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8a6fc8535d
fs.CountError is called when an error is encountered. The method was calling GlobalStats().Error(err) which incremented the error at the global stats level. This led to calls to core/stats with group= filter returning an error count of 0 even if errors actually occured. This change requires the context to be provided when calling fs.CountError. Doing so, we can retrieve the correct StatsInfo to increment the errors from. Fixes #5865
507 lines
13 KiB
Go
507 lines
13 KiB
Go
// dedupe - gets rid of identical files remotes which can have duplicate file names (drive, mega)
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package operations
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import (
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"context"
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"fmt"
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"path"
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"sort"
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"strings"
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"github.com/rclone/rclone/fs"
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"github.com/rclone/rclone/fs/accounting"
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"github.com/rclone/rclone/fs/config"
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"github.com/rclone/rclone/fs/hash"
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"github.com/rclone/rclone/fs/walk"
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)
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// dedupeRename renames the objs slice to different names
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func dedupeRename(ctx context.Context, f fs.Fs, remote string, objs []fs.Object) {
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doMove := f.Features().Move
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if doMove == nil {
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fs.Fatalf(nil, "Fs %v doesn't support Move", f)
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}
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ext := path.Ext(remote)
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base := remote[:len(remote)-len(ext)]
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outer:
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for i, o := range objs {
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suffix := 1
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newName := fmt.Sprintf("%s-%d%s", base, i+suffix, ext)
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_, err := f.NewObject(ctx, newName)
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for ; err != fs.ErrorObjectNotFound; suffix++ {
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if err != nil {
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err = fs.CountError(ctx, err)
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fs.Errorf(o, "Failed to check for existing object: %v", err)
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continue outer
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}
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if suffix > 100 {
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fs.Errorf(o, "Could not find an available new name")
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continue outer
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}
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newName = fmt.Sprintf("%s-%d%s", base, i+suffix, ext)
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_, err = f.NewObject(ctx, newName)
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}
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if !SkipDestructive(ctx, o, "rename") {
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newObj, err := doMove(ctx, o, newName)
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if err != nil {
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err = fs.CountError(ctx, err)
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fs.Errorf(o, "Failed to rename: %v", err)
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continue
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}
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fs.Infof(newObj, "renamed from: %v", o)
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}
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}
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}
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// dedupeDeleteAllButOne deletes all but the one in keep
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func dedupeDeleteAllButOne(ctx context.Context, keep int, remote string, objs []fs.Object) {
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count := 0
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for i, o := range objs {
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if i == keep {
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continue
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}
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err := DeleteFile(ctx, o)
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if err == nil {
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count++
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}
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}
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if count > 0 {
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fs.Logf(remote, "Deleted %d extra copies", count)
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}
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}
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// dedupeDeleteIdentical deletes all but one of identical (by hash) copies
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func dedupeDeleteIdentical(ctx context.Context, ht hash.Type, remote string, objs []fs.Object) (remainingObjs []fs.Object) {
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ci := fs.GetConfig(ctx)
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// Make map of IDs
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IDs := make(map[string]int, len(objs))
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for _, o := range objs {
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if do, ok := o.(fs.IDer); ok {
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if ID := do.ID(); ID != "" {
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IDs[ID]++
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}
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}
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}
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// Remove duplicate IDs
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newObjs := objs[:0]
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for _, o := range objs {
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if do, ok := o.(fs.IDer); ok {
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if ID := do.ID(); ID != "" {
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if IDs[ID] <= 1 {
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newObjs = append(newObjs, o)
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} else {
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fs.Logf(o, "Ignoring as it appears %d times in the listing and deleting would lead to data loss", IDs[ID])
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}
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}
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}
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}
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objs = newObjs
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// See how many of these duplicates are identical
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dupesByID := make(map[string][]fs.Object, len(objs))
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for _, o := range objs {
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ID := ""
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if ci.SizeOnly && o.Size() >= 0 {
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ID = fmt.Sprintf("size %d", o.Size())
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} else if ht != hash.None {
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hashValue, err := o.Hash(ctx, ht)
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if err == nil && hashValue != "" {
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ID = fmt.Sprintf("%v %s", ht, hashValue)
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}
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}
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if ID == "" {
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remainingObjs = append(remainingObjs, o)
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} else {
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dupesByID[ID] = append(dupesByID[ID], o)
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}
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}
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// Delete identical duplicates, filling remainingObjs with the ones remaining
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for ID, dupes := range dupesByID {
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remainingObjs = append(remainingObjs, dupes[0])
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if len(dupes) > 1 {
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fs.Logf(remote, "Deleting %d/%d identical duplicates (%s)", len(dupes)-1, len(dupes), ID)
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for _, o := range dupes[1:] {
