blob: 5daa7a4704f351c30f12cf0b2e607c5745f50f0a [file] [log] [blame]
/**
* @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
*/
#include "common.h"
#include <ctype.h>
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <linux/limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include "libyang.h"
#include "context.h"
#include "tree_schema_internal.h"
#include "xpath.h"
#define FREE_ARRAY(CTX, ARRAY, FUNC) {uint64_t c__; LY_ARRAY_FOR(ARRAY, c__){FUNC(CTX, &ARRAY[c__]);}LY_ARRAY_FREE(ARRAY);}
#define FREE_MEMBER(CTX, MEMBER, FUNC) if (MEMBER) {FUNC(CTX, MEMBER);free(MEMBER);}
#define FREE_STRING(CTX, STRING) if (STRING) {lydict_remove(CTX, STRING);}
#define FREE_STRINGS(CTX, ARRAY) {uint64_t c__; LY_ARRAY_FOR(ARRAY, c__){FREE_STRING(CTX, ARRAY[c__]);}LY_ARRAY_FREE(ARRAY);}
#define COMPILE_ARRAY_GOTO(CTX, ARRAY_P, ARRAY_C, OPTIONS, ITER, FUNC, RET, GOTO) \
if (ARRAY_P) { \
LY_ARRAY_CREATE_GOTO((CTX)->ctx, ARRAY_C, LY_ARRAY_SIZE(ARRAY_P), RET, GOTO); \
for (ITER = 0; ITER < LY_ARRAY_SIZE(ARRAY_P); ++ITER) { \
LY_ARRAY_INCREMENT(ARRAY_C); \
RET = FUNC(CTX, &(ARRAY_P)[ITER], OPTIONS, &(ARRAY_C)[ITER]); \
LY_CHECK_GOTO(RET != LY_SUCCESS, GOTO); \
} \
}
#define COMPILE_MEMBER_GOTO(CTX, MEMBER_P, MEMBER_C, OPTIONS, FUNC, RET, GOTO) \
if (MEMBER_P) { \
MEMBER_C = calloc(1, sizeof *(MEMBER_C)); \
LY_CHECK_ERR_GOTO(!(MEMBER_C), LOGMEM((CTX)->ctx); RET = LY_EMEM, GOTO); \
RET = FUNC(CTX, MEMBER_P, OPTIONS, MEMBER_C); \
LY_CHECK_GOTO(RET != LY_SUCCESS, GOTO); \
}
static void lysp_grp_free(struct ly_ctx *ctx, struct lysp_grp *grp);
static void lysp_node_free(struct ly_ctx *ctx, struct lysp_node *node);
static void
lysp_stmt_free(struct ly_ctx *ctx, struct lysp_stmt *stmt)
{
struct lysp_stmt *child, *next;
FREE_STRING(ctx, stmt->stmt);
FREE_STRING(ctx, stmt->arg);
LY_LIST_FOR_SAFE(stmt->child, next, child) {
lysp_stmt_free(ctx, child);
}
free(stmt);
}
static void
lysp_ext_instance_free(struct ly_ctx *ctx, struct lysp_ext_instance *ext)
{
struct lysp_stmt *stmt, *next;
FREE_STRING(ctx, ext->name);
FREE_STRING(ctx, ext->argument);
LY_LIST_FOR_SAFE(ext->child, next, stmt) {
lysp_stmt_free(ctx, stmt);
}
}
static void
lysp_import_free(struct ly_ctx *ctx, struct lysp_import *import)
{
/* imported module is freed directly from the context's list */
FREE_STRING(ctx, import->name);
FREE_STRING(ctx, import->prefix);
FREE_STRING(ctx, import->dsc);
FREE_STRING(ctx, import->ref);
FREE_ARRAY(ctx, import->exts, lysp_ext_instance_free);
}
static void
lysp_include_free(struct ly_ctx *ctx, struct lysp_include *include)
{
if (include->submodule) {
lysp_module_free(include->submodule);
}
FREE_STRING(ctx, include->name);
FREE_STRING(ctx, include->dsc);
FREE_STRING(ctx, include->ref);
FREE_ARRAY(ctx, include->exts, lysp_ext_instance_free);
}
static void
lysp_revision_free(struct ly_ctx *ctx, struct lysp_revision *rev)
{
FREE_STRING(ctx, rev->dsc);
FREE_STRING(ctx, rev->ref);
FREE_ARRAY(ctx, rev->exts, lysp_ext_instance_free);
}
static void
lysp_ext_free(struct ly_ctx *ctx, struct lysp_ext *ext)
{
FREE_STRING(ctx, ext->name);
FREE_STRING(ctx, ext->argument);
FREE_STRING(ctx, ext->dsc);
FREE_STRING(ctx, ext->ref);
FREE_ARRAY(ctx, ext->exts, lysp_ext_instance_free);
}
static void
lysp_feature_free(struct ly_ctx *ctx, struct lysp_feature *feat)
{
FREE_STRING(ctx, feat->name);
FREE_STRINGS(ctx, feat->iffeatures);
FREE_STRING(ctx, feat->dsc);
FREE_STRING(ctx, feat->ref);
FREE_ARRAY(ctx, feat->exts, lysp_ext_instance_free);
}
static void
lysp_ident_free(struct ly_ctx *ctx, struct lysp_ident *ident)
{
FREE_STRING(ctx, ident->name);
FREE_STRINGS(ctx, ident->iffeatures);
FREE_STRINGS(ctx, ident->bases);
FREE_STRING(ctx, ident->dsc);
FREE_STRING(ctx, ident->ref);
FREE_ARRAY(ctx, ident->exts, lysp_ext_instance_free);
}
static void
lysp_restr_free(struct ly_ctx *ctx, struct lysp_restr *restr)
{
FREE_STRING(ctx, restr->arg);
FREE_STRING(ctx, restr->emsg);
FREE_STRING(ctx, restr->eapptag);
FREE_STRING(ctx, restr->dsc);
FREE_STRING(ctx, restr->ref);
FREE_ARRAY(ctx, restr->exts, lysp_ext_instance_free);
}
static void
lysp_type_enum_free(struct ly_ctx *ctx, struct lysp_type_enum *item)
{
FREE_STRING(ctx, item->name);
FREE_STRING(ctx, item->dsc);
FREE_STRING(ctx, item->ref);
FREE_STRINGS(ctx, item->iffeatures);
FREE_ARRAY(ctx, item->exts, lysp_ext_instance_free);
}
static void
lysp_type_free(struct ly_ctx *ctx, struct lysp_type *type)
{
FREE_STRING(ctx, type->name);
FREE_MEMBER(ctx, type->range, lysp_restr_free);
FREE_MEMBER(ctx, type->length, lysp_restr_free);
FREE_ARRAY(ctx, type->patterns, lysp_restr_free);
FREE_ARRAY(ctx, type->enums, lysp_type_enum_free);
FREE_ARRAY(ctx, type->bits, lysp_type_enum_free);
FREE_STRING(ctx, type->path);
FREE_STRINGS(ctx, type->bases);
FREE_ARRAY(ctx, type->types, lysp_type_free);
FREE_ARRAY(ctx, type->exts, lysp_ext_instance_free);
}
static void
lysp_tpdf_free(struct ly_ctx *ctx, struct lysp_tpdf *tpdf)
{
FREE_STRING(ctx, tpdf->name);
FREE_STRING(ctx, tpdf->units);
FREE_STRING(ctx, tpdf->dflt);
FREE_STRING(ctx, tpdf->dsc);
FREE_STRING(ctx, tpdf->ref);
FREE_ARRAY(ctx, tpdf->exts, lysp_ext_instance_free);
lysp_type_free(ctx, &tpdf->type);
}
static void
lysp_action_inout_free(struct ly_ctx *ctx, struct lysp_action_inout *inout)
{
struct lysp_node *node, *next;
FREE_ARRAY(ctx, inout->musts, lysp_restr_free);
FREE_ARRAY(ctx, inout->typedefs, lysp_tpdf_free);
FREE_ARRAY(ctx, inout->groupings, lysp_grp_free);
LY_LIST_FOR_SAFE(inout->data, next, node) {
lysp_node_free(ctx, node);
}
FREE_ARRAY(ctx, inout->exts, lysp_ext_instance_free);
}
static void
lysp_action_free(struct ly_ctx *ctx, struct lysp_action *action)
{
FREE_STRING(ctx, action->name);
FREE_STRING(ctx, action->dsc);
FREE_STRING(ctx, action->ref);
FREE_STRINGS(ctx, action->iffeatures);
FREE_ARRAY(ctx, action->typedefs, lysp_tpdf_free);
FREE_ARRAY(ctx, action->groupings, lysp_grp_free);
FREE_MEMBER(ctx, action->input, lysp_action_inout_free);
FREE_MEMBER(ctx, action->output, lysp_action_inout_free);
FREE_ARRAY(ctx, action->exts, lysp_ext_instance_free);
}
static void
lysp_notif_free(struct ly_ctx *ctx, struct lysp_notif *notif)
{
struct lysp_node *node, *next;
FREE_STRING(ctx, notif->name);
FREE_STRING(ctx, notif->dsc);
FREE_STRING(ctx, notif->ref);
FREE_STRINGS(ctx, notif->iffeatures);
FREE_ARRAY(ctx, notif->musts, lysp_restr_free);
FREE_ARRAY(ctx, notif->typedefs, lysp_tpdf_free);
FREE_ARRAY(ctx, notif->groupings, lysp_grp_free);
LY_LIST_FOR_SAFE(notif->data, next, node) {
lysp_node_free(ctx, node);
}
FREE_ARRAY(ctx, notif->exts, lysp_ext_instance_free);
}
static void
lysp_grp_free(struct ly_ctx *ctx, struct lysp_grp *grp)
{
struct lysp_node *node, *next;
FREE_STRING(ctx, grp->name);
FREE_STRING(ctx, grp->dsc);
FREE_STRING(ctx, grp->ref);
FREE_ARRAY(ctx, grp->typedefs, lysp_tpdf_free);
FREE_ARRAY(ctx, grp->groupings, lysp_grp_free);
LY_LIST_FOR_SAFE(grp->data, next, node) {
lysp_node_free(ctx, node);
}
FREE_ARRAY(ctx, grp->actions, lysp_action_free);
FREE_ARRAY(ctx, grp->notifs, lysp_notif_free);
FREE_ARRAY(ctx, grp->exts, lysp_ext_instance_free);
}
static void
lysp_when_free(struct ly_ctx *ctx, struct lysp_when *when)
{
FREE_STRING(ctx, when->cond);
FREE_STRING(ctx, when->dsc);
FREE_STRING(ctx, when->ref);
FREE_ARRAY(ctx, when->exts, lysp_ext_instance_free);
}
static void
lysp_augment_free(struct ly_ctx *ctx, struct lysp_augment *augment)
{
struct lysp_node *node, *next;
FREE_STRING(ctx, augment->nodeid);
FREE_STRING(ctx, augment->dsc);
FREE_STRING(ctx, augment->ref);
FREE_MEMBER(ctx, augment->when, lysp_when_free);
FREE_STRINGS(ctx, augment->iffeatures);
LY_LIST_FOR_SAFE(augment->child, next, node) {
lysp_node_free(ctx, node);
}
FREE_ARRAY(ctx, augment->actions, lysp_action_free);
FREE_ARRAY(ctx, augment->notifs, lysp_notif_free);
FREE_ARRAY(ctx, augment->exts, lysp_ext_instance_free);
}
static void
lysp_deviate_free(struct ly_ctx *ctx, struct lysp_deviate *d)
{
struct lysp_deviate_add *add = (struct lysp_deviate_add*)d;
struct lysp_deviate_rpl *rpl = (struct lysp_deviate_rpl*)d;
FREE_ARRAY(ctx, d->exts, lysp_ext_instance_free);
switch(d->mod) {
case LYS_DEV_NOT_SUPPORTED:
/* nothing to do */
break;
case LYS_DEV_ADD:
case LYS_DEV_DELETE: /* compatible for dynamically allocated data */
FREE_STRING(ctx, add->units);
FREE_ARRAY(ctx, add->musts, lysp_restr_free);
FREE_STRINGS(ctx, add->uniques);
FREE_STRINGS(ctx, add->dflts);
break;
case LYS_DEV_REPLACE:
FREE_MEMBER(ctx, rpl->type, lysp_type_free);
