/** * @file * @brief test BACnetTimeStamp encoding and decoding API * @author Steve Karg * @date 2008 * @copyright SPDX-License-Identifier: MIT */ #include #include /** * @addtogroup bacnet_tests * @{ */ /** * @brief Test */ #if defined(CONFIG_ZTEST_NEW_API) ZTEST(timestamp_tests, testTimestampSequence) #else static void testTimestampSequence(void) #endif { BACNET_TIMESTAMP testTimestampIn; BACNET_TIMESTAMP testTimestampOut; uint8_t buffer[MAX_APDU]; int len; int test_len; testTimestampIn.tag = TIME_STAMP_SEQUENCE; testTimestampIn.value.sequenceNum = 0x1234; memset(&testTimestampOut, 0, sizeof(testTimestampOut)); len = bacapp_encode_context_timestamp(buffer, 2, &testTimestampIn); test_len = bacapp_decode_context_timestamp(buffer, 2, &testTimestampOut); zassert_equal(len, test_len, NULL); zassert_equal(testTimestampIn.tag, testTimestampOut.tag, NULL); zassert_equal( testTimestampIn.value.sequenceNum, testTimestampOut.value.sequenceNum, NULL); } #if defined(CONFIG_ZTEST_NEW_API) ZTEST(timestamp_tests, testTimestampTime) #else static void testTimestampTime(void) #endif { BACNET_TIMESTAMP testTimestampIn; BACNET_TIMESTAMP testTimestampOut; uint8_t buffer[MAX_APDU]; bool status = false; char str[64] = ""; int len; int test_len; testTimestampIn.tag = TIME_STAMP_TIME; testTimestampIn.value.time.hour = 1; testTimestampIn.value.time.min = 2; testTimestampIn.value.time.sec = 3; testTimestampIn.value.time.hundredths = 4; memset(&testTimestampOut, 0, sizeof(testTimestampOut)); len = bacapp_encode_context_timestamp(buffer, 2, &testTimestampIn); test_len = bacapp_decode_context_timestamp(buffer, 2, &testTimestampOut); zassert_equal(len, test_len, NULL); zassert_equal(testTimestampIn.tag, testTimestampOut.tag, NULL); zassert_equal( testTimestampIn.value.time.hour, testTimestampOut.value.time.hour, NULL); zassert_equal( testTimestampIn.value.time.min, testTimestampOut.value.time.min, NULL); zassert_equal( testTimestampIn.value.time.sec, testTimestampOut.value.time.sec, NULL); zassert_equal( testTimestampIn.value.time.hundredths, testTimestampOut.value.time.hundredths, NULL); bacapp_timestamp_to_ascii(str, sizeof(str), &testTimestampIn); status = bacapp_timestamp_init_ascii(&testTimestampOut, str); zassert_true(status, NULL); status = bacapp_timestamp_same(&testTimestampIn, &testTimestampOut); zassert_true(status, NULL); } #if defined(CONFIG_ZTEST_NEW_API) ZTEST(timestamp_tests, testTimestampTimeDate) #else static void testTimestampTimeDate(void) #endif { BACNET_TIMESTAMP testTimestampIn; BACNET_TIMESTAMP testTimestampOut = { 0 }; uint8_t tag_number = 2; uint8_t buffer[MAX_APDU]; int len; int test_len; int null_len; bool status; status = bacapp_timestamp_init_ascii(&testTimestampIn, "1901/01/03-1:02:03"); zassert_true(status, NULL); null_len = bacapp_encode_timestamp(NULL, &testTimestampIn); len = bacapp_encode_timestamp(buffer, &testTimestampIn); zassert_equal(null_len, len, NULL); null_len = bacnet_timestamp_decode(buffer, len, NULL); test_len = bacnet_timestamp_decode(buffer, len, &testTimestampOut); zassert_equal(null_len, test_len, NULL); zassert_equal(len, test_len, "len=%d test_len=%d", len, test_len); /* test ERROR when APDU is too short*/ while (len) { len--; test_len = bacnet_timestamp_decode(buffer, len, &testTimestampOut); zassert_equal(test_len, BACNET_STATUS_ERROR, NULL); } null_len = bacapp_encode_context_timestamp(NULL, tag_number, &testTimestampIn); len = bacapp_encode_context_timestamp(buffer, tag_number, &testTimestampIn); zassert_equal(null_len, len, NULL); zassert_true(len > 0, NULL); null_len = bacnet_timestamp_context_decode(buffer, len, tag_number, NULL); test_len = bacnet_timestamp_context_decode( buffer, len, tag_number, &testTimestampOut); zassert_equal(null_len, test_len, NULL); zassert_equal(len, test_len, NULL); /* test ERROR when APDU is too short*/ while (len) { len--; test_len = bacnet_timestamp_context_decode( buffer, len, tag_number, &testTimestampOut); zassert_true(test_len <= 0, "len=%d test_len=%d", len, test_len); } /* test for valid values */ zassert_equal(testTimestampIn.tag, testTimestampOut.tag, NULL); zassert_equal( testTimestampIn.value.dateTime.time.hour, testTimestampOut.value.dateTime.time.hour, NULL); zassert_equal( testTimestampIn.value.dateTime.time.min, testTimestampOut.value.dateTime.time.min, NULL); zassert_equal( testTimestampIn.value.dateTime.time.sec, testTimestampOut.value.dateTime.time.sec, NULL); zassert_equal( testTimestampIn.value.dateTime.time.hundredths, testTimestampOut.value.dateTime.time.hundredths, NULL); zassert_equal( testTimestampIn.value.dateTime.date.year, testTimestampOut.value.dateTime.date.year, NULL); zassert_equal( testTimestampIn.value.dateTime.date.month, testTimestampOut.value.dateTime.date.month, NULL); zassert_equal( testTimestampIn.value.dateTime.date.wday, testTimestampOut.value.dateTime.date.wday, NULL); zassert_equal( testTimestampIn.value.dateTime.date.day, testTimestampOut.value.dateTime.date.day, NULL); } /** * @} */ #if defined(CONFIG_ZTEST_NEW_API) ZTEST_SUITE(timestamp_tests, NULL, NULL, NULL, NULL, NULL); #else void test_main(void) { ztest_test_suite( timestamp_tests, ztest_unit_test(testTimestampSequence), ztest_unit_test(testTimestampTime), ztest_unit_test(testTimestampTimeDate)); ztest_run_test_suite(timestamp_tests); } #endif