/* * This file Copyright (C) 2013-2014 Mnemosyne LLC * * It may be used under the GNU GPL versions 2 or 3 * or any future license endorsed by Mnemosyne LLC. * */ #include #ifdef _WIN32 #include #define setenv(key, value, unused) SetEnvironmentVariableA(key, value) #define unsetenv(key) SetEnvironmentVariableA(key, nullptr) #endif #include "transmission.h" #include "crypto-utils.h" // tr_rand_int_weak() #include "platform.h" #include "ptrarray.h" #include "utils.h" #include "test-fixtures.h" #include #include #include // sqrt() #include // setenv(), unsetenv() #include #include #include using ::libtransmission::test::makeString; using UtilsTest = ::testing::Test; using namespace std::literals; TEST_F(UtilsTest, trStripPositionalArgs) { auto const* in = "Hello %1$s foo %2$.*f"; auto const* expected = "Hello %s foo %.*f"; auto const* out = tr_strip_positional_args(in); EXPECT_STREQ(expected, out); in = "Hello %1$'d foo %2$'f"; expected = "Hello %d foo %f"; out = tr_strip_positional_args(in); EXPECT_STREQ(expected, out); } TEST_F(UtilsTest, trStrvJoin) { EXPECT_EQ(""sv, tr_strvJoin(""sv)); EXPECT_EQ("test"sv, tr_strvJoin("test"sv)); EXPECT_EQ("foo/bar"sv, tr_strvJoin("foo"sv, "/", std::string{ "bar" })); EXPECT_EQ("abcde"sv, tr_strvJoin("a", "b", "c", "d", "e")); } TEST_F(UtilsTest, trStrvContains) { EXPECT_FALSE(tr_strvContains("a test is this"sv, "TEST"sv)); EXPECT_FALSE(tr_strvContains("test"sv, "testt"sv)); EXPECT_FALSE(tr_strvContains("test"sv, "this is a test"sv)); EXPECT_TRUE(tr_strvContains(" test "sv, "tes"sv)); EXPECT_TRUE(tr_strvContains(" test"sv, "test"sv)); EXPECT_TRUE(tr_strvContains("a test is this"sv, "test"sv)); EXPECT_TRUE(tr_strvContains("test "sv, "test"sv)); EXPECT_TRUE(tr_strvContains("test"sv, ""sv)); EXPECT_TRUE(tr_strvContains("test"sv, "t"sv)); EXPECT_TRUE(tr_strvContains("test"sv, "te"sv)); EXPECT_TRUE(tr_strvContains("test"sv, "test"sv)); EXPECT_TRUE(tr_strvContains("this is a test"sv, "test"sv)); EXPECT_TRUE(tr_strvContains(""sv, ""sv)); } TEST_F(UtilsTest, trStrvStartsWith) { EXPECT_FALSE(tr_strvStartsWith(""sv, "this is a string"sv)); EXPECT_FALSE(tr_strvStartsWith("this is a strin"sv, "this is a string"sv)); EXPECT_FALSE(tr_strvStartsWith("this is a strin"sv, "this is a string"sv)); EXPECT_FALSE(tr_strvStartsWith("this is a string"sv, " his is a string"sv)); EXPECT_FALSE(tr_strvStartsWith("this is a string"sv, "his is a string"sv)); EXPECT_FALSE(tr_strvStartsWith("this is a string"sv, "string"sv)); EXPECT_TRUE(tr_strvStartsWith(""sv, ""sv)); EXPECT_TRUE(tr_strvStartsWith("this is a string"sv, ""sv)); EXPECT_TRUE(tr_strvStartsWith("this is a string"sv, "this "sv)); EXPECT_TRUE(tr_strvStartsWith("this is a string"sv, "this is"sv)); EXPECT_TRUE(tr_strvStartsWith("this is a