// Package cmd implemnts the rclone command // // It is in a sub package so it's internals can be re-used elsewhere package cmd // FIXME only attach the remote flags when using a remote??? // would probably mean bringing all the flags in to here? Or define some flagsets in fs... import ( "fmt" "log" "math/rand" "os" "os/exec" "path" "regexp" "runtime" "runtime/pprof" "strconv" "strings" "sync" "time" "github.com/pkg/errors" "github.com/rclone/rclone/fs" "github.com/rclone/rclone/fs/accounting" "github.com/rclone/rclone/fs/cache" "github.com/rclone/rclone/fs/config/configflags" "github.com/rclone/rclone/fs/config/flags" "github.com/rclone/rclone/fs/filter" "github.com/rclone/rclone/fs/filter/filterflags" "github.com/rclone/rclone/fs/fserrors" "github.com/rclone/rclone/fs/fspath" fslog "github.com/rclone/rclone/fs/log" "github.com/rclone/rclone/fs/rc/rcflags" "github.com/rclone/rclone/fs/rc/rcserver" "github.com/rclone/rclone/lib/atexit" "github.com/spf13/cobra" "github.com/spf13/pflag" ) // Globals var ( // Flags cpuProfile = flags.StringP("cpuprofile", "", "", "Write cpu profile to file") memProfile = flags.StringP("memprofile", "", "", "Write memory profile to file") statsInterval = flags.DurationP("stats", "", time.Minute*1, "Interval between printing stats, e.g 500ms, 60s, 5m. (0 to disable)") dataRateUnit = flags.StringP("stats-unit", "", "bytes", "Show data rate in stats as either 'bits' or 'bytes'/s") version bool retries = flags.IntP("retries", "", 3, "Retry operations this many times if they fail") retriesInterval = flags.DurationP("retries-sleep", "", 0, "Interval between retrying operations if they fail, e.g 500ms, 60s, 5m. (0 to disable)") // Errors errorCommandNotFound = errors.New("command not found") errorUncategorized = errors.New("uncategorized error") errorNotEnoughArguments = errors.New("not enough arguments") errorTooManyArguments = errors.New("too many arguments") ) const ( exitCodeSuccess = iota exitCodeUsageError exitCodeUncategorizedError exitCodeDirNotFound exitCodeFileNotFound exitCodeRetryError exitCodeNoRetryError exitCodeFatalError exitCodeTransferExceeded ) // ShowVersion prints the version to stdout func ShowVersion() { fmt.Printf("rclone %s\n", fs.Version) fmt.Printf("- os/arch: %s/%s\n", runtime.GOOS, runtime.GOARCH) fmt.Printf("- go version: %s\n", runtime.Version()) } // NewFsFile creates a Fs from a name but may point to a file. // // It returns a string with the file name if points to a file // otherwise "". func NewFsFile(remote string) (fs.Fs, string) { _, _, fsPath, err := fs.ParseRemote(remote) if err != nil { err = fs.CountError(err) log.Fatalf("Failed to create file system for %q: %v", remote, err) } f, err := cache.Get(remote) switch err { case fs.ErrorIsFile: return f, path.Base(fsPath) case nil: return f, "" default: err = fs.CountError(err) log.Fatalf("Failed to create file system for %q: %v", remote, err) } return nil, "" } // newFsFileAddFilter creates a src Fs from a name // // This works the same as NewFsFile however it adds filters to the Fs // to limit it to a single file if the remote pointed to a file. func newFsFileAddFilter(remote string) (fs.Fs, string) { f, fileName := NewFsFile(remote) if fileName != "" { if !filter.Active.InActive() { err := errors.Errorf("Can't limit to single files when using filters: %v", remote) err = fs.CountError(err) log.Fatalf(err.Error()) } // Limit transfers to this file err := filter.Active.AddFile(fileName) if err != nil { err = fs.CountError(err) log.Fatalf("Failed to limit to single file %q: %v", remote, err) } } return f, fileName } // NewFsSrc creates a new src fs from the arguments. // // The source can be a file or a directory - if a file then it will // limit the Fs to a single file. func NewFsSrc(args []string) fs.Fs { fsrc, _ := newFsFileAddFilter(args[0]) return fsrc } // newFsDir creates an Fs from a name // // This must point to a directory func newFsDir(remote string) fs.Fs { f, err := cache.Get(remote) if err != nil { err = fs.CountError(err) log.Fatalf("Failed to create file system for %q: %v", remote, err) } return f } // NewFsDir creates a new Fs from the arguments // // The argument must point a directory func NewFsDir(args []string) fs.Fs { fdst := newFsDir(args[0]) return fdst } // NewFsSrcDst creates a new src and dst fs from the arguments func NewFsSrcDst(args []string) (fs.Fs, fs.Fs) { fsrc, _ := newFsFileAddFilter(args[0]) fdst := newFsDir(args[1]) return fsrc, fdst } // NewFsSrcFileDst creates a new src and dst fs from the arguments // // The source may be a