// Package sync is the implementation of sync/copy/move package sync import ( "context" "fmt" "path" "sort" "sync" "github.com/ncw/rclone/fs" "github.com/ncw/rclone/fs/accounting" "github.com/ncw/rclone/fs/filter" "github.com/ncw/rclone/fs/fserrors" "github.com/ncw/rclone/fs/hash" "github.com/ncw/rclone/fs/march" "github.com/ncw/rclone/fs/operations" "github.com/pkg/errors" ) type syncCopyMove struct { // parameters fdst fs.Fs fsrc fs.Fs deleteMode fs.DeleteMode // how we are doing deletions DoMove bool deleteEmptySrcDirs bool dir string // internal state ctx context.Context // internal context for controlling go-routines cancel func() // cancel the context deletersWg sync.WaitGroup // for delete before go routine deleteFilesCh chan fs.Object // channel to receive deletes if delete before trackRenames bool // set if we should do server side renames dstFilesMu sync.Mutex // protect dstFiles dstFiles map[string]fs.Object // dst files, always filled srcFiles map[string]fs.Object // src files, only used if deleteBefore srcFilesChan chan fs.Object // passes src objects srcFilesResult chan error // error result of src listing dstFilesResult chan error // error result of dst listing dstEmptyDirsMu sync.Mutex // protect dstEmptyDirs dstEmptyDirs map[string]fs.DirEntry // potentially empty directories srcEmptyDirsMu sync.Mutex // protect srcEmptyDirs srcEmptyDirs map[string]fs.DirEntry // potentially empty directories checkerWg sync.WaitGroup // wait for checkers toBeChecked *pipe // checkers channel transfersWg sync.WaitGroup // wait for transfers toBeUploaded *pipe // copiers channel errorMu sync.Mutex // Mutex covering the errors variables err error // normal error from copy process noRetryErr error // error with NoRetry set fatalErr error // fatal error commonHash hash.Type // common hash type between src and dst renameMapMu sync.Mutex // mutex to protect the below renameMap map[string][]fs.Object // dst files by hash - only used by trackRenames renamerWg sync.WaitGroup // wait for renamers toBeRenamed *pipe // renamers channel trackRenamesWg sync.WaitGroup // wg for background track renames trackRenamesCh chan fs.Object // objects are pumped in here renameCheck []fs.Object // accumulate files to check for rename here backupDir fs.Fs // place to store overwrites/deletes suffix string // suffix to add to files placed in backupDir } func newSyncCopyMove(fdst, fsrc fs.Fs, deleteMode fs.DeleteMode, DoMove bool, deleteEmptySrcDirs bool) (*syncCopyMove, error) { s := &syncCopyMove{ fdst: fdst, fsrc: fsrc, deleteMode: deleteMode, DoMove: DoMove, deleteEmptySrcDirs: deleteEmptySrcDirs, dir: "", srcFilesChan: make(chan fs.Object, fs.Config.Checkers+fs.Config.Transfers), srcFilesResult: make(chan error, 1), dstFilesResult: make(chan error, 1), dstEmptyDirs: make(map[string]fs.DirEntry), srcEmptyDirs: make(map[string]fs.DirEntry), toBeChecked: newPipe(accounting.Stats.SetCheckQueue, fs.Config.MaxBacklog), toBeUploaded: newPipe(accounting.Stats.SetTransferQueue, fs.Config.MaxBacklog), deleteFilesCh: make(chan fs.Object, fs.Config.Checkers), trackRenames: fs.Config.TrackRenames, commonHash: fsrc.Hashes().Overlap(fdst.Hashes()).GetOne(), toBeRenamed: newPipe(accounting.Stats.SetRenameQueue, fs.Config.MaxBacklog), trackRenamesCh: make(chan fs.Object, fs.Config.Checkers), } s.ctx, s.cancel = context.WithCancel(context.Background()) if s.trackRenames { // Don't track renames for remotes without server-side move support. if !operations.CanServerSideMove(fdst) { fs.Errorf(fdst, "Ignoring --track-renames as the destination does not support server-side move or copy") s.trackRenames = false } if s.commonHash == hash.None { fs.Errorf(fdst, "Ignoring --track-renames as the source and destination do not have a common hash") s.trackRenames = false } if s.deleteMode == fs.DeleteModeOff { fs.Errorf(fdst, "Ignoring --track-renames as it doesn't work with copy or move, only sync") s.trackRenames = false } } if s.trackRenames { // track renames needs delete after if s.deleteMode != fs.DeleteModeOff { s.deleteMode = fs.DeleteModeAfter } } // Make Fs for --backup-dir if required if fs.Config.BackupDir != "" { var err error s.backupDir, err = fs.NewFs(fs.Config.BackupDir) if err != nil { return nil, fserrors.FatalError(errors.Errorf("Failed to make fs for --backup-dir %q: %v", fs.Config.BackupDir, err)) } if !operations.CanServerSideMove(s.backupDir) { return nil, fserrors.FatalError(errors.New("can't use --backup-dir on a remote which doesn't support server side move or copy")) } if !operations.SameConfig(fdst, s.backupDir) { return nil, fserrors.FatalError(errors.New("parameter to --backup-dir has to be on the same remote as destination")) } if operations.Overlapping(fdst, s.backupDir) { return nil, fserrors.FatalError(errors.New("destination and parameter to --backup-dir mustn't overlap")) } if operations.Overlapping(fsrc, s.backupDir) { return nil, fserrors.FatalError(errors.New("source and parameter to --backup-dir mustn't overlap")) } s.suffix = fs.Config.Suffix } return s, nil } // Check to see if the context has been cancelled func (s *syncCopyMove) aborting() bool { return s.ctx.Err() != nil } // This reads the map and pumps it into the channel passed in, closing // the channel at the end func (s *syncCopyMove) pumpMapToChan(files map[string]fs.Object, out chan<- fs.Object) { outer: for _, o := range files { if s.aborting() { break outer } select { case out <- o: case <-s.ctx.Done(): break outer } } close(out) s.srcFilesResult <- nil } // This checks the types of errors returned while copying files func (s *syncCopyMove) processError(err error) { if err == nil { return } s.errorMu.Lock() defer s.errorMu.Unlock() switch { case fserrors.IsFatalError(err): if !s.aborting() { fs.Errorf(nil, "Cancelling sync due to fatal error: %v", err) s.cancel() } s.fatalErr = err case fserrors.IsNoRetryError(err): s.noRetryErr = err default: s.err = err } } // Returns the current error (if any) in the order of prececedence // fatalErr // normal error // noRetryErr func (s *syncCopyMove) currentError() error { s.errorMu.Lock() defer s.errorMu.Unlock() if s.fatalErr != nil { return s.fatalErr } if s.err != nil { return s.err } return s.noRetryErr } // pairChecker reads Objects~s on in send to out if they need transferring. // // FIXME potentially doing lots of hashes at once func (s *syncCopyMove) pairChecker(in *pipe, out *pipe, wg *sync.WaitGroup) { defer wg.Done() for { pair, ok := in.Get(s.ctx) if !ok { return } src := pair.Src accounting.Stats.Checking(src.Remote()) // Check to see if can store this if src.Storable() { if operations.NeedTransfer(pair.Dst, pair.Src) { // If files are treated as immutable, fail if destination exists and does not match if fs.Config.Immutable && pair.Dst != nil { fs.Errorf(pair.Dst, "Source and destination exist but do not match: immutable file modified") s.processError(fs.ErrorImmutableModified) } else { // If destination already exists, then we must move it into --backup-dir if required if pair.Dst != nil && s.backupDir != nil { remoteWithSuffix := pair.Dst.Remote() + s.suffix overwritten, _ := s.backupDir.NewObject(remoteWithSuffix) _, err := operations.Move(s.backupDir, overwritten, remoteWithSuffix, pair.Dst) if err != nil { s.processError(err) } else { // If successful zero out the dst as it is no longer there and copy the file pair.Dst = nil ok = out.Put(s.ctx, pair) if !ok { return } } } else { ok = out.Put(s.ctx, pair) if !ok { return } } } } else { // If moving need to delete the files we don't need to copy if s.DoMove { // Delete src if no error on copy s.processError(operations.DeleteFile(src)) } } } accounting.Stats.DoneChecking(src.Remote()) } } // pairRenamer reads Objects~s on in and attempts to rename them, // otherwise it sends them out if they need transferring. func (s *syncCopyMove) pairRenamer(in *pipe, out *pipe, wg *sync.WaitGroup) { defer wg.Done() for { pair, ok := in.Get(s.ctx) if !ok { return } src := pair.Src if !s.tryRename(src) { // pass on if not renamed ok = out.Put(s.ctx, pair) if !ok { return } } } } // pairCopyOrMove reads Objects on in and moves or copies them. func (s *syncCopyMove) pairCopyOrMove(in *pipe, fdst fs.Fs, wg *sync.WaitGroup) { defer wg.Done() var err error for { pair, ok := in.Get(s.ctx) if !ok { return } src := pair.Src accounting.Stats.Transferring(src.Remote()) if s.DoMove { _, err = operations.Move(fdst, pair.Dst, src.Remote(), src) } else { _, err = operations.Copy(fdst, pair.Dst, src.Remote(), src) } s.processError(err) accounting.Stats.DoneTransferring(src.Remote(), err == nil) } } // This starts the background checkers. func (s *syncCopyMove) startCheckers() { s.checkerWg.Add(fs.Config.Checkers) for i := 0; i < fs.Config.Checkers; i++ { go s.pairChecker(s.toBeChecked, s.toBeUploaded, &s.checkerWg) } } // This stops the background checkers func (s *syncCopyMove) stopCheckers() { s.toBeChecked.Close() fs.Infof(s.fdst, "Waiting for checks to finish") s.checkerWg.Wait() } // This starts the background transfers func (s *syncCopyMove) startTransfers() { s.transfersWg.Add(fs.Config.Transfers) for i := 0; i < fs.Config.Transfers; i++ { go s.pairCopyOrMove(s.toBeUploaded, s.fdst, &s.transfersWg) } } // This stops the background transfers func (s *syncCopyMove) stopTransfers() { s.toBeUploaded.Close() fs.Infof(s.fdst, "Waiting for transfers to finish") s.transfersWg.Wait() } // This starts the background renamers. func (s *syncCopyMove) startRenamers() { if !s.trackRenames { return } s.renamerWg.Add(fs.Config.Checkers) for i := 0; i < fs.Config.Checkers; i++ { go s.pairRenamer(s.toBeRenamed, s.toBeUploaded, &s.renamerWg) } } // This stops the background renamers func (s *syncCopyMove) stopRenamers() { if !s.trackRenames { return } s.toBeRenamed.Close() fs.Infof(s.fdst, "Waiting for renames to finish") s.renamerWg.Wait() } // This starts the collection of possible renames func (s *syncCopyMove) startTrackRenames() { if !s.trackRenames { return } s.trackRenamesWg.Add(1) go func() { defer s.trackRenamesWg.Done() for o := range s.trackRenamesCh { s.renameCheck = append(s.renameCheck, o) } }() } // This stops the background rename collection func (s *syncCopyMove) stopTrackRenames() { if !s.trackRenames { return } close(s.trackRenamesCh) s.trackRenamesWg.Wait() } // This starts the background deletion of files for --delete-during func (s *syncCopyMove) startDeleters() { if s.deleteMode != fs.DeleteModeDuring && s.deleteMode != fs.DeleteModeOnly { return } s.deletersWg.Add(1) go func() { defer s.deletersWg.Done() err := operations.DeleteFilesWithBackupDir(s.deleteFilesCh, s.backupDir) s.processError(err) }() } // This stops the background deleters func (s *syncCopyMove) stopDeleters() { if s.deleteMode != fs.DeleteModeDuring && s.deleteMode != fs.DeleteModeOnly { return } close(s.deleteFilesCh) s.deletersWg.Wait() } // This deletes the files in the dstFiles map. If checkSrcMap is set // then it checks to see if they exist first in srcFiles the source // file map, otherwise it unconditionally deletes them. If // checkSrcMap is clear then it assumes that the any source files that // have been found have been removed from dstFiles already. func (s *syncCopyMove) deleteFiles(checkSrcMap bool) error { if accounting.Stats.Errored() && !fs.Config.IgnoreErrors { fs.Errorf(s.fdst, "%v", fs.ErrorNotDeleting) return fs.ErrorNotDeleting } // Delete the spare files toDelete := make(fs.ObjectsChan, fs.Config.Transfers) go func() { outer: for remote, o := range s.dstFiles { if checkSrcMap { _, exists := s.srcFiles[remote] if exists { continue } } if s.aborting() { break } select { case <-s.ctx.Done(): break outer case toDelete <- o: } } close(toDelete) }() return operations.DeleteFilesWithBackupDir(toDelete, s.backupDir) } // This deletes the empty directories in the slice passed in. It // ignores any errors deleting directories func deleteEmptyDirectories(f fs.Fs, entriesMap map[string]fs.DirEntry) error { if len(entriesMap) == 0 { return nil } if accounting.Stats.Errored() && !fs.Config.IgnoreErrors { fs.Errorf(f, "%v", fs.ErrorNotDeletingDirs) return fs.ErrorNotDeletingDirs } var entries fs.DirEntries for _, entry := range entriesMap { entries = append(entries, entry) } // Now delete the empty directories starting from the longest path sort.Sort(entries) var errorCount int var okCount int for i := len(entries) - 1; i >= 0; i-- { entry := entries[i] dir, ok := entry.(fs.Directory) if ok { // TryRmdir only deletes empty directories err := operations.TryRmdir(f, dir.Remote()) if err != nil { fs.Debugf(fs.LogDirName(f, dir.Remote()), "Failed to Rmdir: %v", err) errorCount++ } else { okCount++ } } else { fs.Errorf(f, "Not a directory: %v", entry) } } if errorCount > 0 { fs.Debugf(f, "failed to delete %d directories", errorCount) } if okCount > 0 { fs.Debugf(f, "deleted %d directories", okCount) } return nil } // This copies the empty directories in the slice passed in and logs // any errors copying the directories func copyEmptyDirectories(f fs.Fs, entries map[string]fs.DirEntry) error { if len(entries) == 0 { return nil } var okCount int for _, entry := range entries { dir, ok := entry.(fs.Directory) if ok { err := f.Mkdir(dir.Remote()) if err != nil { fs.Errorf(fs.LogDirName(f, dir.Remote()), "Failed to Mkdir: %v", err) accounting.Stats.Error(err) } else { okCount++ } } else { fs.Errorf(f, "Not a directory: %v", entry) } } if accounting.Stats.Errored() { fs.Debugf(f, "failed to copy %d directories", accounting.Stats.GetErrors()) } if okCount > 0 { fs.Debugf(f, "copied %d directories", okCount) } return nil } func (s *syncCopyMove) srcParentDirCheck(entry fs.DirEntry) { // If we are moving files then we don't want to remove directories with files in them // from the srcEmptyDirs as we are about to move them making the directory empty. if s.DoMove { return } parentDir := path.Dir(entry.Remote()) if parentDir == "." { parentDir = "" } if _, ok := s.srcEmptyDirs[parentDir]; ok { delete(s.srcEmptyDirs, parentDir) } } // renameHash makes a string with the size and the hash for