// ArduinoJson - https://arduinojson.org // Copyright © 2014-2022, Benoit BLANCHON // MIT License #include #include template static void checkVariant(T value, const char* expected_data, size_t expected_len) { DynamicJsonDocument doc(4096); JsonVariant variant = doc.to(); variant.set(value); std::string expected(expected_data, expected_data + expected_len); std::string actual; size_t len = serializeMsgPack(variant, actual); CAPTURE(variant); REQUIRE(len == expected_len); REQUIRE(actual == expected); } template static void checkVariant(T value, const char (&expected_data)[N]) { const size_t expected_len = N - 1; checkVariant(value, expected_data, expected_len); } template static void checkVariant(T value, const std::string& expected) { checkVariant(value, expected.data(), expected.length()); } TEST_CASE("serialize MsgPack value") { SECTION("unbound") { checkVariant(JsonVariant(), "\xC0"); // we represent undefined as nil } SECTION("nil") { const char* nil = 0; // ArduinoJson uses a string for null checkVariant(nil, "\xC0"); } SECTION("bool") { checkVariant(false, "\xC2"); checkVariant(true, "\xC3"); } SECTION("positive fixint") { SECTION("signed") { checkVariant(0, "\x00"); checkVariant(127, "\x7F"); } SECTION("unsigned") { checkVariant(0U, "\x00"); checkVariant(127U, "\x7F"); } } SECTION("uint 8") { checkVariant(128, "\xCC\x80"); checkVariant(255, "\xCC\xFF"); } SECTION("uint 16") { checkVariant(256, "\xCD\x01\x00"); checkVariant(0xFFFF, "\xCD\xFF\xFF"); } SECTION("uint 32") { checkVariant(0x00010000U, "\xCE\x00\x01\x00\x00"); checkVariant(0x12345678U, "\xCE\x12\x34\x56\x78"); checkVariant(0xFFFFFFFFU, "\xCE\xFF\xFF\xFF\xFF"); } #if ARDUINOJSON_USE_LONG_LONG SECTION("uint 64") { checkVariant(0x0001000000000000U, "\xCF\x00\x01\x00\x00\x00\x00\x00\x00"); checkVariant(0x123456789ABCDEF0U, "\xCF\x12\x34\x56\x78\x9A\xBC\xDE\xF0"); checkVariant(0xFFFFFFFFFFFFFFFFU, "\xCF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF"); } #endif SECTION("negative fixint") { checkVariant(-1, "\xFF"); checkVariant(-32, "\xE0"); } SECTION("int 8") { checkVariant(-33, "\xD0\xDF"); checkVariant(-128, "\xD0\x80"); } SECTION("int 16") { checkVariant(-129, "\xD1\xFF\x7F"); checkVariant(-32768, "\xD1\x80\x00"); } SECTION("int 32") { checkVariant(-32769, "\xD2\xFF\xFF\x7F\xFF"); checkVariant(-2147483647 - 1, "\xD2\x80\x00\x00\x00"); } #if ARDUINOJSON_USE_LONG_LONG SECTION("int 64") { checkVariant(int64_t(0xFEDCBA9876543210), "\xD3\xFE\xDC\xBA\x98\x76\x54\x32\x10"); } #endif SECTION("float 32") { checkVariant(1.25, "\xCA\x3F\xA0\x00\x00"); } SECTION("float 64") { checkVariant(3.1415, "\xCB\x40\x09\x21\xCA\xC0\x83\x12\x6F"); } SECTION("fixstr") { checkVariant("", "\xA0"); checkVariant("hello world hello world hello !", "\xBFhello world hello world hello !"); } SECTION("str 8") { checkVariant("hello world hello world hello !!", "\xD9\x20hello world hello world hello !!"); } SECTION("str 16") { std::string shortest(256, '?'); checkVariant(shortest.c_str(), std::string("\xDA\x01\x00", 3) + shortest); std::string longest(65535, '?'); checkVariant(longest.c_str(), std::string("\xDA\xFF\xFF", 3) + longest); } SECTION("str 32") { std::string shortest(65536, '?'); checkVariant(shortest.c_str(), std::string("\xDB\x00\x01\x00\x00", 5) + shortest); } SECTION("serialized(const char*)") { checkVariant(serialized("\xDA\xFF\xFF"), "\xDA\xFF\xFF"); checkVariant(serialized("\xDB\x00\x01\x00\x00", 5), "\xDB\x00\x01\x00\x00"); } }