// Copyright 2016 Dolphin Emulator Project // SPDX-License-Identifier: GPL-2.0-or-later #include #include #include #include "Common/Network.h" #include "Common/StringUtil.h" #include "Common/Swap.h" TEST(StringUtil, StringPopBackIf) { std::string abc = "abc"; std::string empty; StringPopBackIf(&abc, 'a'); StringPopBackIf(&empty, 'a'); EXPECT_STREQ("abc", abc.c_str()); EXPECT_STRNE(empty.c_str(), abc.c_str()); StringPopBackIf(&abc, 'c'); StringPopBackIf(&empty, 'c'); EXPECT_STRNE("abc", abc.c_str()); EXPECT_STREQ("ab", abc.c_str()); EXPECT_STRNE(empty.c_str(), abc.c_str()); StringPopBackIf(&abc, 'b'); StringPopBackIf(&empty, 'b'); EXPECT_STRNE("ab", abc.c_str()); EXPECT_STREQ("a", abc.c_str()); EXPECT_STRNE(empty.c_str(), abc.c_str()); StringPopBackIf(&abc, 'a'); StringPopBackIf(&empty, 'a'); EXPECT_STRNE("a", abc.c_str()); EXPECT_STREQ("", abc.c_str()); EXPECT_STREQ(empty.c_str(), abc.c_str()); StringPopBackIf(&abc, 'a'); StringPopBackIf(&empty, 'a'); EXPECT_STREQ("", abc.c_str()); EXPECT_STREQ(empty.c_str(), abc.c_str()); } TEST(StringUtil, UTF8ToSHIFTJIS) { const std::string kirby_unicode = "\xe6\x98\x9f\xe3\x81\xae\xe3\x82\xab\xe3\x83\xbc\xe3\x83\x93\xe3\x82\xa3"; const std::string kirby_sjis = "\x90\xaf\x82\xcc\x83\x4a\x81\x5b\x83\x72\x83\x42"; EXPECT_STREQ(SHIFTJISToUTF8(UTF8ToSHIFTJIS(kirby_unicode)).c_str(), kirby_unicode.c_str()); EXPECT_STREQ(UTF8ToSHIFTJIS(kirby_unicode).c_str(), kirby_sjis.c_str()); } template static void DoRoundTripTest(const std::vector& data) { for (const T& e : data) { const std::string s = ValueToString(e); T out = T(); EXPECT_TRUE(TryParse(s, &out)); EXPECT_EQ(e, out); } } TEST(StringUtil, ToString_TryParse_Roundtrip) { DoRoundTripTest({true, false}); DoRoundTripTest({0, -1, 1, 123, -123, 123456789, -123456789}); DoRoundTripTest({0u, 1u, 123u, 123456789u, 4023456789u}); DoRoundTripTest({0.0f, 1.0f, -1.0f, -0.5f, 0.5f, -1e-3f, 1e-3f, 1e3f, -1e3f}); DoRoundTripTest({0.0, 1.0, -1.0, -0.5, 0.5, -1e-3, 1e-3, 1e3, -1e3}); } TEST(StringUtil, GetEscapedHtml) { static constexpr auto no_escape_needed = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789" "!@#$%^*()-_=+,./?;:[]{}| \\\t\n"; EXPECT_EQ(Common::GetEscapedHtml(no_escape_needed), no_escape_needed); EXPECT_EQ(Common::GetEscapedHtml("&<>'\""), "&<>'""); EXPECT_EQ(Common::GetEscapedHtml("&&&"), "&&&"); } TEST(StringUtil, SplitPath) { std::string path; std::string filename; std::string extension; EXPECT_TRUE(SplitPath("/usr/lib/some_file.txt", &path, &filename, &extension)); EXPECT_EQ(path, "/usr/lib/"); EXPECT_EQ(filename, "some_file"); EXPECT_EQ(extension, ".txt"); } TEST(StringUtil, SplitPathNullOutputPathAllowed) { std::string filename; std::string extension; EXPECT_TRUE(SplitPath("/usr/lib/some_file.txt", /*path=*/nullptr, &filename, &extension)); EXPECT_EQ(filename, "some_file"); EXPECT_EQ(extension, ".txt"); } TEST(StringUtil, SplitPathNullOutputFilenameAllowed) { std::string path; std::string extension; EXPECT_TRUE(SplitPath("/usr/lib/some_file.txt", &path, /*filename=*/nullptr, &extension)); EXPECT_EQ(path, "/usr/lib/"); EXPECT_EQ(extension, ".txt"); } TEST(StringUtil, SplitPathNullOutputExtensionAllowed) { std::string path; std::string filename; EXPECT_TRUE(SplitPath("/usr/lib/some_file.txt", &path, &filename, /*extension=*/nullptr)); EXPECT_EQ(path, "/usr/lib/"); EXPECT_EQ(filename, "some_file"); } TEST(StringUtil, SplitPathReturnsFalseIfFullPathIsEmpty) { std::string