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pigweed / third_party / github / zephyrproject-rtos / zephyr / bb86f8b967b2a7277379b87f8959c7ddd11c8402 / . / tests / net / lib / lwm2m / content_json / src / main.c
blob: c73840591a007734dd6e810fd540fc9ebbca426f [file] [log] [blame]
/*
* Copyright (c) 2022 Nordic Semiconductor ASA
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <zephyr/zephyr.h>
#include <zephyr/ztest.h>
#include "lwm2m_engine.h"
#include "lwm2m_rw_json.h"
#define TEST_OBJ_ID 0xFFFF
#define TEST_OBJ_INST_ID 0
#define TEST_RES_S8 0
#define TEST_RES_S16 1
#define TEST_RES_S32 2
#define TEST_RES_S64 3
#define TEST_RES_STRING 4
#define TEST_RES_FLOAT 5
#define TEST_RES_BOOL 6
#define TEST_RES_OBJLNK 7
#define TEST_OBJ_RES_MAX_ID 8
static struct lwm2m_engine_obj test_obj;
static struct lwm2m_engine_obj_field test_fields[] = {
OBJ_FIELD_DATA(TEST_RES_S8, RW, S8),
OBJ_FIELD_DATA(TEST_RES_S16, RW, S16),
OBJ_FIELD_DATA(TEST_RES_S32, RW, S32),
OBJ_FIELD_DATA(TEST_RES_S64, RW, S64),
OBJ_FIELD_DATA(TEST_RES_STRING, RW, STRING),
OBJ_FIELD_DATA(TEST_RES_FLOAT, RW, FLOAT),
OBJ_FIELD_DATA(TEST_RES_BOOL, RW, BOOL),
OBJ_FIELD_DATA(TEST_RES_OBJLNK, RW, OBJLNK),
};
static struct lwm2m_engine_obj_inst test_inst;
static struct lwm2m_engine_res test_res[TEST_OBJ_RES_MAX_ID];
static struct lwm2m_engine_res_inst test_res_inst[TEST_OBJ_RES_MAX_ID];
#define TEST_STRING_MAX_SIZE 16
static int8_t test_s8;
static int16_t test_s16;
static int32_t test_s32;
static int64_t test_s64;
static char test_string[TEST_STRING_MAX_SIZE];
static double test_float;
static bool test_bool;
static struct lwm2m_objlnk test_objlnk;
static struct lwm2m_engine_obj_inst *test_obj_create(uint16_t obj_inst_id)
{
int i = 0, j = 0;
init_res_instance(test_res_inst, ARRAY_SIZE(test_res_inst));
INIT_OBJ_RES_DATA(TEST_RES_S8, test_res, i, test_res_inst, j,
&test_s8, sizeof(test_s8));
INIT_OBJ_RES_DATA(TEST_RES_S16, test_res, i, test_res_inst, j,
&test_s16, sizeof(test_s16));
INIT_OBJ_RES_DATA(TEST_RES_S32, test_res, i, test_res_inst, j,
&test_s32, sizeof(test_s32));
INIT_OBJ_RES_DATA(TEST_RES_S64, test_res, i, test_res_inst, j,
&test_s64, sizeof(test_s64));
INIT_OBJ_RES_DATA(TEST_RES_STRING, test_res, i, test_res_inst, j,
&test_string, sizeof(test_string));
INIT_OBJ_RES_DATA(TEST_RES_FLOAT, test_res, i, test_res_inst, j,
&test_float, sizeof(test_float));
INIT_OBJ_RES_DATA(TEST_RES_BOOL, test_res, i, test_res_inst, j,
&test_bool, sizeof(test_bool));
INIT_OBJ_RES_DATA(TEST_RES_OBJLNK, test_res, i, test_res_inst, j,
&test_objlnk, sizeof(test_objlnk));
test_inst.resources = test_res;
test_inst.resource_count = i;
return &test_inst;
}
static void test_obj_init(void)
{
struct lwm2m_engine_obj_inst *obj_inst = NULL;
test_obj.obj_id = TEST_OBJ_ID;
test_obj.version_major = 1;
test_obj.version_minor = 0;
test_obj.is_core = false;
test_obj.fields = test_fields;
test_obj.field_count = ARRAY_SIZE(test_fields);
test_obj.max_instance_count = 1U;
test_obj.create_cb = test_obj_create;
(void)lwm2m_register_obj(&test_obj);
(void)lwm2m_create_obj_inst(TEST_OBJ_ID, TEST_OBJ_INST_ID, &obj_inst);
}
/* 2 bytes for Content Format option + payload marker */
#define TEST_PAYLOAD_OFFSET 3
#define TEST_PAYLOAD(res_id, type, value) \
"{\"bn\":\"/65535/0/\",\"e\":[{\"n\":\"" STRINGIFY(res_id) \
"\",\"" type "\":" value "}]}"
static struct lwm2m_message test_msg;
static void context_reset(void)
{
memset(&test_msg, 0, sizeof(test_msg));
test_msg.out.writer = &json_writer;
test_msg.out.out_cpkt = &test_msg.cpkt;
test_msg.in.reader = &json_reader;
test_msg.in.in_cpkt = &test_msg.cpkt;
test_msg.path.level = LWM2M_PATH_LEVEL_RESOURCE;
test_msg.path.obj_id = TEST_OBJ_ID;
test_msg.path.obj_inst_id = TEST_OBJ_INST_ID;
test_msg.cpkt.data = test_msg.msg_data;
test_msg.cpkt.max_len = sizeof(test_msg.msg_data);