FREE_STRING(ctx, rpl->units);
FREE_STRING(ctx, rpl->dflt);
break;
default:
LOGINT(ctx);
break;
}
}
static void
lysp_deviation_free(struct ly_ctx *ctx, struct lysp_deviation *dev)
{
struct lysp_deviate *next, *iter;
FREE_STRING(ctx, dev->nodeid);
FREE_STRING(ctx, dev->dsc);
FREE_STRING(ctx, dev->ref);
LY_LIST_FOR_SAFE(dev->deviates, next, iter) {
lysp_deviate_free(ctx, iter);
free(iter);
}
FREE_ARRAY(ctx, dev->exts, lysp_ext_instance_free);
}
static void
lysp_refine_free(struct ly_ctx *ctx, struct lysp_refine *ref)
{
FREE_STRING(ctx, ref->nodeid);
FREE_STRING(ctx, ref->dsc);
FREE_STRING(ctx, ref->ref);
FREE_STRINGS(ctx, ref->iffeatures);
FREE_ARRAY(ctx, ref->musts, lysp_restr_free);
FREE_STRING(ctx, ref->presence);
FREE_STRINGS(ctx, ref->dflts);
FREE_ARRAY(ctx, ref->exts, lysp_ext_instance_free);
}
static void
lysp_node_free(struct ly_ctx *ctx, struct lysp_node *node)
{
struct lysp_node *child, *next;
FREE_STRING(ctx, node->name);
FREE_STRING(ctx, node->dsc);
FREE_STRING(ctx, node->ref);
FREE_MEMBER(ctx, node->when, lysp_when_free);
FREE_STRINGS(ctx, node->iffeatures);
FREE_ARRAY(ctx, node->exts, lysp_ext_instance_free);
switch(node->nodetype) {
case LYS_CONTAINER:
FREE_ARRAY(ctx, ((struct lysp_node_container*)node)->musts, lysp_restr_free);
FREE_STRING(ctx, ((struct lysp_node_container*)node)->presence);
FREE_ARRAY(ctx, ((struct lysp_node_container*)node)->typedefs, lysp_tpdf_free);
FREE_ARRAY(ctx, ((struct lysp_node_container*)node)->groupings, lysp_grp_free);
LY_LIST_FOR_SAFE(((struct lysp_node_container*)node)->child, next, child) {
lysp_node_free(ctx, child);
}
FREE_ARRAY(ctx, ((struct lysp_node_container*)node)->actions, lysp_action_free);
FREE_ARRAY(ctx, ((struct lysp_node_container*)node)->notifs, lysp_notif_free);
break;
case LYS_LEAF:
FREE_ARRAY(ctx, ((struct lysp_node_leaf*)node)->musts, lysp_restr_free);
lysp_type_free(ctx, &((struct lysp_node_leaf*)node)->type);
FREE_STRING(ctx, ((struct lysp_node_leaf*)node)->units);
FREE_STRING(ctx, ((struct lysp_node_leaf*)node)->dflt);
break;
case LYS_LEAFLIST:
FREE_ARRAY(ctx, ((struct lysp_node_leaflist*)node)->musts, lysp_restr_free);
lysp_type_free(ctx, &((struct lysp_node_leaflist*)node)->type);
FREE_STRING(ctx, ((struct lysp_node_leaflist*)node)->units);
FREE_STRINGS(ctx, ((struct lysp_node_leaflist*)node)->dflts);
break;
case LYS_LIST:
FREE_ARRAY(ctx, ((struct lysp_node_list*)node)->musts, lysp_restr_free);
FREE_STRING(ctx, ((struct lysp_node_list*)node)->key);
FREE_ARRAY(ctx, ((struct lysp_node_list*)node)->typedefs, lysp_tpdf_free);
FREE_ARRAY(ctx, ((struct lysp_node_list*)node)->groupings, lysp_grp_free);
LY_LIST_FOR_SAFE(((struct lysp_node_list*)node)->child, next, child) {
lysp_node_free(ctx, child);
}
FREE_ARRAY(ctx, ((struct lysp_node_list*)node)->actions, lysp_action_free);
FREE_ARRAY(ctx, ((struct lysp_node_list*)node)->notifs, lysp_notif_free);
FREE_STRINGS(ctx, ((struct lysp_node_list*)node)->uniques);
break;
case LYS_CHOICE:
LY_LIST_FOR_SAFE(((struct lysp_node_choice*)node)->child, next, child) {
lysp_node_free(ctx, child);
}
FREE_STRING(ctx, ((struct lysp_node_choice*)node)->dflt);
break;
case LYS_CASE:
LY_LIST_FOR_SAFE(((struct lysp_node_case*)node)->child, next, child) {
lysp_node_free(ctx, child);
}
break;
case LYS_ANYDATA:
case LYS_ANYXML:
FREE_ARRAY(ctx, ((struct lysp_node_anydata*)node)->musts, lysp_restr_free);
break;
case LYS_USES:
FREE_ARRAY(ctx, ((struct lysp_node_uses*)node)->refines, lysp_refine_free);
FREE_ARRAY(ctx, ((struct lysp_node_uses*)node)->augments, lysp_augment_free);
break;
default:
LOGINT(ctx);
}
free(node);
}
API void
lysp_module_free(struct lysp_module *module)
{
struct ly_ctx *ctx;
struct lysp_node *node, *next;
LY_CHECK_ARG_RET(NULL, module,);
ctx = module->ctx;
FREE_STRING(ctx, module->name);
FREE_STRING(ctx, module->filepath);
FREE_STRING(ctx, module->ns); /* or belongs-to */
FREE_STRING(ctx, module->prefix);
FREE_ARRAY(ctx, module->imports, lysp_import_free);
FREE_ARRAY(ctx, module->includes, lysp_include_free);
FREE_STRING(ctx, module->org);
FREE_STRING(ctx, module->contact);
FREE_STRING(ctx, module->dsc);
FREE_STRING(ctx, module->ref);
FREE_ARRAY(ctx, module->revs, lysp_revision_free);
FREE_ARRAY(ctx, module->extensions, lysp_ext_free);
FREE_ARRAY(ctx, module->features, lysp_feature_free);
FREE_ARRAY(ctx, module->identities, lysp_ident_free);
FREE_ARRAY(ctx, module->typedefs, lysp_tpdf_free);
FREE_ARRAY(ctx, module->groupings, lysp_grp_free);
LY_LIST_FOR_SAFE(module->data, next, node) {
lysp_node_free(ctx, node);
}
FREE_ARRAY(ctx, module->augments, lysp_augment_free);
FREE_ARRAY(ctx, module->rpcs, lysp_action_free);
FREE_ARRAY(ctx, module->notifs, lysp_notif_free);
FREE_ARRAY(ctx, module->deviations, lysp_deviation_free);
FREE_ARRAY(ctx, module->exts, lysp_ext_instance_free);
free(module);
}
static void
lysc_ext_instance_free(struct ly_ctx *ctx, struct lysc_ext_instance *ext)
{
FREE_STRING(ctx, ext->argument);
FREE_ARRAY(ctx, ext->exts, lysc_ext_instance_free);
}
static void
lysc_iffeature_free(struct ly_ctx *UNUSED(ctx), struct lysc_iffeature *iff)
{
LY_ARRAY_FREE(iff->features);
free(iff->expr);
}
static void
lysc_import_free(struct ly_ctx *ctx, struct lysc_import *import)
{
/* imported module is freed directly from the context's list */
FREE_STRING(ctx, import->prefix);
FREE_ARRAY(ctx, import->exts, lysc_ext_instance_free);
}
static void
lysc_ident_free(struct ly_ctx *ctx, struct lysc_ident *ident)
{
FREE_STRING(ctx, ident->name);
FREE_ARRAY(ctx, ident->iffeatures, lysc_iffeature_free);
LY_ARRAY_FREE(ident->derived);
FREE_ARRAY(ctx, ident->exts, lysc_ext_instance_free);
}
static void
lysc_feature_free(struct ly_ctx *ctx, struct lysc_feature *feat)
{
FREE_STRING(ctx, feat->name);
FREE_ARRAY(ctx, feat->iffeatures, lysc_iffeature_free);
LY_ARRAY_FREE(feat->depfeatures);
FREE_ARRAY(ctx, feat->exts, lysc_ext_instance_free);
}
static void
lysc_range_free(struct ly_ctx *ctx, struct lysc_range *range)
{
LY_ARRAY_FREE(range->parts);
FREE_STRING(ctx, range->eapptag);
FREE_STRING(ctx, range->emsg);
FREE_ARRAY(ctx, range->exts, lysc_ext_instance_free);
}
static void
lysc_type_free(struct ly_ctx *ctx, struct lysc_type *type)
{
switch(type->basetype) {
case LY_TYPE_BINARY:
FREE_MEMBER(ctx, ((struct lysc_type_bin*)type)->length, lysc_range_free);
break;
}
FREE_ARRAY(ctx, type->exts, lysc_ext_instance_free);
}
static void lysc_node_free(struct ly_ctx *ctx, struct lysc_node *node);
static void
lysc_node_container_free(struct ly_ctx *ctx, struct lysc_node_container *node)
{
struct lysc_node *child, *child_next;
LY_LIST_FOR_SAFE(node->child, child_next, child) {
lysc_node_free(ctx, child);
}
}
static void
lysc_node_leaf_free(struct ly_ctx *ctx, struct lysc_node_leaf *node)
{
FREE_MEMBER(ctx, node->type, lysc_type_free);
}
static void
lysc_node_free(struct ly_ctx *ctx, struct lysc_node *node)
{
/* common part */
FREE_STRING(ctx, node->name);
/* nodetype-specific part */
switch(node->nodetype) {
case LYS_CONTAINER:
lysc_node_container_free(ctx, (struct lysc_node_container*)node);
break;
case LYS_LEAF:
lysc_node_leaf_free(ctx, (struct lysc_node_leaf*)node);
break;
default:
LOGINT(ctx);
}
free(node);
}
static void
lysc_module_free_(struct lysc_module *module)
{
struct ly_ctx *ctx;
struct lysc_node *node, *node_next;
LY_CHECK_ARG_RET(NULL, module,);
ctx = module->ctx;
FREE_STRING(ctx, module->name);
FREE_STRING(ctx, module->ns);
FREE_STRING(ctx, module->prefix);
FREE_STRING(ctx, module->revision);
FREE_ARRAY(ctx, module->imports, lysc_import_free);
FREE_ARRAY(ctx, module->features, lysc_feature_free);
FREE_ARRAY(ctx, module->identities, lysc_ident_free);
LY_LIST_FOR_SAFE(module->data, node_next, node) {
lysc_node_free(ctx, node);
}
FREE_ARRAY(ctx, module->exts, lysc_ext_instance_free);
free(module);
}
API void
lysc_module_free(struct lysc_module *module, void (*private_destructor)(const struct lysc_node *node, void *priv))
{
if (module) {
lysc_module_free_(module);
}
}
void
lys_module_free(struct lys_module *module, void (*private_destructor)(const struct lysc_node *node, void *priv))
{
if (!module) {
return;
}
lysc_module_free(module->compiled, private_destructor);
lysp_module_free(module->parsed);
free(module);
}
struct iff_stack {
int size;
int index; /* first empty item */
uint8_t *stack;
};
static LY_ERR
iff_stack_push(struct iff_stack *stack, uint8_t value)
{
if (stack->index == stack->size) {
stack->size += 4;
