status-go/vendor/github.com/urfave/cli/v2/app.go

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2022-10-25 14:25:08 +00:00
package cli
import (
"context"
"flag"
"fmt"
"io"
"os"
"path/filepath"
"reflect"
"sort"
"time"
)
const suggestDidYouMeanTemplate = "Did you mean %q?"
var (
changeLogURL = "https://github.com/urfave/cli/blob/main/docs/CHANGELOG.md"
appActionDeprecationURL = fmt.Sprintf("%s#deprecated-cli-app-action-signature", changeLogURL)
contactSysadmin = "This is an error in the application. Please contact the distributor of this application if this is not you."
errInvalidActionType = NewExitError("ERROR invalid Action type. "+
fmt.Sprintf("Must be `func(*Context`)` or `func(*Context) error). %s", contactSysadmin)+
fmt.Sprintf("See %s", appActionDeprecationURL), 2)
SuggestFlag SuggestFlagFunc = suggestFlag
SuggestCommand SuggestCommandFunc = suggestCommand
SuggestDidYouMeanTemplate string = suggestDidYouMeanTemplate
)
// App is the main structure of a cli application. It is recommended that
// an app be created with the cli.NewApp() function
type App struct {
// The name of the program. Defaults to path.Base(os.Args[0])
Name string
// Full name of command for help, defaults to Name
HelpName string
// Description of the program.
Usage string
// Text to override the USAGE section of help
UsageText string
// Description of the program argument format.
ArgsUsage string
// Version of the program
Version string
// Description of the program
Description string
// DefaultCommand is the (optional) name of a command
// to run if no command names are passed as CLI arguments.
DefaultCommand string
// List of commands to execute
Commands []*Command
// List of flags to parse
Flags []Flag
// Boolean to enable bash completion commands
EnableBashCompletion bool
// Boolean to hide built-in help command and help flag
HideHelp bool
// Boolean to hide built-in help command but keep help flag.
// Ignored if HideHelp is true.
HideHelpCommand bool
// Boolean to hide built-in version flag and the VERSION section of help
HideVersion bool
// categories contains the categorized commands and is populated on app startup
categories CommandCategories
// flagCategories contains the categorized flags and is populated on app startup
flagCategories FlagCategories
// An action to execute when the shell completion flag is set
BashComplete BashCompleteFunc
// An action to execute before any subcommands are run, but after the context is ready
// If a non-nil error is returned, no subcommands are run
Before BeforeFunc
// An action to execute after any subcommands are run, but after the subcommand has finished
// It is run even if Action() panics
After AfterFunc
// The action to execute when no subcommands are specified
Action ActionFunc
// Execute this function if the proper command cannot be found
CommandNotFound CommandNotFoundFunc
// Execute this function if a usage error occurs
OnUsageError OnUsageErrorFunc
// Execute this function when an invalid flag is accessed from the context
InvalidFlagAccessHandler InvalidFlagAccessFunc
// Compilation date
Compiled time.Time
// List of all authors who contributed
Authors []*Author
// Copyright of the binary if any
Copyright string
// Reader reader to write input to (useful for tests)
Reader io.Reader
// Writer writer to write output to
Writer io.Writer
// ErrWriter writes error output
ErrWriter io.Writer
// ExitErrHandler processes any error encountered while running an App before
// it is returned to the caller. If no function is provided, HandleExitCoder
// is used as the default behavior.
ExitErrHandler ExitErrHandlerFunc
// Other custom info
Metadata map[string]interface{}
// Carries a function which returns app specific info.
ExtraInfo func() map[string]string
// CustomAppHelpTemplate the text template for app help topic.
// cli.go uses text/template to render templates. You can
// render custom help text by setting this variable.
CustomAppHelpTemplate string
// Boolean to enable short-option handling so user can combine several
// single-character bool arguments into one
// i.e. foobar -o -v -> foobar -ov
UseShortOptionHandling bool
// Enable suggestions for commands and flags
Suggest bool
didSetup bool
}
type SuggestFlagFunc func(flags []Flag, provided string, hideHelp bool) string
type SuggestCommandFunc func(commands []*Command, provided string) string
// Tries to find out when this binary was compiled.