path; std::string filename; std::string extension; EXPECT_FALSE(SplitPath(/*full_path=*/"", &path, &filename, &extension)); EXPECT_EQ(path, ""); EXPECT_EQ(filename, ""); EXPECT_EQ(extension, ""); } TEST(StringUtil, SplitPathNoPath) { std::string path; std::string filename; std::string extension; EXPECT_TRUE(SplitPath("some_file.txt", &path, &filename, &extension)); EXPECT_EQ(path, ""); EXPECT_EQ(filename, "some_file"); EXPECT_EQ(extension, ".txt"); } TEST(StringUtil, SplitPathNoFileName) { std::string path; std::string filename; std::string extension; EXPECT_TRUE(SplitPath("/usr/lib/.txt", &path, &filename, &extension)); EXPECT_EQ(path, "/usr/lib/"); EXPECT_EQ(filename, ""); EXPECT_EQ(extension, ".txt"); } TEST(StringUtil, SplitPathNoExtension) { std::string path; std::string filename; std::string extension; EXPECT_TRUE(SplitPath("/usr/lib/some_file", &path, &filename, &extension)); EXPECT_EQ(path, "/usr/lib/"); EXPECT_EQ(filename, "some_file"); EXPECT_EQ(extension, ""); } TEST(StringUtil, SplitPathDifferentPathLengths) { std::string path; std::string filename; std::string extension; EXPECT_TRUE(SplitPath("/usr/some_file.txt", &path, &filename, &extension)); EXPECT_EQ(path, "/usr/"); EXPECT_EQ(filename, "some_file"); EXPECT_EQ(extension, ".txt"); EXPECT_TRUE(SplitPath("/usr/lib/foo/some_file.txt", &path, &filename, &extension)); EXPECT_EQ(path, "/usr/lib/foo/"); EXPECT_EQ(filename, "some_file"); EXPECT_EQ(extension, ".txt"); } TEST(StringUtil, SplitPathBackslashesNotRecognizedAsSeparators) { std::string path; std::string filename; std::string extension; EXPECT_TRUE(SplitPath("\\usr\\some_file.txt", &path, &filename, &extension)); EXPECT_EQ(path, ""); EXPECT_EQ(filename, "\\usr\\some_file"); EXPECT_EQ(extension, ".txt"); } #ifdef _WIN32 TEST(StringUtil, SplitPathWindowsPathWithDriveLetter) { // Verify that on Windows, valid paths that include a drive letter and volume separator (e.g., // "C:") parse correctly. std::string path; std::string filename; std::string extension; // Absolute path with drive letter EXPECT_TRUE(SplitPath("C:/dir/some_file.txt", &path, &filename, &extension)); EXPECT_EQ(path, "C:/dir/"); EXPECT_EQ(filename, "some_file"); EXPECT_EQ(extension, ".txt"); // Relative path with drive letter EXPECT_TRUE(SplitPath("C:dir/some_file.txt", &path, &filename, &extension)); EXPECT_EQ(path, "C:dir/"); EXPECT_EQ(filename, "some_file"); EXPECT_EQ(extension, ".txt"); // Relative path with drive letter and no directory EXPECT_TRUE(SplitPath("C:some_file.txt", &path, &filename, &extension)); EXPECT_EQ(path, "C:"); EXPECT_EQ(filename, "some_file"); EXPECT_EQ(extension, ".txt"); // Path that is just the drive letter EXPECT_TRUE(SplitPath("C:", &path, &filename, &extension)); EXPECT_EQ(path, "C:"); EXPECT_EQ(filename, ""); EXPECT_EQ(extension, ""); } #endif TEST(StringUtil, CaseInsensitiveContains_BasicMatches) { EXPECT_TRUE(Common::CaseInsensitiveContains("hello world", "hello")); EXPECT_TRUE(Common::CaseInsensitiveContains("hello world", "world")); EXPECT_TRUE(Common::CaseInsensitiveContains("HELLO WORLD", "hello")); EXPECT_TRUE(Common::CaseInsensitiveContains("HeLLo WoRLd", "WORLD")); } TEST(StringUtil, CaseInsensitiveContains_SubstringNotFound) { EXPECT_FALSE(Common::CaseInsensitiveContains("hello