}
static void test_payload_set(const char *payload)
{
memcpy(test_msg.msg_data + 1, payload, strlen(payload));
test_msg.cpkt.offset = strlen(payload) + 1;
test_msg.in.offset = 1; /* Payload marker */
}
static void test_prepare(void)
{
context_reset();
}
static void test_prepare_nomem(void)
{
context_reset();
/* Leave some space for Content-format option */
test_msg.cpkt.offset = sizeof(test_msg.msg_data) - TEST_PAYLOAD_OFFSET;
}
static void test_prepare_nodata(void)
{
context_reset();
}
static void test_put_s8(void)
{
int ret;
int i;
uint16_t offset = 0;
int8_t value[] = { 0, INT8_MAX, INT8_MIN };
char * const expected_payload[] = {
TEST_PAYLOAD(TEST_RES_S8, "v", "0"),
TEST_PAYLOAD(TEST_RES_S8, "v", "127"),
TEST_PAYLOAD(TEST_RES_S8, "v", "-128"),
};
test_msg.path.res_id = TEST_RES_S8;
for (i = 0; i < ARRAY_SIZE(expected_payload); i++) {
test_s8 = value[i];
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_true(ret >= 0, "Error reported");
offset += TEST_PAYLOAD_OFFSET;
zassert_mem_equal(test_msg.msg_data + offset,
expected_payload[i],
strlen(expected_payload[i]),
"Invalid payload format");
offset += strlen(expected_payload[i]);
zassert_equal(test_msg.cpkt.offset, offset,
"Invalid packet offset");
}
}
static void test_put_s8_nomem(void)
{
int ret;
test_msg.path.res_id = TEST_RES_S8;
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_equal(ret, -ENOMEM, "Invalid error code returned");
}
static void test_put_s16(void)
{
int ret;
int i;
uint16_t offset = 0;
int16_t value[] = { 0, INT16_MAX, INT16_MIN };
char * const expected_payload[] = {
TEST_PAYLOAD(TEST_RES_S16, "v", "0"),
TEST_PAYLOAD(TEST_RES_S16, "v", "32767"),
TEST_PAYLOAD(TEST_RES_S16, "v", "-32768"),
};
test_msg.path.res_id = TEST_RES_S16;
for (i = 0; i < ARRAY_SIZE(expected_payload); i++) {
test_s16 = value[i];
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_true(ret >= 0, "Error reported");
offset += TEST_PAYLOAD_OFFSET;
zassert_mem_equal(test_msg.msg_data + offset,
expected_payload[i],
strlen(expected_payload[i]),
"Invalid payload format");
offset += strlen(expected_payload[i]);
zassert_equal(test_msg.cpkt.offset, offset,
"Invalid packet offset");
}
}
static void test_put_s16_nomem(void)
{
int ret;
test_msg.path.res_id = TEST_RES_S16;
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_equal(ret, -ENOMEM, "Invalid error code returned");
}
static void test_put_s32(void)
{
int ret;
int i;
uint16_t offset = 0;
int32_t value[] = { 0, INT32_MAX, INT32_MIN };
char * const expected_payload[] = {
TEST_PAYLOAD(TEST_RES_S32, "v", "0"),
TEST_PAYLOAD(TEST_RES_S32, "v", "2147483647"),
TEST_PAYLOAD(TEST_RES_S32, "v", "-2147483648"),
};
test_msg.path.res_id = TEST_RES_S32;
for (i = 0; i < ARRAY_SIZE(expected_payload); i++) {
test_s32 = value[i];
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_true(ret >= 0, "Error reported");
offset += TEST_PAYLOAD_OFFSET;
zassert_mem_equal(test_msg.msg_data + offset,
expected_payload[i],
strlen(expected_payload[i]),
"Invalid payload format");
offset += strlen(expected_payload[i]);
zassert_equal(test_msg.cpkt.offset, offset,
"Invalid packet offset");
}
}
static void test_put_s32_nomem(void)
{
int ret;
test_msg.path.res_id = TEST_RES_S32;
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_equal(ret, -ENOMEM, "Invalid error code returned");
}
static void test_put_s64(void)
{
int ret;
int i;
uint16_t offset = 0;
int64_t value[] = { 0, INT64_MAX, INT64_MIN };
char * const expected_payload[] = {
TEST_PAYLOAD(TEST_RES_S64, "v", "0"),
TEST_PAYLOAD(TEST_RES_S64, "v", "9223372036854775807"),
TEST_PAYLOAD(TEST_RES_S64, "v", "-9223372036854775808"),
};
test_msg.path.res_id = TEST_RES_S64;
for (i = 0; i < ARRAY_SIZE(expected_payload); i++) {
test_s64 = value[i];
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_true(ret >= 0, "Error reported");
