package fs import ( "encoding/json" "fmt" "path/filepath" "reflect" "strings" "sync" "syscall" "unsafe" "github.com/restic/restic/internal/debug" "github.com/restic/restic/internal/errors" "github.com/restic/restic/internal/restic" "golang.org/x/sys/windows" ) var ( modAdvapi32 = syscall.NewLazyDLL("advapi32.dll") procEncryptFile = modAdvapi32.NewProc("EncryptFileW") procDecryptFile = modAdvapi32.NewProc("DecryptFileW") // eaSupportedVolumesMap is a map of volumes to boolean values indicating if they support extended attributes. eaSupportedVolumesMap = sync.Map{} ) const ( extendedPathPrefix = `\\?\` uncPathPrefix = `\\?\UNC\` globalRootPrefix = `\\?\GLOBALROOT\` volumeGUIDPrefix = `\\?\Volume{` ) // mknod is not supported on Windows. func mknod(_ string, _ uint32, _ uint64) (err error) { return errors.New("device nodes cannot be created on windows") } // Windows doesn't need lchown func lchown(_ string, _ int, _ int) (err error) { return nil } // restoreSymlinkTimestamps restores timestamps for symlinks func nodeRestoreSymlinkTimestamps(path string, utimes [2]syscall.Timespec) error { // tweaked version of UtimesNano from go/src/syscall/syscall_windows.go pathp, e := syscall.UTF16PtrFromString(fixpath(path)) if e != nil { return e } h, e := syscall.CreateFile(pathp, syscall.FILE_WRITE_ATTRIBUTES, syscall.FILE_SHARE_WRITE, nil, syscall.OPEN_EXISTING, syscall.FILE_FLAG_BACKUP_SEMANTICS|syscall.FILE_FLAG_OPEN_REPARSE_POINT, 0) if e != nil { return e } defer func() { err := syscall.Close(h) if err != nil { debug.Log("Error closing file handle for %s: %v\n", path, err) } }() a := syscall.NsecToFiletime(syscall.TimespecToNsec(utimes[0])) w := syscall.NsecToFiletime(syscall.TimespecToNsec(utimes[1])) return syscall.SetFileTime(h, nil, &a, &w) } // restore extended attributes for windows func nodeRestoreExtendedAttributes(node *restic.Node, path string) (err error) { count := len(node.ExtendedAttributes) if count > 0 { eas := make([]extendedAttribute, count) for i, attr := range node.ExtendedAttributes { eas[i] = extendedAttribute{Name: attr.Name, Value: attr.Value} } if errExt := restoreExtendedAttributes(node.Type, path, eas); errExt != nil { return errExt } } return nil } // fill extended attributes in the node. This also includes the Generic attributes for windows. func nodeFillExtendedAttributes(node *restic.Node, path string, _ bool) (err error) { var fileHandle windows.Handle if fileHandle, err = openHandleForEA(node.Type, path, false); fileHandle == 0 { return nil } if err != nil { return errors.Errorf("get EA failed while opening file handle for path %v, with: %v", path, err) } defer closeFileHandle(fileHandle, path) // Replaced inline defer with named function call //Get the windows Extended Attributes using the file handle var extAtts []extendedAttribute extAtts, err = fgetEA(fileHandle) debug.Log("fillExtendedAttributes(%v) %v", path, extAtts) if err != nil { return errors.Errorf("get EA failed for path %v, with: %v", path, err) } if len(extAtts) == 0 { return nil } //Fill the ExtendedAttributes in the node using the name/value pairs in the windows EA for _, attr := range extAtts { extendedAttr := restic.ExtendedAttribute{ Name: attr.Name, Value: attr.Value, } node.ExtendedAttributes = append(node.ExtendedAttributes, extendedAttr) } return nil } // closeFileHandle safely closes a file handle and logs any errors. func closeFileHandle(fileHandle windows.Handle, path string) { err := windows.CloseHandle(fileHandle) if err != nil { debug.Log("Error closing file handle for %s: %v\n", path, err) } } // restoreExtendedAttributes handles restore of the Windows Extended Attributes to the specified path. // The Windows API requires setting of all the Extended Attributes in one call. func restoreExtendedAttributes(nodeType restic.NodeType, path string, eas []extendedAttribute) (err error) { var fileHandle windows.Handle if fileHandle, err = openHandleForEA(nodeType, path, true); fileHandle == 0 { return nil } if err != nil { return errors.Errorf("set EA failed while opening