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err := DeleteFile(ctx, o)
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if err != nil {
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remainingObjs = append(remainingObjs, o)
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}
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}
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}
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}
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return remainingObjs
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}
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// dedupeList lists the duplicates and does nothing
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func dedupeList(ctx context.Context, f fs.Fs, ht hash.Type, remote string, objs []fs.Object, byHash bool) {
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fmt.Printf("%s: %d duplicates\n", remote, len(objs))
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for i, o := range objs {
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hashValue := ""
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if ht != hash.None {
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var err error
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hashValue, err = o.Hash(ctx, ht)
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if err != nil {
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hashValue = err.Error()
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}
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}
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if byHash {
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fmt.Printf(" %d: %12d bytes, %s, %s\n", i+1, o.Size(), o.ModTime(ctx).Local().Format("2006-01-02 15:04:05.000000000"), o.Remote())
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} else {
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fmt.Printf(" %d: %12d bytes, %s, %v %32s\n", i+1, o.Size(), o.ModTime(ctx).Local().Format("2006-01-02 15:04:05.000000000"), ht, hashValue)
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}
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}
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}
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// dedupeInteractive interactively dedupes the slice of objects
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func dedupeInteractive(ctx context.Context, f fs.Fs, ht hash.Type, remote string, objs []fs.Object, byHash bool) bool {
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dedupeList(ctx, f, ht, remote, objs, byHash)
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commands := []string{"sSkip and do nothing", "kKeep just one (choose which in next step)"}
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if !byHash {
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commands = append(commands, "rRename all to be different (by changing file.jpg to file-1.jpg)")
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}
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commands = append(commands, "qQuit")
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switch config.Command(commands) {
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case 's':
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case 'k':
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keep := config.ChooseNumber("Enter the number of the file to keep", 1, len(objs))
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dedupeDeleteAllButOne(ctx, keep-1, remote, objs)
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case 'r':
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dedupeRename(ctx, f, remote, objs)
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case 'q':
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return false
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}
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return true
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}
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// DeduplicateMode is how the dedupe command chooses what to do
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type DeduplicateMode int
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// Deduplicate modes
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const (
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DeduplicateInteractive DeduplicateMode = iota // interactively ask the user
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DeduplicateSkip // skip all conflicts
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DeduplicateFirst // choose the first object
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DeduplicateNewest // choose the newest object
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DeduplicateOldest // choose the oldest object
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DeduplicateRename // rename the objects
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DeduplicateLargest // choose the largest object
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DeduplicateSmallest // choose the smallest object
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DeduplicateList // list duplicates only
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)
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func (x DeduplicateMode) String() string {
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switch x {
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case DeduplicateInteractive:
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return "interactive"
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case DeduplicateSkip:
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return "skip"
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case DeduplicateFirst:
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return "first"
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case DeduplicateNewest:
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return "newest"
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case DeduplicateOldest:
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return "oldest"
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case DeduplicateRename:
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return "rename"
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case DeduplicateLargest:
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return "largest"
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case DeduplicateSmallest:
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return "smallest"
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case DeduplicateList:
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return "list"
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}
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return "unknown"
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}
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// Set a DeduplicateMode from a string
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func (x *DeduplicateMode) Set(s string) error {
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switch strings.ToLower(s) {
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case "interactive":
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*x = DeduplicateInteractive
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case "skip":
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*x = DeduplicateSkip
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case "first":
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*x = DeduplicateFirst
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case "newest":
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*x = DeduplicateNewest
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case "oldest":
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*x = DeduplicateOldest
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case "rename":
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*x = DeduplicateRename
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case "largest":
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*x = DeduplicateLargest
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case "smallest":
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*x = DeduplicateSmallest
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case "list":
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*x = DeduplicateList
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default:
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return fmt.Errorf("unknown mode for dedupe %q", s)
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}
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return nil
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}
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// Type of the value
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func (x *DeduplicateMode) Type() string {
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return "string"
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}
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// Directory with entry count and links to parents
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type dedupeDir struct {
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dir fs.Directory
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parent string
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count int
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}
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// Map of directories by ID with recursive counts
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type dedupeDirsMap map[string]*dedupeDir
