package cli import ( "fmt" "io" "os" "path" "path/filepath" "runtime" "sort" "strings" cmds "github.com/ipfs/go-ipfs/commands" files "github.com/ipfs/go-ipfs/commands/files" logging "gx/ipfs/QmNQynaz7qfriSUJkiEZUrm2Wen1u3Kj9goZzWtrPyu7XR/go-log" u "gx/ipfs/QmZNVWh8LLjAavuQ2JXuFmuYH3C11xo988vSgp7UQrTRj1/go-ipfs-util" ) var log = logging.Logger("commands/cli") // Parse parses the input commandline string (cmd, flags, and args). // returns the corresponding command Request object. func Parse(input []string, stdin *os.File, root *cmds.Command) (cmds.Request, *cmds.Command, []string, error) { path, opts, stringVals, cmd, err := parseOpts(input, root) if err != nil { return nil, nil, path, err } optDefs, err := root.GetOptions(path) if err != nil { return nil, cmd, path, err } req, err := cmds.NewRequest(path, opts, nil, nil, cmd, optDefs) if err != nil { return nil, cmd, path, err } // if -r is provided, and it is associated with the package builtin // recursive path option, allow recursive file paths recursiveOpt := req.Option(cmds.RecShort) recursive := false if recursiveOpt != nil && recursiveOpt.Definition() == cmds.OptionRecursivePath { recursive, _, err = recursiveOpt.Bool() if err != nil { return req, nil, nil, u.ErrCast() } } // if '--hidden' is provided, enumerate hidden paths hiddenOpt := req.Option("hidden") hidden := false if hiddenOpt != nil { hidden, _, err = hiddenOpt.Bool() if err != nil { return req, nil, nil, u.ErrCast() } } // This is an ugly hack to maintain our current CLI interface while fixing // other stdin usage bugs. Let this serve as a warning, be careful about the // choices you make, they will haunt you forever. if len(path) == 2 && path[0] == "bootstrap" { if (path[1] == "add" && opts["default"] == true) || (path[1] == "rm" && opts["all"] == true) { stdin = nil } } stringArgs, fileArgs, err := parseArgs(stringVals, stdin, cmd.Arguments, recursive, hidden, root) if err != nil { return req, cmd, path, err } req.SetArguments(stringArgs) if len(fileArgs) > 0 { file := files.NewSliceFile("", "", fileArgs) req.SetFiles(file) } err = cmd.CheckArguments(req) if err != nil { return req, cmd, path, err } return req, cmd, path, nil } // Parse a command line made up of sub-commands, short arguments, long arguments and positional arguments func parseOpts(args []string, root *cmds.Command) ( path []string, opts map[string]interface{}, stringVals []string, cmd *cmds.Command, err error, ) { path = make([]string, 0, len(args)) stringVals = make([]string, 0, len(args)) optDefs := map[string]cmds.Option{} opts = map[string]interface{}{} cmd = root // parseFlag checks that a flag is valid and saves it into opts // Returns true if the optional second argument is used parseFlag := func(name string, arg *string, mustUse bool) (bool, error) { if _, ok := opts[name]; ok { return false, fmt.Errorf("Duplicate values for option '%s'", name) } optDef, found := optDefs[name] if !found { err = fmt.Errorf("Unrecognized option '%s'", name) return false, err } // mustUse implies that you must use the argument given after the '=' // eg. -r=true means you must take true into consideration // mustUse == true in the above case // eg. ipfs -r means disregard since there is no '=' // mustUse == false in the above situation //arg == nil implies the flag was specified without an argument if optDef.Type() == cmds.Bool { if arg == nil || !mustUse { opts[name] = true return false, nil } argVal := strings.ToLower(*arg) switch argVal { case "true": opts[name] = true return true, nil case "false": opts[name] = false return true, nil default: return true, fmt.Errorf("Option '%s' takes true/false arguments, but was passed '%s'", name, argVal) } } else { if arg == nil { return true, fmt.Errorf("Missing argument for option '%s'", name) } opts[name] = *arg return true, nil } } optDefs, err = root.GetOptions(path) if err != nil { return } consumed := false for i, arg := range args { switch { case consumed: // arg was already consumed by the preceding flag consumed = false continue case arg == "--": // treat all remaining arguments as positional arguments stringVals = append(stringVals, args[i+1:]...) return case strings.HasPrefix(arg, "--"): // arg is a long flag, with an optional argument specified // using `=' or in args[i+1] var slurped bool var next *string split := strings.SplitN(arg, "=", 2) if len(split) == 2 { slurped = false arg = split[0] next = &split[1] } else { slurped = true if i+1 < len(args) { next = &args[i+1] } else { next = nil } } consumed, err = parseFlag(arg[2:], next, len(split) == 2) if err != nil { return } if !slurped { consumed = false } case strings.HasPrefix(arg, "-") && arg != "-": // args is one or more flags in short form, followed by an optional argument // all flags except the last one have type bool for arg = arg[1:]; len(arg) != 0; arg = arg[1:] { var rest *string var slurped bool mustUse := false if len(arg) > 1 { slurped = false str := arg[1:] if len(str) > 0 && str[0] == '=' { str = str[1:] mustUse = true } rest = &str } else { slurped = true if i+1 < len(args) { rest = &args[i+1] } else { rest = nil } } var end bool end, err = parseFlag(arg[:1], rest, mustUse) if err != nil { return } if end { consumed = slurped break } } default: // arg is a sub-command or a positional argument sub := cmd.Subcommand(arg) if sub != nil { cmd = sub path = append(path, arg) optDefs, err = root.GetOptions(path) if err != nil { return } // If we've come across an external binary call, pass all the remaining // arguments on to it if cmd.External { stringVals = append(stringVals, args[i+1:]...) return } } else { stringVals = append(stringVals, arg) if len(path) == 0 { // found a typo or early argument err = printSuggestions(stringVals, root) return } } } } return } const msgStdinInfo = "ipfs: Reading from %s; send Ctrl-d to stop.