offset += TEST_PAYLOAD_OFFSET;
zassert_mem_equal(test_msg.msg_data + offset,
expected_payload[i],
strlen(expected_payload[i]),
"Invalid payload format");
offset += strlen(expected_payload[i]);
zassert_equal(test_msg.cpkt.offset, offset,
"Invalid packet offset");
}
}
static void test_put_s64_nomem(void)
{
int ret;
test_msg.path.res_id = TEST_RES_S64;
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_equal(ret, -ENOMEM, "Invalid error code returned");
}
static void test_put_string(void)
{
int ret;
const char *expected_payload =
TEST_PAYLOAD(TEST_RES_STRING, "sv", "\"test_string\"");
strcpy(test_string, "test_string");
test_msg.path.res_id = TEST_RES_STRING;
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_true(ret >= 0, "Error reported");
zassert_mem_equal(test_msg.msg_data + TEST_PAYLOAD_OFFSET,
expected_payload, strlen(expected_payload),
"Invalid payload format");
zassert_equal(test_msg.cpkt.offset,
strlen(expected_payload) + TEST_PAYLOAD_OFFSET,
"Invalid packet offset");
}
static void test_put_string_nomem(void)
{
int ret;
test_msg.path.res_id = TEST_RES_STRING;
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_equal(ret, -ENOMEM, "Invalid error code returned");
}
static void test_put_float(void)
{
int ret;
int i;
uint16_t offset = 0;
double value[] = { 0., 0.123, -0.987, 3., -10., 2.333, -123.125 };
char * const expected_payload[] = {
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "0.0"),
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "0.123"),
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "-0.987"),
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "3.0"),
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "-10.0"),
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "2.333"),
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "-123.125"),
};
test_msg.path.res_id = TEST_RES_FLOAT;
for (i = 0; i < ARRAY_SIZE(expected_payload); i++) {
test_float = value[i];
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_true(ret >= 0, "Error reported");
offset += TEST_PAYLOAD_OFFSET;
zassert_mem_equal(test_msg.msg_data + offset,
expected_payload[i],
strlen(expected_payload[i]),
"Invalid payload format");
offset += strlen(expected_payload[i]);
zassert_equal(test_msg.cpkt.offset, offset,
"Invalid packet offset");
}
}
static void test_put_float_nomem(void)
{
int ret;
test_msg.path.res_id = TEST_RES_FLOAT;
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_equal(ret, -ENOMEM, "Invalid error code returned");
}
static void test_put_bool(void)
{
int ret;
int i;
uint16_t offset = 0;
bool value[] = { true, false };
char * const expected_payload[] = {
TEST_PAYLOAD(TEST_RES_BOOL, "bv", "true"),
TEST_PAYLOAD(TEST_RES_BOOL, "bv", "false"),
};
test_msg.path.res_id = TEST_RES_BOOL;
for (i = 0; i < ARRAY_SIZE(expected_payload); i++) {
test_bool = value[i];
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_true(ret >= 0, "Error reported");
offset += TEST_PAYLOAD_OFFSET;
zassert_mem_equal(test_msg.msg_data + offset,
expected_payload[i],
strlen(expected_payload[i]),
"Invalid payload format");
offset += strlen(expected_payload[i]);
zassert_equal(test_msg.cpkt.offset, offset,
"Invalid packet offset");
}
}
static void test_put_bool_nomem(void)
{
int ret;
test_msg.path.res_id = TEST_RES_BOOL;
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_equal(ret, -ENOMEM, "Invalid error code returned");
}
static void test_put_objlnk(void)
{
int ret;
int i;
uint16_t offset = 0;
struct lwm2m_objlnk value[] = {
{ 0, 0 }, { 1, 1 }, { LWM2M_OBJLNK_MAX_ID, LWM2M_OBJLNK_MAX_ID }
};
char * const expected_payload[] = {
TEST_PAYLOAD(TEST_RES_OBJLNK, "ov", "\"0:0\""),
TEST_PAYLOAD(TEST_RES_OBJLNK, "ov", "\"1:1\""),
TEST_PAYLOAD(TEST_RES_OBJLNK, "ov", "\"65535:65535\""),
};
test_msg.path.res_id = TEST_RES_OBJLNK;
