// Package config reads, writes and edits the config file and deals with command line flags package config import ( "context" "encoding/json" "errors" "fmt" "log" mathrand "math/rand" "os" "path/filepath" "regexp" "runtime" "strings" "time" "github.com/mitchellh/go-homedir" "github.com/rclone/rclone/fs" "github.com/rclone/rclone/fs/cache" "github.com/rclone/rclone/fs/config/configmap" "github.com/rclone/rclone/fs/config/obscure" "github.com/rclone/rclone/fs/fspath" "github.com/rclone/rclone/fs/rc" "github.com/rclone/rclone/lib/file" "github.com/rclone/rclone/lib/random" ) const ( configFileName = "rclone.conf" hiddenConfigFileName = "." + configFileName noConfigFile = "notfound" // 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" // ConfigAuthURL is the config key used to store the auth server endpoint ConfigAuthURL = "auth_url" // ConfigTokenURL is the config key used to store the token server endpoint ConfigTokenURL = "token_url" // ConfigEncoding is the config key to change the encoding for a backend ConfigEncoding = "encoding" // ConfigEncodingHelp is the help for ConfigEncoding ConfigEncodingHelp = "The encoding for the backend.\n\nSee the [encoding section in the overview](/overview/#encoding) for more info." // ConfigAuthorize indicates that we just want "rclone authorize" ConfigAuthorize = "config_authorize" // ConfigAuthNoBrowser indicates that we do not want to open browser ConfigAuthNoBrowser = "config_auth_no_browser" ) // Storage defines an interface for loading and saving config to // persistent storage. Rclone provides a default implementation to // load and save to a config file when this is imported // // import "github.com/rclone/rclone/fs/config/configfile" // configfile.Install() type Storage interface { // GetSectionList returns a slice of strings with names for all the // sections GetSectionList() []string // HasSection returns true if section exists in the config file HasSection(section string) bool // DeleteSection removes the named section and all config from the // config file DeleteSection(section string) // GetKeyList returns the keys in this section GetKeyList(section string) []string // GetValue returns the key in section with a found flag GetValue(section string, key string) (value string, found bool) // SetValue sets the value under key in section SetValue(section string, key string, value string) // DeleteKey removes the key under section DeleteKey(section string, key string) bool // Load the config from permanent storage Load() error // Save the config to permanent storage Save() error // Serialize the config into a string Serialize() (string, error) } // Global var ( // Password can be used to configure the random password generator Password = random.Password ) var ( configPath string cacheDir string data Storage dataLoaded bool ) func init() { // Set the function pointers up in fs fs.ConfigFileGet = FileGetFlag fs.ConfigFileSet = SetValueAndSave configPath = makeConfigPath() cacheDir = makeCacheDir() // Has fallback to tempDir, so set that first data = newDefaultStorage() } // Join directory with filename, and check if exists func findFile(dir string, name string) string { path := filepath.Join(dir, name) if _, err := os.Stat(path); err != nil { return "" } return path } // Find current user's home directory func findHomeDir() (string, error) { path, err := homedir.Dir() if err != nil { fs.Debugf(nil, "Home directory lookup failed and cannot be used as configuration location: %v", err) } else if path == "" { // On Unix homedir return success but empty string for user with empty home configured in passwd file fs.Debugf(nil, "Home directory not defined and cannot be used as configuration location") } return path, err } // Find rclone executable directory and look for existing rclone.conf there // (/rclone.conf) func findLocalConfig() (configDir string, configFile string) { if exePath, err := os.Executable(); err == nil { configDir = filepath.Dir(exePath) configFile = findFile(configDir, configFileName) } return } // Get path to Windows AppData config subdirectory for rclone and look for existing rclone.conf there // ($AppData/rclone/rclone.conf) func findAppDataConfig() (configDir string, configFile string) { if appDataDir := os.Getenv("APPDATA"); appDataDir != "" { configDir = filepath.Join(appDataDir, "rclone") configFile = findFile(configDir, configFileName) } else { fs.Debugf(nil, "Environment variable APPDATA is not defined and cannot be used as configuration location") } return } // Get path to XDG config subdirectory for rclone and look for existing rclone.conf there // (see XDG Base Directory specification: https://specifications.freedesktop.org/basedir-spec/latest/). // ($XDG_CONFIG_HOME\rclone\rclone.conf) func findXDGConfig() (configDir string, configFile string) { if xdgConfigDir := os.Getenv("XDG_CONFIG_HOME"); xdgConfigDir != "" { configDir = filepath.Join(xdgConfigDir, "rclone") configFile = findFile(configDir, configFileName) } return } // Get path to .config subdirectory for rclone and look for existing rclone.conf there // (~/.config/rclone/rclone.conf) func findDotConfigConfig(home string) (configDir string, configFile string) { if home != "" { configDir = filepath.Join(home, ".config", "rclone") configFile = findFile(configDir, configFileName) } return } // Look for existing .rclone.conf (legacy hidden filename) in root of user's home directory // (~/.rclone.conf) func findOldHomeConfig(home string) (configDir string, configFile string) { if home != "" { configDir = home configFile = findFile(home, hiddenConfigFileName) } return } // Return the path to the configuration file func makeConfigPath() string { // Look for existing rclone.conf in prioritized list of known locations // Also get configuration directory to use for new config file when no existing is found. var ( configFile string configDir string primaryConfigDir string fallbackConfigDir string ) // /rclone.conf if _, configFile = findLocalConfig(); configFile != "" { return configFile } // Windows: $AppData/rclone/rclone.conf // This is also the default location for new config when no existing is found if runtime.GOOS == "windows" { if primaryConfigDir, configFile = findAppDataConfig(); configFile != "" { return configFile } } // $XDG_CONFIG_HOME/rclone/rclone.conf // Also looking for this on Windows, for backwards compatibility reasons. if configDir, configFile = findXDGConfig(); configFile != "" { return configFile } if runtime.GOOS != "windows" { // On Unix this is also the default location for new config when no existing is found primaryConfigDir = configDir } // ~/.config/rclone/rclone.conf // This is also the fallback location for new config // (when $AppData on Windows and $XDG_CONFIG_HOME on Unix is not defined) homeDir, homeDirErr := findHomeDir() if fallbackConfigDir, configFile = findDotConfigConfig(homeDir); configFile != "" { return configFile } // ~/.rclone.conf if _, configFile = findOldHomeConfig(homeDir); configFile != "" { return configFile } // No existing config file found, prepare proper default for a new one. // But first check if if user supplied a --config variable or environment // variable, since then we skip actually trying to create the default // and report any errors related to it (we can't use pflag for this because // it isn't initialised yet so we search the command line manually). _, configSupplied := os.LookupEnv("RCLONE_CONFIG") if !configSupplied { for _, item := range os.Args { if item == "--config" || strings.HasPrefix(item, "--config=") { configSupplied = true break } } } // If we found a configuration directory to be used for new config during search // above, then create it to be ready for rclone.conf file to be written into it // later, and also as a test of permissions to use fallback if not even able to // create the directory. if primaryConfigDir != "" { configDir = primaryConfigDir } else if fallbackConfigDir != "" { configDir = fallbackConfigDir } else { configDir = "" } if configDir != "" { configFile = filepath.Join(configDir, configFileName) if configSupplied { // User supplied custom config option, just return the default path // as is without creating any directories, since it will not be used // anyway and we don't want to unnecessarily create empty directory. return configFile } var mkdirErr error if mkdirErr = file.MkdirAll(configDir, os.ModePerm); mkdirErr == nil { return configFile } // Problem: Try a fallback location. If we did find a home directory