--- /dev/null
+// Copyright 2018 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+// Package tool is a harness for writing Go tools.
+package tool
+
+import (
+ "context"
+ "flag"
+ "fmt"
+ "log"
+ "os"
+ "reflect"
+ "runtime"
+ "runtime/pprof"
+ "runtime/trace"
+ "time"
+)
+
+// This file is a harness for writing your main function.
+// The original version of the file is in golang.org/x/tools/internal/tool.
+//
+// It adds a method to the Application type
+// Main(name, usage string, args []string)
+// which should normally be invoked from a true main as follows:
+// func main() {
+// (&Application{}).Main("myapp", "non-flag-command-line-arg-help", os.Args[1:])
+// }
+// It recursively scans the application object for fields with a tag containing
+// `flag:"flagname" help:"short help text"``
+// uses all those fields to build command line flags.
+// It expects the Application type to have a method
+// Run(context.Context, args...string) error
+// which it invokes only after all command line flag processing has been finished.
+// If Run returns an error, the error will be printed to stderr and the
+// application will quit with a non zero exit status.
+
+// Profile can be embedded in your application struct to automatically
+// add command line arguments and handling for the common profiling methods.
+type Profile struct {
+ CPU string `flag:"profile.cpu" help:"write CPU profile to this file"`
+ Memory string `flag:"profile.mem" help:"write memory profile to this file"`
+ Trace string `flag:"profile.trace" help:"write trace log to this file"`
+}
+
+// Application is the interface that must be satisfied by an object passed to Main.
+type Application interface {
+ // Name returns the application's name. It is used in help and error messages.
+ Name() string
+ // Most of the help usage is automatically generated, this string should only
+ // describe the contents of non flag arguments.
+ Usage() string
+ // ShortHelp returns the one line overview of the command.
+ ShortHelp() string
+ // DetailedHelp should print a detailed help message. It will only ever be shown
+ // when the ShortHelp is also printed, so there is no need to duplicate
+ // anything from there.
+ // It is passed the flag set so it can print the default values of the flags.
+ // It should use the flag sets configured Output to write the help to.
+ DetailedHelp(*flag.FlagSet)
+ // Run is invoked after all flag processing, and inside the profiling and
+ // error handling harness.
+ Run(ctx context.Context, args ...string) error
+}
+
+// This is the type returned by CommandLineErrorf, which causes the outer main
+// to trigger printing of the command line help.
+type commandLineError string
+
+func (e commandLineError) Error() string { return string(e) }
+
+// CommandLineErrorf is like fmt.Errorf except that it returns a value that
+// triggers printing of the command line help.
+// In general you should use this when generating command line validation errors.
+func CommandLineErrorf(message string, args ...interface{}) error {
+ return commandLineError(fmt.Sprintf(message, args...))
+}
+
+// Main should be invoked directly by main function.
+// It will only return if there was no error. If an error
+// was encountered it is printed to standard error and the
+// application exits with an exit code of 2.
+func Main(ctx context.Context, app Application, args []string) {
+ s := flag.NewFlagSet(app.Name(), flag.ExitOnError)
+ s.Usage = func() {
+ fmt.Fprint(s.Output(), app.ShortHelp())
+ fmt.Fprintf(s.Output(), "\n\nUsage: %v [flags] %v\n", app.Name(), app.Usage())
+ app.DetailedHelp(s)
+ }
+ if err := Run(ctx, app, args); err != nil {
+ fmt.Fprintf(s.Output(), "%s: %v\n", app.Name(), err)
+ if _, printHelp := err.(commandLineError); printHelp {
+ s.Usage()
+ }
+ os.Exit(2)
+ }
+}
+
+// Run is the inner loop for Main; invoked by Main, recursively by
+// Run, and by various tests. It runs the application and returns an
+// error.
+func Run(ctx context.Context, app Application, args []string) error {
+ s := flag.NewFlagSet(app.Name(), flag.ExitOnError)
+ s.Usage = func() {
+ fmt.Fprint(s.Output(), app.ShortHelp())
+ fmt.Fprintf(s.Output(), "\n\nUsage: %v [flags] %v\n", app.Name(), app.Usage())
+ app.DetailedHelp(s)
+ }
+ p := addFlags(s, reflect.StructField{}, reflect.ValueOf(app))
+ s.Parse(args)
+
+ if p != nil && p.CPU != "" {
+ f, err := os.Create(p.CPU)
+ if err != nil {
+ return err
+ }
+ if err := pprof.StartCPUProfile(f); err != nil {
+ return err
+ }
+ defer pprof.StopCPUProfile()
+ }
+
+ if p != nil && p.Trace != "" {
+ f, err := os.Create(p.Trace)
+ if err != nil {
+ return err
+ }
+ if err := trace.Start(f); err != nil {
+ return err
+ }
+ defer func() {
+ trace.Stop()
+ log.Printf("To view the trace, run:\n$ go tool trace view %s", p.Trace)
+ }()
+ }
+
+ if p != nil && p.Memory != "" {
+ f, err := os.Create(p.Memory)
+ if err != nil {
+ return err
+ }
+ defer func() {
+ runtime.GC() // get up-to-date statistics
+ if err := pprof.WriteHeapProfile(f); err != nil {
+ log.Printf("Writing memory profile: %v", err)
+ }
+ f.Close()
+ }()
+ }
+
+ return app.Run(ctx, s.Args()...)
+}
+
+// addFlags scans fields of structs recursively to find things with flag tags
+// and add them to the flag set.
+func addFlags(f *flag.FlagSet, field reflect.StructField, value reflect.Value) *Profile {
+ // is it a field we are allowed to reflect on?
+ if field.PkgPath != "" {
+ return nil
+ }
+ // now see if is actually a flag
+ flagName, isFlag := field.Tag.Lookup("flag")
+ help := field.Tag.Get("help")
+ if !isFlag {
+ // not a flag, but it might be a struct with flags in it
+ if value.Elem().Kind() != reflect.Struct {
+ return nil
+ }
+ p, _ := value.Interface().(*Profile)
+ // go through all the fields of the struct
+ sv := value.Elem()
+ for i := 0; i < sv.Type().NumField(); i++ {
+ child := sv.Type().Field(i)
+ v := sv.Field(i)
+ // make sure we have a pointer
+ if v.Kind() != reflect.Ptr {
+ v = v.Addr()
+ }
+ // check if that field is a flag or contains flags
+ if fp := addFlags(f, child, v); fp != nil {
+ p = fp
+ }
+ }
+ return p
+ }
+ switch v := value.Interface().(type) {
+ case flag.Value:
+ f.Var(v, flagName, help)
+ case *bool:
+ f.BoolVar(v, flagName, *v, help)
+ case *time.Duration:
+ f.DurationVar(v, flagName, *v, help)
+ case *float64:
+ f.Float64Var(v, flagName, *v, help)
+ case *int64:
+ f.Int64Var(v, flagName, *v, help)
+ case *int:
+ f.IntVar(v, flagName, *v, help)
+ case *string:
+ f.StringVar(v, flagName, *v, help)
+ case *uint:
+ f.UintVar(v, flagName, *v, help)
+ case *uint64:
+ f.Uint64Var(v, flagName, *v, help)
+ default:
+ log.Fatalf("Cannot understand flag of type %T", v)
+ }
+ return nil
+}