stack->stack = ly_realloc(stack->stack, stack->size * sizeof *stack->stack);
LY_CHECK_ERR_RET(!stack->stack, LOGMEM(NULL); stack->size = 0, LY_EMEM);
}
stack->stack[stack->index++] = value;
return LY_SUCCESS;
}
static uint8_t
iff_stack_pop(struct iff_stack *stack)
{
stack->index--;
return stack->stack[stack->index];
}
static void
iff_stack_clean(struct iff_stack *stack)
{
stack->size = 0;
free(stack->stack);
}
static void
iff_setop(uint8_t *list, uint8_t op, int pos)
{
uint8_t *item;
uint8_t mask = 3;
assert(pos >= 0);
assert(op <= 3); /* max 2 bits */
item = &list[pos / 4];
mask = mask << 2 * (pos % 4);
*item = (*item) & ~mask;
*item = (*item) | (op << 2 * (pos % 4));
}
static uint8_t
iff_getop(uint8_t *list, int pos)
{
uint8_t *item;
uint8_t mask = 3, result;
assert(pos >= 0);
item = &list[pos / 4];
result = (*item) & (mask << 2 * (pos % 4));
return result >> 2 * (pos % 4);
}
#define LYS_IFF_LP 0x04 /* ( */
#define LYS_IFF_RP 0x08 /* ) */
API int
lysc_feature_value(const struct lysc_feature *feature)
{
LY_CHECK_ARG_RET(NULL, feature, -1);
return feature->flags & LYS_FENABLED ? 1 : 0;
}
static struct lysc_feature *
lysc_feature_find(struct lysc_module *mod, const char *name, size_t len)
{
size_t i;
struct lysc_feature *f;
for (i = 0; i < len; ++i) {
if (name[i] == ':') {
/* we have a prefixed feature */
mod = lysc_module_find_prefix(mod, name, i);
LY_CHECK_RET(!mod, NULL);
name = &name[i + 1];
len = len - i - 1;
}
}
/* we have the correct module, get the feature */
LY_ARRAY_FOR(mod->features, i) {
f = &mod->features[i];
if (!strncmp(f->name, name, len) && f->name[len] == '\0') {
return f;
}
}
return NULL;
}
static int
lysc_iffeature_value_(const struct lysc_iffeature *iff, int *index_e, int *index_f)
{
uint8_t op;
int a, b;
op = iff_getop(iff->expr, *index_e);
(*index_e)++;
switch (op) {
case LYS_IFF_F:
/* resolve feature */
return lysc_feature_value(iff->features[(*index_f)++]);
case LYS_IFF_NOT:
/* invert result */
return lysc_iffeature_value_(iff, index_e, index_f) ? 0 : 1;
case LYS_IFF_AND:
case LYS_IFF_OR:
a = lysc_iffeature_value_(iff, index_e, index_f);
b = lysc_iffeature_value_(iff, index_e, index_f);
if (op == LYS_IFF_AND) {
return a && b;
} else { /* LYS_IFF_OR */
return a || b;
}
}
return 0;
}
API int
lysc_iffeature_value(const struct lysc_iffeature *iff)
{
int index_e = 0, index_f = 0;
LY_CHECK_ARG_RET(NULL, iff, -1);
if (iff->expr) {
return lysc_iffeature_value_(iff, &index_e, &index_f);
}
return 0;
}
/*
* op: 1 - enable, 0 - disable
*/
/**
* @brief Enable/Disable the specified feature in the module.
*
* If the feature is already set to the desired value, LY_SUCCESS is returned.
* By changing the feature, also all the feature which depends on it via their
* if-feature statements are again evaluated (disabled if a if-feature statemen
* evaluates to false).
*
* @param[in] mod Compiled module where to set (search for) the feature.
* @param[in] name Name of the feature to set. Asterisk ('*') can be used to
* set all the features in the module.
* @param[in] value Desired value of the feature: 1 (enable) or 0 (disable).
* @return LY_ERR value.
*/
static LY_ERR
lys_feature_change(const struct lysc_module *mod, const char *name, int value)
{
int all = 0;
unsigned int u, changed_count, disabled_count;
struct lysc_feature *f, **df;
struct lysc_iffeature *iff;
struct ly_set *changed;
if (!mod->features) {
LOGERR(mod->ctx, LY_EINVAL, "Unable to switch feature since the module \"%s\" has no features.", mod->name);
return LY_EINVAL;
}
if (!strcmp(name, "*")) {
/* enable all */
all = 1;
}
changed = ly_set_new();
changed_count = 0;
run:
for (disabled_count = u = 0; u < LY_ARRAY_SIZE(mod->features); ++u) {
f = &mod->features[u];
if (all || !strcmp(f->name, name)) {
if ((value && (f->flags & LYS_FENABLED)) || (!value && !(f->flags & LYS_FENABLED))) {
if (all) {
/* skip already set features */
continue;
} else {
/* feature already set correctly */
ly_set_free(changed, NULL);
return LY_SUCCESS;
}
}
if (value) { /* enable */
/* check referenced features if they are enabled */
LY_ARRAY_FOR(f->iffeatures, struct lysc_iffeature, iff) {
if (!lysc_iffeature_value(iff)) {
if (all) {
++disabled_count;
goto next;
} else {
LOGERR(mod->ctx, LY_EDENIED,
"Feature \"%s\" cannot be enabled since it is disabled by its if-feature condition(s).",
f->name);
ly_set_free(changed, NULL);
return LY_EDENIED;
}
}
}
/* enable the feature */
f->flags |= LYS_FENABLED;
} else { /* disable */
/* disable the feature */
f->flags &= ~LYS_FENABLED;
}
/* remember the changed feature */
ly_set_add(changed, f, LY_SET_OPT_USEASLIST);
if (!all) {
/* stop in case changing a single feature */
break;
}
}
next:
;
}
if (!all && !changed->count) {
LOGERR(mod->ctx, LY_EINVAL, "Feature \"%s\" not found in module \"%s\".", name, mod->name);
ly_set_free(changed, NULL);
return LY_EINVAL;
}
if (value && all && disabled_count) {
if (changed_count == changed->count) {
/* no change in last run -> not able to enable all ... */
/* ... print errors */
for (u = 0; disabled_count && u < LY_ARRAY_SIZE(mod->features); ++u) {
if (!(mod->features[u].flags & LYS_FENABLED)) {
LOGERR(mod->ctx, LY_EDENIED,
"Feature \"%s\" cannot be enabled since it is disabled by its if-feature condition(s).",
mod->features[u].name);
--disabled_count;
}
}
/* ... restore the original state */
for (u = 0; u < changed->count; ++u) {
f = changed->objs[u];
/* re-disable the feature */
f->flags &= ~LYS_FENABLED;
}
ly_set_free(changed, NULL);
return LY_EDENIED;
} else {
/* we did some change in last run, try it again */
changed_count = changed->count;
goto run;
}
}
/* reflect change(s) in the dependent features */
for (u = 0; u < changed->count; ++u) {
/* If a dependent feature is enabled, it can be now changed by the change (to false) of the value of
* its if-feature statements. The reverse logic, automatically enable feature when its feature is enabled
* is not done - by default, features are disabled and must be explicitely enabled. */
f = changed->objs[u];
LY_ARRAY_FOR(f->depfeatures, struct lysc_feature*, df) {
if (!((*df)->flags & LYS_FENABLED)) {
/* not enabled, nothing to do */
continue;
}
/* check the feature's if-features which could change by the previous change of our feature */
LY_ARRAY_FOR((*df)->iffeatures, struct lysc_iffeature, iff) {
if (!lysc_iffeature_value(iff)) {
/* the feature must be disabled now */
(*df)->flags &= ~LYS_FENABLED;
/* add the feature into the list of changed features */
ly_set_add(changed, *df, LY_SET_OPT_USEASLIST);
break;
}
}
}
}
ly_set_free(changed, NULL);
return LY_SUCCESS;
}
API LY_ERR
lys_feature_enable(struct lys_module *module, const char *feature)
{
LY_CHECK_ARG_RET(NULL, module, module->compiled, feature, LY_EINVAL);
return lys_feature_change(module->compiled, feature, 1);
}
API LY_ERR
lys_feature_disable(struct lys_module *module, const char *feature)
{
LY_CHECK_ARG_RET(NULL, module, module->compiled, feature, LY_EINVAL);
return lys_feature_change(module->compiled, feature, 0);
}
API int
lys_feature_value(const struct lys_module *module, const char *feature)
{
struct lysc_feature *f;
struct lysc_module *mod;
unsigned int u;
LY_CHECK_ARG_RET(NULL, module, module->compiled, feature, -1);
mod = module->compiled;
/* search for the specified feature */
for (u = 0; u < LY_ARRAY_SIZE(mod->features); ++u) {
f = &mod->features[u];
if (!strcmp(f->name, feature)) {
if (f->flags & LYS_FENABLED) {
return 1;
} else {
return 0;
}
}
}
/* feature definition not found */
return -1;
}
static LY_ERR
lys_compile_ext(struct lysc_ctx *ctx, struct lysp_ext_instance *ext_p, int UNUSED(options), struct lysc_ext_instance *ext)
{
const char *name;
unsigned int u;
const struct lys_module *mod;
struct lysp_ext *edef = NULL;
ext->argument = lydict_insert(ctx->ctx, ext_p->argument, 0);
ext->insubstmt = ext_p->insubstmt;
ext->insubstmt_index = ext_p->insubstmt_index;
/* get module where the extension definition should be placed */
for (u = 0; ext_p->name[u] != ':'; ++u);
mod = lys_module_find_prefix(ctx->mod, ext_p->name, u);
LY_CHECK_ERR_RET(!mod, LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_REFERENCE,
"Invalid prefix \"%.*s\" used for extension instance identifier.", u, ext_p->name),
LY_EVALID);
LY_CHECK_ERR_RET(!mod->parsed->extensions,
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_REFERENCE,
"Extension instance \"%s\" refers \"%s\" module that does not contain extension definitions.",
ext_p->name, mod->parsed->name),
