//go:build windows // +build windows package fs import ( "encoding/base64" "encoding/json" "fmt" "os" "path/filepath" "strings" "syscall" "testing" "time" "github.com/restic/restic/internal/errors" "github.com/restic/restic/internal/restic" "github.com/restic/restic/internal/test" "golang.org/x/sys/windows" ) func TestRestoreSecurityDescriptors(t *testing.T) { t.Parallel() tempDir := t.TempDir() for i, sd := range testFileSDs { testRestoreSecurityDescriptor(t, sd, tempDir, restic.NodeTypeFile, fmt.Sprintf("testfile%d", i)) } for i, sd := range testDirSDs { testRestoreSecurityDescriptor(t, sd, tempDir, restic.NodeTypeDir, fmt.Sprintf("testdir%d", i)) } } func testRestoreSecurityDescriptor(t *testing.T, sd string, tempDir string, fileType restic.NodeType, fileName string) { // Decode the encoded string SD to get the security descriptor input in bytes. sdInputBytes, err := base64.StdEncoding.DecodeString(sd) test.OK(t, errors.Wrapf(err, "Error decoding SD for: %s", fileName)) // Wrap the security descriptor bytes in windows attributes and convert to generic attributes. genericAttributes, err := restic.WindowsAttrsToGenericAttributes(restic.WindowsAttributes{CreationTime: nil, FileAttributes: nil, SecurityDescriptor: &sdInputBytes}) test.OK(t, errors.Wrapf(err, "Error constructing windows attributes for: %s", fileName)) // Construct a Node with the generic attributes. expectedNode := getNode(fileName, fileType, genericAttributes) // Restore the file/dir and restore the meta data including the security descriptors. testPath, node := restoreAndGetNode(t, tempDir, &expectedNode, false) // Get the security descriptor from the node constructed from the file info of the restored path. sdByteFromRestoredNode := getWindowsAttr(t, testPath, node).SecurityDescriptor // Get the security descriptor for the test path after the restore. sdBytesFromRestoredPath, err := getSecurityDescriptor(testPath) test.OK(t, errors.Wrapf(err, "Error while getting the security descriptor for: %s", testPath)) // Compare the input SD and the SD got from the restored file. compareSecurityDescriptors(t, testPath, sdInputBytes, *sdBytesFromRestoredPath) // Compare the SD got from node constructed from the restored file info and the SD got directly from the restored file. compareSecurityDescriptors(t, testPath, *sdByteFromRestoredNode, *sdBytesFromRestoredPath) } func getNode(name string, fileType restic.NodeType, genericAttributes map[restic.GenericAttributeType]json.RawMessage) restic.Node { return restic.Node{ Name: name, Type: fileType, Mode: 0644, ModTime: parseTime("2024-02-21 6:30:01.111"), AccessTime: parseTime("2024-02-22 7:31:02.222"), ChangeTime: parseTime("2024-02-23 8:32:03.333"), GenericAttributes: genericAttributes, } } func getWindowsAttr(t *testing.T, testPath string, node *restic.Node) restic.WindowsAttributes { windowsAttributes, unknownAttribs, err := genericAttributesToWindowsAttrs(node.GenericAttributes) test.OK(t, errors.Wrapf(err, "Error getting windows attr from generic attr: %s", testPath)) test.Assert(t, len(unknownAttribs) == 0, "Unknown attribs found: %s for: %s", unknownAttribs, testPath) return windowsAttributes } func TestRestoreCreationTime(t *testing.T) { t.Parallel() path := t.TempDir() fi, err := os.Lstat(path) test.OK(t, errors.Wrapf(err, "Could not Lstat for path: %s", path)) attr := fi.Sys().