package cli import ( "errors" "flag" "fmt" "io/ioutil" "os" "regexp" "runtime" "strings" "syscall" "time" ) const defaultPlaceholder = "value" const ( defaultSliceFlagSeparator = "," disableSliceFlagSeparator = false ) var ( slPfx = fmt.Sprintf("sl:::%d:::", time.Now().UTC().UnixNano()) commaWhitespace = regexp.MustCompile("[, ]+.*") ) // BashCompletionFlag enables bash-completion for all commands and subcommands var BashCompletionFlag Flag = &BoolFlag{ Name: "generate-bash-completion", Hidden: true, } // VersionFlag prints the version for the application var VersionFlag Flag = &BoolFlag{ Name: "version", Aliases: []string{"v"}, Usage: "print the version", DisableDefaultText: true, } // HelpFlag prints the help for all commands and subcommands. // Set to nil to disable the flag. The subcommand // will still be added unless HideHelp or HideHelpCommand is set to true. var HelpFlag Flag = &BoolFlag{ Name: "help", Aliases: []string{"h"}, Usage: "show help", DisableDefaultText: true, } // FlagStringer converts a flag definition to a string. This is used by help // to display a flag. var FlagStringer FlagStringFunc = stringifyFlag // Serializer is used to circumvent the limitations of flag.FlagSet.Set type Serializer interface { Serialize() string } // FlagNamePrefixer converts a full flag name and its placeholder into the help // message flag prefix. This is used by the default FlagStringer. var FlagNamePrefixer FlagNamePrefixFunc = prefixedNames // FlagEnvHinter annotates flag help message with the environment variable // details. This is used by the default FlagStringer. var FlagEnvHinter FlagEnvHintFunc = withEnvHint // FlagFileHinter annotates flag help message with the environment variable // details. This is used by the default FlagStringer. var FlagFileHinter FlagFileHintFunc = withFileHint // FlagsByName is a slice of Flag. type FlagsByName []Flag func (f FlagsByName) Len() int { return len(f) } func (f FlagsByName) Less(i, j int) bool { if len(f[j].Names()) == 0 { return false } else if len(f[i].Names()) == 0 { return true } return lexicographicLess(f[i].Names()[0], f[j].Names()[0]) } func (f FlagsByName) Swap(i, j int) { f[i], f[j] = f[j], f[i] } // ActionableFlag is an interface that wraps Flag interface and RunAction operation. type ActionableFlag interface { Flag RunAction(*Context) error } // Flag is a common interface related to parsing flags in cli. // For more advanced flag parsing techniques, it is recommended that // this interface be implemented. type Flag interface { fmt.Stringer // Apply Flag settings to the given flag set Apply(*flag.FlagSet) error Names() []string IsSet() bool } // RequiredFlag is an interface that allows us to mark flags as required // it allows flags required flags to be backwards compatible with the Flag interface type RequiredFlag interface { Flag IsRequired() bool } // DocGenerationFlag is an interface that allows documentation generation for the flag type DocGenerationFlag interface { Flag // TakesValue returns true if the flag takes a value, otherwise false TakesValue() bool // GetUsage returns the usage string for the flag GetUsage() string // GetValue returns the flags value as string representation and an empty // string if the flag takes no value at all. GetValue() string // GetDefaultText returns the default text for this flag GetDefaultText() string // GetEnvVars returns the env vars for this flag GetEnvVars() []string } // DocGenerationSliceFlag extends DocGenerationFlag for slice-based flags. type DocGenerationSliceFlag interface { DocGenerationFlag // IsSliceFlag returns true for flags that can be given multiple times. IsSliceFlag() bool } // VisibleFlag is an interface that allows to check if a flag is visible type VisibleFlag interface { Flag // IsVisible returns true if the flag is not hidden, otherwise false IsVisible() bool } // CategorizableFlag is an interface that allows us to potentially // use a flag in a categorized representation. type CategorizableFlag interface { VisibleFlag GetCategory() string } // Countable is an interface to enable detection of flag values which support // repetitive flags type Countable interface { Count() int } func flagSet(name string, flags []Flag, spec separatorSpec) (*flag.FlagSet, error) { set := flag.NewFlagSet(name, flag.ContinueOnError) for _, f := range flags { if c, ok := f.(customizedSeparator); ok { c.WithSeparatorSpec(spec) } if err := f.Apply(set); err != nil { return nil, err } } set.SetOutput(ioutil.Discard) return set, nil } func copyFlag(name string, ff *flag.Flag, set *flag.FlagSet) { switch ff.Value.(type) { case Serializer: _ = set.Set(name, ff.Value.