// Read, write and edit the config file package fs import ( "bufio" "bytes" "crypto/aes" "crypto/cipher" "crypto/rand" "crypto/sha256" "encoding/base64" "fmt" "io" "io/ioutil" "log" "os" "os/user" "path/filepath" "regexp" "sort" "strconv" "strings" "time" "unicode/utf8" "github.com/Unknwon/goconfig" "github.com/pkg/errors" "github.com/spf13/pflag" "golang.org/x/crypto/nacl/secretbox" "golang.org/x/text/unicode/norm" ) const ( configFileName = "rclone.conf" hiddenConfigFileName = "." + configFileName // ConfigToken is the key used to store the token under ConfigToken = "token" // ConfigClientID is the config key used to store the client id ConfigClientID = "client_id" // ConfigClientSecret is the config key used to store the client secret ConfigClientSecret = "client_secret" // ConfigAutomatic indicates that we want non-interactive configuration ConfigAutomatic = "config_automatic" ) // Global var ( // configData is the config file data structure configData *goconfig.ConfigFile // ConfigPath points to the config file ConfigPath = makeConfigPath() // Config is the global config Config = &ConfigInfo{} // Flags verbose = CountP("verbose", "v", "Print lots more stuff (repeat for more)") quiet = BoolP("quiet", "q", false, "Print as little stuff as possible") logLevel = StringP("log-level", "", "INFO", "Log level DEBUG|INFO|NOTICE|ERROR") modifyWindow = DurationP("modify-window", "", time.Nanosecond, "Max time diff to be considered the same") checkers = IntP("checkers", "", 8, "Number of checkers to run in parallel.") transfers = IntP("transfers", "", 4, "Number of file transfers to run in parallel.") configFile = StringP("config", "", ConfigPath, "Config file.") checkSum = BoolP("checksum", "c", false, "Skip based on checksum & size, not mod-time & size") sizeOnly = BoolP("size-only", "", false, "Skip based on size only, not mod-time or checksum") ignoreTimes = BoolP("ignore-times", "I", false, "Don't skip files that match size and time - transfer all files") ignoreExisting = BoolP("ignore-existing", "", false, "Skip all files that exist on destination") dryRun = BoolP("dry-run", "n", false, "Do a trial run with no permanent changes") connectTimeout = DurationP("contimeout", "", 60*time.Second, "Connect timeout") timeout = DurationP("timeout", "", 5*60*time.Second, "IO idle timeout") dumpHeaders = BoolP("dump-headers", "", false, "Dump HTTP headers - may contain sensitive info") dumpBodies = BoolP("dump-bodies", "", false, "Dump HTTP headers and bodies - may contain sensitive info") dumpAuth = BoolP("dump-auth", "", false, "Dump HTTP headers with auth info") skipVerify = BoolP("no-check-certificate", "", false, "Do not verify the server SSL certificate. Insecure.") AskPassword = BoolP("ask-password", "", true, "Allow prompt for password for encrypted configuration.") deleteBefore = BoolP("delete-before", "", false, "When synchronizing, delete files on destination before transfering") deleteDuring = BoolP("delete-during", "", false, "When synchronizing, delete files during transfer (default)") deleteAfter = BoolP("delete-after", "", false, "When synchronizing, delete files on destination after transfering") trackRenames = BoolP("track-renames", "", false, "When synchronizing, track file renames and do a server side move if possible") lowLevelRetries = IntP("low-level-retries", "", 10, "Number of low level retries to do.") updateOlder = BoolP("update", "u", false, "Skip files that are newer on the destination.") noGzip = BoolP("no-gzip-encoding", "", false, "Don't set Accept-Encoding: gzip.") maxDepth = IntP("max-depth", "", -1, "If set limits the recursion depth to this.") ignoreSize = BoolP("ignore-size", "", false, "Ignore size when skipping use mod-time or checksum.") ignoreChecksum = BoolP("ignore-checksum", "", false, "Skip post copy check of checksums.") noTraverse = BoolP("no-traverse", "", false, "Don't traverse destination file system on copy.") noUpdateModTime = BoolP("no-update-modtime", "", false, "Don't update destination mod-time if files identical.") backupDir = StringP("backup-dir", "", "", "Make