(*syscall.Win32FileAttributeData) creationTimeAttribute := attr.CreationTime //Using the temp dir creation time as the test creation time for the test file and folder runGenericAttributesTest(t, path, restic.TypeCreationTime, restic.WindowsAttributes{CreationTime: &creationTimeAttribute}, false) } func TestRestoreFileAttributes(t *testing.T) { t.Parallel() genericAttributeName := restic.TypeFileAttributes tempDir := t.TempDir() normal := uint32(syscall.FILE_ATTRIBUTE_NORMAL) hidden := uint32(syscall.FILE_ATTRIBUTE_HIDDEN) system := uint32(syscall.FILE_ATTRIBUTE_SYSTEM) archive := uint32(syscall.FILE_ATTRIBUTE_ARCHIVE) encrypted := uint32(windows.FILE_ATTRIBUTE_ENCRYPTED) fileAttributes := []restic.WindowsAttributes{ //normal {FileAttributes: &normal}, //hidden {FileAttributes: &hidden}, //system {FileAttributes: &system}, //archive {FileAttributes: &archive}, //encrypted {FileAttributes: &encrypted}, } for i, fileAttr := range fileAttributes { genericAttrs, err := restic.WindowsAttrsToGenericAttributes(fileAttr) test.OK(t, err) expectedNodes := []restic.Node{ { Name: fmt.Sprintf("testfile%d", i), Type: restic.NodeTypeFile, Mode: 0655, ModTime: parseTime("2005-05-14 21:07:03.111"), AccessTime: parseTime("2005-05-14 21:07:04.222"), ChangeTime: parseTime("2005-05-14 21:07:05.333"), GenericAttributes: genericAttrs, }, } runGenericAttributesTestForNodes(t, expectedNodes, tempDir, genericAttributeName, fileAttr, false) } normal = uint32(syscall.FILE_ATTRIBUTE_DIRECTORY) hidden = uint32(syscall.FILE_ATTRIBUTE_DIRECTORY | syscall.FILE_ATTRIBUTE_HIDDEN) system = uint32(syscall.FILE_ATTRIBUTE_DIRECTORY | windows.FILE_ATTRIBUTE_SYSTEM) archive = uint32(syscall.FILE_ATTRIBUTE_DIRECTORY | windows.FILE_ATTRIBUTE_ARCHIVE) encrypted = uint32(syscall.FILE_ATTRIBUTE_DIRECTORY | windows.FILE_ATTRIBUTE_ENCRYPTED) folderAttributes := []restic.WindowsAttributes{ //normal {FileAttributes: &normal}, //hidden {FileAttributes: &hidden}, //system {FileAttributes: &system}, //archive {FileAttributes: &archive}, //encrypted {FileAttributes: &encrypted}, } for i, folderAttr := range folderAttributes { genericAttrs, err := restic.WindowsAttrsToGenericAttributes(folderAttr) test.OK(t, err) expectedNodes := []restic.Node{ { Name: fmt.Sprintf("testdirectory%d", i), Type: restic.NodeTypeDir, Mode: 0755, ModTime: parseTime("2005-05-14 21:07:03.111"), AccessTime: parseTime("2005-05-14 21:07:04.222"), ChangeTime: parseTime("2005-05-14 21:07:05.333"), GenericAttributes: genericAttrs, }, } runGenericAttributesTestForNodes(t, expectedNodes, tempDir, genericAttributeName, folderAttr, false) } } func runGenericAttributesTest(t *testing.T, tempDir string, genericAttributeName restic.GenericAttributeType, genericAttributeExpected restic.WindowsAttributes, warningExpected bool) { genericAttributes, err := restic.WindowsAttrsToGenericAttributes(genericAttributeExpected) test.OK(t, err) expectedNodes := []restic.Node{ { Name: "testfile", Type: restic.NodeTypeFile, Mode: 0644, ModTime: parseTime("2005-05-14 21:07:03.111"), AccessTime: parseTime("2005-05-14 21:07:04.222"), ChangeTime: parseTime("2005-05-14 21:07:05.333"), GenericAttributes: genericAttributes, }, { Name: "testdirectory", Type: restic.NodeTypeDir, Mode: 0755, ModTime: parseTime("2005-05-14 21:07:03.111"), AccessTime: parseTime("2005-05-14 21:07:04.222"), ChangeTime: parseTime("2005-05-14 21:07:05.333"), GenericAttributes: genericAttributes, }, } runGenericAttributesTestForNodes(t, expectedNodes, tempDir, genericAttributeName, genericAttributeExpected, warningExpected) } func