world", "hey")); } TEST(StringUtil, CaseInsensitiveContains_EmptyStrings) { EXPECT_TRUE(Common::CaseInsensitiveContains("", "")); EXPECT_TRUE(Common::CaseInsensitiveContains("hello", "")); EXPECT_FALSE(Common::CaseInsensitiveContains("", "world")); } TEST(StringUtil, CaseInsensitiveContains_EntireStringMatch) { EXPECT_TRUE(Common::CaseInsensitiveContains("Test", "TEST")); } TEST(StringUtil, CaseInsensitiveContains_OverlappingMatches) { EXPECT_TRUE(Common::CaseInsensitiveContains("aaaaaa", "aa")); EXPECT_TRUE(Common::CaseInsensitiveContains("ababababa", "bABa")); } TEST(StringUtil, SplitStringIntoArray) { constexpr auto subject0 = ""; EXPECT_FALSE(SplitStringIntoArray<2>(subject0, '.').has_value()); constexpr auto subject1 = "hello"; EXPECT_FALSE(SplitStringIntoArray<2>(subject1, '.').has_value()); constexpr auto subject2 = "hello.world"; const auto split2 = SplitStringIntoArray<2>(subject2, '.'); EXPECT_TRUE(split2.has_value() && split2->at(1) == "world"); EXPECT_FALSE(SplitStringIntoArray<3>(subject2, '.').has_value()); constexpr auto subject3 = "hello.universe."; EXPECT_FALSE(SplitStringIntoArray<2>(subject3, '.').has_value()); const auto split3 = SplitStringIntoArray<3>(subject3, '.'); EXPECT_TRUE(split3.has_value() && split3->at(2) == ""); EXPECT_FALSE(SplitStringIntoArray<4>(subject3, '.').has_value()); constexpr auto subject4 = "="; EXPECT_TRUE(SplitStringIntoArray<2>(subject4, '=').has_value()); } TEST(StringUtil, StringToIPv4PortRange) { constexpr auto parse = Common::StringToIPv4PortRange; constexpr Common::IPAddress ip_network = {192, 168, 0, 0}; constexpr Common::IPAddress test_ip = {192, 168, 0, 13}; constexpr Common::IPAddress last_ip = {192, 168, 0, 255}; EXPECT_FALSE(parse("").has_value()); EXPECT_FALSE(parse("1.2.3").has_value()); EXPECT_FALSE(parse("1.2.3.4-").has_value()); EXPECT_FALSE(parse("1.2.3.4.5").has_value()); EXPECT_FALSE(parse("1.2.3.256").has_value()); EXPECT_FALSE(parse("1.2.3.4/33").has_value()); EXPECT_FALSE(parse("1.2.3.4:65536").has_value()); EXPECT_FALSE(parse("1.2.3.4-1.2.3.4.5").has_value()); EXPECT_FALSE(parse("1.1.1.1:81-80").has_value()); EXPECT_FALSE(parse("1.1.1.2-1.1.1.1").has_value()); EXPECT_TRUE(parse("1.2.3.4").has_value()); EXPECT_TRUE(parse("1.2.3.4:80").has_value()); EXPECT_TRUE(parse("1.2.3.4:80-81").has_value()); EXPECT_TRUE(parse("1.2.3.4/16").has_value()); EXPECT_TRUE(parse("1.2.3.4/16:80").has_value()); EXPECT_TRUE(parse("1.2.3.4/16:80-81").has_value()); EXPECT_TRUE(parse("1.2.3.4-10").has_value()); EXPECT_TRUE(parse("1.2.3.4-10:80").has_value()); EXPECT_TRUE(parse("1.2.3.4-10:80-81").has_value()); { const auto simple_result = parse("192.168.0.13").value(); EXPECT_EQ(simple_result.first.ip_address, test_ip); EXPECT_EQ(simple_result.last.ip_address, test_ip); EXPECT_EQ(simple_result.first.GetPortValue(), 0); EXPECT_EQ(simple_result.last.GetPortValue(), u16(-1)); } { const auto port_result = parse("192.168.0.13:77").value(); EXPECT_EQ(port_result.first.ip_address, test_ip); EXPECT_EQ(port_result.last.ip_address, test_ip); EXPECT_EQ(port_result.first.GetPortValue(), 77); EXPECT_EQ(port_result.last.GetPortValue(), 77); } { const auto ip_range_result = parse("192.168.0.13-192.168.0.255:123").value(); EXPECT_EQ(ip_range_result.first.ip_address, test_ip); EXPECT_EQ(ip_range_result.last.ip_address, last_ip); EXPECT_EQ(ip_range_result.first.GetPortValue(), 