then // just assume file .rclone.conf (legacy hidden filename) can be written in // its root (~/.rclone.conf). if homeDir != "" { fs.Debugf(nil, "Configuration directory could not be created and will not be used: %v", mkdirErr) return filepath.Join(homeDir, hiddenConfigFileName) } if !configSupplied { fs.Errorf(nil, "Couldn't find home directory nor create configuration directory: %v", mkdirErr) } } else if !configSupplied { if homeDirErr != nil { fs.Errorf(nil, "Couldn't find configuration directory nor home directory: %v", homeDirErr) } else { fs.Errorf(nil, "Couldn't find configuration directory nor home directory") } } // No known location that can be used: Did possibly find a configDir // (XDG_CONFIG_HOME or APPDATA) which couldn't be created, but in any case // did not find a home directory! // Report it as an error, and return as last resort the path relative to current // working directory, of .rclone.conf (legacy hidden filename). if !configSupplied { fs.Errorf(nil, "Defaulting to storing config in current directory.") fs.Errorf(nil, "Use --config flag to workaround.") } return hiddenConfigFileName } // GetConfigPath returns the current config file path func GetConfigPath() string { return configPath } // SetConfigPath sets new config file path // // Checks for empty string, os null device, or special path, all of which indicates in-memory config. func SetConfigPath(path string) (err error) { var cfgPath string if path == "" || path == os.DevNull { cfgPath = "" } else if filepath.Base(path) == noConfigFile { cfgPath = "" } else if err = file.IsReserved(path); err != nil { return err } else if cfgPath, err = filepath.Abs(path); err != nil { return err } configPath = cfgPath return nil } // SetData sets new config file storage func SetData(newData Storage) { // If no config file, use in-memory config (which is the default) if configPath == "" { return } data = newData dataLoaded = false } // Data returns current config file storage func Data() Storage { return data } // LoadedData ensures the config file storage is loaded and returns it func LoadedData() Storage { if !dataLoaded { // Set RCLONE_CONFIG_DIR for backend config and subprocesses // If empty configPath (in-memory only) the value will be "." _ = os.Setenv("RCLONE_CONFIG_DIR", filepath.Dir(configPath)) // Load configuration from file (or initialize sensible default if no file or error) if err := data.Load(); err == nil { fs.Debugf(nil, "Using config file from %q", configPath) dataLoaded = true } else if err == ErrorConfigFileNotFound { if configPath == "" { fs.Debugf(nil, "Config is memory-only - using defaults") } else { fs.Logf(nil, "Config file %q not found - using defaults", configPath) } dataLoaded = true } else { log.Fatalf("Failed to load config file %q: %v", configPath, err) } } return data } // ErrorConfigFileNotFound is returned when the config file is not found var ErrorConfigFileNotFound = errors.New("config file not found") // SaveConfig calling function which saves configuration file. // if SaveConfig returns error trying again after sleep. func SaveConfig() { ctx := context.Background() ci := fs.GetConfig(ctx) var err error for i := 0; i < ci.LowLevelRetries+1; i++ { if err = LoadedData().Save(); err == nil { return } waitingTimeMs := mathrand.Intn(1000) time.Sleep(time.Duration(waitingTimeMs) * time.Millisecond) } fs.Errorf(nil, "Failed to save config after %d tries: %v", ci.LowLevelRetries, err) } // SetValueAndSave 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 SetValueAndSave(name, key, value string) error { // Set the value in config in case we fail to reload it LoadedData().SetValue(name, key, value) // Save it again SaveConfig() return nil } // getWithDefault gets key out of section name returning defaultValue if not // found. func getWithDefault(name, key, defaultValue string) string { value, found := LoadedData().GetValue(name, key) if !found { return defaultValue } return value } // UpdateRemoteOpt configures the remote update type UpdateRemoteOpt struct { // Treat all passwords as plain that need obscuring Obscure bool `json:"obscure"` // Treat all passwords as obscured NoObscure bool `json:"noObscure"` // Don't interact with the user - return questions NonInteractive