tests/utests/data/test_tree_data.c - github/CESNET/libyang - Gitiles

 /**
  * @file test_tree_schema.c
  * @author: Radek Krejci <rkrejci@cesnet.cz>
  * @brief unit tests for functions from tress_data.c
  *
  * Copyright (c) 2018-2019 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 <stdarg.h>
 #include <stddef.h>
 #include <stdio.h>
 #include <setjmp.h>
 #include <cmocka.h>

 #include "libyang.h"
 #include "common.h"
 #include "path.h"
 #include "xpath.h"

 #define BUFSIZE 1024
 char logbuf[BUFSIZE] = {0};
 int store = -1; /* negative for infinite logging, positive for limited logging */

 struct ly_ctx *ctx; /* context for tests */

 /* set to 0 to printing error messages to stderr instead of checking them in code */
 #define ENABLE_LOGGER_CHECKING 1

 #if ENABLE_LOGGER_CHECKING
 static void
 logger(LY_LOG_LEVEL level, const char *msg, const char *path)
 {
     (void) level; /* unused */
     if (store) {
         if (path && path[0]) {
             snprintf(logbuf, BUFSIZE - 1, "%s %s", msg, path);
         } else {
             strncpy(logbuf, msg, BUFSIZE - 1);
         }
         if (store > 0) {
             --store;
         }
     }
 }
 #endif

 static int
 setup(void **state)
 {
     (void) state; /* unused */

     const char *schema_a = "module a {namespace urn:tests:a;prefix a;yang-version 1.1;"
             "leaf bar {type string;}"
             "list l1 { key \"a b\"; leaf a {type string;} leaf b {type string;} leaf c {type string;}}"
             "leaf foo { type string;}"
             "leaf-list ll { type string;}"
             "container c {leaf-list x {type string;}}"
             "anydata any {config false;}"
             "list l2 {config false;"
                 "container c{leaf x {type string;} leaf-list d {type string;}}"
             "}}";

 #if ENABLE_LOGGER_CHECKING
     ly_set_log_clb(logger, 1);
 #endif

     assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, 0, &ctx));
     assert_int_equal(LY_SUCCESS, lys_parse_mem(ctx, schema_a, LYS_IN_YANG, NULL));

     return 0;
 }

 static int
 teardown(void **state)
 {
 #if ENABLE_LOGGER_CHECKING
     if (*state) {
         fprintf(stderr, "%s\n", logbuf);
     }
 #else
     (void) state; /* unused */
 #endif

     ly_ctx_destroy(ctx, NULL);
     ctx = NULL;

     return 0;
 }

 void
 logbuf_clean(void)
 {
     logbuf[0] = '\0';
 }

 #if ENABLE_LOGGER_CHECKING
 #   define logbuf_assert(str) assert_string_equal(logbuf, str)
 #else
 #   define logbuf_assert(str)
 #endif

 static void
 test_compare(void **state)
 {
     *state = test_compare;

     struct lyd_node *tree1, *tree2;

     const char *data1 = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b><c>x</c></l1>";
     const char *data2 = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b><c>y</c></l1>";

     assert_int_equal(LY_SUCCESS, lyd_compare_single(NULL, NULL, 0));