backups into hierarchy based in DIR.") suffix = StringP("suffix", "", "", "Suffix for use with --backup-dir.") bwLimit BwTimetable bufferSize SizeSuffix = 16 << 20 // Key to use for password en/decryption. // When nil, no encryption will be used for saving. configKey []byte ) func init() { VarP(&bwLimit, "bwlimit", "", "Bandwidth limit in kBytes/s, or use suffix b|k|M|G or a full timetable.") VarP(&bufferSize, "buffer-size", "", "Buffer size when copying files.") } // crypt internals var ( cryptKey = []byte{ 0x9c, 0x93, 0x5b, 0x48, 0x73, 0x0a, 0x55, 0x4d, 0x6b, 0xfd, 0x7c, 0x63, 0xc8, 0x86, 0xa9, 0x2b, 0xd3, 0x90, 0x19, 0x8e, 0xb8, 0x12, 0x8a, 0xfb, 0xf4, 0xde, 0x16, 0x2b, 0x8b, 0x95, 0xf6, 0x38, } cryptBlock cipher.Block cryptRand = rand.Reader ) // crypt transforms in to out using iv under AES-CTR. // // in and out may be the same buffer. // // Note encryption and decryption are the same operation func crypt(out, in, iv []byte) error { if cryptBlock == nil { var err error cryptBlock, err = aes.NewCipher(cryptKey) if err != nil { return err } } stream := cipher.NewCTR(cryptBlock, iv) stream.XORKeyStream(out, in) return nil } // Obscure a value // // This is done by encrypting with AES-CTR func Obscure(x string) (string, error) { plaintext := []byte(x) ciphertext := make([]byte, aes.BlockSize+len(plaintext)) iv := ciphertext[:aes.BlockSize] if _, err := io.ReadFull(cryptRand, iv); err != nil { return "", errors.Wrap(err, "failed to read iv") } if err := crypt(ciphertext[aes.BlockSize:], plaintext, iv); err != nil { return "", errors.Wrap(err, "encrypt failed") } return base64.RawURLEncoding.EncodeToString(ciphertext), nil } // MustObscure obscures a value, exiting with a fatal error if it failed func MustObscure(x string) string { out, err := Obscure(x) if err != nil { log.Fatalf("Obscure failed: %v", err) } return out } // Reveal an obscured value func Reveal(x string) (string, error) { ciphertext, err := base64.RawURLEncoding.DecodeString(x) if err != nil { return "", errors.Wrap(err, "base64 decode failed") } if len(ciphertext) < aes.BlockSize { return "", errors.New("input too short") } buf := ciphertext[aes.BlockSize:] iv := ciphertext[:aes.BlockSize] if err := crypt(buf, buf, iv); err != nil { return "", errors.Wrap(err, "decrypt failed") } return string(buf), nil } // MustReveal reveals an obscured value, exiting with a fatal error if it failed func MustReveal(x string) string { out, err := Reveal(x) if err != nil { log.Fatalf("Reveal failed: %v", err) } return out } // ConfigInfo is filesystem config options type ConfigInfo struct { LogLevel LogLevel DryRun bool CheckSum bool SizeOnly bool IgnoreTimes bool IgnoreExisting bool ModifyWindow time.Duration Checkers int Transfers int ConnectTimeout time.Duration // Connect timeout Timeout time.Duration // Data channel timeout DumpHeaders bool DumpBodies bool DumpAuth bool Filter *Filter InsecureSkipVerify bool // Skip server certificate verification DeleteMode DeleteMode TrackRenames bool // Track file renames. LowLevelRetries int UpdateOlder bool // Skip files that are newer on the destination NoGzip bool // Disable compression MaxDepth int IgnoreSize bool IgnoreChecksum bool NoTraverse bool NoUpdateModTime bool DataRateUnit string BackupDir string Suffix string BufferSize SizeSuffix } // Return the path to the configuration file func makeConfigPath() string { // Find user's home directory usr, err := user.Current() var homedir string if err == nil { homedir = usr.HomeDir } else { // Fall back to reading $HOME - work around user.Current() not // working for cross compiled binaries on OSX. // https://github.com/golang/go/issues/6376 homedir = os.Getenv("HOME") } // Possibly find the user's XDG config paths // See XDG Base Directory specification // https://specifications.freedesktop.org/basedir-spec/latest/ xdgdir := os.Getenv("XDG_CONFIG_HOME") var xdgcfgdir string if xdgdir != "" { xdgcfgdir = filepath.Join(xdgdir, "rclone") } else if homedir != "" { xdgdir = filepath.Join(homedir, ".config") xdgcfgdir = filepath.Join(xdgdir, "rclone") } // Use $XDG_CONFIG_HOME/rclone/rclone.conf if already existing var xdgconf string if xdgcfgdir != "" { xdgconf = filepath.Join(xdgcfgdir, configFileName) _, err := os.Stat(xdgconf) if err == nil { return xdgconf } } // Use $HOME/.rclone.conf if already existing var homeconf string if homedir != "" { homeconf = filepath.Join(homedir, hiddenConfigFileName) _, err := os.Stat(homeconf) if err == nil { return homeconf } } // Try to create $XDG_CONFIG_HOME/rclone/rclone.conf if xdgconf != "" { // xdgconf != "" implies xdgcfgdir != "" err := os.MkdirAll(xdgcfgdir, os.ModePerm) if err == nil { return xdgconf } } // Try to create $HOME/.rclone.conf if homeconf != "" { return homeconf } // Default to ./.rclone.conf (current working directory) Errorf(nil, "Couldn't find home directory or read HOME or XDG_CONFIG_HOME environment variables.") Errorf(nil, "Defaulting to storing config in current directory.") Errorf(nil, "Use -config flag to workaround.") Errorf(nil, "Error was: %v", err) return hiddenConfigFileName } // DeleteMode describes the possible delete modes in the config type DeleteMode byte // DeleteMode constants const ( DeleteModeOff DeleteMode = iota DeleteModeBefore DeleteModeDuring DeleteModeAfter DeleteModeOnly DeleteModeDefault = DeleteModeAfter ) // LoadConfig loads the config file func LoadConfig() { // Read some flags if set // // FIXME read these from the config file too Config.LogLevel = LogLevelNotice if *verbose >= 2 { Config.LogLevel = LogLevelDebug } else if *verbose >= 1 { Config.LogLevel = LogLevelInfo } if *quiet { if *verbose > 0 { log.Fatalf("Can't set -v and -q") } Config.LogLevel = LogLevelError } logLevelFlag := pflag.Lookup("log-level") if logLevelFlag != nil && logLevelFlag.Changed { if *verbose > 0 { log.Fatalf("Can't set -v and --log-level") } if *quiet { log.Fatalf("Can't set -q and --log-level") } switch strings.ToUpper(*logLevel) { case "ERROR": Config.LogLevel = LogLevelError case "NOTICE": Config.LogLevel = LogLevelNotice case "INFO": Config.LogLevel = LogLevelInfo case "DEBUG": Config.LogLevel = LogLevelDebug default: log.Fatalf("Unknown --log-level %q", *logLevel) } } Config.ModifyWindow = *modifyWindow Config.Checkers = *checkers Config.Transfers = *transfers Config.DryRun = *dryRun Config.Timeout = *timeout Config.ConnectTimeout = *connectTimeout Config.CheckSum = *checkSum Config.SizeOnly = *sizeOnly Config.IgnoreTimes = *ignoreTimes Config.IgnoreExisting = *ignoreExisting Config.DumpHeaders = *dumpHeaders Config.DumpBodies = *dumpBodies Config.DumpAuth = *dumpAuth Config.InsecureSkipVerify = *skipVerify Config.LowLevelRetries = *lowLevelRetries Config.UpdateOlder = *updateOlder Config.NoGzip = *noGzip Config.MaxDepth = *maxDepth Config.IgnoreSize = *ignoreSize Config.IgnoreChecksum = *ignoreChecksum Config.NoTraverse = *noTraverse Config.NoUpdateModTime = *noUpdateModTime Config.BackupDir = *backupDir Config.Suffix = *suffix Config.BufferSize = bufferSize ConfigPath = *configFile Config.TrackRenames = *trackRenames switch { case *deleteBefore && (*deleteDuring || *deleteAfter), *deleteDuring && *deleteAfter: log.Fatalf(`Only one of --delete-before, --delete-during or --delete-after can be used.`) case *deleteBefore: Config.DeleteMode = DeleteModeBefore case *deleteDuring: Config.DeleteMode = DeleteModeDuring case *deleteAfter: Config.DeleteMode = DeleteModeAfter default: Config.DeleteMode = DeleteModeDefault } if Config.IgnoreSize && Config.SizeOnly { log.Fatalf(`Can't use --size-only and --ignore-size together.`) } if Config.Suffix != "" && Config.BackupDir == "" { log.Fatalf(`Can only use --suffix with --backup-dir.