package bencode import ( "bytes" "errors" "fmt" "io" "math/big" "reflect" "runtime" "strconv" "strings" ) type Decoder struct { r interface { io.ByteScanner io.Reader } Offset int64 buf bytes.Buffer key string } func (d *Decoder) Decode(v interface{}) (err error) { defer func() { if e := recover(); e != nil { if _, ok := e.(runtime.Error); ok { panic(e) } err = e.(error) } }() pv := reflect.ValueOf(v) if pv.Kind() != reflect.Ptr || pv.IsNil() { return &UnmarshalInvalidArgError{reflect.TypeOf(v)} } if !d.parseValue(pv.Elem()) { d.throwSyntaxError(d.Offset-1, errors.New("unexpected 'e'")) } return nil } func checkForUnexpectedEOF(err error, offset int64) { if err == io.EOF { panic(&SyntaxError{ Offset: offset, What: io.ErrUnexpectedEOF, }) } } func (d *Decoder) readByte() byte { b, err := d.r.ReadByte() if err != nil { checkForUnexpectedEOF(err, d.Offset) panic(err) } d.Offset++ return b } // reads data writing it to 'd.buf' until 'sep' byte is encountered, 'sep' byte // is consumed, but not included into the 'd.buf' func (d *Decoder) readUntil(sep byte) { for { b := d.readByte() if b == sep { return } d.buf.WriteByte(b) } } func checkForIntParseError(err error, offset int64) { if err != nil { panic(&SyntaxError{ Offset: offset, What: err, }) } } func (d *Decoder) throwSyntaxError(offset int64, err error) { panic(&SyntaxError{ Offset: offset, What: err, }) } // called when 'i' was consumed func (d *Decoder) parseInt(v reflect.Value) { start := d.Offset - 1 d.readUntil('e') if d.buf.Len() == 0 { panic(&SyntaxError{ Offset: start, What: errors.New("empty integer value"), }) } s := d.buf.String() switch v.Kind() { case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: n, err := strconv.ParseInt(s, 10, 64) checkForIntParseError(err, start) if v.OverflowInt(n) { panic(&UnmarshalTypeError{ Value: "integer " + s, Type: v.Type(), }) } v.SetInt(n) case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64: n, err := strconv.ParseUint(s, 10, 64) checkForIntParseError(err, start) if v.OverflowUint(n) { panic(&UnmarshalTypeError{ Value: "integer " + s, Type: v.Type(), }) } v.SetUint(n) case reflect.Bool: v.SetBool(s != "0") default: panic(&UnmarshalTypeError{ Value: "integer " + s, Type: v.Type(), }) } d.buf.Reset() } func (d *Decoder) parseString(v reflect.Value) { start := d.Offset - 1 // read the string length first d.readUntil(':') length, err := strconv.ParseInt(d.buf.String(), 10, 64) checkForIntParseError(err, start) d.buf.Reset() n, err := io.CopyN(&d.buf, d.r, length) d.Offset += n if err != nil { checkForUnexpectedEOF(err, d.Offset) panic(&SyntaxError{ Offset: d.Offset, What: errors.New("unexpected I/O error: " + err.Error()), }) } switch v.Kind() { case reflect.String: v.SetString(d.buf.String()) case reflect.Slice: if v.Type().Elem().Kind() != reflect.Uint8 { panic(&UnmarshalTypeError{ Value: "string", Type: v.Type(), }) } sl := make([]byte, len(d.buf.Bytes())) copy(sl, d.buf.Bytes()) v.Set(reflect.ValueOf(sl)) default: panic(&UnmarshalTypeError{ Value: "string", Type: v.Type(), }) } d.buf.Reset() } func (d *Decoder) parseDict(v reflect.Value) { switch v.Kind() { case reflect.Map: t := v.Type() if t.Key().Kind() != reflect.String { panic(&UnmarshalTypeError{ Value: "object", Type: t, }) } if v.IsNil() { v.Set(reflect.MakeMap(t)) } case reflect.Struct: