// Copyright 2009 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. // Marshalling and unmarshalling of // bit torrent bencode data into Go structs using reflection. // // Based upon the standard Go language JSON package. package bencode import ( "errors" "fmt" "io" "reflect" "sort" "strings" ) type structBuilder struct { val reflect.Value // if map_ != nil, write val to map_[key] on each change map_ reflect.Value key reflect.Value } var nobuilder *structBuilder func isfloat(v reflect.Value) bool { switch v.Kind() { case reflect.Float32, reflect.Float64: return true } return false } func setfloat(v reflect.Value, f float64) { switch v.Kind() { case reflect.Float32, reflect.Float64: v.SetFloat(f) } } func setint(val reflect.Value, i int64) { switch v := val; v.Kind() { case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: v.SetInt(int64(i)) case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr: v.SetUint(uint64(i)) case reflect.Interface: v.Set(reflect.ValueOf(i)) default: panic("setint called for bogus type: " + val.Kind().String()) } } // If updating b.val is not enough to update the original, // copy a changed b.val out to the original. func (b *structBuilder) Flush() { if b == nil { return } if b.map_.IsValid() { b.map_.SetMapIndex(b.key, b.val) } } func (b *structBuilder) Int64(i int64) { if b == nil { return } if !b.val.CanSet() { x := 0 b.val = reflect.ValueOf(&x).Elem() } v := b.val if isfloat(v) { setfloat(v, float64(i)) } else { setint(v, i) } } func (b *structBuilder) Uint64(i uint64) { if b == nil { return } if !b.val.CanSet() { x := uint64(0) b.val = reflect.ValueOf(&x).Elem() } v := b.val if isfloat(v) { setfloat(v, float64(i)) } else { setint(v, int64(i)) } } func (b *structBuilder) Float64(f float64) { if b == nil { return } if !b.val.CanSet() { x := float64(0) b.val = reflect.ValueOf(&x).Elem() } v := b.val if isfloat(v) { setfloat(v, f) } else { setint(v, int64(f)) } } func (b *structBuilder) String(s string) { if b == nil { return } switch b.val.Kind() { case reflect.String: if !b.val.CanSet() { x := "" b.val = reflect.ValueOf(&x).Elem() } b.val.SetString(s) case reflect.Interface: b.val.Set(reflect.ValueOf(s)) } } func (b *structBuilder) Array() { if b == nil { return } if v := b.val; v.Kind() == reflect.Slice { if v.IsNil() { v.Set(reflect.MakeSlice(v.Type(), 0, 8)) } } } func (b *structBuilder) Elem(i int) builder { if b == nil || i < 0 { return nobuilder } switch v := b.val; v.Kind() { case reflect.Array: if i < v.Len() { return &structBuilder{val: v.Index(i)} } case reflect.Slice: if i >= v.Cap() { n := v.Cap() if n < 8 { n = 8 } for n <= i { n *= 2 } nv := reflect.MakeSlice(v.Type(), v.Len(), n) reflect.Copy(nv, v) v.Set(nv) } if v.Len() <= i && i < v.Cap() { v.SetLen(i + 1) } if i < v.Len() { return &structBuilder{val: v.Index(i)} } } return nobuilder } func (b *structBuilder) Map() { if b == nil { return } if v := b.val; v.Kind() == reflect.Ptr { if v.IsNil() { v.Set(reflect.Zero(v.Type().Elem()).Addr()) b.Flush() } b.map_ = reflect.Value{} b.val = v.Elem() } if v := b.val; v.Kind() == reflect.Map && v.IsNil() { v.Set(reflect.MakeMap(v.Type())) } } func (b *structBuilder) Key(k string) builder { if b == nil { return nobuilder } switch v := reflect.Indirect(b.val); v.Kind() { case reflect.Struct: t := v.Type() // Case-insensitive field lookup. k = strings.ToLower(k) for i := 0; i < t.NumField(); i++ { field := t.Field(i) if strings.ToLower(string(field.Tag)) == k || strings.ToLower(field.Name) == k { return &structBuilder{val: v.Field(i)} } } case reflect.Map: t := v.Type() if t.Key() != reflect.TypeOf(k) { break } key := reflect.ValueOf(k) elem := v.MapIndex(key) if !elem.IsValid() { v.SetMapIndex(key, reflect.Zero(t.Elem())) elem = v.MapIndex(key) } return &structBuilder{val: elem, map_: v, key: key} } return nobuilder } // Unmarshal reads and parses the bencode syntax data from r and fills in // an arbitrary struct or slice pointed at by val. // It uses the reflect package to assign to fields // and arrays embedded in val. Well-formed data that does not fit // into the struct is discarded. // // For example, given these definitions: // // type Email struct { // Where string; // Addr string; // } // // type Result struct { // Name string; // Phone string; // Email []Email // } // // var r = Result{ "name", "phone", nil } // // unmarshalling the bencode syntax string // // "d5:emailld5:where4:home4:addr15:gre@example.come\ // d5:where4:work4:addr12:gre@work.comee4:name14:Gr\ // ace R. Emlin7:address15:123 Main Streete" // // via Unmarshal(s, &r) is equivalent to assigning // // r = Result{ // "Grace R. Emlin", // name // "phone", // no phone given // []Email{ // Email{ "home", "gre@example.com" }, // Email{ "work", "gre@work.com" } // } // } // // Note that the field r.Phone has not been modified and // that the bencode field "address" was discarded. // // Because Unmarshal uses the reflect package, it can only // assign to upper case fields. Unmarshal uses a case-insensitive // comparison to match bencode field names to struct field names. // // If you provide a tag string for a struct member, the tag string // will be used as the bencode dictionary key for that member. // // To unmarshal a top-level