`) } // Load configuration file. var err error configData, err = loadConfigFile() if err == errorConfigFileNotFound { Logf(nil, "Config file %q not found - using defaults", ConfigPath) configData, _ = goconfig.LoadFromReader(&bytes.Buffer{}) } else if err != nil { log.Fatalf("Failed to load config file %q: %v", ConfigPath, err) } // Load filters Config.Filter, err = NewFilter() if err != nil { log.Fatalf("Failed to load filters: %v", err) } // Start the token bucket limiter startTokenBucket() // Start the bandwidth update ticker startTokenTicker() } var errorConfigFileNotFound = errors.New("config file not found") // loadConfigFile will load a config file, and // automatically decrypt it. func loadConfigFile() (*goconfig.ConfigFile, error) { b, err := ioutil.ReadFile(ConfigPath) if err != nil { if os.IsNotExist(err) { return nil, errorConfigFileNotFound } return nil, err } // Find first non-empty line r := bufio.NewReader(bytes.NewBuffer(b)) for { line, _, err := r.ReadLine() if err != nil { if err == io.EOF { return goconfig.LoadFromReader(bytes.NewBuffer(b)) } return nil, err } l := strings.TrimSpace(string(line)) if len(l) == 0 || strings.HasPrefix(l, ";") || strings.HasPrefix(l, "#") { continue } // First non-empty or non-comment must be ENCRYPT_V0 if l == "RCLONE_ENCRYPT_V0:" { break } if strings.HasPrefix(l, "RCLONE_ENCRYPT_V") { return nil, errors.New("unsupported configuration encryption - update rclone for support") } return goconfig.LoadFromReader(bytes.NewBuffer(b)) } // Encrypted content is base64 encoded. dec := base64.NewDecoder(base64.StdEncoding, r) box, err := ioutil.ReadAll(dec) if err != nil { return nil, errors.Wrap(err, "failed to load base64 encoded data") } if len(box) < 24+secretbox.Overhead { return nil, errors.New("Configuration data too short") } envpw := os.Getenv("RCLONE_CONFIG_PASS") var out []byte for { if len(configKey) == 0 && envpw != "" { err := setConfigPassword(envpw) if err != nil { fmt.Println("Using RCLONE_CONFIG_PASS returned:", err) envpw = "" } else { Debugf(nil, "Using RCLONE_CONFIG_PASS password.") } } if len(configKey) == 0 { if !*AskPassword { return nil, errors.New("unable to decrypt configuration and not allowed to ask for password - set RCLONE_CONFIG_PASS to your configuration password") } getConfigPassword("Enter configuration password:") } // Nonce is first 24 bytes of the ciphertext var nonce [24]byte copy(nonce[:], box[:24]) var key [32]byte copy(key[:], configKey[:32]) // Attempt to decrypt var ok bool out, ok = secretbox.Open(nil, box[24:], &nonce, &key) if ok { break } // Retry Errorf(nil, "Couldn't decrypt configuration, most likely wrong password.") configKey = nil envpw = "" } return goconfig.LoadFromReader(bytes.NewBuffer(out)) } // checkPassword normalises and validates the password func checkPassword(password string) (string, error) { if !utf8.ValidString(password) { return "", errors.New("password contains invalid utf8 characters") } // Remove leading+trailing whitespace password = strings.TrimSpace(password) // Normalize to reduce weird variations. password = norm.NFKC.String(password) if len(password) == 0 { return "", errors.New("no characters in password") } return password, nil } // GetPassword asks the user for a password with the prompt given. func GetPassword(prompt string) string { fmt.Fprintln(os.Stderr, prompt) for { fmt.Fprint(os.Stderr, "password:") password := ReadPassword() password, err := checkPassword(password) if err == nil { return password } fmt.Fprintf(os.Stderr, "Bad password: %v\n", err) } } // ChangePassword will query the user twice for the named password. If // the same password is entered it is returned. func ChangePassword(name string) string { for { a := GetPassword(fmt.Sprintf("Enter %s password:", name)) b := GetPassword(fmt.Sprintf("Confirm %s password:", name)) if a == b { return a } fmt.Println("Passwords do not match!") } } // getConfigPassword will query the user for a password the // first time it is required. func getConfigPassword(q string) { if len(configKey) != 0 { return } for { password := GetPassword(q) err := setConfigPassword(password) if err == nil { return } fmt.Fprintln(os.Stderr, "Error:", err) } } // setConfigPassword will set the configKey to the hash of // the password. If the length of the password is // zero after trimming+normalization, an error is returned. func setConfigPassword(password string) error { password, err := checkPassword(password) if err != nil { return err } // Create SHA256 