LY_EVALID);
name = &ext_p->name[u + 1];
/* find the extension definition there */
for (ext = NULL, u = 0; u < LY_ARRAY_SIZE(mod->parsed->extensions); ++u) {
if (!strcmp(name, mod->parsed->extensions[u].name)) {
edef = &mod->parsed->extensions[u];
break;
}
}
LY_CHECK_ERR_RET(!edef, LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_REFERENCE,
"Extension definition of extension instance \"%s\" not found.", ext_p->name),
LY_EVALID);
/* TODO plugins */
return LY_SUCCESS;
}
static LY_ERR
lys_compile_iffeature(struct lysc_ctx *ctx, const char **value, int UNUSED(options), struct lysc_iffeature *iff)
{
const char *c = *value;
int r, rc = EXIT_FAILURE;
int i, j, last_not, checkversion = 0;
unsigned int f_size = 0, expr_size = 0, f_exp = 1;
uint8_t op;
struct iff_stack stack = {0, 0, NULL};
struct lysc_feature *f;
assert(c);
/* pre-parse the expression to get sizes for arrays, also do some syntax checks of the expression */
for (i = j = last_not = 0; c[i]; i++) {
if (c[i] == '(') {
j++;
checkversion = 1;
continue;
} else if (c[i] == ')') {
j--;
continue;
} else if (isspace(c[i])) {
checkversion = 1;
continue;
}
if (!strncmp(&c[i], "not", r = 3) || !strncmp(&c[i], "and", r = 3) || !strncmp(&c[i], "or", r = 2)) {
if (c[i + r] == '\0') {
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid value \"%s\" of if-feature - unexpected end of expression.", *value);
return LY_EVALID;
} else if (!isspace(c[i + r])) {
/* feature name starting with the not/and/or */
last_not = 0;
f_size++;
} else if (c[i] == 'n') { /* not operation */
if (last_not) {
/* double not */
expr_size = expr_size - 2;
last_not = 0;
} else {
last_not = 1;
}
} else { /* and, or */
f_exp++;
/* not a not operation */
last_not = 0;
}
i += r;
} else {
f_size++;
last_not = 0;
}
expr_size++;
while (!isspace(c[i])) {
if (!c[i] || c[i] == ')') {
i--;
break;
}
i++;
}
}
if (j || f_exp != f_size) {
/* not matching count of ( and ) */
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid value \"%s\" of if-feature - non-matching opening and closing parentheses.", *value);
return LY_EVALID;
}
if (checkversion || expr_size > 1) {
/* check that we have 1.1 module */
if (ctx->mod->compiled->version != LYS_VERSION_1_1) {
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid value \"%s\" of if-feature - YANG 1.1 expression in YANG 1.0 module.", *value);
return LY_EVALID;
}
}
/* allocate the memory */
LY_ARRAY_CREATE_RET(ctx->ctx, iff->features, f_size, LY_EMEM);
iff->expr = calloc((j = (expr_size / 4) + ((expr_size % 4) ? 1 : 0)), sizeof *iff->expr);
stack.stack = malloc(expr_size * sizeof *stack.stack);
LY_CHECK_ERR_GOTO(!stack.stack || !iff->expr, LOGMEM(ctx->ctx), error);
stack.size = expr_size;
f_size--; expr_size--; /* used as indexes from now */
for (i--; i >= 0; i--) {
if (c[i] == ')') {
/* push it on stack */
iff_stack_push(&stack, LYS_IFF_RP);
continue;
} else if (c[i] == '(') {
/* pop from the stack into result all operators until ) */
while((op = iff_stack_pop(&stack)) != LYS_IFF_RP) {
iff_setop(iff->expr, op, expr_size--);
}
continue;
} else if (isspace(c[i])) {
continue;
}
/* end of operator or operand -> find beginning and get what is it */
j = i + 1;
while (i >= 0 && !isspace(c[i]) && c[i] != '(') {
i--;
}
i++; /* go back by one step */
if (!strncmp(&c[i], "not", 3) && isspace(c[i + 3])) {
if (stack.index && stack.stack[stack.index - 1] == LYS_IFF_NOT) {
/* double not */
iff_stack_pop(&stack);
} else {
/* not has the highest priority, so do not pop from the stack
* as in case of AND and OR */
iff_stack_push(&stack, LYS_IFF_NOT);
}
} else if (!strncmp(&c[i], "and", 3) && isspace(c[i + 3])) {
/* as for OR - pop from the stack all operators with the same or higher
* priority and store them to the result, then push the AND to the stack */
while (stack.index && stack.stack[stack.index - 1] <= LYS_IFF_AND) {
op = iff_stack_pop(&stack);
iff_setop(iff->expr, op, expr_size--);
}
iff_stack_push(&stack, LYS_IFF_AND);
} else if (!strncmp(&c[i], "or", 2) && isspace(c[i + 2])) {
while (stack.index && stack.stack[stack.index - 1] <= LYS_IFF_OR) {
op = iff_stack_pop(&stack);
iff_setop(iff->expr, op, expr_size--);
}
iff_stack_push(&stack, LYS_IFF_OR);
} else {
/* feature name, length is j - i */
/* add it to the expression */
iff_setop(iff->expr, LYS_IFF_F, expr_size--);
/* now get the link to the feature definition */
f = lysc_feature_find(ctx->mod->compiled, &c[i], j - i);
LY_CHECK_ERR_GOTO(!f,
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid value \"%s\" of if-feature - unable to find feature \"%.*s\".", *value, j - i, &c[i]);
rc = LY_EVALID,
error)
iff->features[f_size] = f;
LY_ARRAY_INCREMENT(iff->features);
f_size--;
}
}
while (stack.index) {
op = iff_stack_pop(&stack);
iff_setop(iff->expr, op, expr_size--);
}
if (++expr_size || ++f_size) {
/* not all expected operators and operands found */
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid value \"%s\" of if-feature - processing error.", *value);
rc = LY_EINT;
} else {
rc = LY_SUCCESS;
}
error:
/* cleanup */
iff_stack_clean(&stack);
return rc;
}
static LY_ERR
lys_compile_when(struct lysc_ctx *ctx, struct lysp_when *when_p, int options, struct lysc_when *when)
{
unsigned int u;
LY_ERR ret = LY_SUCCESS;
when->cond = lyxp_expr_parse(ctx->ctx, when_p->cond);
LY_CHECK_ERR_GOTO(!when->cond, ret = ly_errcode(ctx->ctx), done);
COMPILE_ARRAY_GOTO(ctx, when_p->exts, when->exts, options, u, lys_compile_ext, ret, done);
done:
return ret;
}
static LY_ERR
lys_compile_must(struct lysc_ctx *ctx, struct lysp_restr *must_p, int options, struct lysc_must *must)
{
unsigned int u;
LY_ERR ret = LY_SUCCESS;
must->cond = lyxp_expr_parse(ctx->ctx, must_p->arg);
LY_CHECK_ERR_GOTO(!must->cond, ret = ly_errcode(ctx->ctx), done);
must->eapptag = lydict_insert(ctx->ctx, must_p->eapptag, 0);
must->emsg = lydict_insert(ctx->ctx, must_p->emsg, 0);
COMPILE_ARRAY_GOTO(ctx, must_p->exts, must->exts, options, u, lys_compile_ext, ret, done);
done:
return ret;
}
static LY_ERR
lys_compile_import(struct lysc_ctx *ctx, struct lysp_import *imp_p, int options, struct lysc_import *imp)
{
unsigned int u;
struct lys_module *mod = NULL;
struct lysc_module *comp;
LY_ERR ret = LY_SUCCESS;
imp->prefix = lydict_insert(ctx->ctx, imp_p->prefix, 0);
COMPILE_ARRAY_GOTO(ctx, imp_p->exts, imp->exts, options, u, lys_compile_ext, ret, done);
imp->module = imp_p->module;
/* make sure that we have both versions (lysp_ and lysc_) of the imported module. To import groupings or
* typedefs, the lysp_ is needed. To augment or deviate imported module, we need the lysc_ structure */
if (!imp->module->parsed) {
comp = imp->module->compiled;
/* try to get filepath from the compiled version */
if (comp->filepath) {
mod = (struct lys_module*)lys_parse_path(ctx->ctx, comp->filepath,
!strcmp(&comp->filepath[strlen(comp->filepath - 4)], ".yin") ? LYS_IN_YIN : LYS_IN_YANG);
if (mod != imp->module) {
LOGERR(ctx->ctx, LY_EINT, "Filepath \"%s\" of the module \"%s\" does not match.",
comp->filepath, comp->name);
mod = NULL;
}
}
if (!mod) {
if (lysp_load_module(ctx->ctx, comp->name, comp->revision, 0, 1, &mod)) {
LOGERR(ctx->ctx, LY_ENOTFOUND, "Unable to reload \"%s\" module to import it into \"%s\", source data not found.",
comp->name, ctx->mod->compiled->name);
return LY_ENOTFOUND;
}
}
} else if (!imp->module->compiled) {
return lys_compile(imp->module, options);
}
done:
return ret;
}
static LY_ERR
lys_compile_identity(struct lysc_ctx *ctx, struct lysp_ident *ident_p, int options, struct lysc_ident *ident)
{
unsigned int u;
LY_ERR ret = LY_SUCCESS;
ident->name = lydict_insert(ctx->ctx, ident_p->name, 0);
COMPILE_ARRAY_GOTO(ctx, ident_p->iffeatures, ident->iffeatures, options, u, lys_compile_iffeature, ret, done);
/* backlings (derived) can be added no sooner than when all the identities in the current module are present */
COMPILE_ARRAY_GOTO(ctx, ident_p->exts, ident->exts, options, u, lys_compile_ext, ret, done);
ident->flags = ident_p->flags;
done:
return ret;
}
static LY_ERR
lys_compile_identities_derived(struct lysc_ctx *ctx, struct lysp_ident *idents_p, struct lysc_ident *idents)
{
unsigned int i, u, v;
const char *s, *name;
struct lysc_module *mod;
struct lysc_ident **dident;
for (i = 0; i < LY_ARRAY_SIZE(idents_p); ++i) {
if (!idents_p[i].bases) {
continue;
}
for (u = 0; u < LY_ARRAY_SIZE(idents_p[i].bases); ++u) {
s = strchr(idents_p[i].bases[u], ':');
if (s) {