string"sv, "this"sv)); } TEST_F(UtilsTest, trStrvEndsWith) { EXPECT_FALSE(tr_strvEndsWith(""sv, "string"sv)); EXPECT_FALSE(tr_strvEndsWith("this is a string"sv, "alphabet"sv)); EXPECT_FALSE(tr_strvEndsWith("this is a string"sv, "strin"sv)); EXPECT_FALSE(tr_strvEndsWith("this is a string"sv, "this is"sv)); EXPECT_FALSE(tr_strvEndsWith("this is a string"sv, "this"sv)); EXPECT_FALSE(tr_strvEndsWith("tring"sv, "string"sv)); EXPECT_TRUE(tr_strvEndsWith(""sv, ""sv)); EXPECT_TRUE(tr_strvEndsWith("this is a string"sv, " string"sv)); EXPECT_TRUE(tr_strvEndsWith("this is a string"sv, ""sv)); EXPECT_TRUE(tr_strvEndsWith("this is a string"sv, "a string"sv)); EXPECT_TRUE(tr_strvEndsWith("this is a string"sv, "g"sv)); EXPECT_TRUE(tr_strvEndsWith("this is a string"sv, "string"sv)); } TEST_F(UtilsTest, trStrvSep) { auto constexpr Delim = ','; auto sv = "token1,token2,token3"sv; EXPECT_EQ("token1"sv, tr_strvSep(&sv, Delim)); EXPECT_EQ("token2"sv, tr_strvSep(&sv, Delim)); EXPECT_EQ("token3"sv, tr_strvSep(&sv, Delim)); EXPECT_EQ(""sv, tr_strvSep(&sv, Delim)); sv = " token1,token2"sv; EXPECT_EQ(" token1"sv, tr_strvSep(&sv, Delim)); EXPECT_EQ("token2"sv, tr_strvSep(&sv, Delim)); sv = "token1;token2"sv; EXPECT_EQ("token1;token2"sv, tr_strvSep(&sv, Delim)); EXPECT_EQ(""sv, tr_strvSep(&sv, Delim)); sv = ""sv; EXPECT_EQ(""sv, tr_strvSep(&sv, Delim)); } TEST_F(UtilsTest, trStrvStrip) { EXPECT_EQ(""sv, tr_strvStrip(" "sv)); EXPECT_EQ("test test"sv, tr_strvStrip(" test test "sv)); EXPECT_EQ("test"sv, tr_strvStrip(" test "sv)); EXPECT_EQ("test"sv, tr_strvStrip(" test "sv)); EXPECT_EQ("test"sv, tr_strvStrip(" test "sv)); EXPECT_EQ("test"sv, tr_strvStrip(" test "sv)); EXPECT_EQ("test"sv, tr_strvStrip("test"sv)); } TEST_F(UtilsTest, trStrvDup) { auto constexpr Key = "this is a test"sv; char* str = tr_strvDup(Key); EXPECT_NE(nullptr, str); EXPECT_EQ(Key, str); tr_free(str); } TEST_F(UtilsTest, trBuildpath) { auto out = makeString(tr_buildPath("foo", "bar", nullptr)); EXPECT_EQ("foo" TR_PATH_DELIMITER_STR "bar", out); out = makeString(tr_buildPath("", "foo", "bar", nullptr)); EXPECT_EQ(TR_PATH_DELIMITER_STR "foo" TR_PATH_DELIMITER_STR "bar", out); } TEST_F(UtilsTest, trStrvPath) { EXPECT_EQ("foo" TR_PATH_DELIMITER_STR "bar", tr_strvPath("foo", "bar")); EXPECT_EQ(TR_PATH_DELIMITER_STR "foo" TR_PATH_DELIMITER_STR "bar", tr_strvPath("", "foo", "bar")); EXPECT_EQ("", tr_strvPath(""sv)); EXPECT_EQ("foo"sv, tr_strvPath("foo"sv)); EXPECT_EQ( "foo" TR_PATH_DELIMITER_STR "bar" TR_PATH_DELIMITER_STR "baz" TR_PATH_DELIMITER_STR "mum"sv, tr_strvPath("foo"sv, "bar", std::string{ "baz" }, "mum"sv)); } TEST_F(UtilsTest, trUtf8clean) { auto in = "hello world"sv; auto out = makeString(tr_utf8clean(in)); EXPECT_EQ(in, out); in = "hello world"sv; out = makeString(tr_utf8clean(in.substr(0, 5))); EXPECT_EQ("hello"sv, out); // this version is not utf-8 (but