Exemplo n.º 1
0
        public RegisteredInstallLocationOverride(string productBinaryPath)
        {
            _testOnlyProductBehavior = TestOnlyProductBehavior.Enable(productBinaryPath);

            if (OperatingSystem.IsWindows())
            {
                // To test registered installs, we need a registry key which is:
                // - writable without admin access - so that the tests don't require admin to run
                // - redirected in WOW64 - so that there are both 32-bit and 64-bit versions of the key
                //   This is because the product stores the info in the 32-bit hive only and even 64-bit
                //   product must look into the 32-bit hive.
                //   Without the redirection we would not be able to test that the product always looks
                //   into 32-bit only.
                // Per this page https://docs.microsoft.com/en-us/windows/desktop/WinProg64/shared-registry-keys
                // a user writable redirected key is for example HKCU\Software\Classes\Interface
                // so we're going to use that one - it's not super clean as the key stores COM interfaces,
                // but we should not corrupt anything by adding a special subkey even if it's left behind.
                //
                // Note: If you want to inspect the values written by the test and/or modify them manually
                //   you have to navigate to HKCU\Software\Classes\Wow6432Node\Interface on a 64-bit OS.
                using (RegistryKey hkcu = RegistryKey.OpenBaseKey(RegistryHive.CurrentUser, RegistryView.Registry32))
                {
                    parentKey         = hkcu.CreateSubKey(@"Software\Classes\Interface");
                    keyName           = "_DOTNET_Test" + Process.GetCurrentProcess().Id.ToString();
                    key               = parentKey.CreateSubKey(keyName);
                    PathValueOverride = key.Name;
                }
            }
            else
            {
                // On Linux/macOS the install location is registered in a file which is normally
                // located in /etc/dotnet/install_location
                // So we need to redirect it to a different place here.
                string directory = Path.Combine(TestArtifact.TestArtifactsPath, "installLocationOverride" + Process.GetCurrentProcess().Id.ToString());
                if (Directory.Exists(directory))
                {
                    Directory.Delete(directory, true);
                }
                Directory.CreateDirectory(directory);
                PathValueOverride = directory;
            }
        }
Exemplo n.º 2
0
        public MultilevelSDKLookup()
        {
            // The dotnetMultilevelSDKLookup dir will contain some folders and files that will be
            // necessary to perform the tests
            string baseMultilevelDir = Path.Combine(TestArtifact.TestArtifactsPath, "dotnetMultilevelSDKLookup");

            _multilevelDir = SharedFramework.CalculateUniqueTestDirectory(baseMultilevelDir);

            // The tested locations will be the cwd, user folder, exe dir, and registered directory. cwd and user are no longer supported.
            //     All dirs will be placed inside the multilevel folder
            _currentWorkingDir = Path.Combine(_multilevelDir, "cwd");
            _userDir           = Path.Combine(_multilevelDir, "user");
            _exeDir            = Path.Combine(_multilevelDir, "exe");
            _regDir            = Path.Combine(_multilevelDir, "reg");

            DotNet = new DotNetBuilder(_multilevelDir, Path.Combine(TestArtifact.TestArtifactsPath, "sharedFrameworkPublish"), "exe")
                     .AddMicrosoftNETCoreAppFrameworkMockHostPolicy("9999.0.0")
                     .Build();

            RepoDirectories = new RepoDirectoriesProvider(builtDotnet: DotNet.BinPath);

            // SdkBaseDirs contain all available version folders
            _cwdSdkBaseDir  = Path.Combine(_currentWorkingDir, "sdk");
            _userSdkBaseDir = Path.Combine(_userDir, ".dotnet", RepoDirectories.BuildArchitecture, "sdk");
            _exeSdkBaseDir  = Path.Combine(_exeDir, "sdk");
            _regSdkBaseDir  = Path.Combine(_regDir, "sdk");

            // Create directories
            Directory.CreateDirectory(_cwdSdkBaseDir);
            Directory.CreateDirectory(_userSdkBaseDir);
            Directory.CreateDirectory(_exeSdkBaseDir);
            Directory.CreateDirectory(_regSdkBaseDir);