has of the password sha := sha256.New() _, err = sha.Write([]byte("[" + password + "][rclone-config]")) if err != nil { return err } configKey = sha.Sum(nil) return nil } // changeConfigPassword will query the user twice // for a password. If the same password is entered // twice the key is updated. func changeConfigPassword() { err := setConfigPassword(ChangePassword("NEW configuration")) if err != nil { fmt.Printf("Failed to set config password: %v\n", err) return } } // SaveConfig saves configuration file. // if configKey has been set, the file will be encrypted. func SaveConfig() { dir, name := filepath.Split(ConfigPath) f, err := ioutil.TempFile(dir, name) if err != nil { log.Fatalf("Failed to create temp file for new config: %v", err) return } defer func() { if err := os.Remove(f.Name()); err != nil && !os.IsNotExist(err) { Errorf(nil, "Failed to remove temp config file: %v", err) } }() var buf bytes.Buffer err = goconfig.SaveConfigData(configData, &buf) if err != nil { log.Fatalf("Failed to save config file: %v", err) } if len(configKey) == 0 { if _, err := buf.WriteTo(f); err != nil { log.Fatalf("Failed to write temp config file: %v", err) } } else { fmt.Fprintln(f, "# Encrypted rclone configuration File") fmt.Fprintln(f, "") fmt.Fprintln(f, "RCLONE_ENCRYPT_V0:") // Generate new nonce and write it to the start of the ciphertext var nonce [24]byte n, _ := rand.Read(nonce[:]) if n != 24 { log.Fatalf("nonce short read: %d", n) } enc := base64.NewEncoder(base64.StdEncoding, f) _, err = enc.Write(nonce[:]) if err != nil { log.Fatalf("Failed to write temp config file: %v", err) } var key [32]byte copy(key[:], configKey[:32]) b := secretbox.Seal(nil, buf.Bytes(), &nonce, &key) _, err = enc.Write(b) if err != nil { log.Fatalf("Failed to write temp config file: %v", err) } _ = enc.Close() } err = f.Close() if err != nil { log.Fatalf("Failed to close config file: %v", err) } err = os.Chmod(f.Name(), 0600) if err != nil { Errorf(nil, "Failed to set permissions on config file: %v", err) } if err = os.Rename(ConfigPath, ConfigPath+".old"); err != nil && !os.IsNotExist(err) { log.Fatalf("Failed to move previous config to backup location: %v", err) } if err = os.Rename(f.Name(), ConfigPath); err != nil { log.Fatalf("Failed to move newly written config from %s to final location: %v", f.Name(), err) } if err := os.Remove(ConfigPath + ".old"); err != nil && !os.IsNotExist(err) { Errorf(nil, "Failed to remove backup config file: %v", err) } } // ConfigSetValueAndSave sets the key to the value and saves just that // value in the config file. It loads the old config file in from // disk first and overwrites the given value only. func ConfigSetValueAndSave(name, key, value string) (err error) { // Set the value in config in case we fail to reload it configData.SetValue(name, key, value) // Reload the config file reloadedConfigFile, err := loadConfigFile() if err == errorConfigFileNotFound { // Config file not written yet so ignore reload return nil } else if err != nil { return err } _, err = reloadedConfigFile.GetSection(name) if err != nil { // Section doesn't exist yet so ignore reload return err } // Update the config file with the reloaded version configData = reloadedConfigFile // Set the value in the reloaded version reloadedConfigFile.SetValue(name, key, value) // Save it again SaveConfig() return nil } // ShowRemotes shows an overview of the config file func ShowRemotes() { remotes := configData.GetSectionList() if len(remotes) == 0 { return } sort.Strings(remotes) fmt.Printf("%-20s %s\n", "Name", "Type") fmt.Printf("%-20s %s\n", "====", "====") for _, remote := range remotes { fmt.Printf("%-20s %s\n", remote, ConfigFileGet(remote, "type")) } } // ChooseRemote chooses a remote name func ChooseRemote() string { remotes := configData.GetSectionList() sort.Strings(remotes) return Choose("remote", remotes, nil, false) } // ReadLine reads some input func ReadLine() string { buf := bufio.NewReader(os.Stdin) line, err := buf.ReadString('\n') if err != nil { log.Fatalf("Failed to read line: %v", err) } return