bencode array, pass in a pointer to an empty // slice of the correct type. // func Unmarshal(r io.Reader, val interface{}) (err error) { // If e represents a value, the answer won't get back to the // caller. Make sure it's a pointer. if reflect.TypeOf(val).Kind() != reflect.Ptr { err = errors.New("Attempt to unmarshal into a non-pointer") return } err = unmarshalValue(r, reflect.Indirect(reflect.ValueOf(val))) return } func unmarshalValue(r io.Reader, v reflect.Value) (err error) { var b *structBuilder // XXX: Decide if the extra codnitions are needed. Affect map? if ptr := v; ptr.Kind() == reflect.Ptr { if slice := ptr.Elem(); slice.Kind() == reflect.Slice || slice.Kind() == reflect.Int || slice.Kind() == reflect.String { b = &structBuilder{val: slice} } } if b == nil { b = &structBuilder{val: v} } err = parse(r, b) return } type MarshalError struct { T reflect.Type } func (e *MarshalError) Error() string { return "bencode cannot encode value of type " + e.T.String() } func writeArrayOrSlice(w io.Writer, val reflect.Value) (err error) { _, err = fmt.Fprint(w, "l") if err != nil { return } for i := 0; i < val.Len(); i++ { if err := writeValue(w, val.Index(i)); err != nil { return err } } _, err = fmt.Fprint(w, "e") if err != nil { return } return nil } type stringValue struct { key string value reflect.Value } type stringValueArray []stringValue // Satisfy sort.Interface func (a stringValueArray) Len() int { return len(a) } func (a stringValueArray) Less(i, j int) bool { return a[i].key < a[j].key } func (a stringValueArray) Swap(i, j int) { a[i], a[j] = a[j], a[i] } func writeSVList(w io.Writer, svList stringValueArray) (err error) { sort.Sort(svList) for _, sv := range svList { if isValueNil(sv.value) { continue // Skip null values } s := sv.key _, err = fmt.Fprintf(w, "%d:%s", len(s), s) if err != nil { return } if err = writeValue(w, sv.value); err != nil { return } } return } func writeMap(w io.Writer, val reflect.Value) (err error) { key := val.Type().Key() if key.Kind() != reflect.String { return &MarshalError{val.Type()} } _, err = fmt.Fprint(w, "d") if err != nil { return } keys := val.MapKeys() // Sort keys svList := make(stringValueArray, len(keys)) for i, key := range keys { svList[i].key = key.String() svList[i].value = val.MapIndex(key) } err = writeSVList(w, svList) if err != nil { return } _, err = fmt.Fprint(w, "e") if err != nil { return } return } func writeStruct(w io.Writer, val reflect.Value) (err error) { _, err = fmt.Fprint(w, "d") if err != nil { return } typ := val.Type() numFields := val.NumField() svList := make(stringValueArray, numFields) for i := 0; i < numFields; i++ { field := typ.Field(i) key := field.Name if len(field.Tag) > 0 { key = string(field.Tag) } svList[i].key = key svList[i].value = val.Field(i) } err = writeSVList(w, svList) if err != nil { return } _, err = fmt.Fprint(w, "e") if err != nil { return } return } func writeValue(w io.Writer, val reflect.Value) (err error) { if !val.IsValid() { err = errors.New("Can't write null value") return } switch v := val; v.Kind() { case reflect.String: s := v.String() _, err = fmt.Fprintf(w, "%d:%s", len(s), s) case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: _, err = fmt.Fprintf(w, "i%de", v.Int()) case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr: _, err = fmt.Fprintf(w, "i%de", v.Uint()) case reflect.Array: err = writeArrayOrSlice(w, v) case reflect.Slice: err = writeArrayOrSlice(w, v) case reflect.Map: err = writeMap(w, v) case reflect.Struct: err = writeStruct(w, v) case reflect.Interface: err = writeValue(w, v.Elem()) default: err = &MarshalError{val.Type()} } return } func isValueNil(val reflect.Value) bool { if !val.IsValid() { return true } switch v := val; v.Kind() { case reflect.Interface: return isValueNil(v.Elem()) default: return false } return false } // Marshal writes the bencode encoding of val to w. // // Marshal traverses the value v recursively. // // Marshal uses the following type-dependent encodings: // // Floating point, integer, and Number values encode as bencode numbers. // // String values encode as bencode strings. // // Array and slice values encode as bencode arrays. // // Struct values encode as bencode maps. Each exported struct field // becomes a member of the object. // The object's default key string is the struct field name // but can be specified in the struct field's tag value. The text of // the struct field's tag value is the key name. Examples: // // // Field appears in bencode as key "Field". // Field int // // // Field appears in bencode as key "myName". // Field int "myName" // // Anonymous struct fields are ignored. // // Map values encode as bencode objects. // The map's key type must be string; the object keys are used directly // as map keys. // // Boolean, Pointer, Interface, Channel, complex, and function values cannot // be encoded in bencode. // Attempting to encode such a value causes Marshal to return // a MarshalError. // // Bencode cannot represent cyclic data structures and Marshal does not // handle them. Passing cyclic structures to Marshal will result in // an infinite recursion. // func Marshal(w io.Writer, val interface{}) error { return writeValue(w, reflect.ValueOf(val)) }