cp866) in = "\x92\xE0\xE3\xA4\xAD\xAE \xA1\xEB\xE2\xEC \x81\xAE\xA3\xAE\xAC"sv; out = makeString(tr_utf8clean(in)); EXPECT_TRUE(std::size(out) == 17 || std::size(out) == 33); EXPECT_TRUE(tr_utf8_validate(out, nullptr)); // same string, but utf-8 clean in = "Трудно быть Богом"sv; out = makeString(tr_utf8clean(in)); EXPECT_NE(nullptr, out.data()); EXPECT_TRUE(tr_utf8_validate(out, nullptr)); EXPECT_EQ(in, out); in = "\xF4\x00\x81\x82"sv; out = makeString(tr_utf8clean(in)); EXPECT_NE(nullptr, out.data()); EXPECT_TRUE(out.size() == 1 || out.size() == 2); EXPECT_TRUE(tr_utf8_validate(out, nullptr)); in = "\xF4\x33\x81\x82"sv; out = makeString(tr_utf8clean(in)); EXPECT_NE(nullptr, out.data()); EXPECT_TRUE(out.size() == 4 || out.size() == 7); EXPECT_TRUE(tr_utf8_validate(out, nullptr)); } TEST_F(UtilsTest, trStrvUtf8Clean) { auto in = "hello world"sv; auto out = tr_strvUtf8Clean(in); EXPECT_EQ(in, out); in = "hello world"sv; out = tr_strvUtf8Clean(in.substr(0, 5)); EXPECT_EQ("hello"sv, out); // this version is not utf-8 (but cp866) in = "\x92\xE0\xE3\xA4\xAD\xAE \xA1\xEB\xE2\xEC \x81\xAE\xA3\xAE\xAC"sv; out = tr_strvUtf8Clean(in); EXPECT_TRUE(std::size(out) == 17 || std::size(out) == 33); EXPECT_TRUE(tr_utf8_validate(out, nullptr)); // same string, but utf-8 clean in = "Трудно быть Богом"sv; out = tr_strvUtf8Clean(in); EXPECT_NE(nullptr, out.data()); EXPECT_TRUE(tr_utf8_validate(out, nullptr)); EXPECT_EQ(in, out); // https://trac.transmissionbt.com/ticket/6064 // TODO(anyone): It seems like that bug was not fixed so much as we just // let strlen() solve the problem for us; however, it's probably better // to wait until https://github.com/transmission/transmission/issues/612 // is resolved before revisiting this. in = "\xF4\x00\x81\x82"sv; out = tr_strvUtf8Clean(in); EXPECT_NE(nullptr, out.data()); EXPECT_TRUE(out.size() == 1 || out.size() == 2); EXPECT_TRUE(tr_utf8_validate(out, nullptr)); in = "\xF4\x33\x81\x82"sv; out = tr_strvUtf8Clean(in); EXPECT_NE(nullptr, out.data()); EXPECT_TRUE(out.size() == 4 || out.size() == 7); EXPECT_TRUE(tr_utf8_validate(out, nullptr)); } TEST_F(UtilsTest, trParseNumberRange) { auto const tostring = [](std::vector const& v) { std::stringstream ss; for (auto const& i : v) { ss << i << ' '; } return ss.str(); }; auto numbers = tr_parseNumberRange("1-10,13,16-19"sv); EXPECT_EQ(std::string("1 2 3 4 5 6 7 8 9 10 13 16 17 18 19 "), tostring(numbers)); numbers = tr_parseNumberRange("1-5,3-7,2-6"sv); EXPECT_EQ(std::string("1 2 3 4 5 6 7 "), tostring(numbers)); numbers = tr_parseNumberRange("1-Hello"sv); auto const empty_string = std::string{}; EXPECT_EQ(empty_string, tostring(numbers)); numbers = tr_parseNumberRange("1-"sv); EXPECT_EQ(empty_string, tostring(numbers)); numbers = tr_parseNumberRange("Hello"sv); EXPECT_EQ(empty_string, tostring(numbers)); } namespace { int compareInts(void const* va, void const* vb) noexcept { auto const a = *static_cast(va); auto const b = *static_cast(vb); return a - b; } } // namespace TEST_F(UtilsTest, lowerbound) { auto const a = std::array{ 1, 2, 3, 3, 3, 5, 8 }; auto const expected_pos = std::array{ 0, 1, 2, 5, 5, 6, 6, 6, 7, 7 }; auto const expected_exact = std::array{ true, true, true, false, true, false, false, true, false, false }; for (int i = 1; i <= 10; i++) { bool exact; auto const pos = tr_lowerBound(&i, a.data(), a.size(), sizeof(int), compareInts, &exact); EXPECT_EQ(expected_pos[i - 1], pos); EXPECT_EQ(expected_exact[i - 1], exact); } } TEST_F(UtilsTest, trStrlower) { EXPECT_EQ(""sv, tr_strlower(""sv)); EXPECT_EQ("apple"sv, tr_strlower("APPLE"sv)); EXPECT_EQ("apple"sv, tr_strlower("Apple"sv)); EXPECT_EQ("apple"sv, tr_strlower("aPPLe"sv)); EXPECT_EQ("apple"sv, tr_strlower("applE"sv)); EXPECT_EQ("hello"sv, tr_strlower("HELLO"sv)); EXPECT_EQ("hello"sv, tr_strlower("hello"sv)); } TEST_F(UtilsTest, trMemmem) { auto const haystack = std::string{ "abcabcabcabc" }; auto const needle = std::string{ "cab" }; EXPECT_EQ(haystack, tr_memmem(haystack.data(), haystack.size(), haystack.data(), haystack.size())); EXPECT_EQ(haystack.substr(2), tr_memmem(haystack.data(), haystack.size(), needle.data(), needle.size())); EXPECT_EQ(nullptr, tr_memmem(needle.data(), needle.size(), haystack.data(), haystack.size())); } TEST_F(UtilsTest, array) { auto array = std::array{ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 }; auto n = array.size(); tr_removeElementFromArray(array.data(), 5U, sizeof(size_t), n); --n; for (size_t i = 0; i < n; ++i) { EXPECT_EQ(array[i], i < 5 ? i : i + 1); } tr_removeElementFromArray(array.data(), 0U, sizeof(size_t), n); --n; for (size_t i = 0; i < n; ++i) { EXPECT_EQ(array[i], i < 4 ? i + 1 : i + 2); } tr_removeElementFromArray(array.data(), n - 1, sizeof(size_t), n); --n; for (size_t i = 0; i < n; ++i) { EXPECT_EQ(array[i], i < 4 ? i + 1 : i + 2); } } TEST_F(UtilsTest, truncd) { auto buf = std::array{}; tr_snprintf(buf.data(), buf.size(), "%.2f%%", 99.999); EXPECT_STREQ("100.00%", buf.data()); tr_snprintf(buf.data(), buf.size(), "%.2f%%", tr_truncd(99.999, 2)); EXPECT_STREQ("99.99%", buf.data()); tr_snprintf(buf.data(), buf.size(), "%.4f", tr_truncd(403650.656250, 4)); EXPECT_STREQ("403650.6562", buf.data()); tr_snprintf(buf.data(), buf.size(), "%.2f", tr_truncd(2.15, 2)); EXPECT_STREQ("2.15", buf.data()); tr_snprintf(buf.data(), buf.size(), "%.2f", tr_truncd(2.05, 2)); EXPECT_STREQ("2.05", buf.data()); tr_snprintf(buf.data(), buf.size(), "%.2f", tr_truncd(3.3333, 2)); EXPECT_STREQ("3.33", buf.data()); tr_snprintf(buf.data(), buf.size(), "%.0f", tr_truncd(3.3333, 0)); EXPECT_STREQ("3", buf.data()); tr_snprintf(buf.data(), buf.size(), "%.0f", tr_truncd(3.9999, 0)); EXPECT_STREQ("3", buf.data()); #if !