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mc/server/cmd/command.go
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2026-07-09 08:33:57 +08:00
package cmd
import (
"encoding/csv"
"fmt"
"go/ast"
"reflect"
"slices"
"strings"
"github.com/df-mc/dragonfly/server/world"
)
// Runnable represents a Command that may be run by a Command source. The Command must be a struct type and
// its fields represent the parameters of the Command. When the Run method is called, these fields are set
// and may be used for behaviour in the Command. Fields unexported or ignored using the `cmd:"-"` struct tag (see
// below) have their values copied but retained.
// A Runnable may have exported fields only of the following types:
// int8, int16, int32, int64, int, uint8, uint16, uint32, uint64, uint,
// float32, float64, string, bool, mgl64.Vec3, Varargs, []Target, cmd.SubCommand, Optional[T] (to make a parameter
// optional), or a type that implements the cmd.Parameter or cmd.Enum interface. cmd.Enum implementations must be of the
// type string.
// Fields in the Runnable struct may have `cmd:` struct tag to specify the name and suffix of a parameter as such:
//
// type T struct {
// Param int `cmd:"name,suffix"`
// }
//
// If no name is set, the field name is used. Additionally, the name as specified in the struct tag may be '-' to make
// the parser ignore the field. In this case, the field does not have to be of one of the types above.
type Runnable interface {
// Run runs the Command, using the arguments passed to the Command. The source is passed to the method,
// which is the source of the Command execution, and the output is passed, to which messages may be
// added which get sent to the source.
Run(src Source, o *Output, tx *world.Tx)
}
// Allower may be implemented by a type also implementing Runnable to limit the sources that may run the
// command.
type Allower interface {
// Allow checks if the Source passed is allowed to execute the command. True is returned if the Source is
// allowed to execute the command.
Allow(src Source) bool
}
// Command is a wrapper around a Runnable. It provides additional identity and utility methods for the actual
// runnable command so that it may be identified more easily.
type Command struct {
v []reflect.Value
name string
description string
usage string
aliases []string
}
// New returns a new Command using the name and description passed. Command
// names and aliases are all converted to lowercase. The Runnable passed must
// be a (pointer to a) struct, with its fields representing the parameters of
// the command. When the command is run, the Run method of the Runnable will be
// called after all fields have their values from the parsed command set. If r
// is not a struct or a pointer to a struct, New panics.
func New(name, description string, aliases []string, r ...Runnable) Command {
name = strings.ToLower(name)
for i, alias := range aliases {
aliases[i] = strings.ToLower(alias)
}
usages := make([]string, len(r))
runnableValues := make([]reflect.Value, len(r))
if len(aliases) > 0 && slices.Index(aliases, name) == -1 {
aliases = append(aliases, name)
}
for i, runnable := range r {
t := reflect.TypeOf(runnable)
if t.Kind() != reflect.Struct && (t.Kind() != reflect.Ptr || t.Elem().Kind() != reflect.Struct) {
panic(fmt.Sprintf("Runnable r must be struct or pointer to struct, but got %v", t.Kind()))
}
original := reflect.ValueOf(runnable)
if t.Kind() == reflect.Ptr {
original = original.Elem()
}
cp := reflect.New(original.Type()).Elem()
if err := verifySignature(cp); err != nil {
panic(err.Error())
}
runnableValues[i], usages[i] = original, parseUsage(name, cp)
}
return Command{name: name, description: description, aliases: aliases, v: runnableValues, usage: strings.Join(usages, "\n")}
}
// Name returns the name of the command. The name is guaranteed to be lowercase and will never have spaces in
// it. This name is used to call the command, and is shown in the /help list.
func (cmd Command) Name() string {
return cmd.name
}
// Description returns the description of the command. The description is shown in the /help list, and
// provides information on the functionality of a command.
func (cmd Command) Description() string {
return cmd.description
}
// Usage returns the usage of the command. The usage will be roughly equal to the one showed by the client
// in-game.
func (cmd Command) Usage() string {
return cmd.usage
}
// Aliases returns a list of aliases for the command. In addition to the name of the command, the command may
// be called using one of these aliases.
func (cmd Command) Aliases() []string {
return cmd.aliases
}
// Execute executes the Command as a source with the args passed. The args are parsed assuming they do not
// start with the command name. Execute will attempt to parse and execute one Runnable at a time. If one of
// the Runnable was able to parse args correctly, it will be executed and no more Runnables will be attempted
// to be run.