/* prefixed identity */
name = &s[1];
mod = lysc_module_find_prefix(ctx->mod->compiled, idents_p[i].bases[u], s - idents_p[i].bases[u]);
} else {
name = idents_p[i].bases[u];
mod = ctx->mod->compiled;
}
LY_CHECK_ERR_RET(!mod, LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid prefix used for base (%s) of identity \"%s\".", idents_p[i].bases[u], idents[i].name),
LY_EVALID);
if (mod->identities) {
for (v = 0; v < LY_ARRAY_SIZE(mod->identities); ++v) {
if (!strcmp(name, mod->identities[v].name)) {
/* we have match! store the backlink */
LY_ARRAY_NEW_RET(ctx->ctx, mod->identities[v].derived, dident, LY_EMEM);
*dident = &idents[i];
break;
}
}
}
LY_CHECK_ERR_RET(!dident, LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Unable to find base (%s) of identity \"%s\".", idents_p[i].bases[u], idents[i].name),
LY_EVALID);
}
}
return LY_SUCCESS;
}
static LY_ERR
lys_compile_feature(struct lysc_ctx *ctx, struct lysp_feature *feature_p, int options, struct lysc_feature *feature)
{
unsigned int u, v;
LY_ERR ret = LY_SUCCESS;
struct lysc_feature **df;
feature->name = lydict_insert(ctx->ctx, feature_p->name, 0);
feature->flags = feature_p->flags;
COMPILE_ARRAY_GOTO(ctx, feature_p->exts, feature->exts, options, u, lys_compile_ext, ret, done);
COMPILE_ARRAY_GOTO(ctx, feature_p->iffeatures, feature->iffeatures, options, u, lys_compile_iffeature, ret, done);
if (feature->iffeatures) {
for (u = 0; u < LY_ARRAY_SIZE(feature->iffeatures); ++u) {
if (feature->iffeatures[u].features) {
for (v = 0; v < LY_ARRAY_SIZE(feature->iffeatures[u].features); ++v) {
/* add itself into the dependants list */
LY_ARRAY_NEW_RET(ctx->ctx, feature->iffeatures[u].features[v]->depfeatures, df, LY_EMEM);
*df = feature;
}
/* TODO check for circular dependency */
}
}
}
done:
return ret;
}
static LY_ERR
range_part_check_value_syntax(struct lysc_ctx *ctx, LY_DATA_TYPE basetype, const char *value, size_t *len, char **valcopy)
{
size_t fraction = 0;
*len = 0;
assert(value);
/* parse value */
if (!isdigit(value[*len]) && (value[*len] != '-') && (value[*len] != '+')) {
return LY_EVALID;
}
if ((value[*len] == '-') || (value[*len] == '+')) {
++(*len);
}
while (isdigit(value[*len])) {
++(*len);
}
if ((basetype != LY_TYPE_DEC64) || (value[*len] != '.') || !isdigit(value[*len + 1])) {
*valcopy = strndup(value, *len);
return LY_SUCCESS;
}
fraction = *len;
++(*len);
while (isdigit(value[*len])) {
++(*len);
}
if (fraction) {
*valcopy = malloc(((*len) - 1) * sizeof **valcopy);
LY_CHECK_ERR_RET(!(*valcopy), LOGMEM(ctx->ctx), LY_EMEM);
*valcopy[(*len) - 1] = '\0';
memcpy(&(*valcopy)[0], &value[0], fraction);
memcpy(&(*valcopy)[fraction], &value[fraction + 1], (*len) - 1 - (fraction + 1));
}
return LY_SUCCESS;
}
static LY_ERR
range_part_check_ascendance(int unsigned_value, int64_t value, int64_t prev_value)
{
if (unsigned_value) {
if ((uint64_t)prev_value >= (uint64_t)value) {
return LY_EEXIST;
}
} else {
if (prev_value >= value) {
return LY_EEXIST;
}
}
return LY_SUCCESS;
}
static LY_ERR
range_part_minmax(struct lysc_ctx *ctx, struct lysc_range_part *part, int max, int64_t prev, LY_DATA_TYPE basetype, int first, int length_restr,
const char **value)
{
LY_ERR ret = LY_SUCCESS;
char *valcopy = NULL;
size_t len;
if (value) {
ret = range_part_check_value_syntax(ctx, basetype, *value, &len, &valcopy);
LY_CHECK_GOTO(ret, error);
}
switch (basetype) {
case LY_TYPE_BINARY: /* length */
if (valcopy) {
ret = ly_parse_uint(valcopy, __UINT64_C(18446744073709551615), 10, max ? &part->max_u64 : &part->min_u64);
} else if (max) {
part->max_u64 = __UINT64_C(18446744073709551615);
} else {
part->min_u64 = __UINT64_C(0);
}
if (!first) {
ret = range_part_check_ascendance(1, max ? part->max_64 : part->min_64, prev);
}
break;
case LY_TYPE_DEC64: /* range */
if (valcopy) {
ret = ly_parse_int(valcopy, __INT64_C(-9223372036854775807) - __INT64_C(1), __INT64_C(9223372036854775807), 10,
max ? &part->max_64 : &part->min_64);
} else if (max) {
part->max_64 = __INT64_C(9223372036854775807);
} else {
part->min_64 = __INT64_C(-9223372036854775807) - __INT64_C(1);
}
if (!first) {
ret = range_part_check_ascendance(0, max ? part->max_64 : part->min_64, prev);
}
break;
case LY_TYPE_INT8: /* range */
if (valcopy) {
ret = ly_parse_int(valcopy, __INT64_C(-128), INT64_C(127), 10, max ? &part->max_64 : &part->min_64);
} else if (max) {
part->max_64 = __INT64_C(127);
} else {
part->min_64 = __INT64_C(-128);
}
if (!first) {
ret = range_part_check_ascendance(0, max ? part->max_64 : part->min_64, prev);
}
break;
case LY_TYPE_INT16: /* range */
if (valcopy) {
ret = ly_parse_int(valcopy, __INT64_C(-32768), INT64_C(32767), 10, max ? &part->max_64 : &part->min_64);
} else if (max) {
part->max_64 = __INT64_C(32767);
} else {
part->min_64 = __INT64_C(-32768);
}
if (!first) {
ret = range_part_check_ascendance(0, max ? part->max_64 : part->min_64, prev);
}
break;
case LY_TYPE_INT32: /* range */
if (valcopy) {
ret = ly_parse_int(valcopy, __INT64_C(-2147483648), INT64_C(2147483647), 10, max ? &part->max_64 : &part->min_64);
} else if (max) {
part->max_64 = __INT64_C(2147483647);
} else {
part->min_64 = __INT64_C(-2147483648);
}
if (!first) {
ret = range_part_check_ascendance(0, max ? part->max_64 : part->min_64, prev);
}
break;
case LY_TYPE_INT64: /* range */
if (valcopy) {
ret = ly_parse_int(valcopy, __INT64_C(-9223372036854775807) - __INT64_C(1), INT64_C(9223372036854775807), 10,
max ? &part->max_64 : &part->min_64);
} else if (max) {
part->max_64 = __INT64_C(9223372036854775807);
} else {
part->min_64 = __INT64_C(-9223372036854775807) - __INT64_C(1);
}
if (!first) {
ret = range_part_check_ascendance(0, max ? part->max_64 : part->min_64, prev);
}
break;
case LY_TYPE_UINT8: /* range */
if (valcopy) {
ret = ly_parse_uint(valcopy, __UINT64_C(255), 10, max ? &part->max_u64 : &part->min_u64);
} else if (max) {
part->max_u64 = __UINT64_C(255);
} else {
part->min_u64 = __UINT64_C(0);
}
if (!first) {
ret = range_part_check_ascendance(1, max ? part->max_64 : part->min_64, prev);
}
break;
case LY_TYPE_UINT16: /* range */
if (valcopy) {
ret = ly_parse_uint(valcopy, __UINT64_C(65535), 10, max ? &part->max_u64 : &part->min_u64);
} else if (max) {
part->max_u64 = __UINT64_C(65535);
} else {
part->min_u64 = __UINT64_C(0);
}
if (!first) {
ret = range_part_check_ascendance(1, max ? part->max_64 : part->min_64, prev);
}
break;
case LY_TYPE_UINT32: /* range */
if (valcopy) {
ret = ly_parse_uint(valcopy, __UINT64_C(4294967295), 10, max ? &part->max_u64 : &part->min_u64);
} else if (max) {
part->max_u64 = __UINT64_C(4294967295);
} else {
part->min_u64 = __UINT64_C(0);
}
if (!first) {
ret = range_part_check_ascendance(1, max ? part->max_64 : part->min_64, prev);
}
break;
case LY_TYPE_UINT64: /* range */
if (valcopy) {
ret = ly_parse_uint(valcopy, __UINT64_C(18446744073709551615), 10, max ? &part->max_u64 : &part->min_u64);
} else if (max) {
part->max_u64 = __UINT64_C(18446744073709551615);
} else {
part->min_u64 = __UINT64_C(0);
}
if (!first) {
ret = range_part_check_ascendance(1, max ? part->max_64 : part->min_64, prev);
}
break;
case LY_TYPE_STRING: /* length */
if (valcopy) {
ret = ly_parse_uint(valcopy, __UINT64_C(18446744073709551615), 10, max ? &part->max_u64 : &part->min_u64);
} else if (max) {
part->max_u64 = __UINT64_C(18446744073709551615);
} else {
part->min_u64 = __UINT64_C(0);
}
if (!first) {
ret = range_part_check_ascendance(1, max ? part->max_64 : part->min_64, prev);
}
break;
default:
LOGINT(ctx->ctx);
ret = LY_EINT;
}
error:
if (ret == LY_EDENIED) {
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid %s restriction - value \"%s\" does not fit the type limitations.",
length_restr ? "length" : "range", valcopy ? valcopy : *value);
} else if (ret == LY_EVALID) {
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid %s restriction - invalid value \"%s\".",
length_restr ? "length" : "range", valcopy ? valcopy : *value);
} else if (ret == LY_EEXIST) {
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid %s restriction - values are not in ascending order (%s).",
length_restr ? "length" : "range", valcopy ? valcopy : *value);
} else if (!ret && value) {
*value = *value + len;
}
free(valcopy);
return ret;
}
static LY_ERR
lys_compile_type_range(struct lysc_ctx *ctx, struct lysp_restr *range_p, LY_DATA_TYPE basetype, int length_restr,
struct lysc_range **range)
{
LY_ERR ret = LY_EVALID;
const char *expr;
struct lysc_range_part *parts = NULL, *part;