file handle for path %v, with: %v", path, err) } defer closeFileHandle(fileHandle, path) // Replaced inline defer with named function call // clear old unexpected xattrs by setting them to an empty value oldEAs, err := fgetEA(fileHandle) if err != nil { return err } for _, oldEA := range oldEAs { found := false for _, ea := range eas { if strings.EqualFold(ea.Name, oldEA.Name) { found = true break } } if !found { eas = append(eas, extendedAttribute{Name: oldEA.Name, Value: nil}) } } if err = fsetEA(fileHandle, eas); err != nil { return errors.Errorf("set EA failed for path %v, with: %v", path, err) } return nil } // restoreGenericAttributes restores generic attributes for Windows func nodeRestoreGenericAttributes(node *restic.Node, path string, warn func(msg string)) (err error) { if len(node.GenericAttributes) == 0 { return nil } var errs []error windowsAttributes, unknownAttribs, err := genericAttributesToWindowsAttrs(node.GenericAttributes) if err != nil { return fmt.Errorf("error parsing generic attribute for: %s : %v", path, err) } if windowsAttributes.CreationTime != nil { if err := restoreCreationTime(path, windowsAttributes.CreationTime); err != nil { errs = append(errs, fmt.Errorf("error restoring creation time for: %s : %v", path, err)) } } if windowsAttributes.FileAttributes != nil { if err := restoreFileAttributes(path, windowsAttributes.FileAttributes); err != nil { errs = append(errs, fmt.Errorf("error restoring file attributes for: %s : %v", path, err)) } } if windowsAttributes.SecurityDescriptor != nil { if err := setSecurityDescriptor(path, windowsAttributes.SecurityDescriptor); err != nil { errs = append(errs, fmt.Errorf("error restoring security descriptor for: %s : %v", path, err)) } } restic.HandleUnknownGenericAttributesFound(unknownAttribs, warn) return errors.CombineErrors(errs...) } // genericAttributesToWindowsAttrs converts the generic attributes map to a WindowsAttributes and also returns a string of unknown attributes that it could not convert. func genericAttributesToWindowsAttrs(attrs map[restic.GenericAttributeType]json.RawMessage) (windowsAttributes restic.WindowsAttributes, unknownAttribs []restic.GenericAttributeType, err error) { waValue := reflect.ValueOf(&windowsAttributes).Elem() unknownAttribs, err = restic.GenericAttributesToOSAttrs(attrs, reflect.TypeOf(windowsAttributes), &waValue, "windows") return windowsAttributes, unknownAttribs, err } // restoreCreationTime gets the creation time from the data and sets it to the file/folder at // the specified path. func restoreCreationTime(path string, creationTime *syscall.Filetime) (err error) { pathPointer, err := syscall.UTF16PtrFromString(path) if err != nil { return err } handle, err := syscall.CreateFile(pathPointer, syscall.FILE_WRITE_ATTRIBUTES, syscall.FILE_SHARE_WRITE, nil, syscall.OPEN_EXISTING, syscall.FILE_FLAG_BACKUP_SEMANTICS, 0) if err != nil { return err } defer func() { if err := syscall.Close(handle); err != nil { debug.Log("Error closing file handle for %s: %v\n", path, err) } }() return syscall.SetFileTime(handle, creationTime, nil, nil) } // restoreFileAttributes gets the File Attributes from the data and sets them to the file/folder // at the specified path. func restoreFileAttributes(path string, fileAttributes *uint32) (err error) { pathPointer, err := syscall.UTF16PtrFromString(path) if err != nil { return err } err = fixEncryptionAttribute(path, fileAttributes, pathPointer) if err != nil { debug.Log("Could not change encryption attribute for path: %s: %v", path, err) } return syscall.SetFileAttributes(pathPointer, *fileAttributes) } // fixEncryptionAttribute checks if a file needs to be marked encrypted and is not already encrypted, it sets // the FILE_ATTRIBUTE_ENCRYPTED. Conversely, if the file needs to be marked unencrypted and it is already // marked encrypted, it removes the FILE_ATTRIBUTE_ENCRYPTED. func fixEncryptionAttribute(path string, attrs *uint32, pathPointer *uint16) (err error) { if *attrs&windows.FILE_ATTRIBUTE_ENCRYPTED != 0 { // File should be