public static int Main(string[] args) { try { ProcessArgs(args); if (Options.File != null) { Log.InfoFormat("Transforming {0}", Options.File); var moduleService = new ModuleService(); var fileService = new FileService(); var http = new CachingHttpService(FindCache(new KSPManager(new ConsoleUser(false)))); var netkan = ReadNetkan(); Log.Info("Finished reading input"); new NetkanValidator().Validate(netkan); Log.Info("Input successfully passed pre-validation"); var transformer = new NetkanTransformer( http, fileService, moduleService, Options.GitHubToken, Options.PreRelease ); var ckan = transformer.Transform(netkan); Log.Info("Finished transformation"); new CkanValidator(netkan, http, moduleService).Validate(ckan); Log.Info("Output successfully passed post-validation"); WriteCkan(ckan); } else { Log.Fatal( "Usage: netkan [--verbose|--debug] [--debugger] [--prerelease] [--outputdir=...] <filename>" ); return ExitBadOpt; } } catch (Exception e) { Log.Fatal(e.Message); if (Options == null || Options.Debug) { Log.Fatal(e.StackTrace); } return ExitError; } return ExitOk; }
public void GetsFileSizeCorrectly() { // Arrange var sut = new FileService(); // Act var result = sut.GetSizeBytes(TestData.DogeCoinFlagZip()); // Assert Assert.That(result, Is.EqualTo(53647), "FileService should return the correct file size." ); }
public void GetsGzipMimeCorrectly() { // Arrange var sut = new FileService(); // Act var result = sut.GetMimetype(TestData.DataDir("FileIdentifier/test_gzip.gz")); // Assert Assert.That(result, Is.EqualTo("application/x-gzip"), "FileService should return the correct mimetype for a gzip file." ); }
public void GetsFileHashSha256Correctly() { // Arrange var sut = new FileService(); // Act var result = sut.GetFileHashSha256(TestData.DogeCoinFlagZip()); // Assert Assert.That(result, Is.EqualTo("EC955DB772FBA8CAA62BF61C180D624C350D792C6F573D35A5EAEE3898DCF7C1"), "FileService should return the correct file SHA256 hash." ); }
public void GetsFileHashSha1Correctly() { // Arrange var sut = new FileService(); // Act var result = sut.GetFileHashSha1(TestData.DogeCoinFlagZip()); // Assert Assert.That(result, Is.EqualTo("47B6ED5F502AD914744882858345BE030A29E1AA"), "FileService should return the correct file SHA1 hash." ); }
public void GetsAsciiMimeCorrectly() { // Arrange var sut = new FileService(); // Act var result = sut.GetMimetype(TestData.DataDir("FileIdentifier/test_ascii.txt")); // Assert Assert.That(result, Is.EqualTo("text/plain"), "FileService should return the correct mimetype for a text file" ); }
public void GetsTarGzMimeCorrectly() { // Arrange var sut = new FileService(); // Act var result = sut.GetMimetype(TestData.DataDir("FileIdentifier/test_targz.tar.gz")); // Assert Assert.That(result, Is.EqualTo("application/x-compressed-tar"), "FileService should return the correct mimetype for a tar.gz file." ); }
public void GetsZipMimeCorrectly() { // Arrange var sut = new FileService(); // Act var result = sut.GetMimetype(TestData.DogeCoinFlagZip()); // Assert Assert.That(result, Is.EqualTo("application/zip"), "FileService should return the correct mimetype for a zipfile." ); }
public void GetsUnknownMimeCorrectly() { // Arrange var sut = new FileService(); string random_bin = TestData.DataDir("FileIdentifier/random.bin"); Assert.IsTrue(File.Exists(random_bin)); // Act var result = sut.GetMimetype(random_bin); // Assert Assert.That(result, Is.EqualTo("application/octet-stream"), "FileService should return 'application/octet-stream' for all other file types." ); }