for (i = 0; i < ARRAY_SIZE(expected_payload); i++) {
test_objlnk = value[i];
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_true(ret >= 0, "Error reported");
offset += TEST_PAYLOAD_OFFSET;
zassert_mem_equal(test_msg.msg_data + offset,
expected_payload[i],
strlen(expected_payload[i]),
"Invalid payload format");
offset += strlen(expected_payload[i]);
zassert_equal(test_msg.cpkt.offset, offset,
"Invalid packet offset");
}
}
static void test_put_objlnk_nomem(void)
{
int ret;
test_msg.path.res_id = TEST_RES_OBJLNK;
ret = do_read_op_json(&test_msg, COAP_CONTENT_FORMAT_APP_JSON);
zassert_equal(ret, -ENOMEM, "Invalid error code returned");
}
static void test_get_s32(void)
{
int ret;
int i;
char * const payload[] = {
TEST_PAYLOAD(TEST_RES_S32, "v", "0"),
TEST_PAYLOAD(TEST_RES_S32, "v", "2147483647"),
TEST_PAYLOAD(TEST_RES_S32, "v", "-2147483648"),
};
int32_t expected_value[] = { 0, INT32_MAX, INT32_MIN };
test_msg.path.res_id = TEST_RES_S32;
for (i = 0; i < ARRAY_SIZE(expected_value); i++) {
test_payload_set(payload[i]);
ret = do_write_op_json(&test_msg);
zassert_true(ret >= 0, "Error reported");
zassert_equal(test_s32, expected_value[i], "Invalid value parsed");
}
}
static void test_get_s32_nodata(void)
{
int ret;
test_msg.path.res_id = TEST_RES_S32;
ret = do_write_op_json(&test_msg);
zassert_equal(ret, -EINVAL, "Invalid error code returned");
}
static void test_get_s64(void)
{
int ret;
int i;
char * const payload[] = {
TEST_PAYLOAD(TEST_RES_S64, "v", "0"),
TEST_PAYLOAD(TEST_RES_S64, "v", "9223372036854775807"),
TEST_PAYLOAD(TEST_RES_S64, "v", "-9223372036854775808"),
};
int64_t expected_value[] = { 0, INT64_MAX, INT64_MIN };
test_msg.path.res_id = TEST_RES_S64;
for (i = 0; i < ARRAY_SIZE(expected_value); i++) {
test_payload_set(payload[i]);
ret = do_write_op_json(&test_msg);
zassert_true(ret >= 0, "Error reported");
zassert_equal(test_s64, expected_value[i], "Invalid value parsed");
}
}
static void test_get_s64_nodata(void)
{
int ret;
test_msg.path.res_id = TEST_RES_S64;
ret = do_write_op_json(&test_msg);
zassert_equal(ret, -EINVAL, "Invalid error code returned");
}
static void test_get_string(void)
{
int ret;
const char *payload =
TEST_PAYLOAD(TEST_RES_STRING, "sv", "\"test_string\"");
const char *expected_value = "test_string";
test_msg.path.res_id = TEST_RES_STRING;
test_payload_set(payload);
ret = do_write_op_json(&test_msg);
zassert_true(ret >= 0, "Error reported");
zassert_mem_equal(test_string, expected_value, strlen(expected_value),
"Invalid value parsed");
}
static void test_get_string_nodata(void)
{
int ret;
test_msg.path.res_id = TEST_RES_STRING;
ret = do_write_op_json(&test_msg);
zassert_equal(ret, -EINVAL, "Invalid error code returned");
}
#define DOUBLE_CMP_EPSILON 0.000000001
static void test_get_float(void)
{
int ret;
int i;
char * const payload[] = {
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "0.0"),
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "0.123"),
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "-0.987"),
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "3.0"),
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "-10.0"),
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "2.333"),
TEST_PAYLOAD(TEST_RES_FLOAT, "v", "-123.125"),
};
double expected_value[] = {
0., 0.123, -0.987, 3., -10., 2.333, -123.125
};
test_msg.path.res_id = TEST_RES_FLOAT;
for (i = 0; i < ARRAY_SIZE(expected_value); i++) {
test_payload_set(payload[i]);
ret = do_write_op_json(&test_msg);
zassert_true(ret >= 0, "Error reported");
zassert_true((test_float > expected_value[i] - DOUBLE_CMP_EPSILON) &&
(test_float < expected_value[i] + DOUBLE_CMP_EPSILON),
"Invalid value parsed");
}
}
static void test_get_float_nodata(void)
{
int ret;
test_msg.path.res_id = TEST_RES_FLOAT;
ret = do_write_op_json(&test_msg);