     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data2, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree2));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, 0));
     assert_int_equal(LY_ENOT, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
     assert_int_equal(LY_ENOT, lyd_compare_single(((struct lyd_node_inner*)tree1)->child, tree2, 0));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     data1 = "<l2 xmlns=\"urn:tests:a\"><c><x>a</x></c></l2><l2 xmlns=\"urn:tests:a\"><c><x>b</x></c></l2>";
     data2 = "<l2 xmlns=\"urn:tests:a\"><c><x>b</x></c></l2>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data2, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree2));
     assert_int_equal(LY_ENOT, lyd_compare_single(tree1->next, tree2->next, 0));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1->next->next, tree2->next, 0));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     data1 = "<ll xmlns=\"urn:tests:a\">a</ll><ll xmlns=\"urn:tests:a\">b</ll>";
     data2 = "<ll xmlns=\"urn:tests:a\">b</ll>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data2, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree2));
     assert_int_equal(LY_ENOT, lyd_compare_single(tree1, tree2, 0));
     assert_int_equal(LY_ENOT, lyd_compare_single(NULL, tree2, 0));
     assert_int_equal(LY_ENOT, lyd_compare_single(tree1, NULL, 0));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1->next, tree2, 0));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     data1 = "<c xmlns=\"urn:tests:a\"><x>x</x></c>";
     data2 = "<c xmlns=\"urn:tests:a\"><x>y</x></c>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data2, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree2));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, 0));
     assert_int_equal(LY_ENOT, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     data1 = "<c xmlns=\"urn:tests:a\"><x>x</x></c>";
     data2 = "<c xmlns=\"urn:tests:a\"><x>x</x><x>y</x></c>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data2, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree2));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, 0));
     assert_int_equal(LY_ENOT, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     data1 = "<any xmlns=\"urn:tests:a\"><x>x</x></any>";
     data2 = "<any xmlns=\"urn:tests:a\"><x>x</x><x>y</x></any>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data2, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree2));
     assert_int_equal(LY_ENOT, lyd_compare_single(tree1->next, tree2->next, 0));
     lyd_free_all(tree1);
     data1 = "<any xmlns=\"urn:tests:a\"><x>x</x><x>y</x></any>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, 0));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     *state = NULL;
 }

 static void
 test_dup(void **state)
 {
     *state = test_dup;

     struct lyd_node *tree1, *tree2;
     const char *result;
     const char *data = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b><c>x</c></l1>";

     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_dup_single(tree1, NULL, LYD_DUP_RECURSIVE, &tree2));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     data = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b><c>x</c></l1>";
     result = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b></l1>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_dup_single(tree1, NULL, 0, &tree2));
     lyd_free_all(tree1);
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, result, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     data = "<l2 xmlns=\"urn:tests:a\"><c><x>a</x></c></l2><l2 xmlns=\"urn:tests:a\"><c><x>b</x></c></l2>";
     result = "<l2 xmlns=\"urn:tests:a\"><c><x>a</x></c></l2>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_dup_siblings(tree1, NULL, LYD_DUP_RECURSIVE, &tree2));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1->next, tree2->next, LYD_COMPARE_FULL_RECURSION));
     lyd_free_all(tree2);
     assert_int_equal(LY_SUCCESS, lyd_dup_single(tree1->next, NULL, LYD_DUP_RECURSIVE, &tree2));
     lyd_free_all(tree1);
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, result, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1->next, tree2, LYD_COMPARE_FULL_RECURSION));
     lyd_free_all(tree2);

     assert_int_equal(LY_SUCCESS, lyd_dup_single(tree1->next, NULL, 0, &tree2));
     lyd_free_all(tree1);
     result = "<l2 xmlns=\"urn:tests:a\"/>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, result, LYD_XML, LYD_PARSE_ONLY, 0, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     data = "<any xmlns=\"urn:tests:a\"><c><a>a</a></c></any>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_dup_single(tree1, NULL, 0, &tree2));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     data = "<l2 xmlns=\"urn:tests:a\"><c><x>b</x></c></l2>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_dup_single(((struct lyd_node_inner*)((struct lyd_node_inner*)tree1->next)->child)->child, NULL,
                                          LYD_DUP_WITH_PARENTS, &tree2));
     assert_string_equal("x", tree2->schema->name);
     assert_non_null(tree2->parent);
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1->next, (struct lyd_node*)tree2->parent->parent,
             LYD_COMPARE_FULL_RECURSION));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     data = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b><c>c</c></l1>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_dup_single(((struct lyd_node_inner*)tree1)->child->prev, NULL,
                                                 LYD_DUP_WITH_PARENTS, &tree2));
     assert_string_equal("c", tree2->schema->name);
     assert_non_null(tree2->parent);
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, (struct lyd_node*)tree2->parent, LYD_COMPARE_FULL_RECURSION));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     data = "<l2 xmlns=\"urn:tests:a\"><c><x>b</x></c></l2>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_SUCCESS, lyd_dup_single(tree1->next, NULL, 0, &tree2));
     assert_int_equal(LY_SUCCESS, lyd_dup_single(((struct lyd_node_inner*)((struct lyd_node_inner*)tree1->next)->child)->child,
                                  (struct lyd_node_inner*)tree2, LYD_DUP_WITH_PARENTS, NULL));
     assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1->next, tree2, LYD_COMPARE_FULL_RECURSION));
     lyd_free_all(tree1);
     lyd_free_all(tree2);

