// Copyright (C) 2011-2016 Internet Systems Consortium, Inc. ("ISC") // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at http://mozilla.org/MPL/2.0/. #include #include #include #include #include #include using namespace isc; using namespace isc::util; using namespace isc::util::str; using namespace std; namespace { // Check for slash replacement TEST(StringUtilTest, Slash) { string instring = ""; isc::util::str::normalizeSlash(instring); EXPECT_EQ("", instring); instring = "C:\\A\\B\\C.D"; isc::util::str::normalizeSlash(instring); EXPECT_EQ("C:/A/B/C.D", instring); instring = "// \\ //"; isc::util::str::normalizeSlash(instring); EXPECT_EQ("// / //", instring); } // Check that leading and trailing space trimming works TEST(StringUtilTest, Trim) { // Empty and full string. EXPECT_EQ("", isc::util::str::trim("")); EXPECT_EQ("abcxyz", isc::util::str::trim("abcxyz")); // Trim right-most blanks EXPECT_EQ("ABC", isc::util::str::trim("ABC ")); EXPECT_EQ("ABC", isc::util::str::trim("ABC\t\t \n\t")); // Left-most blank trimming EXPECT_EQ("XYZ", isc::util::str::trim(" XYZ")); EXPECT_EQ("XYZ", isc::util::str::trim("\t\t \tXYZ")); // Right and left, with embedded spaces EXPECT_EQ("MN \t OP", isc::util::str::trim("\t\tMN \t OP \t")); } // Check tokenization. Note that ASSERT_EQ is used to check the size of the // returned vector; if not as expected, the following references may be invalid // so should not be used. TEST(StringUtilTest, Tokens) { vector result; // Default delimiters // Degenerate cases result = isc::util::str::tokens(""); // Empty string EXPECT_EQ(0, result.size()); result = isc::util::str::tokens(" \n "); // String is all delimiters EXPECT_EQ(0, result.size()); result = isc::util::str::tokens("abc"); // String has no delimiters ASSERT_EQ(1, result.size()); EXPECT_EQ(string("abc"), result[0]); // String containing leading and/or trailing delimiters, no embedded ones. result = isc::util::str::tokens("\txyz"); // One leading delimiter ASSERT_EQ(1, result.size()); EXPECT_EQ(string("xyz"), result[0]); result = isc::util::str::tokens("\t \nxyz"); // Multiple leading delimiters ASSERT_EQ(1, result.size()); EXPECT_EQ(string("xyz"), result[0]); result = isc::util::str::tokens("xyz\n"); // One trailing delimiter ASSERT_EQ(1, result.size()); EXPECT_EQ(string("xyz"), result[0]); result = isc::util::str::tokens("xyz \t"); // Multiple trailing ASSERT_EQ(1, result.size()); EXPECT_EQ(string("xyz"), result[0]); result = isc::util::str::tokens("\t xyz \n"); // Leading and trailing ASSERT_EQ(1, result.size()); EXPECT_EQ(string("xyz"), result[0]); // Embedded delimiters result = isc::util::str::tokens("abc\ndef"); // 2 tokens, one separator ASSERT_EQ(2, result.size()); EXPECT_EQ(string("abc"), result[0]); EXPECT_EQ(string("def"), result[1]); result = isc::util::str::tokens("abc\t\t\ndef"); // 2 tokens, 3 separators ASSERT_EQ(2, result.size()); EXPECT_EQ(string("abc"), result[0]); EXPECT_EQ(string("def"), result[1]); result = isc::util::str::tokens("abc\n \tdef\t\tghi"); ASSERT_EQ(3, result.size()); // Multiple tokens, many delims EXPECT_EQ(string("abc"), result[0]); EXPECT_EQ(string("def"), result[1]); EXPECT_EQ(string("ghi"), result[2]); // Embedded and non-embedded delimiters result = isc::util::str::tokens("\t\t \nabc\n \tdef\t\tghi \n\n"); ASSERT_EQ(3, result.size()); // Multiple tokens, many delims EXPECT_EQ(string("abc"), result[0]); EXPECT_EQ(string("def"), result[1]); EXPECT_EQ(string("ghi"), result[2]); // Non-default delimiter result = isc::util::str::tokens("alpha/beta/ /gamma//delta/epsilon/", "/"); ASSERT_EQ(6, result.size()); EXPECT_EQ(string("alpha"), result[0]); EXPECT_EQ(string("beta"), result[1]); EXPECT_EQ(string(" "), result[2]); EXPECT_EQ(string("gamma"), result[3]); EXPECT_EQ(string("delta"), result[4]); EXPECT_EQ(string("epsilon"), result[5]); // Non-default delimiters (plural) result = isc::util::str::tokens("+*--alpha*beta+ -gamma**delta+epsilon-+**", "*+-"); ASSERT_EQ(6, result.size()); EXPECT_EQ(string("alpha"), result[0]); EXPECT_EQ(string("beta"), result[1]); EXPECT_EQ(string(" "), result[2]); EXPECT_EQ(string("gamma"), result[3]); EXPECT_EQ(string("delta"), result[4]); EXPECT_EQ(string("epsilon"), result[5]); } // Changing case TEST(StringUtilTest, ChangeCase) { string mixed("abcDEFghiJKLmno123[]{=+--+]}"); string upper("ABCDEFGHIJKLMNO123[]{=+--+]}"); string lower("abcdefghijklmno123[]{=+--+]}"); string test = mixed; isc::util::str::lowercase(test); EXPECT_EQ(lower, test); test = mixed; isc::util::str::uppercase(test); EXPECT_EQ(upper, test); } // Formatting TEST(StringUtilTest, Formatting) { vector args; args.push_back("arg1"); args.push_back("arg2"); args.push_back("arg3"); string format1 = "This is a string with no tokens"; EXPECT_EQ(format1, isc::util::str::format(format1, args)); string format2 = ""; // Empty string EXPECT_EQ(format2, isc::util::str::format(format2, args)); string format3 = " "; // Empty string EXPECT_EQ(format3, isc::util::str::format(format3, args)); string format4 = "String with %d non-string tokens %lf"; EXPECT_EQ(format4, isc::util::str::format(format4, args)); string format5 = "String with %s correct %s number of tokens %s"; string result5 = "String with arg1 correct arg2 number of tokens arg3"; EXPECT_EQ(result5, isc::util::str::format(format5, args)); string format6 = "String with %s too %s few tokens"; string result6 = "String with arg1 too arg2 few tokens"; EXPECT_EQ(result6, isc::util::str::format(format6, args)); string format7 = "String with %s too %s many %s tokens %s !"; string result7 = "String with arg1 too arg2 many arg3 tokens %s !"; EXPECT_EQ(result7, isc::util::str::format(format7, args)); string format8 = "String with embedded%s%s%stokens"; string result8 = "String with embeddedarg1arg2arg3tokens"; EXPECT_EQ(result8, isc::util::str::format(format8, args)); // Handle an empty vector args.clear(); string format9 = "%s %s"; EXPECT_EQ(format9, isc::util::str::format(format9, args)); } TEST(StringUtilTest, getToken) { string s("a b c"); istringstream ss(s); EXPECT_EQ("a", isc::util::str::getToken(ss)); EXPECT_EQ("b", isc::util::str::getToken(ss)); EXPECT_EQ("c", isc::util::str::getToken(ss)); EXPECT_THROW(isc::util::str::getToken(ss), isc::util::str::StringTokenError); } int32_t tokenToNumCall_32_16(const string& token) { return isc::util::str::tokenToNum(token); } int16_t tokenToNumCall_16_8(const string& token) { return isc::util::str::tokenToNum(token); } TEST(StringUtilTest, tokenToNum) { uint32_t num32 = tokenToNumCall_32_16("0"); EXPECT_EQ(0, num32); num32 = tokenToNumCall_32_16("123"); EXPECT_EQ(123, num32); num32 = tokenToNumCall_32_16("65535"); EXPECT_EQ(65535, num32); EXPECT_THROW(tokenToNumCall_32_16(""), isc::util::str::StringTokenError); EXPECT_THROW(tokenToNumCall_32_16("a"), isc::util::str::StringTokenError); EXPECT_THROW(tokenToNumCall_32_16("-1"), isc::util::str::StringTokenError); EXPECT_THROW(tokenToNumCall_32_16("65536"), isc::util::str::StringTokenError); EXPECT_THROW(tokenToNumCall_32_16("1234567890"), isc::util::str::StringTokenError); EXPECT_THROW(tokenToNumCall_32_16("-1234567890"), isc::util::str::StringTokenError); uint16_t num16 = tokenToNumCall_16_8("123"); EXPECT_EQ(123, num16); num16 = tokenToNumCall_16_8("0"); EXPECT_EQ(0, num16); num16 = tokenToNumCall_16_8("255"); EXPECT_EQ(255, num16); EXPECT_THROW(tokenToNumCall_16_8(""), isc::util::str::StringTokenError); EXPECT_THROW(tokenToNumCall_16_8("a"), isc::util::str::StringTokenError); EXPECT_THROW(tokenToNumCall_16_8("-1"), isc::util::str::StringTokenError); EXPECT_THROW(tokenToNumCall_16_8("256"), isc::util::str::StringTokenError); EXPECT_THROW(tokenToNumCall_16_8("1234567890"), isc::util::str::StringTokenError); EXPECT_THROW(tokenToNumCall_16_8("-1234567890"), isc::util::str::StringTokenError); } /// @brief Convenience function which calls quotedStringToBinary /// and converts returned vector back to string. /// /// @param s Input string. /// @return String holding a copy of a vector returned by the /// quotedStringToBinary. std::string testQuoted(const std::string& s) { std::vector vec = str::quotedStringToBinary(s); std::string s2(vec.begin(), vec.end()); return (s2); } TEST(StringUtilTest, quotedStringToBinary) { // No opening or closing quote should result in empty string. EXPECT_TRUE(str::quotedStringToBinary("'").empty()); EXPECT_TRUE(str::quotedStringToBinary("").empty()); EXPECT_TRUE(str::quotedStringToBinary(" ").empty()); EXPECT_TRUE(str::quotedStringToBinary("'circuit id").empty()); EXPECT_TRUE(str::quotedStringToBinary("circuit id'").empty()); // If there is only opening and closing quote, an empty // vector should be returned. EXPECT_TRUE(str::quotedStringToBinary("''").empty()); // Both opening and ending quote is present. EXPECT_EQ("circuit id", testQuoted("'circuit id'")); EXPECT_EQ("remote id", testQuoted(" ' remote id'")); EXPECT_EQ("duid", testQuoted(" ' duid'")); EXPECT_EQ("duid", testQuoted("'duid ' ")); EXPECT_EQ("remote'id", testQuoted(" ' remote'id '")); EXPECT_EQ("remote id'", testQuoted("'remote id''")); EXPECT_EQ("'remote id", testQuoted("''remote id'")); // Multiple quotes. EXPECT_EQ("'", testQuoted("'''")); EXPECT_EQ("''", testQuoted("''''")); } /// @brief Test that hex string with colons can be decoded. /// /// @param input Input string to be decoded. /// @param reference A string without colons representing the /// decoded data. void testColonSeparated(const std::string& input, const std::string& reference) { // Create a reference vector. std::vector reference_vector; ASSERT_NO_THROW(encode::decodeHex(reference, reference_vector)); // Fill the output vector with some garbage to make sure that // the data is erased when a string is decoded successfully. std::vector decoded(1, 10); ASSERT_NO_THROW(decodeColonSeparatedHexString(input, decoded)); // Get the string representation of the decoded data for logging // purposes. std::string encoded; ASSERT_NO_THROW(encoded = encode::encodeHex(decoded)); // Check if the decoded data matches the reference. EXPECT_TRUE(decoded == reference_vector) << "decoded data don't match the reference, input='" << input << "', reference='" << reference << "'" ", decoded='" << encoded << "'"; } TEST(StringUtilTest, decodeColonSeparatedHexString) { // Test valid strings. testColonSeparated("A1:02:C3:d4:e5:F6", "A102C3D4E5F6"); testColonSeparated("A:02:3:d:E5:F6", "0A02030DE5F6"); testColonSeparated("A:B:C:D", "0A0B0C0D"); testColonSeparated("1", "01"); testColonSeparated("1e", "1E"); testColonSeparated("", ""); // Test invalid strings. std::vector decoded; // Whitespaces. EXPECT_THROW(decodeColonSeparatedHexString(" ", decoded), isc::BadValue); // Whitespace before digits. EXPECT_THROW(decodeColonSeparatedHexString(" A1", decoded), isc::BadValue); // Two consecutive colons. EXPECT_THROW(decodeColonSeparatedHexString("A::01", decoded), isc::BadValue); // Three consecutive colons. EXPECT_THROW(decodeColonSeparatedHexString("A:::01", decoded), isc::BadValue); // Whitespace within a string. EXPECT_THROW(decodeColonSeparatedHexString("A :01", decoded), isc::BadValue); // Terminating colon. EXPECT_THROW(decodeColonSeparatedHexString("0A:01:", decoded), isc::BadValue); // Opening colon. EXPECT_THROW(decodeColonSeparatedHexString(":0A:01", decoded), isc::BadValue); // Three digits before the colon. EXPECT_THROW(decodeColonSeparatedHexString("0A1:B1", decoded), isc::BadValue); } void testFormatted(const std::string& input, const std::string& reference) { // Create a reference vector. std::vector reference_vector; ASSERT_NO_THROW(encode::decodeHex(reference, reference_vector)); // Fill the output vector with some garbage to make sure that // the data is erased when a string is decoded successfully. std::vector decoded(1, 10); ASSERT_NO_THROW(decodeFormattedHexString(input, decoded)); // Get the string representation of the decoded data for logging // purposes. std::string encoded; ASSERT_NO_THROW(encoded = encode::encodeHex(decoded)); // Check if the decoded data matches the reference. EXPECT_TRUE(decoded == reference_vector) << "decoded data don't match the reference, input='" << input << "', reference='" << reference << "'" ", decoded='" << encoded << "'"; } TEST(StringUtilTest, decodeFormattedHexString) { // Colon separated. testFormatted("1:A7:B5:4:23", "01A7B50423"); // No colons, even number of digits. testFormatted("17a534", "17A534"); // Odd number of digits. testFormatted("A3A6f78", "0A3A6F78"); // '0x' prefix. testFormatted("0xA3A6f78", "0A3A6F78"); // '0x' prefix with a special value of 0. testFormatted("0x0", "00"); // Empty string. testFormatted("", ""); std::vector decoded; // Whitepspace. EXPECT_THROW(decodeFormattedHexString("0a ", decoded), isc::BadValue); // Whitespace within a string. EXPECT_THROW(decodeFormattedHexString("01 02", decoded), isc::BadValue); // '0x' prefix and colons. EXPECT_THROW(decodeFormattedHexString("0x01:02", decoded), isc::BadValue); // Missing colon. EXPECT_THROW(decodeFormattedHexString("01:0203", decoded), isc::BadValue); // Invalid prefix. EXPECT_THROW(decodeFormattedHexString("x0102", decoded), isc::BadValue); // Invalid prefix again. EXPECT_THROW(decodeFormattedHexString("1x0102", decoded), isc::BadValue); } } // end of anonymous namespace