default: panic(&UnmarshalTypeError{ Value: "object", Type: v.Type(), }) } var mapElem reflect.Value // so, at this point 'd' byte was consumed, let's just read key/value // pairs one by one for { var valuev reflect.Value keyv := reflect.ValueOf(&d.key).Elem() if !d.parseValue(keyv) { return } // get valuev as a map value or as a struct field switch v.Kind() { case reflect.Map: elem_type := v.Type().Elem() if !mapElem.IsValid() { mapElem = reflect.New(elem_type).Elem() } else { mapElem.Set(reflect.Zero(elem_type)) } valuev = mapElem case reflect.Struct: var f reflect.StructField var ok bool t := v.Type() for i, n := 0, t.NumField(); i < n; i++ { f = t.Field(i) tag := f.Tag.Get("bencode") if tag == "-" { continue } if f.Anonymous { continue } tag_name, _ := parseTag(tag) if tag_name == d.key { ok = true break } if f.Name == d.key { ok = true break } if strings.EqualFold(f.Name, d.key) { ok = true break } } if ok { if f.PkgPath != "" { panic(&UnmarshalFieldError{ Key: d.key, Type: v.Type(), Field: f, }) } else { valuev = v.FieldByIndex(f.Index) } } else { _, ok := d.parseValueInterface() if !ok { return } continue } } // now we need to actually parse it if !d.parseValue(valuev) { return } if v.Kind() == reflect.Map { v.SetMapIndex(keyv, valuev) } } } func (d *Decoder) parseList(v reflect.Value) { switch v.Kind() { case reflect.Array, reflect.Slice: default: panic(&UnmarshalTypeError{ Value: "array", Type: v.Type(), }) } i := 0 for { if v.Kind() == reflect.Slice && i >= v.Len() { v.Set(reflect.Append(v, reflect.Zero(v.Type().Elem()))) } ok := false if i < v.Len() { ok = d.parseValue(v.Index(i)) } else { _, ok = d.parseValueInterface() } if !ok { break } i++ } if i < v.Len() { if v.Kind() == reflect.Array { z := reflect.Zero(v.Type().Elem()) for n := v.Len(); i < n; i++ { v.Index(i).Set(z) } } else { v.SetLen(i) } } if i == 0 && v.Kind() == reflect.Slice { v.Set(reflect.MakeSlice(v.Type(), 0, 0)) } } func (d *Decoder) readOneValue() bool { b, err := d.r.ReadByte() if err != nil { panic(err) } if b == 'e' { d.r.UnreadByte() return false } else { d.Offset++ d.buf.WriteByte(b) } switch b { case 'd', 'l': // read until there is nothing to read for d.readOneValue() { } // consume 'e' as well b = d.readByte() d.buf.WriteByte(b) case 'i': d.readUntil('e') d.buf.WriteString("e") default: if b >= '0' && b <= '9' { start := d.buf.Len() - 1 d.readUntil(':') length, err := strconv.ParseInt(d.buf.String()[start:], 10, 64) checkForIntParseError(err, d.Offset-1) d.buf.WriteString(":") n, err := io.CopyN(&d.buf, d.r, length) d.Offset += n if err != nil { checkForUnexpectedEOF(err, d.Offset) panic(&SyntaxError{ Offset: d.Offset, What: errors.New("unexpected I/O error: " + err.Error()), }) } break } d.raiseUnknownValueType(b, d.Offset-1) } return true } func (d *Decoder) parseUnmarshaler(v reflect.Value) bool { m, ok := v.Interface().(Unmarshaler) if !ok { // T doesn't work, try *T if v.Kind() != reflect.Ptr && v.CanAddr() { m, ok = v.Addr().Interface().