// Returns the current time if it fails to find it.
func compileTime() time.Time {
info, err := os.Stat(os.Args[0])
if err != nil {
return time.Now()
}
return info.ModTime()
}
// NewApp creates a new cli Application with some reasonable defaults for Name,
// Usage, Version and Action.
func NewApp() *App {
return &App{
Name: filepath.Base(os.Args[0]),
Usage: "A new cli application",
UsageText: "",
BashComplete: DefaultAppComplete,
Action: helpCommand.Action,
Compiled: compileTime(),
Reader: os.Stdin,
Writer: os.Stdout,
ErrWriter: os.Stderr,
}
}
// Setup runs initialization code to ensure all data structures are ready for
// `Run` or inspection prior to `Run`. It is internally called by `Run`, but
// will return early if setup has already happened.
func (a *App) Setup() {
if a.didSetup {
return
}
a.didSetup = true
if a.Name == "" {
a.Name = filepath.Base(os.Args[0])
}
if a.HelpName == "" {
a.HelpName = a.Name
}
if a.Usage == "" {
a.Usage = "A new cli application"
}
if a.Version == "" {
a.HideVersion = true
}
if a.BashComplete == nil {
a.BashComplete = DefaultAppComplete
}
if a.Action == nil {
a.Action = helpCommand.Action
}
if a.Compiled == (time.Time{}) {
a.Compiled = compileTime()
}
if a.Reader == nil {
a.Reader = os.Stdin
}
if a.Writer == nil {
a.Writer = os.Stdout
}
if a.ErrWriter == nil {
a.ErrWriter = os.Stderr
}
var newCommands []*Command
for _, c := range a.Commands {
if c.HelpName == "" {
c.HelpName = fmt.Sprintf("%s %s", a.HelpName, c.Name)
}
c.flagCategories = newFlagCategoriesFromFlags(c.Flags)
newCommands = append(newCommands, c)
}
a.Commands = newCommands
if a.Command(helpCommand.Name) == nil && !a.HideHelp {
if !a.HideHelpCommand {
a.appendCommand(helpCommand)
}
if HelpFlag != nil {
a.appendFlag(HelpFlag)
}
}
if !a.HideVersion {
a.appendFlag(VersionFlag)
}
a.categories = newCommandCategories()
for _, command := range a.Commands {
a.categories.AddCommand(command.Category, command)
}
sort.Sort(a.categories.(*commandCategories))
a.flagCategories = newFlagCategories()
for _, fl := range a.Flags {
if cf, ok := fl.(CategorizableFlag); ok {
a.flagCategories.AddFlag(cf.GetCategory(), cf)
}
}
if a.Metadata == nil {
a.Metadata = make(map[string]interface{})
}
}
func (a *App) newFlagSet() (*flag.FlagSet, error) {
return flagSet(a.Name, a.Flags)
}
func (a *App) useShortOptionHandling() bool {
return a.UseShortOptionHandling
}
// Run is the entry point to the cli app. Parses the arguments slice and routes
// to the proper flag/args combination
func (a *App) Run(arguments []string) (err error) {
return a.RunContext(context.Background(), arguments)
}
// RunContext is like Run except it takes a Context that will be
// passed to its commands and sub-commands. Through this, you can
// propagate timeouts and cancellation requests
func (a *App) RunContext(ctx context.Context, arguments []string) (err error) {
a.Setup()
// handle the completion flag separately from the flagset since
// completion could be attempted after a flag, but before its value was put
// on the command line. this causes the flagset to interpret the completion
// flag name as the value of the flag before it which is undesirable
// note that we can only do this because the shell autocomplete function
// always appends the completion flag at the end of the command
shellComplete, arguments := checkShellCompleteFlag(a, arguments)
set, err := a.newFlagSet()
if err != nil {
return err
}
err = parseIter(set, a, arguments[1:], shellComplete)
nerr := normalizeFlags(a.Flags, set)
cCtx := NewContext(a, set, &Context{Context: ctx})
if nerr != nil {
_, _ = fmt.Fprintln(a.Writer, nerr)
if !a.HideHelp {
_ = ShowAppHelp(cCtx)
}
return nerr
}
cCtx.shellComplete = shellComplete
if checkCompletions(cCtx) {
return nil
}
if err != nil {
if a.OnUsageError != nil {
err := a.OnUsageError(cCtx, err, false)
a.handleExitCoder(cCtx, err)
return err
}
_, _ = fmt.Fprintf(a.Writer, "%s %s\n\n", "Incorrect Usage.", err.Error())
if a.Suggest {
if suggestion, err := a.suggestFlagFromError(err, ""); err == nil {
fmt.Fprintf(a.Writer, suggestion)
}
}