            // Trace messages used to identify from which folder the SDK was picked
            _exeSelectedMessage = $"Using .NET SDK dll=[{_exeSdkBaseDir}";
            _regSelectedMessage = $"Using .NET SDK dll=[{_regSdkBaseDir}";

            _testOnlyProductBehaviorMarker = TestOnlyProductBehavior.Enable(DotNet.GreatestVersionHostFxrFilePath);
        }
Exemplo n.º 3
0
        public void Hostfxr_get_available_sdks_with_multilevel_lookup()
        {
            if (!RuntimeInformation.IsOSPlatform(OSPlatform.Windows))
            {
                // multilevel lookup is not supported on non-Windows
                return;
            }

            var f = new SdkResolutionFixture(sharedTestState);

            // With multi-level lookup (windows only): get local and global sdks sorted by ascending version,
            // with global sdk coming before local sdk when versions are equal
            string expectedList = string.Join(';', new[]
            {
                Path.Combine(f.LocalSdkDir, "0.1.2"),
                Path.Combine(f.ProgramFilesGlobalSdkDir, "1.2.3"),
                Path.Combine(f.LocalSdkDir, "1.2.3"),
                Path.Combine(f.ProgramFilesGlobalSdkDir, "2.3.4-preview"),
                Path.Combine(f.SelfRegisteredGlobalSdkDir, "3.0.0"),
                Path.Combine(f.ProgramFilesGlobalSdkDir, "4.5.6"),
                Path.Combine(f.LocalSdkDir, "5.6.7-preview"),
                Path.Combine(f.SelfRegisteredGlobalSdkDir, "5.6.7"),
                Path.Combine(f.SelfRegisteredGlobalSdkDir, "15.1.4-preview"),
            });

            using (TestOnlyProductBehavior.Enable(f.Dotnet.GreatestVersionHostFxrFilePath))
            {
                f.Dotnet.Exec(f.AppDll, new[] { "hostfxr_get_available_sdks", f.ExeDir })
                .EnvironmentVariable("TEST_MULTILEVEL_LOOKUP_PROGRAM_FILES", f.ProgramFiles)
                .EnvironmentVariable("TEST_MULTILEVEL_LOOKUP_SELF_REGISTERED", f.SelfRegistered)
                .CaptureStdOut()
                .CaptureStdErr()
                .Execute()
                .Should().Pass()
                .And.HaveStdOutContaining("hostfxr_get_available_sdks:Success")
                .And.HaveStdOutContaining($"hostfxr_get_available_sdks sdks:[{expectedList}]");
            }
        }
Exemplo n.º 4
0
        public MultilevelSharedFxLookup()
        {
            // From the artifacts dir, it's possible to find where the sharedFrameworkPublish folder is. We need
            // to locate it because we'll copy its contents into other folders
            string artifactsDir = new RepoDirectoriesProvider().GetTestContextVariable("TEST_ARTIFACTS");

            _builtDotnet = Path.Combine(artifactsDir, "sharedFrameworkPublish");

            // The dotnetMultilevelSharedFxLookup dir will contain some folders and files that will be
            // necessary to perform the tests
            string baseMultilevelDir = Path.Combine(artifactsDir, "dotnetMultilevelSharedFxLookup");

            _multilevelDir = SharedFramework.CalculateUniqueTestDirectory(baseMultilevelDir);

            // The three tested locations will be the cwd, the user folder and the exe dir. Both cwd and exe dir
            // are easily overwritten, so they will be placed inside the multilevel folder. The actual user location will
            // be used during tests
            _currentWorkingDir = Path.Combine(_multilevelDir, "cwd");
            _userDir           = Path.Combine(_multilevelDir, "user");
            _exeDir            = Path.Combine(_multilevelDir, "exe");
            _regDir            = Path.Combine(_multilevelDir, "reg");

            RepoDirectories = new RepoDirectoriesProvider(builtDotnet: _exeDir);