size_t parts_done = 0;
int range_expected = 0;
assert(range);
assert(range_p);
if (!(*range)) {
*range = calloc(1, sizeof **range);
LY_CHECK_ERR_RET(!(*range), LOGMEM(ctx->ctx), LY_EMEM);
}
if (range_p->eapptag) {
lydict_remove(ctx->ctx, (*range)->eapptag);
lydict_insert(ctx->ctx, range_p->eapptag, 0);
}
if (range_p->emsg) {
lydict_remove(ctx->ctx, (*range)->emsg);
lydict_insert(ctx->ctx, range_p->emsg, 0);
}
/* extensions are taken only from the last range by the caller */
expr = range_p->arg;
while(1) {
if (isspace(*expr)) {
++expr;
continue;
} else if (*expr == '\0') {
parts_done++;
break;
} else if (!strncmp(expr, "min", 3)) {
if (parts) {
/* min cannot be used elsewhere than in the first part */
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid %s restriction - unexpected data before min keyword (%.*s).", length_restr ? "length" : "range",
expr - range_p->arg, range_p->arg);
goto cleanup;
}
expr += 3;
LY_ARRAY_NEW_GOTO(ctx->ctx, parts, part, ret, cleanup);
LY_CHECK_GOTO(range_part_minmax(ctx, part, 0, 0, basetype, 1, length_restr, NULL), cleanup);
part->max_64 = part->min_64;
} else if (*expr == '|') {
if (!parts || range_expected) {
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid %s restriction - unexpected beginning of the expression (%s).", length_restr ? "length" : "range", expr);
goto cleanup;
}
expr++;
parts_done++;
/* process next part of the expression */
continue;
} else if (!strncmp(expr, "..", 2)) {
expr += 2;
while (isspace(*expr)) {
expr++;
}
if (*expr == '\0') {
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid %s restriction - unexpected end of the expression after \"..\".", length_restr ? "length" : "range");
goto cleanup;
} else if (!parts || LY_ARRAY_SIZE(parts) == parts_done) {
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG,
"Invalid %s restriction - unexpected \"..\" without a lower bound.", length_restr ? "length" : "range");
goto cleanup;
}
/* continue expecting the upper boundary */
range_expected = 1;
} else if (isdigit(*expr) || (*expr == '-') || (*expr == '+')) {
/* number */
if (range_expected) {
part = &parts[LY_ARRAY_SIZE(parts) - 1];
LY_CHECK_GOTO(range_part_minmax(ctx, part, 1, part->min_64, basetype, 0, length_restr, &expr), cleanup);
} else {
LY_ARRAY_NEW_GOTO(ctx->ctx, parts, part, ret, cleanup);
LY_CHECK_GOTO(range_part_minmax(ctx, part, 0, parts_done ? parts[LY_ARRAY_SIZE(parts) - 2].max_64 : 0,
basetype, parts_done ? 0 : 1, length_restr, &expr), cleanup);
part->max_64 = part->min_64;
}
/* continue with possible another expression part */
range_expected = 0;
continue;
} else if (!strncmp(expr, "max", 3)) {
expr += 3;
while (isspace(*expr)) {
expr++;
}
if (*expr != '\0') {
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG, "Invalid %s restriction - unexpected data after max keyword (%s).",
length_restr ? "length" : "range", expr);
goto cleanup;
}
if (range_expected) {
part = &parts[LY_ARRAY_SIZE(parts) - 1];
LY_CHECK_GOTO(range_part_minmax(ctx, part, 1, part->min_64, basetype, 0, length_restr, NULL), cleanup);
parts_done++;
} else {
LY_ARRAY_NEW_GOTO(ctx->ctx, parts, part, ret, cleanup);
LY_CHECK_GOTO(range_part_minmax(ctx, part, 1, parts_done ? parts[LY_ARRAY_SIZE(parts) - 2].max_64 : 0,
basetype, parts_done ? 0 : 1, length_restr, NULL), cleanup);
part->min_64 = part->max_64;
}
/* done */
break;
} else {
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SYNTAX_YANG, "Invalid %s restriction - unexpected data (%s).",
length_restr ? "length" : "range", expr);
goto cleanup;
}
}
(*range)->parts = parts;
parts = NULL;
ret = LY_SUCCESS;
cleanup:
/* TODO clean up */
LY_ARRAY_FREE(parts);
return ret;
}
static LY_ERR
lys_compile_type(struct lysc_ctx *ctx, struct lysp_node_leaf *leaf_p, int options, struct lysc_type **type)
{
LY_ERR ret = LY_SUCCESS;
unsigned int u;
struct lysp_type *type_p = &leaf_p->type;
struct type_context {
const struct lysp_tpdf *tpdf;
struct lysp_node *node;
struct lysp_module *mod;
} *tctx, *tctx_prev = NULL;
LY_DATA_TYPE basetype = LY_TYPE_UNKNOWN;
struct ly_set tpdf_chain = {0};
struct lysc_type_bin* bin;
tctx = calloc(1, sizeof *tctx);
LY_CHECK_ERR_RET(!tctx, LOGMEM(ctx->ctx), LY_EMEM);
for (ret = lysp_type_find(type_p->name, (struct lysp_node*)leaf_p, ctx->mod->parsed,
&basetype, &tctx->tpdf, &tctx->node, &tctx->mod);
ret;
ret = lysp_type_find(tctx_prev->tpdf->type.name, tctx_prev->node, tctx_prev->mod,
&basetype, &tctx->tpdf, &tctx->node, &tctx->mod)) {
if (basetype) {
break;
}
/* check status */
if (lysc_check_status(ctx, leaf_p->flags, ctx->mod->parsed, leaf_p->name,
tctx->tpdf->flags, tctx->mod, tctx->node ? tctx->node->name : tctx->mod->name)) {
free(tctx);
goto cleanup;
}
if (!(tctx->tpdf->flags & LYS_TYPE_MODIFIED)) {
/* no change in comparison to the following (actually preceding in the chain of type derivations) type */
memset(tctx, 0, sizeof *tctx);
continue;
}
/* store information for the following processing */
ly_set_add(&tpdf_chain, tctx, LY_SET_OPT_USEASLIST);
/* prepare next loop */
tctx = calloc(1, sizeof *tctx);
LY_CHECK_ERR_RET(!tctx, LOGMEM(ctx->ctx), LY_EMEM);
}
free(tctx);
/* allocate type according to the basetype */
switch (basetype) {
case LY_TYPE_BINARY:
*type = calloc(1, sizeof(struct lysc_type_bin));
bin = (struct lysc_type_bin*)(*type);
break;
case LY_TYPE_BITS:
*type = calloc(1, sizeof(struct lysc_type_bits));
break;
case LY_TYPE_BOOL:
case LY_TYPE_EMPTY:
*type = calloc(1, sizeof(struct lysc_type));
break;
case LY_TYPE_DEC64:
*type = calloc(1, sizeof(struct lysc_type_dec));
break;
case LY_TYPE_ENUM:
*type = calloc(1, sizeof(struct lysc_type_enum));
break;
case LY_TYPE_IDENT:
*type = calloc(1, sizeof(struct lysc_type_identityref));
break;
case LY_TYPE_INST:
*type = calloc(1, sizeof(struct lysc_type_instanceid));
break;
case LY_TYPE_LEAFREF:
*type = calloc(1, sizeof(struct lysc_type_leafref));
break;
case LY_TYPE_STRING:
*type = calloc(1, sizeof(struct lysc_type_str));
break;
case LY_TYPE_UNION:
*type = calloc(1, sizeof(struct lysc_type_union));
break;
case LY_TYPE_INT8:
case LY_TYPE_UINT8:
case LY_TYPE_INT16:
case LY_TYPE_UINT16:
case LY_TYPE_INT32:
case LY_TYPE_UINT32:
case LY_TYPE_INT64:
case LY_TYPE_UINT64:
*type = calloc(1, sizeof(struct lysc_type_num));
break;
default:
LOGINT(ctx->ctx);
}
LY_CHECK_ERR_GOTO(!(*type), LOGMEM(ctx->ctx), cleanup);
(*type)->basetype = basetype;
COMPILE_ARRAY_GOTO(ctx, type_p->exts, (*type)->exts, options, u, lys_compile_ext, ret, cleanup);
/* get restrictions from the referred typedefs */
for (u = tpdf_chain.count - 1; u + 1 > 0; --u) {
tctx = (struct type_context*)tpdf_chain.objs[u];
switch (basetype) {
case LY_TYPE_BINARY:
/* RFC 6020 9.8.1, 9.4.4 - length, number of octets it contains */
if (tctx->tpdf->type.length) {
ret = lys_compile_type_range(ctx, tctx->tpdf->type.length, basetype, 1, &bin->length);
LY_CHECK_GOTO(ret, cleanup);
}
break;
}
}
/* get restrictions from the node itself, finalize the type structure */
switch ((*type)->basetype) {
case LY_TYPE_BINARY:
if (leaf_p->type.length) {
ret = lys_compile_type_range(ctx, leaf_p->type.length, basetype, 1, &bin->length);
LY_CHECK_GOTO(ret, cleanup);
COMPILE_ARRAY_GOTO(ctx, leaf_p->type.length->exts, bin->length->exts,
options, u, lys_compile_ext, ret, cleanup);
}
break;
}
cleanup:
ly_set_erase(&tpdf_chain, free);
return ret;
}
static LY_ERR lys_compile_node(struct lysc_ctx *ctx, struct lysp_node *node_p, int options, struct lysc_node *parent);
static LY_ERR
lys_compile_node_container(struct lysc_ctx *ctx, struct lysp_node *node_p, int options, struct lysc_node *node)
{
struct lysp_node_container *cont_p = (struct lysp_node_container*)node_p;
struct lysc_node_container *cont = (struct lysc_node_container*)node;
struct lysp_node *child_p;
unsigned int u;
LY_ERR ret = LY_SUCCESS;
COMPILE_MEMBER_GOTO(ctx, cont_p->when, cont->when, options, lys_compile_when, ret, done);
COMPILE_ARRAY_GOTO(ctx, cont_p->iffeatures, cont->iffeatures, options, u, lys_compile_iffeature, ret, done);
LY_LIST_FOR(cont_p->child, child_p) {
LY_CHECK_RET(lys_compile_node(ctx, child_p, options, node));
}
COMPILE_ARRAY_GOTO(ctx, cont_p->musts, cont->musts, options, u, lys_compile_must, ret, done);
//COMPILE_ARRAY_GOTO(ctx, cont_p->actions, cont->actions, options, u, lys_compile_action, ret, done);
//COMPILE_ARRAY_GOTO(ctx, cont_p->notifs, cont->notifs, options, u, lys_compile_notif, ret, done);
done:
return ret;
}
static LY_ERR
