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gerrit.cesnet.cz / github / CESNET / libyang / b4ac5a9cce62a23d30c1003308ae92ec5714d778 / . / tests / utests / test_json.c
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/*
* @file json.c
* @author: Radek Krejci <rkrejci@cesnet.cz>
* @brief unit tests for a generic JSON parser
*
* Copyright (c) 2020 CESNET, z.s.p.o.
*
* This source code is licensed under BSD 3-Clause License (the "License").
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* https://opensource.org/licenses/BSD-3-Clause
*/
#define _DEFAULT_SOURCE
#define _GNU_SOURCE
#include "context.h"
#include "in_internal.h"
#include "json.h"
#include "utests.h"
void *testfunc = NULL;
static int
setup(void **state)
{
if (ly_ctx_new(NULL, 0, (struct ly_ctx **)state)) {
return 1;
}
return 0;
}
static int
teardown(void **state)
{
ly_ctx_destroy(*state, NULL);
return 0;
}
#define BUFSIZE 1024
char logbuf[BUFSIZE] = {0};
/* set to 0 to printing error messages to stderr instead of checking them in code */
#define ENABLE_LOGGER_CHECKING 1
static void
logger(LY_LOG_LEVEL level, const char *msg, const char *path)
{
(void) level; /* unused */
if (path) {
snprintf(logbuf, BUFSIZE - 1, "%s %s", msg, path);
} else {
strncpy(logbuf, msg, BUFSIZE - 1);
}
}
static int
logger_setup(void **state)
{
(void) state; /* unused */
#if ENABLE_LOGGER_CHECKING
ly_set_log_clb(logger, 1);
#endif
return 0;
}
static int
logger_teardown(void **state)
{
(void) state; /* unused */
#if ENABLE_LOGGER_CHECKING
if (testfunc) {
fprintf(stderr, "%s\n", logbuf);
}
#endif
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_general(void **state)
{
struct lyjson_ctx *jsonctx;
struct ly_in *in;
const char *str;
testfunc = test_general;
/* empty */
str = "";
assert_int_equal(LY_SUCCESS, ly_in_new_memory(str, &in));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_END, lyjson_ctx_status(jsonctx, 0));
lyjson_ctx_free(jsonctx);
str = " \n\t \n";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_END, lyjson_ctx_status(jsonctx, 0));
lyjson_ctx_free(jsonctx);
/* constant values */
str = "true";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_TRUE, lyjson_ctx_status(jsonctx, 0));
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_END, lyjson_ctx_status(jsonctx, 0));
lyjson_ctx_free(jsonctx);
str = "false";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_FALSE, lyjson_ctx_status(jsonctx, 0));
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_END, lyjson_ctx_status(jsonctx, 0));
lyjson_ctx_free(jsonctx);
str = "null";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_NULL, lyjson_ctx_status(jsonctx, 0));
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_END, lyjson_ctx_status(jsonctx, 0));
lyjson_ctx_free(jsonctx);
ly_in_free(in, 0);
testfunc = NULL;
}
static void
test_number(void **state)
{
struct lyjson_ctx *jsonctx;
struct ly_in *in;
const char *str;
testfunc = test_number;
/* simple value */
str = "11";
assert_int_equal(LY_SUCCESS, ly_in_new_memory(str, &in));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_NUMBER, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("11", jsonctx->value);
assert_int_equal(2, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
/* fraction number */
str = "37.7668";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_NUMBER, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("37.7668", jsonctx->value);
assert_int_equal(7, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
/* negative number */
str = "-122.3959";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_NUMBER, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("-122.3959", jsonctx->value);
assert_int_equal(9, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
/* exp number */
str = "1E10";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_NUMBER, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("10000000000", jsonctx->value);
assert_int_equal(11, jsonctx->value_len);
assert_int_equal(1, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
str = "15E-1";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_NUMBER, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("1.5", jsonctx->value);
assert_int_equal(3, jsonctx->value_len);
assert_int_equal(1, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
str = "15E-3";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_NUMBER, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("0.015", jsonctx->value);
assert_int_equal(5, jsonctx->value_len);
assert_int_equal(1, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
/* exp fraction number */
str = "1.1e3";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_NUMBER, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("1100", jsonctx->value);
assert_int_equal(4, jsonctx->value_len);
assert_int_equal(1, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
/* negative exp fraction number */
str = "1.1e-3";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_NUMBER, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("0.0011", jsonctx->value);
assert_int_equal(6, jsonctx->value_len);
assert_int_equal(1, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
/* exp negative fraction number */
str = "-0.11e3";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_NUMBER, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("-110", jsonctx->value);
assert_int_equal(4, jsonctx->value_len);