zassert_equal(ret, -EINVAL, "Invalid error code returned");
}
static void test_get_bool(void)
{
int ret;
int i;
char * const payload[] = {
TEST_PAYLOAD(TEST_RES_BOOL, "bv", "true"),
TEST_PAYLOAD(TEST_RES_BOOL, "bv", "false"),
};
bool expected_value[] = { true, false };
test_msg.path.res_id = TEST_RES_BOOL;
for (i = 0; i < ARRAY_SIZE(expected_value); i++) {
test_payload_set(payload[i]);
ret = do_write_op_json(&test_msg);
zassert_true(ret >= 0, "Error reported");
zassert_equal(test_bool, expected_value[i], "Invalid value parsed");
}
}
static void test_get_bool_nodata(void)
{
int ret;
test_msg.path.res_id = TEST_RES_BOOL;
ret = do_write_op_json(&test_msg);
zassert_equal(ret, -EINVAL, "Invalid error code returned");
}
static void test_get_objlnk(void)
{
int ret;
int i;
char * const payload[] = {
TEST_PAYLOAD(TEST_RES_OBJLNK, "ov", "\"0:0\""),
TEST_PAYLOAD(TEST_RES_OBJLNK, "ov", "\"1:1\""),
TEST_PAYLOAD(TEST_RES_OBJLNK, "ov", "\"65535:65535\""),
};
struct lwm2m_objlnk expected_value[] = {
{ 0, 0 }, { 1, 1 }, { LWM2M_OBJLNK_MAX_ID, LWM2M_OBJLNK_MAX_ID }
};
test_msg.path.res_id = TEST_RES_OBJLNK;
for (i = 0; i < ARRAY_SIZE(expected_value); i++) {
test_payload_set(payload[i]);
ret = do_write_op_json(&test_msg);
zassert_true(ret >= 0, "Error reported");
zassert_mem_equal(&test_objlnk, &expected_value[i],
sizeof(test_objlnk), "Invalid value parsed");
}
}
static void test_get_objlnk_nodata(void)
{
int ret;
test_msg.path.res_id = TEST_RES_OBJLNK;
ret = do_write_op_json(&test_msg);
zassert_equal(ret, -EINVAL, "Invalid error code returned");
}
void test_main(void)
{
test_obj_init();
ztest_test_suite(
lwm2m_content_plain_text,
ztest_unit_test_setup_teardown(
test_put_s8, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_s8_nomem, test_prepare_nomem, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_s16, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_s16_nomem, test_prepare_nomem, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_s32, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_s32_nomem, test_prepare_nomem, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_s64, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_s64_nomem, test_prepare_nomem, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_string, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_string_nomem, test_prepare_nomem, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_float, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_float_nomem, test_prepare_nomem, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_bool, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_bool_nomem, test_prepare_nomem, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_objlnk, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_put_objlnk_nomem, test_prepare_nomem, unit_test_noop),
ztest_unit_test_setup_teardown(
test_get_s32, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_get_s32_nodata, test_prepare_nodata, unit_test_noop),
ztest_unit_test_setup_teardown(
test_get_s64, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_get_s64_nodata, test_prepare_nodata, unit_test_noop),
ztest_unit_test_setup_teardown(
test_get_string, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_get_string_nodata, test_prepare_nodata, unit_test_noop),
ztest_unit_test_setup_teardown(
test_get_float, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_get_float_nodata, test_prepare_nodata, unit_test_noop),
ztest_unit_test_setup_teardown(
test_get_bool, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_get_bool_nodata, test_prepare_nodata, unit_test_noop),
ztest_unit_test_setup_teardown(
test_get_objlnk, test_prepare, unit_test_noop),
ztest_unit_test_setup_teardown(
test_get_objlnk_nodata, test_prepare_nodata, unit_test_noop)
);
ztest_run_test_suite(lwm2m_content_plain_text);
}