123); EXPECT_EQ(ip_range_result.last.GetPortValue(), 123); } { const auto port_range_result = parse("192.168.29.151:5000-5010").value(); EXPECT_EQ(port_range_result.first.GetPortValue(), 5000); EXPECT_EQ(port_range_result.last.GetPortValue(), 5010); EXPECT_TRUE(port_range_result.IsMatch(parse("192.168.29.151:5008")->first)); EXPECT_FALSE(port_range_result.IsMatch(parse("127.0.0.1:5000")->first)); } { const auto ip_range_result = parse("192.168.0.13-255:123-999").value(); EXPECT_EQ(ip_range_result.first.ip_address, test_ip); EXPECT_EQ(ip_range_result.last.ip_address, last_ip); EXPECT_EQ(ip_range_result.first.GetPortValue(), 123); EXPECT_EQ(ip_range_result.last.GetPortValue(), 999); } { const auto ip_network_result = parse("192.168.0.13/24:123-999").value(); EXPECT_EQ(ip_network_result.first.ip_address, ip_network); EXPECT_EQ(ip_network_result.last.ip_address, last_ip); EXPECT_EQ(ip_network_result.first.GetPortValue(), 123); EXPECT_EQ(ip_network_result.last.GetPortValue(), 999); } EXPECT_TRUE(parse("192.168.0.13/24")->IsMatch(parse("192.168.0.99")->first)); EXPECT_FALSE(parse("192.168.0.13/24")->IsMatch(parse("192.168.1.99")->first)); EXPECT_FALSE(parse("192.168.0.13/32")->IsMatch(parse("192.168.0.99")->first)); EXPECT_TRUE(parse("192.168.0.13/0")->IsMatch(parse("10.0.0.1")->first)); EXPECT_TRUE(parse("192.168.0.13")->IsMatch(parse("192.168.0.13:81")->first)); EXPECT_FALSE(parse("192.168.0.13:80")->IsMatch(parse("192.168.0.13:81")->first)); EXPECT_TRUE(parse("192.168.0.13:80")->IsMatch(parse("192.168.0.13:80")->first)); EXPECT_FALSE(parse("192.168.0.13:80-81")->IsMatch(parse("192.168.0.14:81")->first)); EXPECT_TRUE(parse("192.168.0.13-14:80-81")->IsMatch(parse("192.168.0.14:81")->first)); } TEST(StringUtil, IPv4PortRangeToString) { Common::IPv4PortRange subject{ .first = {{10, 3, 0, 127}, 0}, .last = {{10, 3, 0, 127}, 0}, }; EXPECT_EQ(subject.ToString(), "10.3.0.127"); subject.last.port = Common::swap16(80); // First port is still zero. EXPECT_EQ(subject.ToString(), "10.3.0.127"); subject.first.port = Common::swap16(80); EXPECT_EQ(subject.ToString(), "10.3.0.127:80"); subject.last.port = Common::swap16(88); EXPECT_EQ(subject.ToString(), "10.3.0.127:80-88"); subject.last.ip_address = {10, 3, 0, 128}; EXPECT_EQ(subject.ToString(), "10.3.0.127-128:80-88"); subject.last.ip_address = {10, 3, 7, 35}; EXPECT_EQ(subject.ToString(), "10.3.0.127-10.3.7.35:80-88"); subject.first.ip_address = {192, 168, 0, 0}; subject.last.ip_address = {192, 168, 0, 255}; EXPECT_EQ(subject.ToString(), "192.168.0.0/24:80-88"); subject.last.ip_address = {192, 168, 3, 255}; EXPECT_EQ(subject.ToString(), "192.168.0.0/22:80-88"); subject.first.ip_address = {}; subject.last.ip_address = {255, 255, 255, 255}; EXPECT_EQ(subject.ToString(), "0.0.0.0/0:80-88"); } TEST(StringUtil, CharacterEncodingConversion) { // wstring EXPECT_EQ(WStringToUTF8(L"hello 🐬"), "hello 🐬"); // UTF-16 EXPECT_EQ(UTF16ToUTF8(u"hello 🐬"), "hello 🐬"); EXPECT_EQ(UTF8ToUTF16("hello 🐬"), u"hello 🐬"); // UTF-16BE char16_t utf16be_str[] = u"hello 🐬"; for (auto& c : utf16be_str) c = Common::swap16(c); EXPECT_EQ(UTF16BEToUTF8(utf16be_str, 99), "hello 🐬"); // Shift JIS EXPECT_EQ(SHIFTJISToUTF8("\x83\x43\x83\x8b\x83\x4a"), "イルカ"); EXPECT_EQ(UTF8ToSHIFTJIS("イルカ"), "\x83\x43\x83\x8b\x83\x4a"); // CP1252 EXPECT_EQ(CP1252ToUTF8("hello \xa5"), "hello ¥"); }