strings.TrimSpace(line) } // Command - choose one func Command(commands []string) byte { opts := []string{} for _, text := range commands { fmt.Printf("%c) %s\n", text[0], text[1:]) opts = append(opts, text[:1]) } optString := strings.Join(opts, "") optHelp := strings.Join(opts, "/") for { fmt.Printf("%s> ", optHelp) result := strings.ToLower(ReadLine()) if len(result) != 1 { continue } i := strings.Index(optString, string(result[0])) if i >= 0 { return result[0] } } } // Confirm asks the user for Yes or No and returns true or false func Confirm() bool { return Command([]string{"yYes", "nNo"}) == 'y' } // Choose one of the defaults or type a new string if newOk is set func Choose(what string, defaults, help []string, newOk bool) string { valueDescripton := "an existing" if newOk { valueDescripton = "your own" } fmt.Printf("Choose a number from below, or type in %s value\n", valueDescripton) for i, text := range defaults { var lines []string if help != nil { parts := strings.Split(help[i], "\n") lines = append(lines, parts...) } lines = append(lines, fmt.Sprintf("%q", text)) pos := i + 1 if len(lines) == 1 { fmt.Printf("%2d > %s\n", pos, text) } else { mid := (len(lines) - 1) / 2 for i, line := range lines { var sep rune switch i { case 0: sep = '/' case len(lines) - 1: sep = '\\' default: sep = '|' } number := " " if i == mid { number = fmt.Sprintf("%2d", pos) } fmt.Printf("%s %c %s\n", number, sep, line) } } } for { fmt.Printf("%s> ", what) result := ReadLine() i, err := strconv.Atoi(result) if err != nil { if newOk { return result } for _, v := range defaults { if result == v { return result } } continue } if i >= 1 && i <= len(defaults) { return defaults[i-1] } } } // ChooseNumber asks the user to enter a number between min and max // inclusive prompting them with what. func ChooseNumber(what string, min, max int) int { for { fmt.Printf("%s> ", what) result := ReadLine() i, err := strconv.Atoi(result) if err != nil { fmt.Printf("Bad number: %v\n", err) continue } if i < min || i > max { fmt.Printf("Out of range - %d to %d inclusive\n", min, max) continue } return i } } // ShowRemote shows the contents of the remote func ShowRemote(name string) { fmt.Printf("--------------------\n") fmt.Printf("[%s]\n", name) fs := MustFindByName(name) for _, key := range configData.GetKeyList(name) { isPassword := false for _, option := range fs.Options { if option.Name == key && option.IsPassword { isPassword = true break } } value := ConfigFileGet(name, key) if isPassword && value != "" { fmt.Printf("%s = *** ENCRYPTED ***\n", key) } else { fmt.Printf("%s = %s\n", key, value) } } fmt.Printf("--------------------\n") } // OkRemote prints the contents of the remote and ask if it is OK func OkRemote(name string) bool { ShowRemote(name) switch i := Command([]string{"yYes this is OK", "eEdit this remote", "dDelete this remote"}); i { case 'y': return true case 'e': return false case 'd': configData.DeleteSection(name) return true default: Errorf(nil, "Bad choice %c", i) } return false } // MustFindByName finds the RegInfo for the remote name passed in or // exits with a fatal error. func MustFindByName(name string) *RegInfo { fsType := ConfigFileGet(name, "type") if fsType == "" { log.Fatalf("Couldn't find type of fs for %q", name) } return MustFind(fsType) } // RemoteConfig runs the config helper for the remote if needed func RemoteConfig(name string) { fmt.Printf("Remote config\n") f := MustFindByName(name) if f.Config != nil { f.Config(name) } } // ChooseOption asks the user to choose an option func ChooseOption(o *Option) string { fmt.Println(o.Help) if o.IsPassword { actions := []string{"yYes type in my own password", "gGenerate random password"} if o.Optional { actions = append(actions, "nNo leave this optional password blank") } var password string switch i := Command(actions); i { case 'y': password = ChangePassword("the") case 'g': for { fmt.Printf("Password strength in bits.