     /* invalid */
     data = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b><c>c</c></l1><l2 xmlns=\"urn:tests:a\"><c><x>b</x></c></l2>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
     assert_int_equal(LY_EINVAL, lyd_dup_single(((struct lyd_node_inner*)tree1)->child->prev,
                                                (struct lyd_node_inner*)tree1->next, LYD_DUP_WITH_PARENTS, NULL));
     lyd_free_all(tree1);

     *state = NULL;
 }

 static void
 test_target(void **state)
 {
     *state = test_target;

     const struct lyd_node_term *term;
     struct lyd_node *tree;
     struct lyxp_expr *exp;
     struct ly_path *path;
     const char *path_str = "/a:l2[2]/c/d[3]";
     const char *data =
         "<l2 xmlns=\"urn:tests:a\"><c>"
             "<d>a</d>"
         "</c></l2>"
         "<l2 xmlns=\"urn:tests:a\"><c>"
             "<d>a</d>"
             "<d>b</d>"
             "<d>b</d>"
             "<d>c</d>"
         "</c></l2>"
         "<l2 xmlns=\"urn:tests:a\"><c>"
         "</c></l2>";

     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree));
     assert_int_equal(LY_SUCCESS, ly_path_parse(ctx, NULL, path_str, strlen(path_str), LY_PATH_BEGIN_EITHER, LY_PATH_LREF_FALSE,
                                                LY_PATH_PREFIX_OPTIONAL, LY_PATH_PRED_SIMPLE, &exp));
     assert_int_equal(LY_SUCCESS, ly_path_compile(ctx, NULL, NULL, exp, LY_PATH_LREF_FALSE, LY_PATH_OPER_INPUT,
                                                  LY_PATH_TARGET_SINGLE, LY_PREF_JSON, NULL, &path));
     term = lyd_target(path, tree);

     assert_string_equal(term->schema->name, "d");
     assert_string_equal(LYD_CANON_VALUE(term), "b");
     assert_string_equal(LYD_CANON_VALUE(term->prev), "b");

     lyd_free_all(tree);
     ly_path_free(ctx, path);
     lyxp_expr_free(ctx, exp);

     *state = NULL;
 }

 static void
 test_list_pos(void **state)
 {
     *state = test_list_pos;

     const char *data;
     struct lyd_node *tree;

     data = "<bar xmlns=\"urn:tests:a\">test</bar>"
         "<l1 xmlns=\"urn:tests:a\"><a>one</a><b>one</b></l1>"
         "<l1 xmlns=\"urn:tests:a\"><a>two</a><b>two</b></l1>"
         "<foo xmlns=\"urn:tests:a\">test</foo>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree));
     assert_int_equal(0, lyd_list_pos(tree));
     assert_int_equal(1, lyd_list_pos(tree->next));
     assert_int_equal(2, lyd_list_pos(tree->next->next));
     assert_int_equal(0, lyd_list_pos(tree->next->next->next));
     lyd_free_all(tree);

     data = "<ll xmlns=\"urn:tests:a\">one</ll>"
         "<ll xmlns=\"urn:tests:a\">two</ll>"
         "<ll xmlns=\"urn:tests:a\">three</ll>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree));
     assert_int_equal(1, lyd_list_pos(tree));
     assert_int_equal(2, lyd_list_pos(tree->next));
     assert_int_equal(3, lyd_list_pos(tree->next->next));
     lyd_free_all(tree);

     data = "<ll xmlns=\"urn:tests:a\">one</ll>"
         "<l1 xmlns=\"urn:tests:a\"><a>one</a><b>one</b></l1>"
         "<ll xmlns=\"urn:tests:a\">two</ll>"
         "<l1 xmlns=\"urn:tests:a\"><a>two</a><b>two</b></l1>"
         "<ll xmlns=\"urn:tests:a\">three</ll>"
         "<l1 xmlns=\"urn:tests:a\"><a>three</a><b>three</b></l1>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree));
     assert_string_equal("l1", tree->schema->name);
     assert_int_equal(1, lyd_list_pos(tree));
     assert_int_equal(2, lyd_list_pos(tree->next));
     assert_int_equal(3, lyd_list_pos(tree->next->next));
     assert_string_equal("ll", tree->next->next->next->schema->name);
     assert_int_equal(1, lyd_list_pos(tree->next->next->next));
     assert_int_equal(2, lyd_list_pos(tree->next->next->next->next));
     assert_int_equal(3, lyd_list_pos(tree->next->next->next->next->next));
     lyd_free_all(tree);