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func (dm dedupeDirsMap) get(id string) *dedupeDir {
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d := dm[id]
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if d == nil {
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d = &dedupeDir{}
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dm[id] = d
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}
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return d
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}
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func (dm dedupeDirsMap) increment(parent string) {
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if parent != "" {
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d := dm.get(parent)
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d.count++
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dm.increment(d.parent)
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}
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}
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// dedupeFindDuplicateDirs scans f for duplicate directories
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func dedupeFindDuplicateDirs(ctx context.Context, f fs.Fs) (duplicateDirs [][]*dedupeDir, err error) {
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dirsByID := dedupeDirsMap{}
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dirs := map[string][]*dedupeDir{}
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ci := fs.GetConfig(ctx)
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err = walk.ListR(ctx, f, "", false, ci.MaxDepth, walk.ListAll, func(entries fs.DirEntries) error {
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for _, entry := range entries {
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tr := accounting.Stats(ctx).NewCheckingTransfer(entry, "merging")
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remote := entry.Remote()
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parentRemote := path.Dir(remote)
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if parentRemote == "." {
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parentRemote = ""
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}
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// Obtain ID of the object parent, if known.
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// (This usually means that backend allows duplicate paths)
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// Fall back to remote parent path, if unavailable.
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var parent string
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if entryParentIDer, ok := entry.(fs.ParentIDer); ok {
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parent = entryParentIDer.ParentID()
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}
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if parent == "" {
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parent = parentRemote
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}
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var ID string
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if entryIDer, ok := entry.(fs.IDer); ok {
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ID = entryIDer.ID()
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}
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if ID == "" {
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ID = remote
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}
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if fsDir, ok := entry.(fs.Directory); ok {
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d := dirsByID.get(ID)
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d.dir = fsDir
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d.parent = parent
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dirs[remote] = append(dirs[remote], d)
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}
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dirsByID.increment(parent)
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tr.Done(ctx, nil)
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}
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return nil
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})
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if err != nil {
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return nil, fmt.Errorf("find duplicate dirs: %w", err)
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}
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// Make sure parents are before children
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duplicateNames := []string{}
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for name, ds := range dirs {
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if len(ds) > 1 {
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duplicateNames = append(duplicateNames, name)
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}
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}
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sort.Strings(duplicateNames)
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for _, name := range duplicateNames {
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duplicateDirs = append(duplicateDirs, dirs[name])
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}
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return
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}
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// dedupeMergeDuplicateDirs merges all the duplicate directories found
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func dedupeMergeDuplicateDirs(ctx context.Context, f fs.Fs, duplicateDirs [][]*dedupeDir) error {
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mergeDirs := f.Features().MergeDirs
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if mergeDirs == nil {
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return fmt.Errorf("%v: can't merge directories", f)
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}
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dirCacheFlush := f.Features().DirCacheFlush
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if dirCacheFlush == nil {
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return fmt.Errorf("%v: can't flush dir cache", f)
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}
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for _, dedupeDirs := range duplicateDirs {
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if SkipDestructive(ctx, dedupeDirs[0].dir, "merge duplicate directories") {
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continue
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}
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// Put largest directory in front to minimize movements
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fsDirs := []fs.Directory{}
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largestCount := -1
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largestIdx := 0
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for i, d := range dedupeDirs {
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fsDirs = append(fsDirs, d.dir)
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if d.count > largestCount {
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largestIdx = i
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largestCount = d.count
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}
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}
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fsDirs[largestIdx], fsDirs[0] = fsDirs[0], fsDirs[largestIdx]
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fs.Infof(fsDirs[0], "Merging contents of duplicate directories")
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err := mergeDirs(ctx, fsDirs)
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if err != nil {
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err = fs.CountError(ctx, err)
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fs.Errorf(nil, "merge duplicate dirs: %v", err)
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}
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}
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dirCacheFlush()
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return nil
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}
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// sort oldest first
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func sortOldestFirst(objs []fs.Object) {
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sort.Slice(objs, func(i, j int) bool {
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return objs[i].ModTime(context.TODO()).Before(objs[j].ModTime(context.TODO()))
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})
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}
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// sort smallest first
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func sortSmallestFirst(objs []fs.Object) {
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sort.Slice(objs, func(i, j int) bool {
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return objs[i].Size() < objs[j].Size()
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})
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}
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// Deduplicate interactively finds duplicate files and offers to
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// delete all but one or rename them to be different. Only useful with
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// Google Drive which can have duplicate file names.