\n" func parseArgs(inputs []string, stdin *os.File, argDefs []cmds.Argument, recursive, hidden bool, root *cmds.Command) ([]string, []files.File, error) { // ignore stdin on Windows if runtime.GOOS == "windows" { stdin = nil } // count required argument definitions numRequired := 0 for _, argDef := range argDefs { if argDef.Required { numRequired++ } } // count number of values provided by user. // if there is at least one ArgDef, we can safely trigger the inputs loop // below to parse stdin. numInputs := len(inputs) if len(argDefs) > 0 && argDefs[len(argDefs)-1].SupportsStdin && stdin != nil { numInputs += 1 } // if we have more arg values provided than argument definitions, // and the last arg definition is not variadic (or there are no definitions), return an error notVariadic := len(argDefs) == 0 || !argDefs[len(argDefs)-1].Variadic if notVariadic && len(inputs) > len(argDefs) { err := printSuggestions(inputs, root) return nil, nil, err } stringArgs := make([]string, 0, numInputs) fileArgs := make(map[string]files.File) argDefIndex := 0 // the index of the current argument definition for i := 0; i < numInputs; i++ { argDef := getArgDef(argDefIndex, argDefs) // skip optional argument definitions if there aren't sufficient remaining inputs for numInputs-i <= numRequired && !argDef.Required { argDefIndex++ argDef = getArgDef(argDefIndex, argDefs) } if argDef.Required { numRequired-- } fillingVariadic := argDefIndex+1 > len(argDefs) switch argDef.Type { case cmds.ArgString: if len(inputs) > 0 { stringArgs, inputs = append(stringArgs, inputs[0]), inputs[1:] } else if stdin != nil && argDef.SupportsStdin && !fillingVariadic { if r, err := maybeWrapStdin(stdin, msgStdinInfo); err == nil { fileArgs[stdin.Name()] = files.NewReaderFile("stdin", "", r, nil) stdin = nil } } case cmds.ArgFile: if len(inputs) > 0 { // treat stringArg values as file paths fpath := inputs[0] inputs = inputs[1:] var file files.File if fpath == "-" { r, err := maybeWrapStdin(stdin, msgStdinInfo) if err != nil { return nil, nil, err } fpath = stdin.Name() file = files.NewReaderFile("", fpath, r, nil) } else { nf, err := appendFile(fpath, argDef, recursive, hidden) if err != nil { return nil, nil, err } file = nf } fileArgs[fpath] = file } else if stdin != nil && argDef.SupportsStdin && argDef.Required && !fillingVariadic { r, err := maybeWrapStdin(stdin, msgStdinInfo) if err != nil { return nil, nil, err } fpath := stdin.Name() fileArgs[fpath] = files.NewReaderFile("", fpath, r, nil) } } argDefIndex++ } // check to make sure we didn't miss any required arguments if len(argDefs) > argDefIndex { for _, argDef := range argDefs[argDefIndex:] { if argDef.Required { return nil, nil, fmt.Errorf("Argument '%s' is required", argDef.Name) } } } return stringArgs, filesMapToSortedArr(fileArgs), nil } func filesMapToSortedArr(fs map[string]files.File) []files.File { var names []string for name, _ := range fs { names = append(names, name) } sort.Strings(names) var out []files.File for _, f := range names { out = append(out, fs[f]) } return out } func getArgDef(i int, argDefs []cmds.Argument) *cmds.Argument { if i < len(argDefs) { // get the argument definition (usually just argDefs[i]) return &argDefs[i] } else if len(argDefs) > 0 { // but if i > len(argDefs) we use the last argument definition) return &argDefs[len(argDefs)-1] } // only happens if there aren't any definitions return nil } const notRecursiveFmtStr = "'%s' is a directory, use the '-%s' flag to specify directories" const dirNotSupportedFmtStr = "Invalid path '%s', argument '%s' does not support directories" func appendFile(fpath string, argDef *cmds.Argument, recursive, hidden bool) (files.File, error) { if fpath == "." { cwd, err := os.Getwd() if err != nil { return nil, err } fpath = cwd } fpath = filepath.ToSlash(filepath.Clean(fpath)) stat, err := os.Lstat(fpath) if err != nil { return nil, err } if stat.IsDir() { if !argDef.Recursive { return nil, fmt.Errorf(dirNotSupportedFmtStr, fpath, argDef.Name) } if !recursive { return nil, fmt.Errorf(notRecursiveFmtStr, fpath, cmds.RecShort) } } return files.NewSerialFile(path.Base(fpath), fpath, hidden, stat) } // Inform the user if a file is waiting on input func maybeWrapStdin(f *os.File, msg string) (io.ReadCloser, error) { isTty, err := isTty(f) if err != nil { return nil, err } if isTty { return newMessageReader(f, fmt.Sprintf(msg, f.Name())), nil } return f, nil } func isTty(f *os.File) (bool, error) { fInfo, err := f.Stat() if err != nil { log.Error(err) return false, err } return (fInfo.Mode() & os.ModeCharDevice) != 0, nil } type messageReader struct { r io.ReadCloser done bool message string } func newMessageReader(r io.ReadCloser, msg string) io.ReadCloser { return &messageReader{ r: r, message: msg, } } func (r *messageReader) Read(b []byte) (int, error) { if !r.done { fmt.Fprintln(os.Stderr, r.message) } return r.r.Read(b) } func (r *messageReader) Close() error { return r.r.Close() }