bool `json:"nonInteractive"` // If set then supply state and result parameters to continue the process Continue bool `json:"continue"` // If set then ask all the questions, not just the post config questions All bool `json:"all"` // State to restart with - used with Continue State string `json:"state"` // Result to return - used with Continue Result string `json:"result"` // If set then edit existing values Edit bool `json:"edit"` } func updateRemote(ctx context.Context, name string, keyValues rc.Params, opt UpdateRemoteOpt) (out *fs.ConfigOut, err error) { if opt.Obscure && opt.NoObscure { return nil, errors.New("can't use --obscure and --no-obscure together") } err = fspath.CheckConfigName(name) if err != nil { return nil, err } interactive := !(opt.NonInteractive || opt.Continue) if interactive && !opt.All { ctx = suppressConfirm(ctx) } fsType := FileGet(name, "type") if fsType == "" { return nil, errors.New("couldn't find type field in config") } ri, err := fs.Find(fsType) if err != nil { return nil, fmt.Errorf("couldn't find backend for type %q", fsType) } // Work out which options need to be obscured needsObscure := map[string]struct{}{} if !opt.NoObscure { for _, option := range ri.Options { if option.IsPassword { needsObscure[option.Name] = struct{}{} } } } choices := configmap.Simple{} m := fs.ConfigMap(ri, name, nil) // Set the config for k, v := range keyValues { vStr := fmt.Sprint(v) // Obscure parameter if necessary if _, ok := needsObscure[k]; ok { _, err := obscure.Reveal(vStr) if err != nil || opt.Obscure { // If error => not already obscured, so obscure it // or we are forced to obscure vStr, err = obscure.Obscure(vStr) if err != nil { return nil, fmt.Errorf("UpdateRemote: obscure failed: %w", err) } } } choices.Set(k, vStr) if !strings.HasPrefix(k, fs.ConfigKeyEphemeralPrefix) { m.Set(k, vStr) } } if opt.Edit { choices[fs.ConfigEdit] = "true" } if interactive { var state = "" if opt.All { state = fs.ConfigAll } err = backendConfig(ctx, name, m, ri, choices, state) } else { // Start the config state machine in := fs.ConfigIn{ State: opt.State, Result: opt.Result, } if in.State == "" && opt.All { in.State = fs.ConfigAll } out, err = fs.BackendConfig(ctx, name, m, ri, choices, in) } if err != nil { return nil, err } SaveConfig() cache.ClearConfig(name) // remove any remotes based on this config from the cache return out, nil } // UpdateRemote adds the keyValues passed in to the remote of name. // keyValues should be key, value pairs. func UpdateRemote(ctx context.Context, name string, keyValues rc.Params, opt UpdateRemoteOpt) (out *fs.ConfigOut, err error) { opt.Edit = true return updateRemote(ctx, name, keyValues, opt) } // CreateRemote creates a new remote with name, type and a list of // parameters which are key, value pairs. If update is set then it // adds the new keys rather than replacing all of them. func CreateRemote(ctx context.Context, name string, Type string, keyValues rc.Params, opts UpdateRemoteOpt) (out *fs.ConfigOut, err error) { err = fspath.CheckConfigName(name) if err != nil { return nil, err } if !opts.Continue { // Delete the old config if it exists LoadedData().DeleteSection(name) // Set the type LoadedData().SetValue(name, "type", Type) } // Set the remaining values return UpdateRemote(ctx, name, keyValues, opts) } // PasswordRemote adds the keyValues passed in to the remote of name. // keyValues should be key, value pairs. func PasswordRemote(ctx context.Context, name string, keyValues rc.Params) error { ctx = suppressConfirm(ctx) err := fspath.CheckConfigName(name) if err != nil { return err } for k, v := range keyValues { keyValues[k] = obscure.MustObscure(fmt.Sprint(v)) } _, err = UpdateRemote(ctx, name, keyValues, UpdateRemoteOpt{ NoObscure: true, }) return err } // JSONListProviders prints all the providers and options in JSON format func JSONListProviders() error { b, err := json.MarshalIndent(fs.Registry, "", " ") if err != nil { return fmt.Errorf("failed to marshal examples: %w", err) } _, err = os.Stdout.Write(b) if err != nil { return fmt.Errorf("failed to write providers list: %w", err) } return nil } // fsOption returns an Option describing the possible remotes func fsOption() *fs.Option { o := &fs.Option{ Name: "Storage", Help: "Type of storage to configure.", Default: "", Required: true, } for _, item := range fs.Registry { if item.Hide { continue } example := fs.OptionExample{ Value: item.Name, Help: item.Description, } o.Examples = append(o.Examples, example) } o.Examples.Sort() return o } // FileGetFlag gets the config key under section returning the // the value and true if found and or ("", false) otherwise func FileGetFlag(section, key string) (string, bool) { return LoadedData().GetValue(section, key) } // FileGet gets the config key under section returning the default if not set. // // It looks up defaults in the environment if they are present func FileGet(section, key string) string { var defaultVal string envKey := fs.ConfigToEnv(section, key) newValue, found := os.LookupEnv(envKey) if found { defaultVal = newValue } return getWithDefault(section, key, defaultVal) } // FileSet sets the key in section to value. It doesn't save // the config file. func FileSet(section, key, value string) { if value != "" { LoadedData().SetValue(section, key, value) } else { FileDeleteKey(section, key) } } // FileDeleteKey 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 FileDeleteKey(section, key string) bool { return LoadedData().DeleteKey(section, key) } var matchEnv = regexp.MustCompile(`^RCLONE_CONFIG_(.*?)_TYPE=.*$`) // FileSections returns the sections in the config file // including any defined by environment variables. func FileSections() []string { sections := LoadedData().GetSectionList() for _, item := range os.Environ() { matches := matchEnv.FindStringSubmatch(item) if len(matches) == 2 { sections = append(sections, strings.ToLower(matches[1])) } } return sections } // DumpRcRemote dumps the config for a single remote func DumpRcRemote(name string) (dump rc.Params) { params := rc.Params{} for _, key := range LoadedData().GetKeyList(name) { params[key] = FileGet(name, key) } return params } // DumpRcBlob dumps all the config as an unstructured blob suitable // for the rc func DumpRcBlob() (dump rc.Params) { dump = rc.Params{} for _, name := range LoadedData().GetSectionList() { dump[name] = DumpRcRemote(name) } return dump } // Dump dumps all the config as a JSON file func Dump() error { dump := DumpRcBlob() b, err := json.MarshalIndent(dump, "", " ") if err != nil { return fmt.Errorf("failed to marshal config dump: %w", err) } _, err = os.Stdout.Write(b) if err != nil { return fmt.Errorf("failed to write config dump: %w", err) } return nil } // makeCacheDir returns a directory to use for caching. func makeCacheDir() (dir string) { dir, err := os.UserCacheDir() if err != nil || dir == "" { fs.Debugf(nil, "Failed to find user cache dir, using temporary directory: %v", err) // if no dir found then use TempDir - we will have a cachedir! dir = os.TempDir() } return filepath.Join(dir, "rclone") } // GetCacheDir returns the default directory for cache // // The directory is neither guaranteed to exist nor have accessible permissions. // Users of this should make a subdirectory and use MkdirAll() to create it // and any parents. func GetCacheDir() string { return cacheDir } // SetCacheDir sets new default directory for cache func SetCacheDir(path string) (err error) { cacheDir, err = filepath.Abs(path) return } // SetTempDir sets new default directory to use for temporary files. // // Assuming golang's os.TempDir is used to get the directory: // "On Unix systems, it returns $TMPDIR if non-empty, else /tmp. On Windows, // it uses GetTempPath, returning the first non-empty value from %TMP%, %TEMP%, // %USERPROFILE%, or the Windows directory." // // To override the default we therefore set environment variable TMPDIR // on Unix systems, and both TMP and TEMP on Windows (they are almost exclusively // aliases for the same path, and programs may refer to to either of them). // This should make all libraries and forked processes use the same. func SetTempDir(path string) (err error) { var tempDir string if tempDir, err = filepath.Abs(path); err != nil { return err } if runtime.GOOS == "windows" { if err = os.Setenv("TMP", tempDir); err != nil { return err } if err = os.Setenv("TEMP", tempDir); err != nil { return err } } else { return os.Setenv("TMPDIR", tempDir) } return nil }