     *state = NULL;
 }

 static void
 test_first_sibling(void **state)
 {
     *state = test_first_sibling;

     const char *data;
     struct lyd_node *tree;
     struct lyd_node_inner *parent;

     data = "<bar xmlns=\"urn:tests:a\">test</bar>"
         "<l1 xmlns=\"urn:tests:a\"><a>one</a><b>one</b><c>one</c></l1>"
         "<foo xmlns=\"urn:tests:a\">test</foo>";
     assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree));
     assert_ptr_equal(tree, lyd_first_sibling(tree->next));
     assert_ptr_equal(tree, lyd_first_sibling(tree));
     assert_ptr_equal(tree, lyd_first_sibling(tree->prev));
     parent = (struct lyd_node_inner*)tree->next;
     assert_int_equal(LYS_LIST, parent->schema->nodetype);
     assert_ptr_equal(parent->child, lyd_first_sibling(parent->child->next));
     assert_ptr_equal(parent->child, lyd_first_sibling(parent->child));
     assert_ptr_equal(parent->child, lyd_first_sibling(parent->child->prev));
     lyd_free_all(tree);

     *state = NULL;
 }

 int main(void)
 {
     const struct CMUnitTest tests[] = {
         cmocka_unit_test_setup_teardown(test_compare, setup, teardown),
         cmocka_unit_test_setup_teardown(test_dup, setup, teardown),
         cmocka_unit_test_setup_teardown(test_target, setup, teardown),
         cmocka_unit_test_setup_teardown(test_list_pos, setup, teardown),
         cmocka_unit_test_setup_teardown(test_first_sibling, setup, teardown),
     };

     return cmocka_run_group_tests(tests, NULL, NULL);
 }
	/**
	* @file test_tree_schema.c
	* @author: Radek Krejci <rkrejci@cesnet.cz>
	* @brief unit tests for functions from tress_data.c
	*
	* Copyright (c) 2018-2019 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 <stdarg.h>
	#include <stddef.h>
	#include <stdio.h>
	#include <setjmp.h>
	#include <cmocka.h>

	#include "libyang.h"
	#include "common.h"
	#include "path.h"
	#include "xpath.h"

	#define BUFSIZE 1024
	char logbuf[BUFSIZE] = {0};
	int store = -1; /* negative for infinite logging, positive for limited logging */

	struct ly_ctx ctx; / context for tests */

	/* set to 0 to printing error messages to stderr instead of checking them in code */
	#define ENABLE_LOGGER_CHECKING 1

	#if ENABLE_LOGGER_CHECKING
	static void
	logger(LY_LOG_LEVEL level, const char msg, const char path)
	{
	(void) level; /* unused */
	if (store) {
	if (path && path[0]) {
	snprintf(logbuf, BUFSIZE - 1, "%s %s", msg, path);
	} else {
	strncpy(logbuf, msg, BUFSIZE - 1);
	}
	if (store > 0) {
	--store;
	}
	}
	}
	#endif

	static int
	setup(void **state)
	{
	(void) state; /* unused */

	const char *schema_a = "module a {namespace urn:tests:a;prefix a;yang-version 1.1;"
	"leaf bar {type string;}"
	"list l1 { key \"a b\"; leaf a {type string;} leaf b {type string;} leaf c {type string;}}"
	"leaf foo { type string;}"
	"leaf-list ll { type string;}"
	"container c {leaf-list x {type string;}}"
	"anydata any {config false;}"
	"list l2 {config false;"
	"container c{leaf x {type string;} leaf-list d {type string;}}"
	"}}";