\n64 is just about memorable\n128 is secure\n1024 is the maximum\n") bits := ChooseNumber("Bits", 64, 1024) bytes := bits / 8 if bits%8 != 0 { bytes++ } var pw = make([]byte, bytes) n, _ := rand.Read(pw) if n != bytes { log.Fatalf("password short read: %d", n) } password = base64.RawURLEncoding.EncodeToString(pw) fmt.Printf("Your password is: %s\n", password) fmt.Printf("Use this password?\n") if Confirm() { break } } case 'n': return "" default: Errorf(nil, "Bad choice %c", i) } return MustObscure(password) } if len(o.Examples) > 0 { var values []string var help []string for _, example := range o.Examples { values = append(values, example.Value) help = append(help, example.Help) } return Choose(o.Name, values, help, true) } fmt.Printf("%s> ", o.Name) return ReadLine() } // fsOption returns an Option describing the possible remotes func fsOption() *Option { o := &Option{ Name: "Storage", Help: "Type of storage to configure.", } for _, item := range fsRegistry { example := OptionExample{ Value: item.Name, Help: item.Description, } o.Examples = append(o.Examples, example) } o.Examples.Sort() return o } // NewRemoteName asks the user for a name for a remote func NewRemoteName() (name string) { for { fmt.Printf("name> ") name = ReadLine() parts := matcher.FindStringSubmatch(name + ":") switch { case name == "": fmt.Printf("Can't use empty name.\n") case isDriveLetter(name): fmt.Printf("Can't use %q as it can be confused a drive letter.\n", name) case parts == nil: fmt.Printf("Can't use %q as it has invalid characters in it.\n", name) default: return name } } } // NewRemote make a new remote from its name func NewRemote(name string) { newType := ChooseOption(fsOption()) configData.SetValue(name, "type", newType) fs := MustFind(newType) for _, option := range fs.Options { configData.SetValue(name, option.Name, ChooseOption(&option)) } RemoteConfig(name) if OkRemote(name) { SaveConfig() return } EditRemote(fs, name) } // EditRemote gets the user to edit a remote func EditRemote(fs *RegInfo, name string) { ShowRemote(name) fmt.Printf("Edit remote\n") for { for _, option := range fs.Options { key := option.Name value := ConfigFileGet(name, key) fmt.Printf("Value %q = %q\n", key, value) fmt.Printf("Edit? (y/n)>\n") if Confirm() { newValue := ChooseOption(&option) configData.SetValue(name, key, newValue) } } RemoteConfig(name) if OkRemote(name) { break } } SaveConfig() } // DeleteRemote gets the user to delete a remote func DeleteRemote(name string) { configData.DeleteSection(name) SaveConfig() } // copyRemote asks the user for a new remote name and copies name into // it func copyRemote(name string) { newName := NewRemoteName() // Copy the keys for _, key := range configData.GetKeyList(name) { value := configData.MustValue(name, key, "") configData.SetValue(newName, key, value) } } // RenameRemote renames a config section func RenameRemote(name string) { fmt.Printf("Enter new name for %q remote.\n", name) copyRemote(name) configData.DeleteSection(name) SaveConfig() } // CopyRemote copies a config section func CopyRemote(name string) { fmt.Printf("Enter name for copy of %q remote.\n", name) copyRemote(name) SaveConfig() } // EditConfig edits the config file interactively func EditConfig() { for { haveRemotes := len(configData.GetSectionList()) != 0 what := []string{"eEdit existing remote", "nNew remote", "dDelete remote", "rRename remote", "cCopy remote", "sSet configuration password", "qQuit config"} if haveRemotes { fmt.Printf("Current remotes:\n\n") ShowRemotes() fmt.Printf("\n") } else { fmt.Printf("No remotes found - make a new one\n") what = append(what[1:2], what[3:]...) } switch i := Command(what); i { case 'e': name := ChooseRemote() fs := MustFindByName(name) EditRemote(fs, name) case 'n': NewRemote(NewRemoteName()) case 'd': name := ChooseRemote() DeleteRemote(name) case 'r': RenameRemote(ChooseRemote()) case 'c': CopyRemote(ChooseRemote()) case 's': SetPassword() case 'q': return } } } // SetPassword will allow the user to modify the current // configuration encryption settings. func SetPassword() { for { if len(configKey) > 0 { fmt.Println("Your configuration is encrypted.") what := []string{"cChange