rename detection // // it may return an empty string in which case no hash could be made func (s *syncCopyMove) renameHash(obj fs.Object) (hash string) { var err error hash, err = obj.Hash(s.commonHash) if err != nil { fs.Debugf(obj, "Hash failed: %v", err) return "" } if hash == "" { return "" } return fmt.Sprintf("%d,%s", obj.Size(), hash) } // pushRenameMap adds the object with hash to the rename map func (s *syncCopyMove) pushRenameMap(hash string, obj fs.Object) { s.renameMapMu.Lock() s.renameMap[hash] = append(s.renameMap[hash], obj) s.renameMapMu.Unlock() } // popRenameMap finds the object with hash and pop the first match from // renameMap or returns nil if not found. func (s *syncCopyMove) popRenameMap(hash string) (dst fs.Object) { s.renameMapMu.Lock() dsts, ok := s.renameMap[hash] if ok && len(dsts) > 0 { dst, dsts = dsts[0], dsts[1:] if len(dsts) > 0 { s.renameMap[hash] = dsts } else { delete(s.renameMap, hash) } } s.renameMapMu.Unlock() return dst } // makeRenameMap builds a map of the destination files by hash that // match sizes in the slice of objects in s.renameCheck func (s *syncCopyMove) makeRenameMap() { fs.Infof(s.fdst, "Making map for --track-renames") // first make a map of possible sizes we need to check possibleSizes := map[int64]struct{}{} for _, obj := range s.renameCheck { possibleSizes[obj.Size()] = struct{}{} } // pump all the dstFiles into in in := make(chan fs.Object, fs.Config.Checkers) go s.pumpMapToChan(s.dstFiles, in) // now make a map of size,hash for all dstFiles s.renameMap = make(map[string][]fs.Object) var wg sync.WaitGroup wg.Add(fs.Config.Transfers) for i := 0; i < fs.Config.Transfers; i++ { go func() { defer wg.Done() for obj := range in { // only create hash for dst fs.Object if its size could match if _, found := possibleSizes[obj.Size()]; found { accounting.Stats.Checking(obj.Remote()) hash := s.renameHash(obj) if hash != "" { s.pushRenameMap(hash, obj) } accounting.Stats.DoneChecking(obj.Remote()) } } }() } wg.Wait() fs.Infof(s.fdst, "Finished making map for --track-renames") } // tryRename renames a src object when doing track renames if // possible, it returns true if the object was renamed. func (s *syncCopyMove) tryRename(src fs.Object) bool { accounting.Stats.Checking(src.Remote()) defer accounting.Stats.DoneChecking(src.Remote()) // Calculate the hash of the src object hash := s.renameHash(src) if hash == "" { return false } // Get a match on fdst dst := s.popRenameMap(hash) if dst == nil { return false } // Find dst object we are about to overwrite if it exists dstOverwritten, _ := s.fdst.NewObject(src.Remote()) // Rename dst to have name src.Remote() _, err := operations.Move(s.fdst, dstOverwritten, src.Remote(), dst) if err != nil { fs.Debugf(src, "Failed to rename to %q: %v", dst.Remote(), err) return false } // remove file from dstFiles if present s.dstFilesMu.Lock() delete(s.dstFiles, dst.Remote()) s.dstFilesMu.Unlock() fs.Infof(src, "Renamed from %q", dst.Remote()) return true } // Syncs fsrc into fdst // // If Delete is true then it deletes any files in fdst that aren't in fsrc // // If DoMove is true then files will be moved instead of copied // // dir is the start directory, "" for root func (s *syncCopyMove) run() error { if operations.Same(s.fdst, s.fsrc) { fs.Errorf(s.fdst, "Nothing to do as source and destination are the same") return nil } // Start background checking and transferring pipeline s.startCheckers() s.startRenamers() s.startTransfers() s.startDeleters() s.dstFiles = make(map[string]fs.Object) s.startTrackRenames() // set up a march over fdst and fsrc m := march.New(s.ctx, s.fdst, s.fsrc, s.dir, s) m.Run() s.stopTrackRenames() if s.trackRenames { // Build the map of the remaining dstFiles by hash s.makeRenameMap() // Attempt renames for all the files which don't have a matching dst for _, src := range s.renameCheck { ok := s.toBeRenamed.Put(s.ctx, fs.ObjectPair{Src: src, Dst: nil}) if !ok { break } } } // Stop background checking and transferring pipeline s.stopCheckers() s.stopRenamers() s.stopTransfers() s.stopDeleters() s.processError(copyEmptyDirectories(s.fdst, s.srcEmptyDirs)) // Delete files after if s.deleteMode == fs.DeleteModeAfter { if s.currentError() != nil && !fs.Config.IgnoreErrors { fs.Errorf(s.fdst, "%v", fs.ErrorNotDeleting) } else { s.processError(s.deleteFiles(false)) } } // Prune empty directories if s.deleteMode != fs.DeleteModeOff { if s.currentError() != nil && !fs.Config.IgnoreErrors { fs.Errorf(s.fdst, "%v", fs.ErrorNotDeletingDirs) } else { s.processError(deleteEmptyDirectories(s.fdst, s.dstEmptyDirs)) } } // Delete empty fsrc subdirectories // if DoMove and --delete-empty-src-dirs flag is set if s.DoMove && s.deleteEmptySrcDirs { //delete empty subdirectories that were part of the move s.processError(deleteEmptyDirectories(s.fsrc, s.srcEmptyDirs)) } // cancel the context to free resources s.cancel() return s.currentError() } // DstOnly have an object which is in the destination only func (s *syncCopyMove) DstOnly(dst fs.DirEntry) (recurse bool) { if s.deleteMode == fs.DeleteModeOff { return false } switch x := dst.(type) { case fs.Object: switch s.deleteMode { case fs.DeleteModeAfter: // record object as needs deleting s.dstFilesMu.Lock() s.dstFiles[x.Remote()] = x s.dstFilesMu.Unlock() case fs.DeleteModeDuring, fs.DeleteModeOnly: select { case <-s.ctx.Done(): return case s.deleteFilesCh <- x: } default: panic(fmt.Sprintf("unexpected delete mode %d", s.deleteMode)) } case fs.Directory: // Do the same thing to the entire contents of the directory // Record directory as it is potentially empty and needs deleting if s.fdst.Features().CanHaveEmptyDirectories { s.dstEmptyDirsMu.Lock() s.dstEmptyDirs[dst.Remote()] = dst s.dstEmptyDirsMu.Unlock() } return true default: panic("Bad object in DirEntries") } return false } // SrcOnly have an object which is in the source only func (s *syncCopyMove) SrcOnly(src fs.DirEntry) (recurse bool) { if s.deleteMode == fs.DeleteModeOnly { return false } switch x := src.(type) { case fs.Object: // If it's a copy operation, // remove parent directory from srcEmptyDirs // since it's not really empty s.srcEmptyDirsMu.Lock() s.srcParentDirCheck(src) s.srcEmptyDirsMu.Unlock() if s.trackRenames { // Save object to check for a rename later select { case <-s.ctx.Done(): return case s.trackRenamesCh <- x: } } else { // No need to check since doesn't exist ok := s.toBeUploaded.Put(s.ctx, fs.ObjectPair{Src: x, Dst: nil}) if !ok { return } } case fs.Directory: // Do the same thing to the entire contents of the directory // Record the directory for deletion s.srcEmptyDirsMu.Lock() s.srcParentDirCheck(src) s.srcEmptyDirs[src.Remote()] = src s.srcEmptyDirsMu.Unlock() return true default: panic("Bad object in DirEntries") } return false } // Match is called when src and dst are present, so sync src to dst func (s *syncCopyMove) Match(dst, src fs.DirEntry) (recurse bool) { switch srcX := src.(type) { case fs.Object: s.srcEmptyDirsMu.Lock() s.srcParentDirCheck(src) s.srcEmptyDirsMu.Unlock() if s.deleteMode == fs.DeleteModeOnly { return false } dstX, ok := dst.