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func Deduplicate(ctx context.Context, f fs.Fs, mode DeduplicateMode, byHash bool) error {
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ci := fs.GetConfig(ctx)
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// find a hash to use
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ht := f.Hashes().GetOne()
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what := "names"
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if byHash {
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if ht == hash.None {
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return fmt.Errorf("%v has no hashes", f)
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}
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what = ht.String() + " hashes"
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}
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fs.Infof(f, "Looking for duplicate %s using %v mode.", what, mode)
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// Find duplicate directories first and fix them
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if !byHash {
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duplicateDirs, err := dedupeFindDuplicateDirs(ctx, f)
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if err != nil {
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return err
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}
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if len(duplicateDirs) > 0 {
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if mode != DeduplicateList {
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err = dedupeMergeDuplicateDirs(ctx, f, duplicateDirs)
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if err != nil {
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return err
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}
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} else {
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for _, dedupeDirs := range duplicateDirs {
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remote := dedupeDirs[0].dir.Remote()
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fmt.Printf("%s: %d duplicates of this directory\n", remote, len(dedupeDirs))
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}
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}
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}
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}
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// Now find duplicate files
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files := map[string][]fs.Object{}
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err := walk.ListR(ctx, f, "", false, ci.MaxDepth, walk.ListObjects, func(entries fs.DirEntries) error {
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entries.ForObject(func(o fs.Object) {
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tr := accounting.Stats(ctx).NewCheckingTransfer(o, "checking")
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defer tr.Done(ctx, nil)
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var remote string
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var err error
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if byHash {
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remote, err = o.Hash(ctx, ht)
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if err != nil {
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fs.Errorf(o, "Failed to hash: %v", err)
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remote = ""
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}
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} else {
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remote = o.Remote()
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}
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if remote != "" {
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files[remote] = append(files[remote], o)
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}
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})
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return nil
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})
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if err != nil {
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return err
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}
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for remote, objs := range files {
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if len(objs) <= 1 {
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continue
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}
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fs.Logf(remote, "Found %d files with duplicate %s", len(objs), what)
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if !byHash && mode != DeduplicateList {
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objs = dedupeDeleteIdentical(ctx, ht, remote, objs)
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if len(objs) <= 1 {
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fs.Logf(remote, "All duplicates removed")
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continue
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}
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}
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switch mode {
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case DeduplicateInteractive:
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if !dedupeInteractive(ctx, f, ht, remote, objs, byHash) {
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return nil
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}
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case DeduplicateFirst:
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dedupeDeleteAllButOne(ctx, 0, remote, objs)
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case DeduplicateNewest:
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sortOldestFirst(objs)
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dedupeDeleteAllButOne(ctx, len(objs)-1, remote, objs)
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case DeduplicateOldest:
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sortOldestFirst(objs)
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dedupeDeleteAllButOne(ctx, 0, remote, objs)
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case DeduplicateRename:
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dedupeRename(ctx, f, remote, objs)
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case DeduplicateLargest:
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sortSmallestFirst(objs)
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dedupeDeleteAllButOne(ctx, len(objs)-1, remote, objs)
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case DeduplicateSmallest:
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sortSmallestFirst(objs)
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dedupeDeleteAllButOne(ctx, 0, remote, objs)
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case DeduplicateSkip:
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fs.Logf(remote, "Skipping %d files with duplicate %s", len(objs), what)
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case DeduplicateList:
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dedupeList(ctx, f, ht, remote, objs, byHash)
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default:
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//skip
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}
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}
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return nil
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}
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