encrypted. err = encryptFile(pathPointer) if err != nil { if IsAccessDenied(err) || errors.Is(err, windows.ERROR_FILE_READ_ONLY) { // If existing file already has readonly or system flag, encrypt file call fails. // The readonly and system flags will be set again at the end of this func if they are needed. err = ResetPermissions(path) if err != nil { return fmt.Errorf("failed to encrypt file: failed to reset permissions: %s : %v", path, err) } err = clearSystem(path) if err != nil { return fmt.Errorf("failed to encrypt file: failed to clear system flag: %s : %v", path, err) } err = encryptFile(pathPointer) if err != nil { return fmt.Errorf("failed retry to encrypt file: %s : %v", path, err) } } else { return fmt.Errorf("failed to encrypt file: %s : %v", path, err) } } } else { existingAttrs, err := windows.GetFileAttributes(pathPointer) if err != nil { return fmt.Errorf("failed to get file attributes for existing file: %s : %v", path, err) } if existingAttrs&windows.FILE_ATTRIBUTE_ENCRYPTED != 0 { // File should not be encrypted, but its already encrypted. Decrypt it. err = decryptFile(pathPointer) if err != nil { if IsAccessDenied(err) || errors.Is(err, windows.ERROR_FILE_READ_ONLY) { // If existing file already has readonly or system flag, decrypt file call fails. // The readonly and system flags will be set again after this func if they are needed. err = ResetPermissions(path) if err != nil { return fmt.Errorf("failed to encrypt file: failed to reset permissions: %s : %v", path, err) } err = clearSystem(path) if err != nil { return fmt.Errorf("failed to decrypt file: failed to clear system flag: %s : %v", path, err) } err = decryptFile(pathPointer) if err != nil { return fmt.Errorf("failed retry to decrypt file: %s : %v", path, err) } } else { return fmt.Errorf("failed to decrypt file: %s : %v", path, err) } } } } return err } // encryptFile set the encrypted flag on the file. func encryptFile(pathPointer *uint16) error { // Call EncryptFile function ret, _, err := procEncryptFile.Call(uintptr(unsafe.Pointer(pathPointer))) if ret == 0 { return err } return nil } // decryptFile removes the encrypted flag from the file. func decryptFile(pathPointer *uint16) error { // Call DecryptFile function ret, _, err := procDecryptFile.Call(uintptr(unsafe.Pointer(pathPointer))) if ret == 0 { return err } return nil } // nodeFillGenericAttributes fills in the generic attributes for windows like File Attributes, // Created time and Security Descriptors. // It also checks if the volume supports extended attributes and stores the result in a map // so that it does not have to be checked again for subsequent calls for paths in the same volume. func nodeFillGenericAttributes(node *restic.Node, path string, stat *ExtendedFileInfo) (allowExtended bool, err error) { if strings.Contains(filepath.Base(path), ":") { // Do not process for Alternate Data Streams in Windows // Also do not allow processing of extended attributes for ADS. return false, nil } if strings.HasSuffix(filepath.Clean(path), `\`) { // filepath.Clean(path) ends with '\' for Windows root volume paths only // Do not process file attributes, created time and sd for windows root volume paths // Security descriptors are not supported for root volume paths. // Though file attributes and created time are supported for root volume paths, // we ignore them and we do not want to replace them during every restore. allowExtended, err = checkAndStoreEASupport(path) if err != nil { return false, err } return allowExtended, nil } var sd *[]byte if node.Type == restic.NodeTypeFile || node.Type == restic.NodeTypeDir { // Check EA support and get security descriptor for file/dir only allowExtended, err = checkAndStoreEASupport(path) if err != nil { return false, err } if sd, err = getSecurityDescriptor(path); err != nil { return allowExtended, err } } winFI := stat.Sys().