// If parsing of all Runnables was unsuccessful, a command output with an error message is sent to the Source
// passed, and the Run method of the Runnables are not called.
// The Source passed must not be nil. The method will panic if a nil Source is passed.
func (cmd Command) Execute(args string, source Source, tx *world.Tx) {
if source == nil {
panic("execute: invalid command source: source must not be nil")
}
output := &Output{}
defer source.SendCommandOutput(output)
var leastErroneous error
var leastArgsLeft *Line
for _, v := range cmd.v {
cp := reflect.New(v.Type())
cp.Elem().Set(v)
line, err := cmd.executeRunnable(cp, args, source, output, tx)
if err == nil {
// Command was executed successfully: We won't execute any of the other Runnable values passed, as
// we've already found an overload that works.
return
}
if line == nil {
// This Runnable was not runnable by the source passed. Only if no error was yet set, we set an
// error for the wrong source.
if leastErroneous == nil {
leastErroneous = err
}
continue
}
if leastArgsLeft == nil || line.Len() <= leastArgsLeft.Len() {
// If the line had less (or equal) arguments left than the previous lowest, we update the error,
// so that we can return an error that applies for the most successful Runnable.
leastErroneous = err
leastArgsLeft = line
}
}
// No working Runnable found for the arguments passed. We add the most
// applicable error to the output and stop there.
if leastArgsLeft != nil {
output.Error(leastArgsLeft.SyntaxError())
}
output.Error(leastErroneous)
}
// ParamInfo holds the information of a parameter in a Runnable. Information of a parameter may be obtained
// by calling Command.Params().
type ParamInfo struct {
Name string
Value any
Optional bool
Suffix string
}
// Params returns a list of all parameters of the runnables. No assumptions should be done on the values that
// they hold: Only the types are guaranteed to be consistent.
func (cmd Command) Params(src Source) [][]ParamInfo {
params := make([][]ParamInfo, 0, len(cmd.v))
for _, runnable := range cmd.v {
if allower, ok := runnable.Interface().(Allower); ok && !allower.Allow(src) {
// This source cannot execute this runnable.
continue
}
// If the runnable can describe its own parameters, prefer that over reflection.
if d, ok := runnable.Interface().(ParamDescriber); ok {
params = append(params, d.DescribeParams(src))
continue
}
elem := reflect.New(runnable.Type()).Elem()
elem.Set(runnable)
var fields []ParamInfo
for _, t := range exportedFields(elem) {
field := elem.FieldByName(t.Name)
fields = append(fields, ParamInfo{
Name: name(t),
Value: unwrap(field).Interface(),
Optional: optional(field),
Suffix: suffix(t),
})
}
params = append(params, fields)
}
return params
}
// Runnables returns a map of all Runnable implementations of the Command that a Source can execute.
func (cmd Command) Runnables(src Source) map[int]Runnable {
m := make(map[int]Runnable, len(cmd.v))
for i, runnable := range cmd.v {
v := runnable.Interface().(Runnable)
if allower, ok := v.(Allower); !ok || allower.Allow(src) {
m[i] = v
}
}
return m
}
// String returns the usage of the command. The usage will be roughly equal to the one showed by the client
// in-game.
func (cmd Command) String() string {
return cmd.usage
}
// executeRunnable executes a Runnable v, by parsing the args passed using the source and output obtained. If
// parsing was not successful or the Runnable could not be run by this source, an error is returned, and the
// leftover command line.
