/** * Copyright (C) 2017-2018, U.S. Government */ #include #include #include #include #include #include "gtest/gtest.h" #include "Utils.h" using hirs::file_utils::dirExists; using hirs::file_utils::fileExists; using hirs::file_utils::trimFilenameFromPath; using hirs::json_utils::JSONFieldParser; using hirs::string_utils::binaryToHex; using hirs::string_utils::contains; using hirs::string_utils::longToHex; using hirs::string_utils::isHexString; using hirs::string_utils::hexToBytes; using hirs::string_utils::hexToLong; using hirs::string_utils::trimNewLines; using hirs::string_utils::trimQuotes; using hirs::string_utils::trimChar; using hirs::string_utils::trimWhitespaceFromLeft; using hirs::string_utils::trimWhitespaceFromRight; using hirs::string_utils::trimWhitespaceFromBothEnds; using std::ofstream; using std::string; using std::stringstream; namespace { class UtilsTest : public :: testing::Test { protected: UtilsTest() { // You can do set-up work for each test here. } virtual ~UtilsTest() { // You can do clean-up work that doesn't throw exceptions here. } virtual void SetUp() { // Code here will be called immediately after the constructor (right // before each test). } virtual void TearDown() { // Code here will be called immediately after each test (right // before the destructor). } // Objects declared here can be used by all tests in the test case for // Utils. static const char kFileName[]; }; const char UtilsTest::kFileName[] = "bitsAndBytes"; TEST_F(UtilsTest, ParseJsonFieldSuccess) { stringstream jsonObject; jsonObject << R"({"error":"identityClaim cannot be null or empty"})"; string errorMessage = JSONFieldParser::parseJsonStringField( jsonObject.str(), "error"); string expectedOutput = "identityClaim cannot be null or empty"; ASSERT_EQ(expectedOutput, errorMessage); } TEST_F(UtilsTest, ParseJsonFieldSuccessCaseInsensitive) { stringstream jsonObject; jsonObject << R"({"ERROR":"identityClaim cannot be null or empty"})"; string errorMessage = JSONFieldParser::parseJsonStringField( jsonObject.str(), "error"); string expectedOutput = "identityClaim cannot be null or empty"; ASSERT_EQ(expectedOutput, errorMessage); } TEST_F(UtilsTest, ParseJsonFieldSuccessWhiteSpaces) { stringstream jsonObject; jsonObject << R"({"error" : "identityClaim cannot be null or empty"})"; string errorMessage = JSONFieldParser::parseJsonStringField( jsonObject.str(), "error"); string expectedOutput = "identityClaim cannot be null or empty"; ASSERT_EQ(expectedOutput, errorMessage); } TEST_F(UtilsTest, ParseJsonFieldSuccessMultiJsonFields) { stringstream jsonObject; jsonObject << R"({"error" : "identityClaim cannot be null or empty",)" << "\n" << R"("endpoint":"url.com"})"; string errorMessage = JSONFieldParser::parseJsonStringField( jsonObject.str(), "error"); string expectedOutput = "identityClaim cannot be null or empty"; ASSERT_EQ(expectedOutput, errorMessage); } TEST_F(UtilsTest, ParseJsonFieldInvalidJson) { stringstream jsonObject; jsonObject << R"({error:"identityClaim cannot be null or empty"})"; string errorMessage = JSONFieldParser::parseJsonStringField( jsonObject.str(), "error"); string expectedOutput = ""; ASSERT_EQ(expectedOutput, errorMessage); } TEST_F(UtilsTest, DirectoryExists) { mkdir(kFileName, 