(*syscall.Win32FileAttributeData) // Add Windows attributes node.GenericAttributes, err = restic.WindowsAttrsToGenericAttributes(restic.WindowsAttributes{ CreationTime: &winFI.CreationTime, FileAttributes: &winFI.FileAttributes, SecurityDescriptor: sd, }) return allowExtended, err } // checkAndStoreEASupport checks if the volume of the path supports extended attributes and stores the result in a map // If the result is already in the map, it returns the result from the map. func checkAndStoreEASupport(path string) (isEASupportedVolume bool, err error) { var volumeName string volumeName, err = prepareVolumeName(path) if err != nil { return false, err } if volumeName != "" { // First check if the manually prepared volume name is already in the map eaSupportedValue, exists := eaSupportedVolumesMap.Load(volumeName) if exists { // Cache hit, immediately return the cached value return eaSupportedValue.(bool), nil } // If not found, check if EA is supported with manually prepared volume name isEASupportedVolume, err = pathSupportsExtendedAttributes(volumeName + `\`) // If the prepared volume name is not valid, we will fetch the actual volume name next. if err != nil && !errors.Is(err, windows.DNS_ERROR_INVALID_NAME) { debug.Log("Error checking if extended attributes are supported for prepared volume name %s: %v", volumeName, err) // There can be multiple errors like path does not exist, bad network path, etc. // We just gracefully disallow extended attributes for cases. return false, nil } } // If an entry is not found, get the actual volume name volumeNameActual, err := getVolumePathName(path) if err != nil { debug.Log("Error getting actual volume name %s for path %s: %v", volumeName, path, err) // There can be multiple errors like path does not exist, bad network path, etc. // We just gracefully disallow extended attributes for cases. return false, nil } if volumeNameActual != volumeName { // If the actual volume name is different, check cache for the actual volume name eaSupportedValue, exists := eaSupportedVolumesMap.Load(volumeNameActual) if exists { // Cache hit, immediately return the cached value return eaSupportedValue.(bool), nil } // If the actual volume name is different and is not in the map, again check if the new volume supports extended attributes with the actual volume name isEASupportedVolume, err = pathSupportsExtendedAttributes(volumeNameActual + `\`) // Debug log for cases where the prepared volume name is not valid if err != nil { debug.Log("Error checking if extended attributes are supported for actual volume name %s: %v", volumeNameActual, err) // There can be multiple errors like path does not exist, bad network path, etc. // We just gracefully disallow extended attributes for cases. return false, nil } else { debug.Log("Checking extended attributes. Prepared volume name: %s, actual volume name: %s, isEASupportedVolume: %v, err: %v", volumeName, volumeNameActual, isEASupportedVolume, err) } } if volumeNameActual != "" { eaSupportedVolumesMap.Store(volumeNameActual, isEASupportedVolume) } return isEASupportedVolume, err } // prepareVolumeName prepares the volume name for different cases in Windows func prepareVolumeName(path string) (volumeName string, err error) { // Check if it's an extended length path if strings.HasPrefix(path, globalRootPrefix) { // Extract the VSS snapshot volume name eg. `\\?\GLOBALROOT\Device\HarddiskVolumeShadowCopyXX` if parts := strings.SplitN(path, `\`, 7); len(parts) >= 6 { volumeName = strings.Join(parts[:6], `\`) } else { volumeName = filepath.VolumeName(path) } } else { if !strings.HasPrefix(path, volumeGUIDPrefix) { // Handle volume GUID path if strings.HasPrefix(path, uncPathPrefix) { // Convert \\?\UNC\ extended path to standard path to get the volume name correctly path = `\\` + path[len(uncPathPrefix):] } else if strings.HasPrefix(path, extendedPathPrefix) { //Extended length path prefix needs to be trimmed to get the volume name correctly path = path[len(extendedPathPrefix):] } else { // Use the absolute path path, err = filepath.Abs(path) if err != nil { return "", fmt.Errorf("failed to get absolute path: %w", err) } } } volumeName = filepath.VolumeName(path) } return volumeName, nil }