package bisync import ( "context" "encoding/json" "fmt" "io" "sort" mutex "sync" // renamed as "sync" already in use "time" "github.com/rclone/rclone/cmd/bisync/bilib" "github.com/rclone/rclone/fs" "github.com/rclone/rclone/fs/filter" "github.com/rclone/rclone/fs/operations" "github.com/rclone/rclone/fs/sync" "golang.org/x/text/unicode/norm" ) // Results represents a pair of synced files, as reported by the LoggerFn // Bisync uses this to determine what happened during the sync, and modify the listings accordingly type Results struct { Src string Dst string Name string Size int64 Modtime time.Time Hash string Flags string Sigil operations.Sigil Err error Winner operations.Winner IsWinner bool IsSrc bool IsDst bool } var logger = operations.NewLoggerOpt() var lock mutex.Mutex var ignoreListingChecksum bool // FsPathIfAny handles type assertions and returns a formatted bilib.FsPath if valid, otherwise "" func FsPathIfAny(x fs.DirEntry) string { obj, ok := x.(fs.Object) if x != nil && ok { return bilib.FsPath(obj.Fs()) } return "" } func resultName(result Results, side, src, dst fs.DirEntry) string { if side != nil { return side.Remote() } else if result.IsSrc && dst != nil { return dst.Remote() } else if src != nil { return src.Remote() } return "" } // WriteResults is Bisync's LoggerFn func WriteResults(ctx context.Context, sigil operations.Sigil, src, dst fs.DirEntry, err error) { lock.Lock() defer lock.Unlock() opt := operations.GetLoggerOpt(ctx) result := Results{ Sigil: sigil, Src: FsPathIfAny(src), Dst: FsPathIfAny(dst), Err: err, } result.Winner = operations.WinningSide(ctx, sigil, src, dst, err) fss := []fs.DirEntry{src, dst} for i, side := range fss { result.Name = resultName(result, side, src, dst) result.IsSrc = i == 0 result.IsDst = i == 1 result.Flags = "-" if side != nil { result.Size = side.Size() result.Modtime = side.ModTime(ctx).In(time.UTC) if !ignoreListingChecksum { sideObj, ok := side.(fs.ObjectInfo) if ok { result.Hash, _ = sideObj.Hash(ctx, sideObj.Fs().Hashes().GetOne()) } } } result.IsWinner = result.Winner.Obj == side // used during resync only if err == fs.ErrorIsDir { if src != nil { result.Src = src.Remote() result.Name = src.Remote() } else { result.Dst = dst.Remote() result.Name = dst.Remote() } result.Flags = "d" result.Size = 0 } fs.Debugf(nil, "writing result: %v", result) err := json.NewEncoder(opt.JSON).Encode(result) if err != nil { fs.Errorf(result, "Error encoding JSON: %v", err) } } } // ReadResults decodes the JSON data from WriteResults func ReadResults(results io.Reader) []Results { dec := json.NewDecoder(results) var slice []Results for { var r Results if err := dec.Decode(&r); err == io.EOF { break } fs.Debugf(nil, "result: %v", r) slice = append(slice, r) } return slice } func (b *bisyncRun) fastCopy(ctx context.Context, fsrc, fdst fs.Fs, files bilib.Names, queueName string) ([]Results, error) { if err := b.saveQueue(files, queueName); err != nil { return nil, err } ctxCopy, filterCopy := filter.AddConfig(b.opt.setDryRun(ctx)) for _, file := range files.ToList() { if err := filterCopy.AddFile(file); err != nil { return nil, err } // macOS if err := filterCopy.AddFile(norm.NFD.String(file)); err != nil { return nil, err } } ignoreListingChecksum = b.opt.IgnoreListingChecksum logger.LoggerFn = WriteResults ctxCopyLogger := operations.WithSyncLogger(ctxCopy, logger) var err error if b.opt.Resync { err = sync.CopyDir(ctxCopyLogger, fdst, fsrc, b.opt.CreateEmptySrcDirs) } else { b.testFn() err = sync.Sync(ctxCopyLogger, fdst, fsrc, b.opt.CreateEmptySrcDirs) } fs.Debugf(nil, "logger is: %v", logger) getResults := ReadResults(logger.JSON) fs.Debugf(nil, "Got %v results for %v", len(getResults), queueName) lineFormat := "%s %8d %s %s %s %q\n" for _, result := range getResults { fs.Debugf(nil, lineFormat, result.Flags, result.Size, result.Hash, "", result.Modtime, result.Name) } return getResults, err } func (b *bisyncRun) resyncDir(ctx context.Context, fsrc, fdst fs.Fs) ([]Results, error) { ignoreListingChecksum = b.opt.IgnoreListingChecksum logger.LoggerFn = WriteResults ctxCopyLogger := operations.WithSyncLogger(ctx, logger) err := sync.CopyDir(ctxCopyLogger, fdst, fsrc, b.opt.CreateEmptySrcDirs) fs.Debugf(nil, "logger is: %v", logger) getResults := ReadResults(logger.JSON) fs.Debugf(nil, "Got %v results for %v", len(getResults), "resync") return getResults, err } // operation should be "make" or "remove" func (b *bisyncRun) syncEmptyDirs(ctx context.Context, dst fs.Fs, candidates bilib.Names, dirsList *fileList, results *[]Results, operation string) { if b.opt.CreateEmptySrcDirs && (!b.opt.Resync || operation == "make") { candidatesList := candidates.ToList() if operation == "remove" { // reverse the sort order to ensure we remove subdirs before parent dirs sort.Sort(sort.Reverse(sort.StringSlice(candidatesList))) } for _, s := range candidatesList { var direrr error if dirsList.has(s) { //make sure it's a dir, not a file r := Results{} r.Name = s r.Size = 0 r.Modtime = dirsList.getTime(s).In(time.UTC) r.Flags = "d" r.Err = nil r.Winner = operations.Winner{ // note: Obj not set Side: "src", Err: nil, } rSrc := r rDst := r rSrc.IsSrc = true rSrc.IsDst = false rDst.IsSrc = false rDst.IsDst = true rSrc.IsWinner = true rDst.IsWinner = false if operation == "remove" { // directories made empty by the sync will have already been deleted during the sync // this just catches the already-empty ones (excluded from sync by --files-from filter) direrr = operations.TryRmdir(ctx, dst, s) rSrc.Sigil = operations.MissingOnSrc rDst.Sigil = operations.MissingOnSrc rSrc.Dst = s rDst.Dst = s rSrc.Winner.Side = "none" rDst.Winner.Side = "none" } else if operation == "make" { direrr = operations.Mkdir(ctx, dst, s) rSrc.Sigil = operations.MissingOnDst rDst.Sigil = operations.MissingOnDst rSrc.Src = s rDst.Src = s } else { direrr = fmt.Errorf("invalid operation. Expected 'make' or 'remove', received '%q'", operation) } if direrr != nil { fs.Debugf(nil, "Error syncing directory: %v", direrr) } else { *results = append(*results, rSrc, rDst) } } } } } func (b *bisyncRun) saveQueue(files bilib.Names, jobName string) error { if !b.opt.SaveQueues { return nil } queueFile := fmt.Sprintf("%s.%s.que", b.basePath, jobName) return files.Save(queueFile) }