file, in which case the source Fs and file name is returned func NewFsSrcFileDst(args []string) (fsrc fs.Fs, srcFileName string, fdst fs.Fs) { fsrc, srcFileName = NewFsFile(args[0]) fdst = newFsDir(args[1]) return fsrc, srcFileName, fdst } // NewFsSrcDstFiles creates a new src and dst fs from the arguments // If src is a file then srcFileName and dstFileName will be non-empty func NewFsSrcDstFiles(args []string) (fsrc fs.Fs, srcFileName string, fdst fs.Fs, dstFileName string) { fsrc, srcFileName = newFsFileAddFilter(args[0]) // If copying a file... dstRemote := args[1] // If file exists then srcFileName != "", however if the file // doesn't exist then we assume it is a directory... if srcFileName != "" { var err error dstRemote, dstFileName, err = fspath.Split(dstRemote) if err != nil { log.Fatalf("Parsing %q failed: %v", args[1], err) } if dstRemote == "" { dstRemote = "." } if dstFileName == "" { log.Fatalf("%q is a directory", args[1]) } } fdst, err := cache.Get(dstRemote) switch err { case fs.ErrorIsFile: _ = fs.CountError(err) log.Fatalf("Source doesn't exist or is a directory and destination is a file") case nil: default: _ = fs.CountError(err) log.Fatalf("Failed to create file system for destination %q: %v", dstRemote, err) } return } // NewFsDstFile creates a new dst fs with a destination file name from the arguments func NewFsDstFile(args []string) (fdst fs.Fs, dstFileName string) { dstRemote, dstFileName, err := fspath.Split(args[0]) if err != nil { log.Fatalf("Parsing %q failed: %v", args[0], err) } if dstRemote == "" { dstRemote = "." } if dstFileName == "" { log.Fatalf("%q is a directory", args[0]) } fdst = newFsDir(dstRemote) return } // ShowStats returns true if the user added a `--stats` flag to the command line. // // This is called by Run to override the default value of the // showStats passed in. func ShowStats() bool { statsIntervalFlag := pflag.Lookup("stats") return statsIntervalFlag != nil && statsIntervalFlag.Changed } // Run the function with stats and retries if required func Run(Retry bool, showStats bool, cmd *cobra.Command, f func() error) { var cmdErr error stopStats := func() {} if !showStats && ShowStats() { showStats = true } if fs.Config.Progress { stopStats = startProgress() } else if showStats { stopStats = StartStats() } SigInfoHandler() for try := 1; try <= *retries; try++ { cmdErr = f() cmdErr = fs.CountError(cmdErr) lastErr := accounting.GlobalStats().GetLastError() if cmdErr == nil { cmdErr = lastErr } if !Retry || !accounting.GlobalStats().Errored() { if try > 1 { fs.Errorf(nil, "Attempt %d/%d succeeded", try, *retries) } break } if accounting.GlobalStats().HadFatalError() { fs.Errorf(nil, "Fatal error received - not attempting retries") break } if accounting.GlobalStats().Errored() && !accounting.GlobalStats().HadRetryError() { fs.Errorf(nil, "Can't retry this error - not attempting retries") break } if retryAfter := accounting.GlobalStats().RetryAfter(); !retryAfter.IsZero() { d := retryAfter.Sub(time.Now()) if d > 0 { fs.Logf(nil, "Received retry after error - sleeping until %s (%v)", retryAfter.Format(time.RFC3339Nano), d) time.Sleep(d) } } if lastErr != nil { fs.Errorf(nil, "Attempt %d/%d failed with %d errors and: %v", try, *retries, accounting.GlobalStats().GetErrors(), lastErr) } else { fs.Errorf(nil, "Attempt %d/%d failed with %d errors", try, *retries, accounting.GlobalStats().GetErrors()) } if try < *retries { accounting.GlobalStats().ResetErrors() } if *retriesInterval > 0 { time.Sleep(*retriesInterval) } } stopStats() if showStats && (accounting.GlobalStats().Errored() || *statsInterval > 0) { accounting.GlobalStats().Log() } fs.Debugf(nil, "%d go routines active\n", runtime.NumGoroutine()) // dump all running go-routines if fs.Config.Dump&fs.DumpGoRoutines != 0 { err := pprof.Lookup("goroutine").WriteTo(os.Stdout, 1) if err != nil { fs.Errorf(nil, "Failed to dump goroutines: %v", err) } } // dump open files if fs.Config.Dump&fs.DumpOpenFiles != 0 { c := exec.Command("lsof", "-p", strconv.Itoa(os.Getpid())) c.Stdout = os.Stdout c.Stderr = os.Stderr err := c.Run() if err != nil { fs.Errorf(nil, "Failed to list open files: %v", err) } } // Log the final error message and exit if cmdErr != nil { nerrs := accounting.GlobalStats().GetErrors() if nerrs <= 1 { log.Printf("Failed to %s: %v", cmd.Name(), cmdErr) } else { log.Printf("Failed to %s with %d errors: last error was: %v", cmd.Name(), nerrs, cmdErr) } } resolveExitCode(cmdErr) } // CheckArgs checks there are enough arguments and prints a message if not func