runGenericAttributesTestForNodes(t *testing.T, expectedNodes []restic.Node, tempDir string, genericAttr restic.GenericAttributeType, genericAttributeExpected restic.WindowsAttributes, warningExpected bool) { for _, testNode := range expectedNodes { testPath, node := restoreAndGetNode(t, tempDir, &testNode, warningExpected) rawMessage := node.GenericAttributes[genericAttr] genericAttrsExpected, err := restic.WindowsAttrsToGenericAttributes(genericAttributeExpected) test.OK(t, err) rawMessageExpected := genericAttrsExpected[genericAttr] test.Equals(t, rawMessageExpected, rawMessage, "Generic attribute: %s got from NodeFromFileInfo not equal for path: %s", string(genericAttr), testPath) } } func restoreAndGetNode(t *testing.T, tempDir string, testNode *restic.Node, warningExpected bool) (string, *restic.Node) { testPath := filepath.Join(tempDir, "001", testNode.Name) err := os.MkdirAll(filepath.Dir(testPath), testNode.Mode) test.OK(t, errors.Wrapf(err, "Failed to create parent directories for: %s", testPath)) if testNode.Type == restic.NodeTypeFile { testFile, err := os.Create(testPath) test.OK(t, errors.Wrapf(err, "Failed to create test file: %s", testPath)) testFile.Close() } else if testNode.Type == restic.NodeTypeDir { err := os.Mkdir(testPath, testNode.Mode) test.OK(t, errors.Wrapf(err, "Failed to create test directory: %s", testPath)) } err = NodeRestoreMetadata(testNode, testPath, func(msg string) { if warningExpected { test.Assert(t, warningExpected, "Warning triggered as expected: %s", msg) } else { // If warning is not expected, this code should not get triggered. test.OK(t, fmt.Errorf("Warning triggered for path: %s: %s", testPath, msg)) } }) test.OK(t, errors.Wrapf(err, "Failed to restore metadata for: %s", testPath)) fs := &Local{} fi, err := fs.Lstat(testPath) test.OK(t, errors.Wrapf(err, "Could not Lstat for path: %s", testPath)) nodeFromFileInfo, err := fs.NodeFromFileInfo(testPath, fi, false) test.OK(t, errors.Wrapf(err, "Could not get NodeFromFileInfo for path: %s", testPath)) return testPath, nodeFromFileInfo } const TypeSomeNewAttribute restic.GenericAttributeType = "MockAttributes.SomeNewAttribute" func TestNewGenericAttributeType(t *testing.T) { t.Parallel() newGenericAttribute := map[restic.GenericAttributeType]json.RawMessage{} newGenericAttribute[TypeSomeNewAttribute] = []byte("any value") tempDir := t.TempDir() expectedNodes := []restic.Node{ { Name: "testfile", Type: restic.NodeTypeFile, Mode: 0644, ModTime: parseTime("2005-05-14 21:07:03.111"), AccessTime: parseTime("2005-05-14 21:07:04.222"), ChangeTime: parseTime("2005-05-14 21:07:05.333"), GenericAttributes: newGenericAttribute, }, { Name: "testdirectory", Type: restic.NodeTypeDir, Mode: 0755, ModTime: parseTime("2005-05-14 21:07:03.111"), AccessTime: parseTime("2005-05-14 21:07:04.222"), ChangeTime: parseTime("2005-05-14 21:07:05.333"), GenericAttributes: newGenericAttribute, }, } for _, testNode := range expectedNodes { testPath, node := restoreAndGetNode(t, tempDir, &testNode, true) _, ua, err := genericAttributesToWindowsAttrs(node.GenericAttributes) test.OK(t, err) // Since this GenericAttribute is unknown to this version of the software, it will not get set on the file. test.Assert(t, len(ua) == 0, "Unknown attributes: %s found for path: %s", ua, testPath) } } func TestRestoreExtendedAttributes(t *testing.T) { t.Parallel() tempDir := t.TempDir() expectedNodes := []restic.Node{ { Name: "testfile", Type: restic.NodeTypeFile, Mode: 0644, ModTime: parseTime("2005-05-14 21:07:03.111"), AccessTime: parseTime("2005-05-14 21:07:04.222"), ChangeTime: parseTime("2005-05-14 21:07:05.333"), ExtendedAttributes: []restic.ExtendedAttribute{ {"user.foo", []byte("bar")}, }, }, { Name: "testdirectory", Type: restic.NodeTypeDir, Mode: 0755, ModTime: parseTime("2005-05-14 21:07:03.111"), AccessTime: parseTime("2005-05-14 21:07:04.222"), ChangeTime: parseTime("2005-05-14 21:07:05.333"), ExtendedAttributes: []restic.ExtendedAttribute{ {"user.foo", []byte("bar")}, }, }, } for _, testNode := range expectedNodes { testPath, node := restoreAndGetNode(t, tempDir, &testNode, false) var handle windows.Handle var err error utf16Path := windows.StringToUTF16Ptr(testPath) if node.Type == restic.NodeTypeFile { handle, err = windows.CreateFile(utf16Path, windows.FILE_READ_EA, 0, nil, windows.OPEN_EXISTING, windows.FILE_ATTRIBUTE_NORMAL, 0) } else if node.Type == restic.NodeTypeDir { handle, err = windows.CreateFile(utf16Path, windows.FILE_READ_EA, 0, nil, windows.OPEN_EXISTING, windows.FILE_ATTRIBUTE_NORMAL|windows.FILE_FLAG_BACKUP_SEMANTICS, 0) } test.OK(t, errors.Wrapf(err, "Error opening file/directory for: %s", testPath)) defer func() { err := windows.Close(handle) test.OK(t, errors.Wrapf(err, "Error closing file for: %s", testPath)) }() extAttr, err := fgetEA(handle) test.OK(t, errors.Wrapf(err, "Error getting extended attributes for: %s", testPath)) test.Equals(t, len(node.ExtendedAttributes), len(extAttr)) for _, expectedExtAttr := range node.ExtendedAttributes { var foundExtAttr *extendedAttribute for _, ea := range extAttr { if strings.EqualFold(ea.Name, expectedExtAttr.Name) { foundExtAttr = &ea break } } test.Assert(t, foundExtAttr != nil, "Expected extended attribute not found") test.Equals(t, expectedExtAttr.Value, foundExtAttr.Value) } } } func TestPrepareVolumeName(t *testing.T) { currentVolume := filepath.VolumeName(func() string { // Get the current working directory pwd, err := os.Getwd() if err != nil { t.Fatalf("Failed to get current working directory: %v", err) } return pwd }()) // Create a temporary directory for the test tempDir, err := os.MkdirTemp("", "restic_test_"+time.Now().Format("20060102150405")) if err != nil { t.Fatalf("Failed to create temp directory: %v", err) } defer os.RemoveAll(tempDir) // Create a long file name longFileName := `\Very\Long\Path\That\Exceeds\260\Characters\` + strings.Repeat(`\VeryLongFolderName`, 20) + `\\LongFile.txt` longFilePath := filepath.Join(tempDir, longFileName) tempDirVolume := filepath.VolumeName(tempDir) // Create the file content := []byte("This is a test file with a very long name.") err = os.MkdirAll(filepath.Dir(longFilePath), 0755) test.OK(t, err) if err != nil { t.Fatalf("Failed to create long folder: %v", err) } err = os.WriteFile(longFilePath, content, 0644) test.OK(t, err) if err != nil { t.Fatalf("Failed to create long file: %v", err) } osVolumeGUIDPath := getOSVolumeGUIDPath(t) osVolumeGUIDVolume := filepath.VolumeName(osVolumeGUIDPath) testCases := []struct { name string path string expectedVolume string expectError bool expectedEASupported bool isRealPath bool }{ { name: "Network drive path", path: `Z:\Shared\Documents`, expectedVolume: `Z:`, expectError: false, expectedEASupported: false, }, { name: "Subst drive path", path: `X:\Virtual\Folder`, expectedVolume: `X:`, expectError: false, expectedEASupported: false, }, { name: "Windows reserved path", path: `\\.