vecode) {
case LYVE_SUCCESS:
return "";
case LYVE_SYNTAX:
return "syntax";
case LYVE_SYNTAX_YANG:
return "yang-syntax";
case LYVE_SYNTAX_YIN:
return "yin-syntax";
case LYVE_REFERENCE:
return "reference";
case LYVE_XPATH:
return "xpath";
case LYVE_SEMANTICS:
return "semantics";
case LYVE_SYNTAX_XML:
return "xml-syntax";
case LYVE_SYNTAX_JSON:
return "json-syntax";
case LYVE_DATA:
return "data";
case LYVE_OTHER:
return "other";
default:
return "unknown";
}
#endif
}
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