// Package local provides a filesystem interface package local import ( "fmt" "io" "io/ioutil" "os" "path" "path/filepath" "regexp" "runtime" "strings" "sync" "time" "unicode/utf8" "github.com/ncw/rclone/fs" ) // Register with Fs func init() { fsi := &fs.RegInfo{ Name: "local", Description: "Local Disk", NewFs: NewFs, Options: []fs.Option{{ Name: "nounc", Help: "Disable UNC (long path names) conversion on Windows", Optional: true, Examples: []fs.OptionExample{{ Value: "true", Help: "Disables long file names", }}, }}, } fs.Register(fsi) } // Fs represents a local filesystem rooted at root type Fs struct { name string // the name of the remote root string // The root directory precisionOk sync.Once // Whether we need to read the precision precision time.Duration // precision of local filesystem wmu sync.Mutex // used for locking access to 'warned'. warned map[string]struct{} // whether we have warned about this string nounc bool // Skip UNC conversion on Windows } // Object represents a local filesystem object type Object struct { fs *Fs // The Fs this object is part of remote string // The remote path path string // The local path info os.FileInfo // Interface for file info (always present) hashes map[fs.HashType]string // Hashes } // ------------------------------------------------------------ // NewFs constructs an Fs from the path func NewFs(name, root string) (fs.Fs, error) { var err error nounc, _ := fs.ConfigFile.GetValue(name, "nounc") f := &Fs{ name: name, warned: make(map[string]struct{}), nounc: nounc == "true", } f.root = f.filterPath(f.cleanUtf8(root)) // Check to see if this points to a file fi, err := os.Lstat(f.root) if err == nil && fi.Mode().IsRegular() { // It is a file, so use the parent as the root var remote string f.root, remote = getDirFile(f.root) obj := f.NewFsObject(remote) if obj == nil { return nil, fmt.Errorf("Failed to make object for %q in %q", remote, f.root) } // return a Fs Limited to this object return fs.NewLimited(f, obj), nil } return f, nil } // Name of the remote (as passed into NewFs) func (f *Fs) Name() string { return f.name } // Root of the remote (as passed into NewFs) func (f *Fs) Root() string { return f.root } // String converts this Fs to a string func (f *Fs) String() string { return fmt.Sprintf("Local file system at %s", f.root) } // newFsObject makes a half completed Object func (f *Fs) newFsObject(remote string) *Object { remote = normString(remote) remote = filepath.ToSlash(remote) dstPath := f.filterPath(filepath.Join(f.root, f.cleanUtf8(remote))) return &Object{ fs: f, remote: remote, path: dstPath, } } // Return an FsObject from a path // // May return nil if an error occurred func (f *Fs) newFsObjectWithInfo(remote string, info os.FileInfo) fs.Object { o := f.newFsObject(remote) if info != nil { o.info = info } else { err := o.lstat() if err != nil { fs.Debug(o, "Failed to stat %s: %s", o.path, err) return nil } } return o } // NewFsObject returns an FsObject from a path // // May return nil if an error occurred func (f *Fs) NewFsObject(remote string) fs.Object { return f.newFsObjectWithInfo(remote, nil) } // listArgs is the arguments that a new list takes type listArgs struct { remote string dirpath string level int } // list traverses the directory passed in, listing to out. // it returns a boolean whether it is finished or not. func (f *Fs) list(out fs.ListOpts, remote string, dirpath string, level int) (subdirs []listArgs) { fd, err := os.Open(dirpath) if err != nil { out.SetError(err) fs.Stats.Error() fs.ErrorLog(f, "Failed to open directory: %s: %s", dirpath, err) return nil } defer func() { err := fd.Close() if err != nil { out.SetError(err) fs.Stats.Error() fs.ErrorLog(f, "Failed to close directory: %s: %s", dirpath, err) } }() for { fis, err := fd.Readdir(1024) if err == io.EOF && len(fis) == 0 { break } if err != nil { out.SetError(err) fs.Stats.Error() fs.ErrorLog(f, "Failed to read directory: %s: %s", dirpath, err) return nil } for _, fi := range fis { name := fi.Name() newRemote := path.Join(remote, name) newPath := filepath.Join(dirpath, name) if fi.IsDir() { if out.IncludeDirectory(newRemote) { dir := &fs.Dir{ Name: f.cleanUtf8(newRemote), When: fi.ModTime(), Bytes: 0, Count: 0, } if out.AddDir(dir) { return nil } if level > 0 { subdirs = append(subdirs, listArgs{remote: newRemote, dirpath: newPath, level: level - 1}) } } } else { if fso := f.newFsObjectWithInfo(newRemote, fi); fso != nil { if fso.Storable() && out.Add(fso) { return nil } } } } } return subdirs } // List the path into out // // Ignores everything which isn't Storable, eg links etc func (f *Fs) List(out fs.ListOpts, dir string) { defer out.Finished() root := path.Join(f.root, dir) _, err := os.Stat(root) if err != nil { out.SetError(fs.ErrorDirNotFound) return } in := make(chan listArgs, out.Buffer()) var wg sync.WaitGroup // sync closing of go routines var traversing sync.WaitGroup // running directory traversals // Start the process traversing.Add(1) in <- listArgs{remote: dir, dirpath: root, level: out.Level() - 1} for i := 0; i < fs.Config.Checkers; i++ { wg.Add(1) go func() { defer wg.Done() for job := range in { if out.IsFinished() { continue } newJobs := f.list(out, job.remote, job.dirpath, job.level) // Now we have traversed this directory, send // these ones off for traversal if len(newJobs) != 0 { traversing.Add(len(newJobs)) go func() { for _, newJob := range newJobs { in <- newJob } }() } traversing.Done() } }() } // Wait for traversal to finish traversing.Wait() close(in) wg.Wait() } // CleanUtf8 makes string a valid UTF-8 string // // Any invalid UTF-8 characters will be replaced with utf8.RuneError func (f *Fs) cleanUtf8(name string) string { if !utf8.ValidString(name) { f.wmu.Lock() if _, ok := f.warned[name]; !ok { fs.Debug(f, "Replacing invalid UTF-8 characters in %q", name) f.warned[name] = struct{}{} } f.wmu.Unlock() name = string([]rune(name)) } if runtime.GOOS == "windows" { name = cleanWindowsName(f, name) } return name } // Put the FsObject to the local filesystem func (f *Fs) Put(in io.Reader, src fs.ObjectInfo) (fs.Object, error) { remote := src.Remote() // Temporary FsObject under construction - info filled in by Update() o := f.newFsObject(remote) err := o.Update(in, src) if err != nil { return nil, err } return o, nil } // Mkdir creates the directory if it doesn't exist func (f *Fs) Mkdir() error { // FIXME: https://github.com/syncthing/syncthing/blob/master/lib/osutil/mkdirall_windows.go return os.MkdirAll(f.root, 0777) } // Rmdir removes the directory // // If it isn't empty it will return an error func (f *Fs) Rmdir() error { return os.Remove(f.root) } // Precision of the file system func (f *Fs) Precision() (precision time.Duration) { f.precisionOk.Do(func() { f.precision = f.readPrecision() }) return f.precision } // Read the precision func (f *Fs) readPrecision() (precision time.Duration) { // Default precision of 1s precision = time.Second // Create temporary file and test it fd, err := ioutil.TempFile("", "rclone") if err != nil { // If failed return 1s // fmt.Println("Failed to create temp file", err) return time.Second } path := fd.Name() // fmt.Println("Created temp file", path) err = fd.Close() if err != nil { return time.Second } // Delete it on return defer func() { // fmt.Println("Remove temp file") _ = os.Remove(path) // ignore error }() // Find the minimum duration we can detect for duration := time.Duration(1); duration < time.Second; duration *= 10 { // Current time with delta t := time.Unix(time.Now().Unix(), int64(duration)) err := os.Chtimes(path, t, t) if err != nil { // fmt.Println("Failed to Chtimes", err) break } // Read the actual time back fi, err := os.Stat(path) if err != nil { // fmt.Println("Failed to Stat", err) break } // If it matches - have found the precision // fmt.Println("compare", fi.ModTime(), t) if fi.ModTime() == t { // fmt.Println("Precision detected as", duration) return duration } } return } // Purge deletes all the files and directories // // Optional interface: Only implement this if you have a way of // deleting all the files quicker than just running Remove() on the // result of List() func (f *Fs) Purge() error { fi, err := os.Lstat(f.root) if err != nil { return err } if !fi.Mode().IsDir() { return fmt.Errorf("Can't Purge non directory: %q", f.root) } return os.RemoveAll(f.root) } // Move src to this remote using server side move operations. // // This is stored with the remote path given // // It returns the destination Object and a possible error // // Will only be called if src.Fs().Name() == f.Name() // // If it isn't possible then return fs.ErrorCantMove func (f *Fs) Move(src fs.Object, remote string) (fs.Object, error) { srcObj, ok := src.