func (cmd Command) executeRunnable(v reflect.Value, args string, source Source, output *Output, tx *world.Tx) (*Line, error) {
if a, ok := v.Interface().(Allower); ok && !a.Allow(source) {
return nil, MessageUnknown.F(cmd.name)
}
var argFrags []string
if args != "" {
r := csv.NewReader(strings.NewReader(args))
r.Comma, r.LazyQuotes = ' ', true
record, err := r.Read()
if err != nil {
// When LazyQuotes is enabled, this really never appears to return
// an error when we read only one line. Just in case it does though,
// we return the command usage.
return nil, MessageUsage.F(cmd.Usage())
}
argFrags = record
}
parser := parser{}
arguments := &Line{args: argFrags, src: source, seen: []string{"/" + cmd.name}, cmd: cmd}
// We iterate over all the fields of the struct: Each of the fields will have an argument parsed to
// produce its value.
signature := v.Elem()
for _, t := range exportedFields(signature) {
field := signature.FieldByName(t.Name)
parser.currentField = t.Name
opt := optional(field)
val := field
if opt {
val = reflect.New(field.Field(0).Type()).Elem()
}
err, success := parser.parseArgument(arguments, val, opt, name(t), source, tx)
if err != nil {
// Parsing was not successful, we return immediately as we don't
// need to call the Runnable.
return arguments, err
}
if success && opt {
field.Set(reflect.ValueOf(field.Interface().(optionalT).with(val.Interface())))
}
}
if arguments.Len() != 0 {
return arguments, arguments.UsageError()
}
v.Interface().(Runnable).Run(source, output, tx)
return arguments, nil
}
// parseUsage parses the usage of a command found in value v using the name passed. It accounts for optional
// parameters and converts types to a more friendly representation.
func parseUsage(commandName string, command reflect.Value) string {
parts := make([]string, 0, command.NumField()+1)
parts = append(parts, "/"+commandName)
for _, t := range exportedFields(command) {
field := command.FieldByName(t.Name)
typeName := typeNameOf(field.Interface(), name(t))
if _, ok := field.Interface().(optionalT); ok {
typeName = typeNameOf(reflect.New(field.Field(0).Type()).Elem().Interface(), name(t))
}
if _, ok := field.Interface().(SubCommand); ok {
parts = append(parts, typeName)
continue
}
if optional(field) {
parts = append(parts, "["+name(t)+": "+typeName+"]"+suffix(t))
continue
}
parts = append(parts, "<"+name(t)+": "+typeName+">"+suffix(t))
}
return strings.Join(parts, " ")
}
// verifySignature verifies the passed struct pointer value signature to ensure it is a valid command,
// checking things such as the validity of the optional struct tags.
// If not valid, an error is returned.
func verifySignature(command reflect.Value) error {
optionalField := false
for _, t := range exportedFields(command) {
field := command.FieldByName(t.Name)
// If the field is not optional, while the last field WAS optional, we return an error, as this is
// not parsable in an expected way.
opt := optional(field)
if !opt && optionalField {
return fmt.Errorf("command must only have optional parameters at the end")
}
val := field
if opt {
val = reflect.New(field.Field(0).Type()).Elem()
}
if _, ok := val.Interface().(Enum); ok && val.Kind() != reflect.String {
return fmt.Errorf("parameters implementing Enum must be of the type string")
}
optionalField = opt
}
return nil
}
// exportedFields returns all exported struct fields of the reflect.Value passed. It returns the fields as returned by
// reflect.VisibleFields, but filters out unexported fields, anonymous fields and fields that have a name value in the
// 'cmd' tag of '-'.
func exportedFields(command reflect.Value) []reflect.StructField {
visible := reflect.VisibleFields(command.Type())
fields := make([]reflect.StructField, 0, len(visible))
for _, t := range visible {
if !ast.IsExported(t.Name) || name(t) == "-" || t.Anonymous {
continue
}
field := command.FieldByName(t.Name)
if !field.CanSet() {
continue
}
fields = append(fields, t)
}
return fields
}