lys_compile_node_leaf(struct lysc_ctx *ctx, struct lysp_node *node_p, int options, struct lysc_node *node)
{
struct lysp_node_leaf *leaf_p = (struct lysp_node_leaf*)node_p;
struct lysc_node_leaf *leaf = (struct lysc_node_leaf*)node;
unsigned int u;
LY_ERR ret = LY_SUCCESS;
COMPILE_MEMBER_GOTO(ctx, leaf_p->when, leaf->when, options, lys_compile_when, ret, done);
COMPILE_ARRAY_GOTO(ctx, leaf_p->iffeatures, leaf->iffeatures, options, u, lys_compile_iffeature, ret, done);
COMPILE_ARRAY_GOTO(ctx, leaf_p->musts, leaf->musts, options, u, lys_compile_must, ret, done);
ret = lys_compile_type(ctx, leaf_p, options, &leaf->type);
LY_CHECK_GOTO(ret, done);
leaf->units = lydict_insert(ctx->ctx, leaf_p->units, 0);
leaf->dflt = lydict_insert(ctx->ctx, leaf_p->dflt, 0);
done:
return ret;
}
static LY_ERR
lys_compile_node(struct lysc_ctx *ctx, struct lysp_node *node_p, int options, struct lysc_node *parent)
{
LY_ERR ret = LY_EVALID;
struct lysc_node *node, **children;
unsigned int u;
LY_ERR (*node_compile_spec)(struct lysc_ctx*, struct lysp_node*, int, struct lysc_node*);
switch (node_p->nodetype) {
case LYS_CONTAINER:
node = (struct lysc_node*)calloc(1, sizeof(struct lysc_node_container));
node_compile_spec = lys_compile_node_container;
break;
case LYS_LEAF:
node = (struct lysc_node*)calloc(1, sizeof(struct lysc_node_leaf));
node_compile_spec = lys_compile_node_leaf;
break;
case LYS_LIST:
node = (struct lysc_node*)calloc(1, sizeof(struct lysc_node_list));
break;
case LYS_LEAFLIST:
node = (struct lysc_node*)calloc(1, sizeof(struct lysc_node_leaflist));
break;
case LYS_CASE:
node = (struct lysc_node*)calloc(1, sizeof(struct lysc_node_case));
break;
case LYS_CHOICE:
node = (struct lysc_node*)calloc(1, sizeof(struct lysc_node_choice));
break;
case LYS_USES:
node = (struct lysc_node*)calloc(1, sizeof(struct lysc_node_uses));
break;
case LYS_ANYXML:
case LYS_ANYDATA:
node = (struct lysc_node*)calloc(1, sizeof(struct lysc_node_anydata));
break;
default:
LOGINT(ctx->ctx);
return LY_EINT;
}
LY_CHECK_ERR_RET(!node, LOGMEM(ctx->ctx), LY_EMEM);
node->nodetype = node_p->nodetype;
node->module = ctx->mod;
node->prev = node;
node->flags = node_p->flags;
/* config */
if (!(node->flags & LYS_CONFIG_MASK)) {
/* config not explicitely set, inherit it from parent */
if (parent) {
node->flags |= parent->flags & LYS_CONFIG_MASK;
} else {
/* default is config true */
node->flags |= LYS_CONFIG_W;
}
}
/* status - it is not inherited by specification, but it does not make sense to have
* current in deprecated or deprecated in obsolete, so we do print warning and inherit status */
if (!(node->flags & LYS_STATUS_MASK)) {
if (parent && (parent->flags & (LYS_STATUS_DEPRC | LYS_STATUS_OBSLT))) {
LOGWRN(ctx->ctx, "Missing explicit \"%s\" status that was already specified in parent, inheriting.",
(parent->flags & LYS_STATUS_DEPRC) ? "deprecated" : "obsolete");
node->flags |= parent->flags & LYS_STATUS_MASK;
} else {
node->flags |= LYS_STATUS_CURR;
}
} else if (parent) {
/* check status compatibility with the parent */
if ((parent->flags & LYS_STATUS_MASK) > (node->flags & LYS_STATUS_MASK)) {
if (node->flags & LYS_STATUS_CURR) {
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SEMANTICS,
"A \"current\" status is in conflict with the parent's \"%s\" status.",
(parent->flags & LYS_STATUS_DEPRC) ? "deprecated" : "obsolete");
} else { /* LYS_STATUS_DEPRC */
LOGVAL(ctx->ctx, LY_VLOG_STR, ctx->path, LYVE_SEMANTICS,
"A \"deprecated\" status is in conflict with the parent's \"obsolete\" status.");
}
goto error;
}
}
if (!(options & LYSC_OPT_FREE_SP)) {
node->sp = node_p;
}
node->name = lydict_insert(ctx->ctx, node_p->name, 0);
COMPILE_ARRAY_GOTO(ctx, node_p->exts, node->exts, options, u, lys_compile_ext, ret, error);
/* nodetype-specific part */
LY_CHECK_GOTO(node_compile_spec(ctx, node_p, options, node), error);
/* insert into parent's children */
if (parent && (children = lysc_node_children(parent))) {
if (!(*children)) {
/* first child */
*children = node;
} else {
/* insert at the end of the parent's children list */
(*children)->prev->next = node;
node->prev = (*children)->prev;
(*children)->prev = node;
}
} else {
/* top-level element */
if (!ctx->mod->compiled->data) {
ctx->mod->compiled->data = node;
} else {
/* insert at the end of the module's top-level nodes list */
ctx->mod->compiled->data->prev->next = node;
node->prev = ctx->mod->compiled->data->prev;
ctx->mod->compiled->data->prev = node;
}
}
return LY_SUCCESS;
error:
lysc_node_free(ctx->ctx, node);
return ret;
}
LY_ERR
lys_compile(struct lys_module *mod, int options)
{
struct lysc_ctx ctx = {0};
struct lysc_module *mod_c;
struct lysp_module *sp;
struct lysp_node *node_p;
unsigned int u;
LY_ERR ret;
LY_CHECK_ARG_RET(NULL, mod, mod->parsed, mod->parsed->ctx, LY_EINVAL);
sp = mod->parsed;
if (sp->submodule) {
LOGERR(sp->ctx, LY_EINVAL, "Submodules (%s) are not supposed to be compiled, compile only the main modules.", sp->name);
return LY_EINVAL;
}
ctx.ctx = sp->ctx;
ctx.mod = mod;
mod->compiled = mod_c = calloc(1, sizeof *mod_c);
LY_CHECK_ERR_RET(!mod_c, LOGMEM(sp->ctx), LY_EMEM);
mod_c->ctx = sp->ctx;
mod_c->implemented = sp->implemented;
mod_c->latest_revision = sp->latest_revision;
mod_c->version = sp->version;
mod_c->name = lydict_insert(sp->ctx, sp->name, 0);
mod_c->ns = lydict_insert(sp->ctx, sp->ns, 0);
mod_c->prefix = lydict_insert(sp->ctx, sp->prefix, 0);
if (sp->revs) {
mod_c->revision = lydict_insert(sp->ctx, sp->revs[0].date, 10);
}
COMPILE_ARRAY_GOTO(&ctx, sp->imports, mod_c->imports, options, u, lys_compile_import, ret, error);
COMPILE_ARRAY_GOTO(&ctx, sp->features, mod_c->features, options, u, lys_compile_feature, ret, error);
COMPILE_ARRAY_GOTO(&ctx, sp->identities, mod_c->identities, options, u, lys_compile_identity, ret, error);
if (sp->identities) {
LY_CHECK_RET(lys_compile_identities_derived(&ctx, sp->identities, mod_c->identities));
}
LY_LIST_FOR(sp->data, node_p) {
ret = lys_compile_node(&ctx, node_p, options, NULL);
LY_CHECK_GOTO(ret, error);
}
//COMPILE_ARRAY_GOTO(ctx, sp->rpcs, mod_c->rpcs, options, u, lys_compile_action, ret, error);
//COMPILE_ARRAY_GOTO(ctx, sp->notifs, mod_c->notifs, options, u, lys_compile_notif, ret, error);
COMPILE_ARRAY_GOTO(&ctx, sp->exts, mod_c->exts, options, u, lys_compile_ext, ret, error);
if (options & LYSC_OPT_FREE_SP) {
lysp_module_free(mod->parsed);
((struct lys_module*)mod)->parsed = NULL;
}
((struct lys_module*)mod)->compiled = mod_c;
return LY_SUCCESS;
error:
lysc_module_free(mod_c, NULL);
((struct lys_module*)mod)->compiled = NULL;
return ret;
}
static void
lys_latest_switch(struct lys_module *old, struct lysp_module *new)
{
if (old->parsed) {
new->latest_revision = old->parsed->latest_revision;
old->parsed->latest_revision = 0;
}
if (old->compiled) {
new->latest_revision = old->parsed->latest_revision;
old->compiled->latest_revision = 0;
}
}
struct lys_module *
lys_parse_mem_(struct ly_ctx *ctx, const char *data, LYS_INFORMAT format, int implement, struct ly_parser_ctx *main_ctx,
LY_ERR (*custom_check)(struct ly_ctx *ctx, struct lysp_module *mod, void *data), void *check_data)
{
struct lys_module *mod = NULL, *latest, *mod_dup;
struct lysp_module *latest_p;
struct lysp_import *imp;
struct lysp_include *inc;
LY_ERR ret = LY_EINVAL;
unsigned int u, i;
struct ly_parser_ctx context = {0};
LY_CHECK_ARG_RET(ctx, ctx, data, NULL);
context.ctx = ctx;
context.line = 1;
if (main_ctx) {
/* map the typedefs and groupings list from main context to the submodule's context */
memcpy(&context.tpdfs_nodes, &main_ctx->tpdfs_nodes, sizeof main_ctx->tpdfs_nodes);
memcpy(&context.grps_nodes, &main_ctx->grps_nodes, sizeof main_ctx->grps_nodes);
}
mod = calloc(1, sizeof *mod);
LY_CHECK_ERR_RET(!mod, LOGMEM(ctx), NULL);
switch (format) {
case LYS_IN_YIN:
/* TODO not yet supported
mod = yin_read_module(ctx, data, revision, implement);
*/
break;
case LYS_IN_YANG:
ret = yang_parse(&context, data, &mod->parsed);
break;
default:
LOGERR(ctx, LY_EINVAL, "Invalid schema input format.");
break;
}
LY_CHECK_ERR_RET(ret, free(mod), NULL);
/* make sure that the newest revision is at position 0 */
lysp_sort_revisions(mod->parsed->revs);
if (implement) {
/* mark the loaded module implemented */
if (ly_ctx_get_module_implemented(ctx, mod->parsed->name)) {
LOGERR(ctx, LY_EDENIED, "Module \"%s\" is already implemented in the context.", mod->parsed->name);
goto error;
}
mod->parsed->implemented = 1;
}
if (custom_check) {