assert_int_equal(1, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
/* negative exp negative fraction number */
str = "-3.14e-3";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_NUMBER, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("-0.00314", jsonctx->value);
assert_int_equal(8, jsonctx->value_len);
assert_int_equal(1, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
/* various invalid inputs */
str = "-x";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Invalid character in JSON Number value (\"x\"). Line number 1.");
str = " -";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Unexpected end-of-input. Line number 1.");
str = "--1";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Invalid character in JSON Number value (\"-\"). Line number 1.");
str = "+1";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Invalid character sequence \"+1\", expected a JSON value. Line number 1.");
str = " 1.x ";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Invalid character in JSON Number value (\"x\"). Line number 1.");
str = "1.";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Unexpected end-of-input. Line number 1.");
str = " 1eo ";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Invalid character in JSON Number value (\"o\"). Line number 1.");
str = "1e";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Unexpected end-of-input. Line number 1.");
ly_in_free(in, 0);
testfunc = NULL;
}
static void
test_string(void **state)
{
struct lyjson_ctx *jsonctx;
struct ly_in *in;
const char *str;
testfunc = test_string;
/* simple string */
str = "\"hello\"";
assert_int_equal(LY_SUCCESS, ly_in_new_memory(str, &in));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_STRING, lyjson_ctx_status(jsonctx, 0));
assert_ptr_equal(&str[1], jsonctx->value);
assert_int_equal(5, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
/* 4-byte utf8 character */
str = "\"\\t𠜎\"";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_STRING, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("\t𠜎", jsonctx->value);
assert_int_equal(5, jsonctx->value_len);
assert_int_equal(1, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
/* valid escape sequences - note that here it mixes valid JSON string characters (RFC 7159, sec. 7) and
* valid characters in YANG string type (RFC 7950, sec. 9.4). Since the latter is a subset of JSON string,
* the YANG string type's restrictions apply to the JSON escape sequences */
str = "\"\\\" \\\\ \\r \\/ \\n \\t \\u20ac\"";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_STRING, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("\" \\ \r / \n \t €", jsonctx->value);
assert_int_equal(15, jsonctx->value_len);
assert_int_equal(1, jsonctx->dynamic);
lyjson_ctx_free(jsonctx);
/* backspace and form feed are valid JSON escape sequences, but the control characters they represents are not allowed values for YANG string type */
str = "\"\\b\"";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Invalid character reference \"\\b\" (0x00000008). Line number 1.");
str = "\"\\f\"";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Invalid character reference \"\\f\" (0x0000000c). Line number 1.");
/* unterminated string */
str = "\"unterminated string";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Missing quotation-mark at the end of a JSON string. Line number 1.");
/* invalid escape sequence */
str = "\"char \\x \"";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Invalid character escape sequence \\x. Line number 1.");
/* new line is allowed only as escaped character in JSON */
str = "\"\n\"";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Invalid character in JSON string \"\n\" (0x0000000a). Line number 1.");
ly_in_free(in, 0);
testfunc = NULL;
}
static void
test_object(void **state)
{
struct lyjson_ctx *jsonctx;
struct ly_in *in;
const char *str;
testfunc = test_object;
/* empty */
str = " { } ";
assert_int_equal(LY_SUCCESS, ly_in_new_memory(str, &in));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_OBJECT_EMPTY, lyjson_ctx_status(jsonctx, 0));
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_END, lyjson_ctx_status(jsonctx, 0));
lyjson_ctx_free(jsonctx);
/* simple value */
str = "{\"name\" : \"Radek\"}";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_OBJECT, lyjson_ctx_status(jsonctx, 0));
assert_ptr_equal(&str[2], jsonctx->value);
assert_int_equal(4, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
assert_string_equal("\"Radek\"}", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_STRING, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("Radek\"}", jsonctx->value);
assert_int_equal(5, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
assert_string_equal("}", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_OBJECT_CLOSED, lyjson_ctx_status(jsonctx, 0));
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_END, lyjson_ctx_status(jsonctx, 0));
lyjson_ctx_free(jsonctx);
/* two values */
str = "{\"smart\" : true,\"handsom\":false}";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_OBJECT, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("smart\" : true,\"handsom\":false}", jsonctx->value);
assert_int_equal(5, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
assert_string_equal("true,\"handsom\":false}", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_TRUE, lyjson_ctx_status(jsonctx, 0));