(Unmarshaler) if ok { v = v.Addr() } } } if ok && (v.Kind() != reflect.Ptr || !v.IsNil()) { if d.readOneValue() { err := m.UnmarshalBencode(d.buf.Bytes()) d.buf.Reset() if err != nil { panic(&UnmarshalerError{v.Type(), err}) } return true } d.buf.Reset() } return false } // Returns true if there was a value and it's now stored in 'v', otherwise // there was an end symbol ("e") and no value was stored. func (d *Decoder) parseValue(v reflect.Value) bool { // we support one level of indirection at the moment if v.Kind() == reflect.Ptr { // if the pointer is nil, allocate a new element of the type it // points to if v.IsNil() { v.Set(reflect.New(v.Type().Elem())) } v = v.Elem() } if d.parseUnmarshaler(v) { return true } // common case: interface{} if v.Kind() == reflect.Interface && v.NumMethod() == 0 { iface, _ := d.parseValueInterface() v.Set(reflect.ValueOf(iface)) return true } b, err := d.r.ReadByte() if err != nil { panic(err) } d.Offset++ switch b { case 'e': return false case 'd': d.parseDict(v) case 'l': d.parseList(v) case 'i': d.parseInt(v) default: if b >= '0' && b <= '9' { // string // append first digit of the length to the buffer d.buf.WriteByte(b) d.parseString(v) break } d.raiseUnknownValueType(b, d.Offset-1) } return true } // An unknown bencode type character was encountered. func (d *Decoder) raiseUnknownValueType(b byte, offset int64) { panic(&SyntaxError{ Offset: offset, What: fmt.Errorf("unknown value type %+q", b), }) } func (d *Decoder) parseValueInterface() (interface{}, bool) { b, err := d.r.ReadByte() if err != nil { panic(err) } d.Offset++ switch b { case 'e': return nil, false case 'd': return d.parseDictInterface(), true case 'l': return d.parseListInterface(), true case 'i': return d.parseIntInterface(), true default: if b >= '0' && b <= '9' { // string // append first digit of the length to the buffer d.buf.WriteByte(b) return d.parseStringInterface(), true } d.raiseUnknownValueType(b, d.Offset-1) panic("unreachable") } } func (d *Decoder) parseIntInterface() (ret interface{}) { start := d.Offset - 1 d.readUntil('e') if d.buf.Len() == 0 { panic(&SyntaxError{ Offset: start, What: errors.New("empty integer value"), }) } n, err := strconv.ParseInt(d.buf.String(), 10, 64) if ne, ok := err.(*strconv.NumError); ok && ne.Err == strconv.ErrRange { i := new(big.Int) _, ok := i.SetString(d.buf.String(), 10) if !ok { panic(&SyntaxError{ Offset: start, What: errors.New("failed to parse integer"), }) } ret = i } else { checkForIntParseError(err, start) ret = n } d.buf.Reset() return } func (d *Decoder) parseStringInterface() interface{} { start := d.Offset - 1 // read the string length first d.readUntil(':') length, err := strconv.ParseInt(d.buf.String(), 10, 64) checkForIntParseError(err, start) d.buf.Reset() n, err := io.CopyN(&d.buf, d.r, length) d.Offset += n if err != nil { checkForUnexpectedEOF(err, d.Offset) panic(&SyntaxError{ Offset: d.Offset, What: errors.New("unexpected I/O error: " + err.Error()), }) } s := d.buf.String() d.buf.Reset() return s } func (d *Decoder) parseDictInterface() interface{} { dict := make(map[string]interface{}) for { keyi, ok := d.parseValueInterface() if !ok { break } key, ok := keyi.(string) if !ok { panic(&SyntaxError{ Offset: d.Offset, What: errors.New("non-string key in a dict"), }) } valuei, ok := d.parseValueInterface() if !ok { break } dict[key] = valuei } return dict } func (d *Decoder) parseListInterface() interface{} { var list []interface{} for { valuei, ok := d.parseValueInterface() if !ok { break } list = append(list, valuei) } if list == nil { list = make([]interface{}, 0, 0) } return list }