	#if ENABLE_LOGGER_CHECKING
	ly_set_log_clb(logger, 1);
	#endif

	assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, 0, &ctx));
	assert_int_equal(LY_SUCCESS, lys_parse_mem(ctx, schema_a, LYS_IN_YANG, NULL));

	return 0;
	}

	static int
	teardown(void **state)
	{
	#if ENABLE_LOGGER_CHECKING
	if (*state) {
	fprintf(stderr, "%s\n", logbuf);
	}
	#else
	(void) state; /* unused */
	#endif

	ly_ctx_destroy(ctx, NULL);
	ctx = NULL;

	return 0;
	}

	void
	logbuf_clean(void)
	{
	logbuf[0] = '\0';
	}

	#if ENABLE_LOGGER_CHECKING
	# define logbuf_assert(str) assert_string_equal(logbuf, str)
	#else
	# define logbuf_assert(str)
	#endif

	static void
	test_compare(void **state)
	{
	*state = test_compare;

	struct lyd_node tree1, tree2;

	const char *data1 = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b><c>x</c></l1>";
	const char *data2 = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b><c>y</c></l1>";

	assert_int_equal(LY_SUCCESS, lyd_compare_single(NULL, NULL, 0));

	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data2, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree2));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, 0));
	assert_int_equal(LY_ENOT, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
	assert_int_equal(LY_ENOT, lyd_compare_single(((struct lyd_node_inner*)tree1)->child, tree2, 0));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	data1 = "<l2 xmlns=\"urn:tests:a\"><c><x>a</x></c></l2><l2 xmlns=\"urn:tests:a\"><c><x>b</x></c></l2>";
	data2 = "<l2 xmlns=\"urn:tests:a\"><c><x>b</x></c></l2>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data2, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree2));
	assert_int_equal(LY_ENOT, lyd_compare_single(tree1->next, tree2->next, 0));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1->next->next, tree2->next, 0));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	data1 = "<ll xmlns=\"urn:tests:a\">a</ll><ll xmlns=\"urn:tests:a\">b</ll>";
	data2 = "<ll xmlns=\"urn:tests:a\">b</ll>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data2, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree2));
	assert_int_equal(LY_ENOT, lyd_compare_single(tree1, tree2, 0));
	assert_int_equal(LY_ENOT, lyd_compare_single(NULL, tree2, 0));
	assert_int_equal(LY_ENOT, lyd_compare_single(tree1, NULL, 0));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1->next, tree2, 0));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	data1 = "<c xmlns=\"urn:tests:a\"><x>x</x></c>";
	data2 = "<c xmlns=\"urn:tests:a\"><x>y</x></c>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data2, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree2));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, 0));
	assert_int_equal(LY_ENOT, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	data1 = "<c xmlns=\"urn:tests:a\"><x>x</x></c>";
	data2 = "<c xmlns=\"urn:tests:a\"><x>x</x><x>y</x></c>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data2, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree2));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, 0));
	assert_int_equal(LY_ENOT, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	data1 = "<any xmlns=\"urn:tests:a\"><x>x</x></any>";
	data2 = "<any xmlns=\"urn:tests:a\"><x>x</x><x>y</x></any>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data2, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree2));
	assert_int_equal(LY_ENOT, lyd_compare_single(tree1->next, tree2->next, 0));
	lyd_free_all(tree1);
	data1 = "<any xmlns=\"urn:tests:a\"><x>x</x><x>y</x></any>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data1, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, 0));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	*state = NULL;
	}

	static void
	test_dup(void **state)
	{
	*state = test_dup;

	struct lyd_node tree1, tree2;
	const char *result;
	const char *data = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b><c>x</c></l1>";

	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_dup_single(tree1, NULL, LYD_DUP_RECURSIVE, &tree2));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	data = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b><c>x</c></l1>";
	result = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b></l1>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_dup_single(tree1, NULL, 0, &tree2));
	lyd_free_all(tree1);
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, result, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	data = "<l2 xmlns=\"urn:tests:a\"><c><x>a</x></c></l2><l2 xmlns=\"urn:tests:a\"><c><x>b</x></c></l2>";
	result = "<l2 xmlns=\"urn:tests:a\"><c><x>a</x></c></l2>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_dup_siblings(tree1, NULL, LYD_DUP_RECURSIVE, &tree2));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1->next, tree2->next, LYD_COMPARE_FULL_RECURSION));
	lyd_free_all(tree2);
	assert_int_equal(LY_SUCCESS, lyd_dup_single(tree1->next, NULL, LYD_DUP_RECURSIVE, &tree2));
	lyd_free_all(tree1);
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, result, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1->next, tree2, LYD_COMPARE_FULL_RECURSION));
	lyd_free_all(tree2);