assert_string_equal(",\"handsom\":false}", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_OBJECT, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("handsom\":false}", jsonctx->value);
assert_int_equal(7, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
assert_string_equal("false}", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_FALSE, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("}", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_OBJECT_CLOSED, lyjson_ctx_status(jsonctx, 0));
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_END, lyjson_ctx_status(jsonctx, 0));
lyjson_ctx_free(jsonctx);
/* inherited objects */
str = "{\"person\" : {\"name\":\"Radek\"}}";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_OBJECT, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("person\" : {\"name\":\"Radek\"}}", jsonctx->value);
assert_int_equal(6, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
assert_string_equal("{\"name\":\"Radek\"}}", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_OBJECT, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("name\":\"Radek\"}}", jsonctx->value);
assert_int_equal(4, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
assert_string_equal("\"Radek\"}}", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_STRING, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("Radek\"}}", jsonctx->value);
assert_int_equal(5, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
assert_string_equal("}}", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_OBJECT_CLOSED, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("}", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_OBJECT_CLOSED, lyjson_ctx_status(jsonctx, 0));
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_END, lyjson_ctx_status(jsonctx, 0));
lyjson_ctx_free(jsonctx);
/* new line is allowed only as escaped character in JSON */
str = "{ unquoted : \"data\"}";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_EVALID, lyjson_ctx_new(*state, in, &jsonctx));
logbuf_assert("Invalid character sequence \"unquoted : \"data\"}\", expected a JSON object's member. Line number 1.");
ly_in_free(in, 0);
testfunc = NULL;
}
static void
test_array(void **state)
{
struct lyjson_ctx *jsonctx;
struct ly_in *in;
const char *str;
testfunc = test_array;
/* empty */
str = " [ ] ";
assert_int_equal(LY_SUCCESS, ly_in_new_memory(str, &in));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_ARRAY_EMPTY, lyjson_ctx_status(jsonctx, 0));
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_END, lyjson_ctx_status(jsonctx, 0));
lyjson_ctx_free(jsonctx);
/* simple value */
str = "[ null]";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_ARRAY, lyjson_ctx_status(jsonctx, 0));
assert_null(jsonctx->value);
assert_int_equal(0, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
assert_string_equal("null]", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_NULL, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("]", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_ARRAY_CLOSED, lyjson_ctx_status(jsonctx, 0));
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_END, lyjson_ctx_status(jsonctx, 0));
lyjson_ctx_free(jsonctx);
/* two values */
str = "[{\"a\":null},\"x\"]";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LYJSON_ARRAY, lyjson_ctx_status(jsonctx, 0));
assert_null(jsonctx->value);
assert_int_equal(0, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
assert_string_equal("{\"a\":null},\"x\"]", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_OBJECT, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("a\":null},\"x\"]", jsonctx->value);
assert_int_equal(1, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
assert_string_equal("null},\"x\"]", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_NULL, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("},\"x\"]", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_OBJECT_CLOSED, lyjson_ctx_status(jsonctx, 0));
assert_string_equal(",\"x\"]", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_STRING, lyjson_ctx_status(jsonctx, 0));
assert_string_equal("x\"]", jsonctx->value);
assert_int_equal(1, jsonctx->value_len);
assert_int_equal(0, jsonctx->dynamic);
assert_string_equal("]", jsonctx->in->current);
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_ARRAY_CLOSED, lyjson_ctx_status(jsonctx, 0));
assert_int_equal(LY_SUCCESS, lyjson_ctx_next(jsonctx, NULL));
assert_int_equal(LYJSON_END, lyjson_ctx_status(jsonctx, 0));
lyjson_ctx_free(jsonctx);
/* new line is allowed only as escaped character in JSON */
str = "[ , null]";
assert_non_null(ly_in_memory(in, str));
assert_int_equal(LY_SUCCESS, lyjson_ctx_new(*state, in, &jsonctx));
assert_int_equal(LY_EVALID, lyjson_ctx_next(jsonctx, NULL));
logbuf_assert("Invalid character sequence \", null]\", expected a JSON value. Line number 1.");
lyjson_ctx_free(jsonctx);
ly_in_free(in, 0);
testfunc = NULL;
}
int
main(void)
{
const struct CMUnitTest tests[] = {
cmocka_unit_test_setup_teardown(test_general, logger_setup, logger_teardown),
cmocka_unit_test_setup_teardown(test_number, logger_setup, logger_teardown),
cmocka_unit_test_setup_teardown(test_string, logger_setup, logger_teardown),
cmocka_unit_test_setup_teardown(test_object, logger_setup, logger_teardown),
cmocka_unit_test_setup_teardown(test_array, logger_setup, logger_teardown),
};
return cmocka_run_group_tests(tests, setup, teardown);
}