\` + os.Getenv("SystemDrive") + `\System32\drivers\etc\hosts`, expectedVolume: `\\.\` + os.Getenv("SystemDrive"), expectError: false, expectedEASupported: true, isRealPath: true, }, { name: "Long UNC path", path: `\\?\UNC\LongServerName\VeryLongShareName\DeepPath\File.txt`, expectedVolume: `\\LongServerName\VeryLongShareName`, expectError: false, expectedEASupported: false, }, { name: "Volume GUID path", path: osVolumeGUIDPath, expectedVolume: osVolumeGUIDVolume, expectError: false, expectedEASupported: true, isRealPath: true, }, { name: "Volume GUID path with subfolder", path: osVolumeGUIDPath + `\Windows`, expectedVolume: osVolumeGUIDVolume, expectError: false, expectedEASupported: true, isRealPath: true, }, { name: "Standard path", path: os.Getenv("SystemDrive") + `\Users\`, expectedVolume: os.Getenv("SystemDrive"), expectError: false, expectedEASupported: true, isRealPath: true, }, { name: "Extended length path", path: longFilePath, expectedVolume: tempDirVolume, expectError: false, expectedEASupported: true, isRealPath: true, }, { name: "UNC path", path: `\\server\share\folder`, expectedVolume: `\\server\share`, expectError: false, expectedEASupported: false, }, { name: "Extended UNC path", path: `\\?\UNC\server\share\folder`, expectedVolume: `\\server\share`, expectError: false, expectedEASupported: false, }, { name: "Volume Shadow Copy root", path: `\\?\GLOBALROOT\Device\HarddiskVolumeShadowCopy1`, expectedVolume: `\\?\GLOBALROOT\Device\HarddiskVolumeShadowCopy1`, expectError: false, expectedEASupported: false, }, { name: "Volume Shadow Copy path", path: `\\?\GLOBALROOT\Device\HarddiskVolumeShadowCopy1\Users\test`, expectedVolume: `\\?\GLOBALROOT\Device\HarddiskVolumeShadowCopy1`, expectError: false, expectedEASupported: false, }, { name: "Relative path", path: `folder\subfolder`, expectedVolume: currentVolume, // Get current volume expectError: false, expectedEASupported: true, }, { name: "Empty path", path: ``, expectedVolume: currentVolume, expectError: false, expectedEASupported: true, isRealPath: false, }, } for _, tc := range testCases { t.Run(tc.name, func(t *testing.T) { isEASupported, err := checkAndStoreEASupport(tc.path) test.OK(t, err) test.Equals(t, tc.expectedEASupported, isEASupported) volume, err := prepareVolumeName(tc.path) if tc.expectError { test.Assert(t, err != nil, "Expected an error, but got none") } else { test.OK(t, err) } test.Equals(t, tc.expectedVolume, volume) if tc.isRealPath { isEASupportedVolume, err := pathSupportsExtendedAttributes(volume + `\`) // If the prepared volume name is not valid, we will next fetch the actual volume name. test.OK(t, err) test.Equals(t, tc.expectedEASupported, isEASupportedVolume) actualVolume, err := getVolumePathName(tc.path) test.OK(t, err) test.Equals(t, tc.expectedVolume, actualVolume) } }) } } func getOSVolumeGUIDPath(t *testing.T) string { // Get the path of the OS drive (usually C:\) osDrive := os.Getenv("SystemDrive") + "\\" // Convert to a volume GUID path volumeName, err := windows.UTF16PtrFromString(osDrive) test.OK(t, err) if err != nil { return "" } var volumeGUID [windows.MAX_PATH]uint16 err = windows.GetVolumeNameForVolumeMountPoint(volumeName, &volumeGUID[0], windows.MAX_PATH) test.OK(t, err) if err != nil { return "" } return windows.UTF16ToString(volumeGUID[:]) }