(fs.Object) if ok { ok = s.toBeChecked.Put(s.ctx, fs.ObjectPair{Src: srcX, Dst: dstX}) if !ok { return false } } else { // FIXME src is file, dst is directory err := errors.New("can't overwrite directory with file") fs.Errorf(dst, "%v", err) s.processError(err) } case fs.Directory: // Do the same thing to the entire contents of the directory _, ok := dst.(fs.Directory) if ok { // Record the src directory for deletion s.srcEmptyDirsMu.Lock() s.srcParentDirCheck(src) s.srcEmptyDirs[src.Remote()] = src s.srcEmptyDirsMu.Unlock() return true } // FIXME src is dir, dst is file err := errors.New("can't overwrite file with directory") fs.Errorf(dst, "%v", err) s.processError(err) default: panic("Bad object in DirEntries") } return false } // Syncs fsrc into fdst // // If Delete is true then it deletes any files in fdst that aren't in fsrc // // If DoMove is true then files will be moved instead of copied // // dir is the start directory, "" for root func runSyncCopyMove(fdst, fsrc fs.Fs, deleteMode fs.DeleteMode, DoMove bool, deleteEmptySrcDirs bool) error { if deleteMode != fs.DeleteModeOff && DoMove { return fserrors.FatalError(errors.New("can't delete and move at the same time")) } // Run an extra pass to delete only if deleteMode == fs.DeleteModeBefore { if fs.Config.TrackRenames { return fserrors.FatalError(errors.New("can't use --delete-before with --track-renames")) } // only delete stuff during in this pass do, err := newSyncCopyMove(fdst, fsrc, fs.DeleteModeOnly, false, deleteEmptySrcDirs) if err != nil { return err } err = do.run() if err != nil { return err } // Next pass does a copy only deleteMode = fs.DeleteModeOff } do, err := newSyncCopyMove(fdst, fsrc, deleteMode, DoMove, deleteEmptySrcDirs) if err != nil { return err } return do.run() } // Sync fsrc into fdst func Sync(fdst, fsrc fs.Fs) error { return runSyncCopyMove(fdst, fsrc, fs.Config.DeleteMode, false, false) } // CopyDir copies fsrc into fdst func CopyDir(fdst, fsrc fs.Fs) error { return runSyncCopyMove(fdst, fsrc, fs.DeleteModeOff, false, false) } // moveDir moves fsrc into fdst func moveDir(fdst, fsrc fs.Fs, deleteEmptySrcDirs bool) error { return runSyncCopyMove(fdst, fsrc, fs.DeleteModeOff, true, deleteEmptySrcDirs) } // MoveDir moves fsrc into fdst func MoveDir(fdst, fsrc fs.Fs, deleteEmptySrcDirs bool) error { if operations.Same(fdst, fsrc) { fs.Errorf(fdst, "Nothing to do as source and destination are the same") return nil } // First attempt to use DirMover if exists, same Fs and no filters are active if fdstDirMove := fdst.Features().DirMove; fdstDirMove != nil && operations.SameConfig(fsrc, fdst) && filter.Active.InActive() { if fs.Config.DryRun { fs.Logf(fdst, "Not doing server side directory move as --dry-run") return nil } fs.Debugf(fdst, "Using server side directory move") err := fdstDirMove(fsrc, "", "") switch err { case fs.ErrorCantDirMove, fs.ErrorDirExists: fs.Infof(fdst, "Server side directory move failed - fallback to file moves: %v", err) case nil: fs.Infof(fdst, "Server side directory move succeeded") return nil default: fs.CountError(err) fs.Errorf(fdst, "Server side directory move failed: %v", err) return err } } // The two remotes mustn't overlap if we didn't do server side move if operations.Overlapping(fdst, fsrc) { err := fs.ErrorCantMoveOverlapping fs.Errorf(fdst, "%v", err) return err } // Otherwise move the files one by one return moveDir(fdst, fsrc, deleteEmptySrcDirs) }