	assert_int_equal(LY_SUCCESS, lyd_dup_single(tree1->next, NULL, 0, &tree2));
	lyd_free_all(tree1);
	result = "<l2 xmlns=\"urn:tests:a\"/>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, result, LYD_XML, LYD_PARSE_ONLY, 0, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	data = "<any xmlns=\"urn:tests:a\"><c><a>a</a></c></any>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_dup_single(tree1, NULL, 0, &tree2));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, tree2, LYD_COMPARE_FULL_RECURSION));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	data = "<l2 xmlns=\"urn:tests:a\"><c><x>b</x></c></l2>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_dup_single(((struct lyd_node_inner)((struct lyd_node_inner)tree1->next)->child)->child, NULL,
	LYD_DUP_WITH_PARENTS, &tree2));
	assert_string_equal("x", tree2->schema->name);
	assert_non_null(tree2->parent);
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1->next, (struct lyd_node*)tree2->parent->parent,
	LYD_COMPARE_FULL_RECURSION));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	data = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b><c>c</c></l1>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_dup_single(((struct lyd_node_inner*)tree1)->child->prev, NULL,
	LYD_DUP_WITH_PARENTS, &tree2));
	assert_string_equal("c", tree2->schema->name);
	assert_non_null(tree2->parent);
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1, (struct lyd_node*)tree2->parent, LYD_COMPARE_FULL_RECURSION));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	data = "<l2 xmlns=\"urn:tests:a\"><c><x>b</x></c></l2>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_SUCCESS, lyd_dup_single(tree1->next, NULL, 0, &tree2));
	assert_int_equal(LY_SUCCESS, lyd_dup_single(((struct lyd_node_inner)((struct lyd_node_inner)tree1->next)->child)->child,
	(struct lyd_node_inner*)tree2, LYD_DUP_WITH_PARENTS, NULL));
	assert_int_equal(LY_SUCCESS, lyd_compare_single(tree1->next, tree2, LYD_COMPARE_FULL_RECURSION));
	lyd_free_all(tree1);
	lyd_free_all(tree2);

	/* invalid */
	data = "<l1 xmlns=\"urn:tests:a\"><a>a</a><b>b</b><c>c</c></l1><l2 xmlns=\"urn:tests:a\"><c><x>b</x></c></l2>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree1));
	assert_int_equal(LY_EINVAL, lyd_dup_single(((struct lyd_node_inner*)tree1)->child->prev,
	(struct lyd_node_inner*)tree1->next, LYD_DUP_WITH_PARENTS, NULL));
	lyd_free_all(tree1);

	*state = NULL;
	}

	static void
	test_target(void **state)
	{
	*state = test_target;

	const struct lyd_node_term *term;
	struct lyd_node *tree;
	struct lyxp_expr *exp;
	struct ly_path *path;
	const char *path_str = "/a:l2[2]/c/d[3]";
	const char *data =
	"<l2 xmlns=\"urn:tests:a\"><c>"
	"<d>a</d>"
	"</c></l2>"
	"<l2 xmlns=\"urn:tests:a\"><c>"
	"<d>a</d>"
	"<d>b</d>"
	"<d>b</d>"
	"<d>c</d>"
	"</c></l2>"
	"<l2 xmlns=\"urn:tests:a\"><c>"
	"</c></l2>";

	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree));
	assert_int_equal(LY_SUCCESS, ly_path_parse(ctx, NULL, path_str, strlen(path_str), LY_PATH_BEGIN_EITHER, LY_PATH_LREF_FALSE,
	LY_PATH_PREFIX_OPTIONAL, LY_PATH_PRED_SIMPLE, &exp));
	assert_int_equal(LY_SUCCESS, ly_path_compile(ctx, NULL, NULL, exp, LY_PATH_LREF_FALSE, LY_PATH_OPER_INPUT,
	LY_PATH_TARGET_SINGLE, LY_PREF_JSON, NULL, &path));
	term = lyd_target(path, tree);

	assert_string_equal(term->schema->name, "d");
	assert_string_equal(LYD_CANON_VALUE(term), "b");
	assert_string_equal(LYD_CANON_VALUE(term->prev), "b");

	lyd_free_all(tree);
	ly_path_free(ctx, path);
	lyxp_expr_free(ctx, exp);