(*Object) if !ok { fs.Debug(src, "Can't move - not same remote type") return nil, fs.ErrorCantMove } // Temporary FsObject under construction dstObj := f.newFsObject(remote) // Check it is a file if it exists err := dstObj.lstat() if os.IsNotExist(err) { // OK } else if err != nil { return nil, err } else if !dstObj.info.Mode().IsRegular() { // It isn't a file return nil, fmt.Errorf("Can't move file onto non-file") } // Create destination err = dstObj.mkdirAll() if err != nil { return nil, err } // Do the move err = os.Rename(srcObj.path, dstObj.path) if err != nil { return nil, err } // Update the info err = dstObj.lstat() if err != nil { return nil, err } return dstObj, nil } // DirMove moves src directory to this remote using server side move // operations. // // Will only be called if src.Fs().Name() == f.Name() // // If it isn't possible then return fs.ErrorCantDirMove // // If destination exists then return fs.ErrorDirExists func (f *Fs) DirMove(src fs.Fs) error { srcFs, ok := src.(*Fs) if !ok { fs.Debug(srcFs, "Can't move directory - not same remote type") return fs.ErrorCantDirMove } // Check if source exists sstat, err := os.Lstat(srcFs.root) if err != nil { return err } // And is a directory if !sstat.IsDir() { return fs.ErrorCantDirMove } // Check if destination exists _, err = os.Lstat(f.root) if !os.IsNotExist(err) { return fs.ErrorDirExists } // Do the move return os.Rename(srcFs.root, f.root) } // Hashes returns the supported hash sets. func (f *Fs) Hashes() fs.HashSet { return fs.SupportedHashes } // ------------------------------------------------------------ // Fs returns the parent Fs func (o *Object) Fs() fs.Info { return o.fs } // Return a string version func (o *Object) String() string { if o == nil { return "" } return o.remote } // Remote returns the remote path func (o *Object) Remote() string { return o.fs.cleanUtf8(o.remote) } // Hash returns the requested hash of a file as a lowercase hex string func (o *Object) Hash(r fs.HashType) (string, error) { // Check that the underlying file hasn't changed oldtime := o.info.ModTime() oldsize := o.info.Size() err := o.lstat() if err != nil { fs.Stats.Error() fs.ErrorLog(o, "Failed to stat: %s", err) return "", err } if !o.info.ModTime().Equal(oldtime) || oldsize != o.info.Size() { o.hashes = nil } if o.hashes == nil { o.hashes = make(map[fs.HashType]string) in, err := os.Open(o.path) if err != nil { fs.Stats.Error() fs.ErrorLog(o, "Failed to open: %s", err) return "", err } o.hashes, err = fs.HashStream(in) closeErr := in.Close() if err != nil { fs.Stats.Error() fs.ErrorLog(o, "Failed to read: %s", err) return "", err } if closeErr != nil { fs.Stats.Error() fs.ErrorLog(o, "Failed to close: %s", closeErr) return "", closeErr } } return o.hashes[r], nil } // Size returns the size of an object in bytes func (o *Object) Size() int64 { return o.info.Size() } // ModTime returns the modification time of the object func (o *Object) ModTime() time.Time { return o.info.ModTime() } // SetModTime sets the modification time of the local fs object func (o *Object) SetModTime(modTime time.Time) error { err := os.Chtimes(o.path, modTime, modTime) if err != nil { return err } // Re-read metadata return o.lstat() } // Storable returns a boolean showing if this object is storable func (o *Object) Storable() bool { mode := o.info.Mode() if mode&(os.ModeSymlink|os.ModeNamedPipe|os.ModeSocket|os.ModeDevice) != 0 { fs.Debug(o, "Can't transfer non file/directory") return false } else if mode&os.ModeDir != 0 { // fs.Debug(o, "Skipping directory") return false } return true } // localOpenFile wraps an io.ReadCloser and updates the md5sum of the // object that is read type localOpenFile struct { o *Object // object that is