(Serializer).Serialize()) default: _ = set.Set(name, ff.Value.String()) } } func normalizeFlags(flags []Flag, set *flag.FlagSet) error { visited := make(map[string]bool) set.Visit(func(f *flag.Flag) { visited[f.Name] = true }) for _, f := range flags { parts := f.Names() if len(parts) == 1 { continue } var ff *flag.Flag for _, name := range parts { name = strings.Trim(name, " ") if visited[name] { if ff != nil { return errors.New("Cannot use two forms of the same flag: " + name + " " + ff.Name) } ff = set.Lookup(name) } } if ff == nil { continue } for _, name := range parts { name = strings.Trim(name, " ") if !visited[name] { copyFlag(name, ff, set) } } } return nil } func visibleFlags(fl []Flag) []Flag { var visible []Flag for _, f := range fl { if vf, ok := f.(VisibleFlag); ok && vf.IsVisible() { visible = append(visible, f) } } return visible } func prefixFor(name string) (prefix string) { if len(name) == 1 { prefix = "-" } else { prefix = "--" } return } // Returns the placeholder, if any, and the unquoted usage string. func unquoteUsage(usage string) (string, string) { for i := 0; i < len(usage); i++ { if usage[i] == '`' { for j := i + 1; j < len(usage); j++ { if usage[j] == '`' { name := usage[i+1 : j] usage = usage[:i] + name + usage[j+1:] return name, usage } } break } } return "", usage } func prefixedNames(names []string, placeholder string) string { var prefixed string for i, name := range names { if name == "" { continue } prefixed += prefixFor(name) + name if placeholder != "" { prefixed += " " + placeholder } if i < len(names)-1 { prefixed += ", " } } return prefixed } func envFormat(envVars []string, prefix, sep, suffix string) string { if len(envVars) > 0 { return fmt.Sprintf(" [%s%s%s]", prefix, strings.Join(envVars, sep), suffix) } return "" } func defaultEnvFormat(envVars []string) string { return envFormat(envVars, "$", ", $", "") } func withEnvHint(envVars []string, str string) string { envText := "" if runtime.GOOS != "windows" || os.Getenv("PSHOME") != "" { envText = defaultEnvFormat(envVars) } else { envText = envFormat(envVars, "%", "%, %", "%") } return str + envText } func FlagNames(name string, aliases []string) []string { var ret []string for _, part := range append([]string{name}, aliases...) { // v1 -> v2 migration warning zone: // Strip off anything after the first found comma or space, which // *hopefully* makes it a tiny bit more obvious that unexpected behavior is // caused by using the v1 form of stringly typed "Name". ret = append(ret, commaWhitespace.ReplaceAllString(part, "")) } return ret } func withFileHint(filePath, str string) string { fileText := "" if filePath != "" { fileText = fmt.Sprintf(" [%s]", filePath) } return str + fileText } func formatDefault(format string) string { return " (default: " + format + ")" } func stringifyFlag(f Flag) string { // enforce DocGeneration interface on flags to avoid reflection df, ok := f.(DocGenerationFlag) if !ok { return "" } placeholder, usage := unquoteUsage(df.GetUsage()) needsPlaceholder := df.TakesValue() if needsPlaceholder && placeholder == "" { placeholder = defaultPlaceholder } defaultValueString := "" // set default text for all flags except bool flags // for bool flags display default text if DisableDefaultText is not // set if bf, ok := f.(*BoolFlag); !ok || !bf.DisableDefaultText { if s := df.GetDefaultText(); s != "" { defaultValueString = fmt.Sprintf(formatDefault("%s"), s) } } usageWithDefault := strings.TrimSpace(usage + defaultValueString) pn := prefixedNames(df.Names(), placeholder) sliceFlag, ok := f.(DocGenerationSliceFlag) if ok && sliceFlag.IsSliceFlag() { pn = pn + " [ " + pn + " ]" } return withEnvHint(df.GetEnvVars(), fmt.Sprintf("%s\t%s", pn, usageWithDefault)) } func hasFlag(flags []Flag, fl Flag) bool { for _, existing := range flags { if fl == existing { return true } } return false } // Return the first value from a list of environment variables and files // (which may or may not exist), a description of where the value was found, // and a boolean which is true if a value was found. func flagFromEnvOrFile(envVars []string, filePath string) (value string, fromWhere string, found bool) { for _, envVar := range envVars { envVar = strings.TrimSpace(envVar) if value, found := syscall.Getenv(envVar); found { return value, fmt.Sprintf("environment variable %q", envVar), true } } for _, fileVar := range strings.Split(filePath, ",") { if fileVar != "" { if data, err := ioutil.ReadFile(fileVar); err == nil { return string(data), fmt.Sprintf("file %q", filePath), true } } } return "", "", false } type customizedSeparator interface { WithSeparatorSpec(separatorSpec) } type separatorSpec struct { sep string disabled bool customized bool } func (s separatorSpec) flagSplitMultiValues(val string) []string { var ( disabled bool = s.disabled sep string = s.sep ) if !s.customized { disabled = disableSliceFlagSeparator sep = defaultSliceFlagSeparator } if disabled { return []string{val} } return strings.Split(val, sep) }