LY_CHECK_GOTO(custom_check(ctx, mod->parsed, check_data), error);
}
if (mod->parsed->submodule) { /* submodule */
if (!main_ctx) {
LOGERR(ctx, LY_EDENIED, "Input data contains submodule \"%s\" which cannot be parsed directly without its main module.",
mod->parsed->name);
goto error;
}
/* decide the latest revision */
latest_p = ly_ctx_get_submodule(ctx, mod->parsed->belongsto, mod->parsed->name, NULL);
if (latest_p) {
if (mod->parsed->revs) {
if (!latest_p->revs) {
/* latest has no revision, so mod is anyway newer */
mod->parsed->latest_revision = latest_p->latest_revision;
latest_p->latest_revision = 0;
} else {
if (strcmp(mod->parsed->revs[0].date, latest_p->revs[0].date) > 0) {
mod->parsed->latest_revision = latest_p->latest_revision;
latest_p->latest_revision = 0;
}
}
}
} else {
mod->parsed->latest_revision = 1;
}
/* remap possibly changed and reallocated typedefs and groupings list back to the main context */
memcpy(&main_ctx->tpdfs_nodes, &context.tpdfs_nodes, sizeof main_ctx->tpdfs_nodes);
memcpy(&main_ctx->grps_nodes, &context.grps_nodes, sizeof main_ctx->grps_nodes);
} else { /* module */
/* check for duplicity in the context */
mod_dup = (struct lys_module*)ly_ctx_get_module(ctx, mod->parsed->name, mod->parsed->revs ? mod->parsed->revs[0].date : NULL);
if (mod_dup) {
if (mod_dup->parsed) {
/* error */
if (mod->parsed->revs) {
LOGERR(ctx, LY_EEXIST, "Module \"%s\" of revision \"%s\" is already present in the context.",
mod->parsed->name, mod->parsed->revs[0].date);
} else {
LOGERR(ctx, LY_EEXIST, "Module \"%s\" with no revision is already present in the context.",
mod->parsed->name);
}
goto error;
} else {
/* add the parsed data to the currently compiled-only module in the context */
mod_dup->parsed = mod->parsed;
free(mod);
mod = mod_dup;
goto finish_parsing;
}
}
#if 0
/* hack for NETCONF's edit-config's operation attribute. It is not defined in the schema, but since libyang
* implements YANG metadata (annotations), we need its definition. Because the ietf-netconf schema is not the
* internal part of libyang, we cannot add the annotation into the schema source, but we do it here to have
* the anotation definitions available in the internal schema structure. There is another hack in schema
* printers to do not print this internally added annotation. */
if (mod && ly_strequal(mod->name, "ietf-netconf", 0)) {
if (lyp_add_ietf_netconf_annotations(mod)) {
lys_free(mod, NULL, 1, 1);
return NULL;
}
}
#endif
/* decide the latest revision */
latest = (struct lys_module*)ly_ctx_get_module_latest(ctx, mod->parsed->name);
if (latest) {
if (mod->parsed->revs) {
if ((latest->parsed && !latest->parsed->revs) || (!latest->parsed && !latest->compiled->revision)) {
/* latest has no revision, so mod is anyway newer */
lys_latest_switch(latest, mod->parsed);
} else {
if (strcmp(mod->parsed->revs[0].date, latest->parsed ? latest->parsed->revs[0].date : latest->compiled->revision) > 0) {
lys_latest_switch(latest, mod->parsed);
}
}
}
} else {
mod->parsed->latest_revision = 1;
}
/* add into context */
ly_set_add(&ctx->list, mod, LY_SET_OPT_USEASLIST);
finish_parsing:
/* resolve imports */
mod->parsed->parsing = 1;
LY_ARRAY_FOR(mod->parsed->imports, u) {
imp = &mod->parsed->imports[u];
if (!imp->module && lysp_load_module(ctx, imp->name, imp->rev[0] ? imp->rev : NULL, 0, 0, &imp->module)) {
goto error_ctx;
}
/* check for importing the same module twice */
for (i = 0; i < u; ++i) {
if (imp->module == mod->parsed->imports[i].module) {
LOGVAL(ctx, LY_VLOG_NONE, NULL, LYVE_REFERENCE, "Single revision of the module \"%s\" referred twice.", imp->name);
goto error_ctx;
}
}
}
LY_ARRAY_FOR(mod->parsed->includes, u) {
inc = &mod->parsed->includes[u];
if (!inc->submodule && lysp_load_submodule(&context, mod->parsed, inc)) {
goto error_ctx;
}
}
mod->parsed->parsing = 0;
/* check name collisions - typedefs and groupings */
LY_CHECK_GOTO(lysp_check_typedefs(&context), error_ctx);
}
return mod;
error_ctx:
ly_set_rm(&ctx->list, mod, NULL);
error:
lys_module_free(mod, NULL);
ly_set_erase(&context.tpdfs_nodes, NULL);
return NULL;
}
API struct lys_module *
lys_parse_mem(struct ly_ctx *ctx, const char *data, LYS_INFORMAT format)
{
return lys_parse_mem_(ctx, data, format, 1, NULL, NULL, NULL);
}
static void
lys_parse_set_filename(struct ly_ctx *ctx, const char **filename, int fd)
{
#ifdef __APPLE__
char path[MAXPATHLEN];
#else
int len;
char path[PATH_MAX], proc_path[32];
#endif
#ifdef __APPLE__
if (fcntl(fd, F_GETPATH, path) != -1) {
*filename = lydict_insert(ctx, path, 0);
}
#else
/* get URI if there is /proc */
sprintf(proc_path, "/proc/self/fd/%d", fd);
if ((len = readlink(proc_path, path, PATH_MAX - 1)) > 0) {
*filename = lydict_insert(ctx, path, len);
}
#endif
}
struct lys_module *
lys_parse_fd_(struct ly_ctx *ctx, int fd, LYS_INFORMAT format, int implement, struct ly_parser_ctx *main_ctx,
LY_ERR (*custom_check)(struct ly_ctx *ctx, struct lysp_module *mod, void *data), void *check_data)
{
struct lys_module *mod;
size_t length;
char *addr;
LY_CHECK_ARG_RET(ctx, ctx, NULL);
if (fd < 0) {
LOGARG(ctx, fd);
return NULL;
}
LY_CHECK_RET(ly_mmap(ctx, fd, &length, (void **)&addr), NULL);
if (!addr) {
LOGERR(ctx, LY_EINVAL, "Empty schema file.");
return NULL;
}
mod = lys_parse_mem_(ctx, addr, format, implement, main_ctx, custom_check, check_data);
ly_munmap(addr, length);
if (mod && !mod->parsed->filepath) {
lys_parse_set_filename(ctx, &mod->parsed->filepath, fd);
}
return mod;
}
API struct lys_module *
lys_parse_fd(struct ly_ctx *ctx, int fd, LYS_INFORMAT format)
{
return lys_parse_fd_(ctx, fd, format, 1, NULL, NULL, NULL);
}
struct lys_module *
lys_parse_path_(struct ly_ctx *ctx, const char *path, LYS_INFORMAT format, int implement, struct ly_parser_ctx *main_ctx,
LY_ERR (*custom_check)(struct ly_ctx *ctx, struct lysp_module *mod, void *data), void *check_data)
{
int fd;
struct lys_module *mod;
const char *rev, *dot, *filename;
size_t len;
LY_CHECK_ARG_RET(ctx, ctx, path, NULL);
fd = open(path, O_RDONLY);
LY_CHECK_ERR_RET(fd == -1, LOGERR(ctx, LY_ESYS, "Opening file \"%s\" failed (%s).", path, strerror(errno)), NULL);
mod = lys_parse_fd_(ctx, fd, format, implement, main_ctx, custom_check, check_data);
close(fd);
LY_CHECK_RET(!mod, NULL);
/* check that name and revision match filename */
filename = strrchr(path, '/');
if (!filename) {
filename = path;
} else {
filename++;
}
rev = strchr(filename, '@');
dot = strrchr(filename, '.');
/* name */
len = strlen(mod->parsed->name);
if (strncmp(filename, mod->parsed->name, len) ||
((rev && rev != &filename[len]) || (!rev && dot != &filename[len]))) {
LOGWRN(ctx, "File name \"%s\" does not match module name \"%s\".", filename, mod->parsed->name);
}
if (rev) {
len = dot - ++rev;
if (!mod->parsed->revs || len != 10 || 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");
}
}
if (!mod->parsed->filepath) {
/* store URI */
char rpath[PATH_MAX];
if (realpath(path, rpath) != NULL) {
mod->parsed->filepath = lydict_insert(ctx, rpath, 0);
} else {
mod->parsed->filepath = lydict_insert(ctx, path, 0);
}
}
return mod;
}
API struct lys_module *
lys_parse_path(struct ly_ctx *ctx, const char *path, LYS_INFORMAT format)
{
return lys_parse_path_(ctx, path, format, 1, NULL, NULL, NULL);
}
API LY_ERR
lys_search_localfile(const char * const *searchpaths, int cwd, const char *name, const char *revision,
char **localfile, LYS_INFORMAT *format)
{
size_t len, flen, match_len = 0, dir_len;
int i, implicit_cwd = 0, ret = EXIT_FAILURE;
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 */
dirs = ly_set_new();
if (!dirs) {
LOGMEM(NULL);
return EXIT_FAILURE;
}
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 */
if (ly_set_add(dirs, wd, 0) == -1) {
goto cleanup;
}
implicit_cwd = 1;
}
}
if (searchpaths) {
for (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 if (ly_set_add(dirs, wd, 0) == -1) {
goto 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]) */
if (ly_set_add(dirs, wn, 0) == -1) {
goto 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 (!strcmp(&file->d_name[flen - 4], ".yin")) {
format_aux = LYS_IN_YIN;
} else if (!strcmp(&file->d_name[flen - 5], ".yang")) {
format_aux = LYS_IN_YANG;
} 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 ? 5 : 4) - 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 = EXIT_SUCCESS;
cleanup:
free(wn);
free(wd);
if (dir) {
closedir(dir);
}
free(match_name);
ly_set_free(dirs, free);
return ret;
}