	*state = NULL;
	}

	static void
	test_list_pos(void **state)
	{
	*state = test_list_pos;

	const char *data;
	struct lyd_node *tree;

	data = "<bar xmlns=\"urn:tests:a\">test</bar>"
	"<l1 xmlns=\"urn:tests:a\"><a>one</a><b>one</b></l1>"
	"<l1 xmlns=\"urn:tests:a\"><a>two</a><b>two</b></l1>"
	"<foo xmlns=\"urn:tests:a\">test</foo>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree));
	assert_int_equal(0, lyd_list_pos(tree));
	assert_int_equal(1, lyd_list_pos(tree->next));
	assert_int_equal(2, lyd_list_pos(tree->next->next));
	assert_int_equal(0, lyd_list_pos(tree->next->next->next));
	lyd_free_all(tree);

	data = "<ll xmlns=\"urn:tests:a\">one</ll>"
	"<ll xmlns=\"urn:tests:a\">two</ll>"
	"<ll xmlns=\"urn:tests:a\">three</ll>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree));
	assert_int_equal(1, lyd_list_pos(tree));
	assert_int_equal(2, lyd_list_pos(tree->next));
	assert_int_equal(3, lyd_list_pos(tree->next->next));
	lyd_free_all(tree);

	data = "<ll xmlns=\"urn:tests:a\">one</ll>"
	"<l1 xmlns=\"urn:tests:a\"><a>one</a><b>one</b></l1>"
	"<ll xmlns=\"urn:tests:a\">two</ll>"
	"<l1 xmlns=\"urn:tests:a\"><a>two</a><b>two</b></l1>"
	"<ll xmlns=\"urn:tests:a\">three</ll>"
	"<l1 xmlns=\"urn:tests:a\"><a>three</a><b>three</b></l1>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree));
	assert_string_equal("l1", tree->schema->name);
	assert_int_equal(1, lyd_list_pos(tree));
	assert_int_equal(2, lyd_list_pos(tree->next));
	assert_int_equal(3, lyd_list_pos(tree->next->next));
	assert_string_equal("ll", tree->next->next->next->schema->name);
	assert_int_equal(1, lyd_list_pos(tree->next->next->next));
	assert_int_equal(2, lyd_list_pos(tree->next->next->next->next));
	assert_int_equal(3, lyd_list_pos(tree->next->next->next->next->next));
	lyd_free_all(tree);

	*state = NULL;
	}

	static void
	test_first_sibling(void **state)
	{
	*state = test_first_sibling;

	const char *data;
	struct lyd_node *tree;
	struct lyd_node_inner *parent;

	data = "<bar xmlns=\"urn:tests:a\">test</bar>"
	"<l1 xmlns=\"urn:tests:a\"><a>one</a><b>one</b><c>one</c></l1>"
	"<foo xmlns=\"urn:tests:a\">test</foo>";
	assert_int_equal(LY_SUCCESS, lyd_parse_data_mem(ctx, data, LYD_XML, 0, LYD_VALIDATE_PRESENT, &tree));
	assert_ptr_equal(tree, lyd_first_sibling(tree->next));
	assert_ptr_equal(tree, lyd_first_sibling(tree));
	assert_ptr_equal(tree, lyd_first_sibling(tree->prev));
	parent = (struct lyd_node_inner*)tree->next;
	assert_int_equal(LYS_LIST, parent->schema->nodetype);
	assert_ptr_equal(parent->child, lyd_first_sibling(parent->child->next));
	assert_ptr_equal(parent->child, lyd_first_sibling(parent->child));
	assert_ptr_equal(parent->child, lyd_first_sibling(parent->child->prev));
	lyd_free_all(tree);

	*state = NULL;
	}

	int main(void)
	{
	const struct CMUnitTest tests[] = {
	cmocka_unit_test_setup_teardown(test_compare, setup, teardown),
	cmocka_unit_test_setup_teardown(test_dup, setup, teardown),
	cmocka_unit_test_setup_teardown(test_target, setup, teardown),
	cmocka_unit_test_setup_teardown(test_list_pos, setup, teardown),
	cmocka_unit_test_setup_teardown(test_first_sibling, setup, teardown),
	};

	return cmocka_run_group_tests(tests, NULL, NULL);
	}