Password", "uUnencrypt configuration", "qQuit to main menu"} switch i := Command(what); i { case 'c': changeConfigPassword() SaveConfig() fmt.Println("Password changed") continue case 'u': configKey = nil SaveConfig() continue case 'q': return } } else { fmt.Println("Your configuration is not encrypted.") fmt.Println("If you add a password, you will protect your login information to cloud services.") what := []string{"aAdd Password", "qQuit to main menu"} switch i := Command(what); i { case 'a': changeConfigPassword() SaveConfig() fmt.Println("Password set") continue case 'q': return } } } } // Authorize is for remote authorization of headless machines. // // It expects 1 or 3 arguments // // rclone authorize "fs name" // rclone authorize "fs name" "client id" "client secret" func Authorize(args []string) { switch len(args) { case 1, 3: default: log.Fatalf("Invalid number of arguments: %d", len(args)) } newType := args[0] fs := MustFind(newType) if fs.Config == nil { log.Fatalf("Can't authorize fs %q", newType) } // Name used for temporary fs name := "**temp-fs**" // Make sure we delete it defer DeleteRemote(name) // Indicate that we want fully automatic configuration. configData.SetValue(name, ConfigAutomatic, "yes") if len(args) == 3 { configData.SetValue(name, ConfigClientID, args[1]) configData.SetValue(name, ConfigClientSecret, args[2]) } fs.Config(name) } // configToEnv converts an config section and name, eg ("myremote", // "ignore-size") into an environment name // "RCLONE_CONFIG_MYREMOTE_IGNORE_SIZE" func configToEnv(section, name string) string { return "RCLONE_CONFIG_" + strings.ToUpper(strings.Replace(section+"_"+name, "-", "_", -1)) } // ConfigFileGet gets the config key under section returning the // default or empty string if not set. // // It looks up defaults in the environment if they are present func ConfigFileGet(section, key string, defaultVal ...string) string { envKey := configToEnv(section, key) newValue, found := os.LookupEnv(envKey) if found { defaultVal = []string{newValue} } return configData.MustValue(section, key, defaultVal...) } // ConfigFileGetBool gets the config key under section returning the // default or false if not set. // // It looks up defaults in the environment if they are present func ConfigFileGetBool(section, key string, defaultVal ...bool) bool { envKey := configToEnv(section, key) newValue, found := os.LookupEnv(envKey) if found { newBool, err := strconv.ParseBool(newValue) if err != nil { Errorf(nil, "Couldn't parse %q into bool - ignoring: %v", envKey, err) } else { defaultVal = []bool{newBool} } } return configData.MustBool(section, key, defaultVal...) } // ConfigFileGetInt gets the config key under section returning the // default or 0 if not set. // // It looks up defaults in the environment if they are present func ConfigFileGetInt(section, key string, defaultVal ...int) int { envKey := configToEnv(section, key) newValue, found := os.LookupEnv(envKey) if found { newInt, err := strconv.Atoi(newValue) if err != nil { Errorf(nil, "Couldn't parse %q into int - ignoring: %v", envKey, err) } else { defaultVal = []int{newInt} } } return configData.MustInt(section, key, defaultVal...) } // ConfigFileSet sets the key in section to value. It doesn't save // the config file. func ConfigFileSet(section, key, value string) { configData.SetValue(section, key, value) } // ConfigFileDeleteKey deletes the config key in the config file. // It returns true if the key was deleted, // or returns false if the section or key didn't exist. func ConfigFileDeleteKey(section, key string) bool { return configData.DeleteKey(section, key) } var matchEnv = regexp.MustCompile(`^RCLONE_CONFIG_(.*?)_TYPE=.*$`) // ConfigFileSections returns the sections in the config file // including any defined by environment variables. func ConfigFileSections() []string { sections := configData.GetSectionList() for _, item := range os.Environ() { matches := matchEnv.FindStringSubmatch(item) if len(matches) == 2 { sections = append(sections, strings.ToLower(matches[1])) } } return sections }