if !a.HideHelp {
_ = ShowAppHelp(cCtx)
}
return err
}
if a.After != nil && !cCtx.shellComplete {
defer func() {
if afterErr := a.After(cCtx); afterErr != nil {
if err != nil {
err = newMultiError(err, afterErr)
} else {
err = afterErr
}
}
}()
}
if !a.HideHelp && checkHelp(cCtx) {
_ = ShowAppHelp(cCtx)
return nil
}
if !a.HideVersion && checkVersion(cCtx) {
ShowVersion(cCtx)
return nil
}
cerr := cCtx.checkRequiredFlags(a.Flags)
if cerr != nil {
_ = ShowAppHelp(cCtx)
return cerr
}
if a.Before != nil && !cCtx.shellComplete {
beforeErr := a.Before(cCtx)
if beforeErr != nil {
a.handleExitCoder(cCtx, beforeErr)
err = beforeErr
return err
}
}
if err = runFlagActions(cCtx, a.Flags); err != nil {
return err
}
var c *Command
args := cCtx.Args()
if args.Present() {
name := args.First()
if a.validCommandName(name) {
c = a.Command(name)
} else {
hasDefault := a.DefaultCommand != ""
isFlagName := checkStringSliceIncludes(name, cCtx.FlagNames())
var (
isDefaultSubcommand = false
defaultHasSubcommands = false
)
if hasDefault {
dc := a.Command(a.DefaultCommand)
defaultHasSubcommands = len(dc.Subcommands) > 0
for _, dcSub := range dc.Subcommands {
if checkStringSliceIncludes(name, dcSub.Names()) {
isDefaultSubcommand = true
break
}
}
}
if isFlagName || (hasDefault && (defaultHasSubcommands && isDefaultSubcommand)) {
argsWithDefault := a.argsWithDefaultCommand(args)
if !reflect.DeepEqual(args, argsWithDefault) {
c = a.Command(argsWithDefault.First())
}
}
}
} else if a.DefaultCommand != "" {
c = a.Command(a.DefaultCommand)
}
if c != nil {
return c.Run(cCtx)
}
if a.Action == nil {
a.Action = helpCommand.Action
}
// Run default Action
err = a.Action(cCtx)
a.handleExitCoder(cCtx, err)
return err
}
func (a *App) suggestFlagFromError(err error, command string) (string, error) {
flag, parseErr := flagFromError(err)
if parseErr != nil {
return "", err
}
flags := a.Flags
if command != "" {
cmd := a.Command(command)
if cmd == nil {
return "", err
}
flags = cmd.Flags
}
suggestion := SuggestFlag(flags, flag, a.HideHelp)
if len(suggestion) == 0 {
return "", err
}
return fmt.Sprintf(SuggestDidYouMeanTemplate+"\n\n", suggestion), nil
}
// RunAndExitOnError calls .Run() and exits non-zero if an error was returned
//
// Deprecated: instead you should return an error that fulfills cli.ExitCoder
// to cli.App.Run. This will cause the application to exit with the given error
// code in the cli.ExitCoder
func (a *App) RunAndExitOnError() {
if err := a.Run(os.Args); err != nil {
_, _ = fmt.Fprintln(a.ErrWriter, err)
OsExiter(1)
}
}
// RunAsSubcommand invokes the subcommand given the context, parses ctx.Args() to
// generate command-specific flags
func (a *App) RunAsSubcommand(ctx *Context) (err error) {
// Setup also handles HideHelp and HideHelpCommand
a.Setup()
var newCmds []*Command
for _, c := range a.Commands {
if c.HelpName == "" {
c.HelpName = fmt.Sprintf("%s %s", a.HelpName, c.Name)
}
newCmds = append(newCmds, c)
}
a.Commands = newCmds
set, err := a.newFlagSet()
if err != nil {
return err
}
err = parseIter(set, a, ctx.Args().Tail(), ctx.shellComplete)
nerr := normalizeFlags(a.Flags, set)
cCtx := NewContext(a, set, ctx)
if nerr != nil {
_, _ = fmt.Fprintln(a.Writer, nerr)
_, _ = fmt.Fprintln(a.Writer)
if len(a.Commands) > 0 {
_ = ShowSubcommandHelp(cCtx)
} else {
_ = ShowCommandHelp(ctx, cCtx.Args().First())
}
return nerr
}
if checkCompletions(cCtx) {
return nil
}
if err != nil {
if a.OnUsageError != nil {
err = a.OnUsageError(cCtx, err, true)
a.handleExitCoder(cCtx, err)
return err
}
_, _ = fmt.Fprintf(a.Writer, "%s %s\n\n", "Incorrect Usage.", err.Error())
if a.Suggest {
if suggestion, err := a.suggestFlagFromError(err, cCtx.Command.Name); err == nil {
fmt.Fprintf(a.Writer, suggestion)
}
}
_ = ShowSubcommandHelp(cCtx)
return err
}
if len(a.Commands) > 0 {
if checkSubcommandHelp(cCtx) {
return nil
}
} else {
if checkCommandHelp(ctx, cCtx.Args().First()) {
return nil
}
}
cerr := cCtx.checkRequiredFlags(a.Flags)
if cerr != nil {
_ = ShowSubcommandHelp(cCtx)
return cerr
}
if a.After != nil && !cCtx.shellComplete {
defer func() {