0755); ASSERT_TRUE(dirExists(kFileName)); rmdir(kFileName); } TEST_F(UtilsTest, DirectoryDoesNotExist) { ASSERT_FALSE(dirExists(kFileName)); } TEST_F(UtilsTest, FileExists) { ofstream outputFile; outputFile.open(kFileName); outputFile.close(); ASSERT_TRUE(fileExists(kFileName)); remove(kFileName); } TEST_F(UtilsTest, FileDoesNotExist) { ASSERT_FALSE(fileExists(kFileName)); } TEST_F(UtilsTest, FileSize) { string test = "Hello World"; hirs::file_utils::writeBinaryFile(test, "testfile"); int size = hirs::file_utils::getFileSize("testfile"); ASSERT_EQ(size, 11); } TEST_F(UtilsTest, SplitFile) { string test = "Hello World"; hirs::file_utils::writeBinaryFile(test, "testfile"); hirs::file_utils::splitFile("testfile", "testfilep1", 0, 5); string s = hirs::file_utils::fileToString("testfilep1"); ASSERT_EQ(s, "Hello"); hirs::file_utils::splitFile("testfile", "testfilep2", 5, 5); s = hirs::file_utils::fileToString("testfilep2"); ASSERT_EQ(s, " Worl"); hirs::file_utils::splitFile("testfile", "testfilep3", 10, 1); s = hirs::file_utils::fileToString("testfilep3"); ASSERT_EQ(s, "d"); } TEST_F(UtilsTest, TrimFilenameFromAbsolutePathSuccess) { string test = "/usr/bin/echo"; ASSERT_EQ("echo", trimFilenameFromPath(test)); } TEST_F(UtilsTest, TrimFilenameFromRelativePathSuccess) { string test = "usr/bin/echo"; ASSERT_EQ("echo", trimFilenameFromPath(test)); } TEST_F(UtilsTest, TrimFilenameFromPathSuccessWhenJustFilename) { string test = "echo"; ASSERT_EQ("echo", trimFilenameFromPath(test)); } TEST_F(UtilsTest, TrimEmptyFilenameFromPathSuccess) { string test = "/usr/bin/"; ASSERT_EQ("", trimFilenameFromPath(test)); } TEST_F(UtilsTest, BinToHex) { const char* testBin = "j\223\255x\216=\330c\aaj\262@\343i\246?\204T5"; ASSERT_EQ(binaryToHex(testBin), "6a93ad788e3dd86307616ab240e369a63f845435"); } TEST_F(UtilsTest, Contains) { string teststr = "The more you know"; string substr = "more you"; ASSERT_TRUE(contains(teststr, substr)); } TEST_F(UtilsTest, ContainsSelf) { string teststr = "The more you know"; string substr = "The more you know"; ASSERT_TRUE(contains(teststr, substr)); } TEST_F(UtilsTest, DoesNotContain) { string teststr = "The more you know"; string substr = "moor"; ASSERT_FALSE(contains(teststr, substr)); } TEST_F(UtilsTest, DoesNotContainMoreThanSelf) { string teststr = "The more you know"; string substr = "The more you know."; ASSERT_FALSE(contains(teststr, substr)); } TEST_F(UtilsTest, LongToHex) { const uint32_t testValue = 464367618; ASSERT_EQ(longToHex(testValue), "0x1badb002"); } TEST_F(UtilsTest, LongToHexZero) { const uint32_t testValue = 0; ASSERT_EQ(longToHex(testValue), "0x0"); } TEST_F(UtilsTest, LongToHexUnderflow) { const uint32_t testValue = -1; ASSERT_EQ(longToHex(testValue), "0xffffffff"); } TEST_F(UtilsTest, LongToHexOverflow) { uint32_t testValue = 0xffffffff + 1; ASSERT_EQ(longToHex(testValue), "0x0"); } TEST_F(UtilsTest, IsHexStringEmpty) { string testStr = ""; ASSERT_FALSE(isHexString(testStr)); } TEST_F(UtilsTest, IsHexStringTrue) { string testStr = "8BADF00D"; ASSERT_TRUE(isHexString(testStr)); } TEST_F(UtilsTest, IsHexStringPrefixTrue) { string testStr = "0x8BADF00D"; ASSERT_TRUE(isHexString(testStr)); } TEST_F(UtilsTest, IsHexStringFalse) { string testStr = "G00DF00D"; ASSERT_FALSE(isHexString(testStr)); } TEST_F(UtilsTest, IsHexStringFalseWithSpaces) { string testStr = "8BAD F00D"; ASSERT_FALSE(isHexString(testStr)); } TEST_F(UtilsTest, HexToBytesEmptyString) { string testStr = ""; ASSERT_TRUE(hexToBytes(testStr).empty()); } TEST_F(UtilsTest, HexToBytesNotHex) { string testStr = "A study in mopishness"; ASSERT_TRUE(hexToBytes(testStr).empty()); } TEST_F(UtilsTest, HexToBytesNotEven) { string testStr = "8BADF00"; ASSERT_TRUE(hexToBytes(testStr).empty()); } TEST_F(UtilsTest, HexToBytesSuccess) { // ASCII bytes for "TWO$" string testBytes = {84, 87, 79, 36}; // Hex encoding of "TWO$" string testStr = "54574F24"; ASSERT_EQ(testBytes, hexToBytes(testStr)); } TEST_F(UtilsTest, HexToLong) { string testStr = "BADF00D"; ASSERT_EQ(hexToLong(testStr), 195948557); } TEST_F(UtilsTest, HexWithPrefixToLong) { string testStr = "0xBADF00D"; ASSERT_EQ(hexToLong(testStr), 195948557); } TEST_F(UtilsTest, HexToLongNotHex) { string testStr = "G00DF00D"; ASSERT_EQ(hexToLong(testStr), 0); } TEST_F(UtilsTest, TrimNewLines) { string test = "abc\ndef\nghi\n"; ASSERT_EQ(trimNewLines(test), "abcdefghi"); } TEST_F(UtilsTest, TrimQuotes) { string test = "abc\"def\"ghi\""; ASSERT_EQ(trimQuotes(test), "abcdefghi"); } TEST_F(UtilsTest, TrimChar) { string test = "abc@def@ghi@"; ASSERT_EQ(trimChar(test, '@'), "abcdefghi"); } TEST_F(UtilsTest, trimWhitespaceFromLeft) { ASSERT_EQ(trimWhitespaceFromLeft(" asdf"), "asdf"); ASSERT_EQ(trimWhitespaceFromLeft(" as df"), "as df"); ASSERT_EQ(trimWhitespaceFromLeft("\tas df"), "as df"); ASSERT_EQ(trimWhitespaceFromLeft("\t\ras\rdf"), "as\rdf"); ASSERT_EQ(trimWhitespaceFromLeft("asdf "), "asdf "); ASSERT_EQ(trimWhitespaceFromLeft("asdf"), "asdf"); ASSERT_EQ(trimWhitespaceFromLeft(" "), ""); ASSERT_EQ(trimWhitespaceFromLeft(""), ""); } TEST_F(UtilsTest, trimWhitespaceFromRight) { ASSERT_EQ(trimWhitespaceFromRight("asdf "), "asdf"); ASSERT_EQ(trimWhitespaceFromRight("as df "), "as df"); ASSERT_EQ(trimWhitespaceFromRight("as df\t"), "as df"); ASSERT_EQ(trimWhitespaceFromRight("as\rdf\t\r"), "as\rdf"); ASSERT_EQ(trimWhitespaceFromRight(" asdf"), " asdf"); ASSERT_EQ(trimWhitespaceFromRight("asdf"), "asdf"); ASSERT_EQ(trimWhitespaceFromRight(" "), ""); ASSERT_EQ(trimWhitespaceFromRight(""), ""); } TEST_F(UtilsTest, trimWhitespaceFromBoth) { ASSERT_EQ(trimWhitespaceFromBothEnds(" asdf "), "asdf"); ASSERT_EQ(trimWhitespaceFromBothEnds(" as df "), "as df"); ASSERT_EQ(trimWhitespaceFromBothEnds("\tas df\t"), "as df"); ASSERT_EQ(trimWhitespaceFromBothEnds("\t\ras\rdf\t\r"), "as\rdf"); ASSERT_EQ(trimWhitespaceFromBothEnds("asdf"), "asdf"); ASSERT_EQ(trimWhitespaceFromBothEnds(" "), ""); ASSERT_EQ(trimWhitespaceFromBothEnds(""), ""); ASSERT_EQ(trimWhitespaceFromBothEnds("asdf "), "asdf"); ASSERT_EQ(trimWhitespaceFromBothEnds("as df "), "as df"); ASSERT_EQ(trimWhitespaceFromBothEnds("as df\t"), "as df"); ASSERT_EQ(trimWhitespaceFromBothEnds("as\rdf\t\r"), "as\rdf"); ASSERT_EQ(trimWhitespaceFromBothEnds(" asdf"), "asdf"); ASSERT_EQ(trimWhitespaceFromBothEnds(" as df"), "as df"); ASSERT_EQ(trimWhitespaceFromBothEnds("\tas df"), "as df"); ASSERT_EQ(trimWhitespaceFromBothEnds("\t\ras\rdf"), "as\rdf"); } } // namespace int main(int argc, char **argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); }