CheckArgs(MinArgs, MaxArgs int, cmd *cobra.Command, args []string) { if len(args) < MinArgs { _ = cmd.Usage() _, _ = fmt.Fprintf(os.Stderr, "Command %s needs %d arguments minimum: you provided %d non flag arguments: %q\n", cmd.Name(), MinArgs, len(args), args) resolveExitCode(errorNotEnoughArguments) } else if len(args) > MaxArgs { _ = cmd.Usage() _, _ = fmt.Fprintf(os.Stderr, "Command %s needs %d arguments maximum: you provided %d non flag arguments: %q\n", cmd.Name(), MaxArgs, len(args), args) resolveExitCode(errorTooManyArguments) } } // StartStats prints the stats every statsInterval // // It returns a func which should be called to stop the stats. func StartStats() func() { if *statsInterval <= 0 { return func() {} } stopStats := make(chan struct{}) var wg sync.WaitGroup wg.Add(1) go func() { defer wg.Done() ticker := time.NewTicker(*statsInterval) for { select { case <-ticker.C: accounting.GlobalStats().Log() case <-stopStats: ticker.Stop() return } } }() return func() { close(stopStats) wg.Wait() } } // initConfig is run by cobra after initialising the flags func initConfig() { // Start the logger fslog.InitLogging() // Finish parsing any command line flags configflags.SetFlags() // Load filters err := filterflags.Reload() if err != nil { log.Fatalf("Failed to load filters: %v", err) } // Write the args for debug purposes fs.Debugf("rclone", "Version %q starting with parameters %q", fs.Version, os.Args) // Start the remote control server if configured _, err = rcserver.Start(&rcflags.Opt) if err != nil { log.Fatalf("Failed to start remote control: %v", err) } // Setup CPU profiling if desired if *cpuProfile != "" { fs.Infof(nil, "Creating CPU profile %q\n", *cpuProfile) f, err := os.Create(*cpuProfile) if err != nil { err = fs.CountError(err) log.Fatal(err) } err = pprof.StartCPUProfile(f) if err != nil { err = fs.CountError(err) log.Fatal(err) } atexit.Register(func() { pprof.StopCPUProfile() }) } // Setup memory profiling if desired if *memProfile != "" { atexit.Register(func() { fs.Infof(nil, "Saving Memory profile %q\n", *memProfile) f, err := os.Create(*memProfile) if err != nil { err = fs.CountError(err) log.Fatal(err) } err = pprof.WriteHeapProfile(f) if err != nil { err = fs.CountError(err) log.Fatal(err) } err = f.Close() if err != nil { err = fs.CountError(err) log.Fatal(err) } }) } if m, _ := regexp.MatchString("^(bits|bytes)$", *dataRateUnit); m == false { fs.Errorf(nil, "Invalid unit passed to --stats-unit. Defaulting to bytes.") fs.Config.DataRateUnit = "bytes" } else { fs.Config.DataRateUnit = *dataRateUnit } } func resolveExitCode(err error) { atexit.Run() if err == nil { os.Exit(exitCodeSuccess) } _, unwrapped := fserrors.Cause(err) switch { case unwrapped == fs.ErrorDirNotFound: os.Exit(exitCodeDirNotFound) case unwrapped == fs.ErrorObjectNotFound: os.Exit(exitCodeFileNotFound) case unwrapped == errorUncategorized: os.Exit(exitCodeUncategorizedError) case unwrapped == accounting.ErrorMaxTransferLimitReached: os.Exit(exitCodeTransferExceeded) case fserrors.ShouldRetry(err): os.Exit(exitCodeRetryError) case fserrors.IsNoRetryError(err): os.Exit(exitCodeNoRetryError) case fserrors.IsFatalError(err): os.Exit(exitCodeFatalError) default: os.Exit(exitCodeUsageError) } } var backendFlags map[string]struct{} // AddBackendFlags creates flags for all the backend options func AddBackendFlags() { backendFlags = map[string]struct{}{} for _, fsInfo := range fs.Registry { done := map[string]struct{}{} for i := range fsInfo.Options { opt := &fsInfo.Options[i] // Skip if done already (eg with Provider options) if _, doneAlready := done[opt.Name]; doneAlready { continue } done[opt.Name] = struct{}{} // Make a flag from each option name := opt.FlagName(fsInfo.Prefix) found := pflag.CommandLine.Lookup(name) != nil if !found { // Take first line of help only help := strings.TrimSpace(opt.Help) if nl := strings.IndexRune(help, '\n'); nl >= 0 { help = help[:nl] } help = strings.TrimSpace(help) flag := pflag.CommandLine.VarPF(opt, name, opt.ShortOpt, help) if _, isBool := opt.Default.(bool); isBool { flag.NoOptDefVal = "true" } // Hide on the command line if requested if opt.Hide&fs.OptionHideCommandLine != 0 { flag.Hidden = true } backendFlags[name] = struct{}{} } else { fs.Errorf(nil, "Not adding duplicate flag --%s", name) } //flag.Hidden = true } } } // Main runs rclone interpreting flags and commands out of os.Args func Main() { rand.Seed(time.Now().Unix()) setupRootCommand(Root) AddBackendFlags() if err := Root.Execute(); err != nil { log.Fatalf("Fatal error: %v", err) } }