(defined(_MSC_VER) || (defined(__MINGW32__) && defined(__MSVCRT__))) /* FIXME: MSCVRT behaves differently in case of nan */ auto const nan = sqrt(-1.0); tr_snprintf(buf.data(), buf.size(), "%.2f", tr_truncd(nan, 2)); EXPECT_TRUE(strstr(buf.data(), "nan") != nullptr || strstr(buf.data(), "NaN") != nullptr); #endif } namespace { char* testStrdupPrintfValist(char const* fmt, ...) TR_GNUC_PRINTF(1, 2); char* testStrdupPrintfValist(char const* fmt, ...) { va_list args; va_start(args, fmt); auto* ret = tr_strdup_vprintf(fmt, args); va_end(args); return ret; } } // namespace TEST_F(UtilsTest, trStrdupVprintf) { // NOLINTNEXTLINE(cert-dcl50-cpp) auto s = makeString(testStrdupPrintfValist("\n-%s-%s-%s-\n", "\r", "\t", "\b")); EXPECT_EQ("\n-\r-\t-\b-\n", s); } TEST_F(UtilsTest, trStrdupPrintfFmtS) { auto s = makeString(tr_strdup_printf("%s", "test")); EXPECT_EQ("test", s); } TEST_F(UtilsTest, trStrdupPrintf) { auto s = makeString(tr_strdup_printf("%d %s %c %u", -1, "0", '1', 2)); EXPECT_EQ("-1 0 1 2", s); auto* s3 = reinterpret_cast(tr_malloc0(4098)); memset(s3, '-', 4097); s3[2047] = 't'; s3[2048] = 'e'; s3[2049] = 's'; s3[2050] = 't'; auto* s2 = reinterpret_cast(tr_malloc0(4096)); memset(s2, '-', 4095); s2[2047] = '%'; s2[2048] = 's'; // NOLINTNEXTLINE(clang-diagnostic-format-nonliteral) s = makeString(tr_strdup_printf(s2, "test")); EXPECT_EQ(s3, s); tr_free(s2); s = makeString(tr_strdup_printf("%s", s3)); EXPECT_EQ(s3, s); tr_free(s3); } TEST_F(UtilsTest, env) { char const* test_key = "TR_TEST_ENV"; unsetenv(test_key); EXPECT_FALSE(tr_env_key_exists(test_key)); EXPECT_EQ(123, tr_env_get_int(test_key, 123)); EXPECT_EQ(nullptr, tr_env_get_string(test_key, nullptr)); auto s = makeString(tr_env_get_string(test_key, "a")); EXPECT_EQ("a", s); setenv(test_key, "", 1); EXPECT_TRUE(tr_env_key_exists(test_key)); EXPECT_EQ(456, tr_env_get_int(test_key, 456)); s = makeString(tr_env_get_string(test_key, nullptr)); EXPECT_EQ("", s); s = makeString(tr_env_get_string(test_key, "b")); EXPECT_EQ("", s); setenv(test_key, "135", 1); EXPECT_TRUE(tr_env_key_exists(test_key)); EXPECT_EQ(135, tr_env_get_int(test_key, 789)); s = makeString(tr_env_get_string(test_key, nullptr)); EXPECT_EQ("135", s); s = makeString(tr_env_get_string(test_key, "c")); EXPECT_EQ("135", s); } TEST_F(UtilsTest, mimeTypes) { EXPECT_EQ("audio/x-flac"sv, tr_get_mime_type_for_filename("music.flac"sv)); EXPECT_EQ("audio/x-flac"sv, tr_get_mime_type_for_filename("music.FLAC"sv)); EXPECT_EQ("video/x-msvideo"sv, tr_get_mime_type_for_filename(".avi"sv)); EXPECT_EQ("video/x-msvideo"sv, tr_get_mime_type_for_filename("/path/to/FILENAME.AVI"sv)); EXPECT_EQ("application/octet-stream"sv, tr_get_mime_type_for_filename("music.ajoijfeisfe"sv)); }