            // SharedFxBaseDirs contain all available version folders
            _cwdSharedFxBaseDir  = Path.Combine(_currentWorkingDir, "shared", "Microsoft.NETCore.App");
            _userSharedFxBaseDir = Path.Combine(_userDir, ".dotnet", RepoDirectories.BuildArchitecture, "shared", "Microsoft.NETCore.App");
            _exeSharedFxBaseDir  = Path.Combine(_exeDir, "shared", "Microsoft.NETCore.App");
            _regSharedFxBaseDir  = Path.Combine(_regDir, "shared", "Microsoft.NETCore.App");

            _cwdSharedUberFxBaseDir  = Path.Combine(_currentWorkingDir, "shared", "Microsoft.UberFramework");
            _userSharedUberFxBaseDir = Path.Combine(_userDir, ".dotnet", RepoDirectories.BuildArchitecture, "shared", "Microsoft.UberFramework");
            _exeSharedUberFxBaseDir  = Path.Combine(_exeDir, "shared", "Microsoft.UberFramework");
            _regSharedUberFxBaseDir  = Path.Combine(_regDir, "shared", "Microsoft.UberFramework");

            // Create directories. It's necessary to copy the entire publish folder to the exe dir because
            // we'll need to build from it. The CopyDirectory method automatically creates the dest dir
            Directory.CreateDirectory(_cwdSharedFxBaseDir);
            Directory.CreateDirectory(_userSharedFxBaseDir);
            Directory.CreateDirectory(_regSharedFxBaseDir);
            Directory.CreateDirectory(_cwdSharedUberFxBaseDir);
            Directory.CreateDirectory(_userSharedUberFxBaseDir);
            Directory.CreateDirectory(_regSharedUberFxBaseDir);
            SharedFramework.CopyDirectory(_builtDotnet, _exeDir);

            //Copy dotnet to self-registered directory
            File.Copy(
                Path.Combine(_builtDotnet, RuntimeInformationExtensions.GetExeFileNameForCurrentPlatform("dotnet")),
                Path.Combine(_regDir, RuntimeInformationExtensions.GetExeFileNameForCurrentPlatform("dotnet")),
                true);

            // Restore and build SharedFxLookupPortableApp from exe dir
            SharedFxLookupPortableAppFixture = new TestProjectFixture("SharedFxLookupPortableApp", RepoDirectories)
                                               .EnsureRestored()
                                               .BuildProject();
            var fixture = SharedFxLookupPortableAppFixture;

            // The actual framework version can be obtained from the built fixture. We'll use it to
            // locate the builtSharedFxDir from which we can get the files contained in the version folder
            string greatestVersionSharedFxPath = fixture.BuiltDotnet.GreatestVersionSharedFxPath;

            _sharedFxVersion      = (new DirectoryInfo(greatestVersionSharedFxPath)).Name;
            _builtSharedFxDir     = Path.Combine(_builtDotnet, "shared", "Microsoft.NETCore.App", _sharedFxVersion);
            _builtSharedUberFxDir = Path.Combine(_builtDotnet, "shared", "Microsoft.UberFramework", _sharedFxVersion);
            SharedFramework.CreateUberFrameworkArtifacts(_builtSharedFxDir, _builtSharedUberFxDir, SystemCollectionsImmutableAssemblyVersion, SystemCollectionsImmutableFileVersion);

            // Trace messages used to identify from which folder the framework was picked
            _hostPolicyDllName  = Path.GetFileName(fixture.TestProject.HostPolicyDll);
            _exeSelectedMessage = $"The expected {_hostPolicyDllName} directory is [{_exeSharedFxBaseDir}";
            _regSelectedMessage = $"The expected {_hostPolicyDllName} directory is [{_regSharedFxBaseDir}";

            _exeFoundUberFxMessage = $"Chose FX version [{_exeSharedUberFxBaseDir}";

            _testOnlyProductBehaviorMarker = TestOnlyProductBehavior.Enable(fixture.BuiltDotnet.GreatestVersionHostFxrFilePath);
        }