// Copyright 2020 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . package flags import ( "fmt" "strings" "github.com/urfave/cli/v2" ) // Merge merges the given flag slices. func Merge(groups ...[]cli.Flag) []cli.Flag { var ret []cli.Flag for _, group := range groups { ret = append(ret, group...) } return ret } var migrationApplied = map[*cli.Command]struct{}{} // MigrateGlobalFlags makes all global flag values available in the // context. This should be called as early as possible in app.Before. // // Example: // // geth account new --keystore /tmp/mykeystore --lightkdf // // is equivalent after calling this method with: // // geth --keystore /tmp/mykeystore --lightkdf account new // // i.e. in the subcommand Action function of 'account new', ctx.Bool("lightkdf) // will return true even if --lightkdf is set as a global option. // // This function may become unnecessary when https://github.com/urfave/cli/pull/1245 is merged. func MigrateGlobalFlags(ctx *cli.Context) { var iterate func(cs []*cli.Command, fn func(*cli.Command)) iterate = func(cs []*cli.Command, fn func(*cli.Command)) { for _, cmd := range cs { if _, ok := migrationApplied[cmd]; ok { continue } migrationApplied[cmd] = struct{}{} fn(cmd) iterate(cmd.Subcommands, fn) } } // This iterates over all commands and wraps their action function. iterate(ctx.App.Commands, func(cmd *cli.Command) { if cmd.Action == nil { return } action := cmd.Action cmd.Action = func(ctx *cli.Context) error { doMigrateFlags(ctx) return action(ctx) } }) } func doMigrateFlags(ctx *cli.Context) { // Figure out if there are any aliases of commands. If there are, we want // to ignore them when iterating over the flags. var aliases = make(map[string]bool) for _, fl := range ctx.Command.Flags { for _, alias := range fl.Names()[1:] { aliases[alias] = true } } for _, name := range ctx.FlagNames() { for _, parent := range ctx.Lineage()[1:] { if parent.IsSet(name) { // When iterating across the lineage, we will be served both // the 'canon' and alias formats of all commmands. In most cases, // it's fine to set it in the ctx multiple times (one for each // name), however, the Slice-flags are not fine. // The slice-flags accumulate, so if we set it once as // "foo" and once as alias "F", then both will be present in the slice. if _, isAlias := aliases[name]; isAlias { continue } // If it is a string-slice, we need to set it as // "alfa, beta, gamma" instead of "[alfa beta gamma]", in order // for the backing StringSlice to parse it properly. if result := parent.StringSlice(name); len(result) > 0 { ctx.Set(name, strings.Join(result, ",")) } else { ctx.Set(name, parent.String(name)) } break } } } } /* func init() { cli.FlagStringer = FlagString } */ // FlagString prints a single flag in help. func FlagString(f cli.Flag) string { df, ok := f.(cli.DocGenerationFlag) if !ok { return "" } needsPlaceholder := df.TakesValue() placeholder := "" if needsPlaceholder { placeholder = "value" } namesText := pad(cli.FlagNamePrefixer(df.Names(), placeholder), 30) defaultValueString := "" if s := df.GetDefaultText(); s != "" { defaultValueString = " (default: " + s + ")" } usage := strings.TrimSpace(df.GetUsage()) envHint := strings.TrimSpace(cli.FlagEnvHinter(df.GetEnvVars(), "")) if len(envHint) > 0 { usage += " " + envHint } usage = wordWrap(usage, 80) usage = indent(usage, 10) return fmt.Sprintf("\n %s%s\n%s", namesText, defaultValueString, usage) } func pad(s string, length int) string { if len(s) < length { s += strings.Repeat(" ", length-len(s)) } return s } func indent(s string, nspace int) string { ind := strings.Repeat(" ", nspace) return ind + strings.ReplaceAll(s, "\n", "\n"+ind) } func wordWrap(s string, width int) string { var ( output strings.Builder lineLength = 0 ) for { sp := strings.IndexByte(s, ' ') var word string if sp == -1 { word = s } else { word = s[:sp] } wlen := len(word) over := lineLength+wlen >= width if over { output.WriteByte('\n') lineLength = 0 } else { if lineLength != 0 { output.WriteByte(' ') lineLength++ } } output.WriteString(word) lineLength += wlen if sp == -1 { break } s = s[wlen+1:] } return output.String() }