afterErr := a.After(cCtx)
if afterErr != nil {
a.handleExitCoder(cCtx, err)
if err != nil {
err = newMultiError(err, afterErr)
} else {
err = afterErr
}
}
}()
}
if a.Before != nil && !cCtx.shellComplete {
beforeErr := a.Before(cCtx)
if beforeErr != nil {
a.handleExitCoder(cCtx, beforeErr)
err = beforeErr
return err
}
}
if err = runFlagActions(cCtx, a.Flags); err != nil {
return err
}
args := cCtx.Args()
if args.Present() {
name := args.First()
c := a.Command(name)
if c != nil {
return c.Run(cCtx)
}
}
// Run default Action
err = a.Action(cCtx)
a.handleExitCoder(cCtx, err)
return err
}
// Command returns the named command on App. Returns nil if the command does not exist
func (a *App) Command(name string) *Command {
for _, c := range a.Commands {
if c.HasName(name) {
return c
}
}
return nil
}
// VisibleCategories returns a slice of categories and commands that are
// Hidden=false
func (a *App) VisibleCategories() []CommandCategory {
ret := []CommandCategory{}
for _, category := range a.categories.Categories() {
if visible := func() CommandCategory {
if len(category.VisibleCommands()) > 0 {
return category
}
return nil
}(); visible != nil {
ret = append(ret, visible)
}
}
return ret
}
// VisibleCommands returns a slice of the Commands with Hidden=false
func (a *App) VisibleCommands() []*Command {
var ret []*Command
for _, command := range a.Commands {
if !command.Hidden {
ret = append(ret, command)
}
}
return ret
}
// VisibleFlagCategories returns a slice containing all the categories with the flags they contain
func (a *App) VisibleFlagCategories() []VisibleFlagCategory {
if a.flagCategories == nil {
return []VisibleFlagCategory{}
}
return a.flagCategories.VisibleCategories()
}
// VisibleFlags returns a slice of the Flags with Hidden=false
func (a *App) VisibleFlags() []Flag {
return visibleFlags(a.Flags)
}
func (a *App) appendFlag(fl Flag) {
if !hasFlag(a.Flags, fl) {
a.Flags = append(a.Flags, fl)
}
}
func (a *App) appendCommand(c *Command) {
if !hasCommand(a.Commands, c) {
a.Commands = append(a.Commands, c)
}
}
func (a *App) handleExitCoder(cCtx *Context, err error) {
if a.ExitErrHandler != nil {
a.ExitErrHandler(cCtx, err)
} else {
HandleExitCoder(err)
}
}
func (a *App) commandNames() []string {
var cmdNames []string
for _, cmd := range a.Commands {
cmdNames = append(cmdNames, cmd.Names()...)
}
return cmdNames
}
func (a *App) validCommandName(checkCmdName string) bool {
valid := false
allCommandNames := a.commandNames()
for _, cmdName := range allCommandNames {
if checkCmdName == cmdName {
valid = true
break
}
}
return valid
}
func (a *App) argsWithDefaultCommand(oldArgs Args) Args {
if a.DefaultCommand != "" {
rawArgs := append([]string{a.DefaultCommand}, oldArgs.Slice()...)
newArgs := args(rawArgs)
return &newArgs
}
return oldArgs
}
func runFlagActions(c *Context, fs []Flag) error {
for _, f := range fs {
isSet := false
for _, name := range f.Names() {
if c.IsSet(name) {
isSet = true
break
}
}
if isSet {
if af, ok := f.(ActionableFlag); ok {
if err := af.RunAction(c); err != nil {
return err
}
}
}
}
return nil
}
// Author represents someone who has contributed to a cli project.
type Author struct {
Name string // The Authors name
Email string // The Authors email
}
// String makes Author comply to the Stringer interface, to allow an easy print in the templating process
func (a *Author) String() string {
e := ""
if a.Email != "" {
e = " <" + a.Email + ">"
}
return fmt.Sprintf("%v%v", a.Name, e)
}
// HandleAction attempts to figure out which Action signature was used. If
// it's an ActionFunc or a func with the legacy signature for Action, the func
// is run!
func HandleAction(action interface{}, cCtx *Context) (err error) {
switch a := action.(type) {
case ActionFunc:
return a(cCtx)
case func(*Context) error:
return a(cCtx)
case func(*Context): // deprecated function signature
a(cCtx)
return nil
}
return errInvalidActionType
}
func checkStringSliceIncludes(want string, sSlice []string) bool {
found := false
for _, s := range sSlice {
if want == s {
found = true
break
}
}
return found
}