open in io.ReadCloser // handle we are wrapping hash *fs.MultiHasher // currently accumulating hashes } // Read bytes from the object - see io.Reader func (file *localOpenFile) Read(p []byte) (n int, err error) { n, err = file.in.Read(p) if n > 0 { // Hash routines never return an error _, _ = file.hash.Write(p[:n]) } return } // Close the object and update the md5sum func (file *localOpenFile) Close() (err error) { err = file.in.Close() if err == nil { file.o.hashes = file.hash.Sums() } else { file.o.hashes = nil } return err } // Open an object for read func (o *Object) Open() (in io.ReadCloser, err error) { in, err = os.Open(o.path) if err != nil { return } // Update the md5sum as we go along in = &localOpenFile{ o: o, in: in, hash: fs.NewMultiHasher(), } return } // mkdirAll makes all the directories needed to store the object func (o *Object) mkdirAll() error { dir, _ := getDirFile(o.path) return os.MkdirAll(dir, 0777) } // Update the object from in with modTime and size func (o *Object) Update(in io.Reader, src fs.ObjectInfo) error { err := o.mkdirAll() if err != nil { return err } out, err := os.Create(o.path) if err != nil { return err } // Calculate the hash of the object we are reading as we go along hash := fs.NewMultiHasher() in = io.TeeReader(in, hash) _, err = io.Copy(out, in) outErr := out.Close() if err != nil { return err } if outErr != nil { return outErr } // All successful so update the hashes o.hashes = hash.Sums() // Set the mtime err = o.SetModTime(src.ModTime()) if err != nil { return err } // ReRead info now that we have finished return o.lstat() } // Stat a FsObject into info func (o *Object) lstat() error { info, err := os.Lstat(o.path) o.info = info return err } // Remove an object func (o *Object) Remove() error { return os.Remove(o.path) } // Return the current directory and file from a path // Assumes os.PathSeparator is used. func getDirFile(s string) (string, string) { i := strings.LastIndex(s, string(os.PathSeparator)) dir, file := s[:i], s[i+1:] if dir == "" { dir = string(os.PathSeparator) } return dir, file } func (f *Fs) filterPath(s string) string { s = filepath.Clean(s) if runtime.GOOS == "windows" { s = strings.Replace(s, `/`, `\`, -1) if !filepath.IsAbs(s) && !strings.HasPrefix(s, "\\") { s2, err := filepath.Abs(s) if err == nil { s = s2 } } if f.nounc { return s } // Convert to UNC return uncPath(s) } if !filepath.IsAbs(s) { s2, err := filepath.Abs(s) if err == nil { s = s2 } } return s } // Pattern to match a windows absolute path: "c:\" and similar var isAbsWinDrive = regexp.MustCompile(`^[a-zA-Z]\:\\`) // uncPath converts an absolute Windows path // to a UNC long path. func uncPath(s string) string { // UNC can NOT use "/", so convert all to "\" s = strings.Replace(s, `/`, `\`, -1) // If prefix is "\\", we already have a UNC path or server. if strings.HasPrefix(s, `\\`) { // If already long path, just keep it if strings.HasPrefix(s, `\\?\`) { return s } // Trim "\\" from path and add UNC prefix. return `\\?\UNC\` + strings.TrimPrefix(s, `\\`) } if isAbsWinDrive.MatchString(s) { return `\\?\` + s } return s } // cleanWindowsName will clean invalid Windows characters func cleanWindowsName(f *Fs, name string) string { original := name var name2 string if strings.HasPrefix(name, `\\?\`) { name2 = `\\?\` name = strings.TrimPrefix(name, `\\?\`) } if strings.HasPrefix(name, `//?/`) { name2 = `//?/` name = strings.TrimPrefix(name, `//?/`) } // Colon is allowed as part of a drive name X:\ colonAt := strings.Index(name, ":") if colonAt > 0 && colonAt < 3 && len(name) > colonAt+1 { // Copy to name2, which is unfiltered name2 += name[0 : colonAt+1] name = name[colonAt+1:] } name2 += strings.Map(func(r rune) rune { switch r { case '<', '>', '"', '|', '?', '*', ':': return '_' } return r }, name) if name2 != original && f != nil { f.wmu.Lock() if _, ok := f.warned[name]; !ok { fs.Debug(f, "Replacing invalid characters in %q to %q", name, name2) f.warned[name] = struct{}{} } f.wmu.Unlock() } return name2 } // Check the interfaces are satisfied var ( _ fs.Fs = &Fs{} _ fs.Purger = &Fs{} _ fs.Mover = &Fs{} _ fs.DirMover = &Fs{} _ fs.Object = &Object{} )