FedP2P/bencode/decode.go

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package bencode
import (
"bytes"
"errors"
"fmt"
"io"
"math/big"
"reflect"
"runtime"
"strconv"
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"sync"
"unsafe"
)
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type Decoder struct {
r interface {
io.ByteScanner
io.Reader
}
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// Sum of bytes used to Decode values.
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Offset int64
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buf bytes.Buffer
}
func (d *Decoder) Decode(v interface{}) (err error) {
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defer func() {
if err != nil {
return
}
r := recover()
_, ok := r.(runtime.Error)
if ok {
panic(r)
}
err, ok = r.(error)
if !ok && r != nil {
panic(r)
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}
}()
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pv := reflect.ValueOf(v)
if pv.Kind() != reflect.Ptr || pv.IsNil() {
return &UnmarshalInvalidArgError{reflect.TypeOf(v)}
}
ok, err := d.parseValue(pv.Elem())
if err != nil {
return
}
if !ok {
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d.throwSyntaxError(d.Offset-1, errors.New("unexpected 'e'"))
}
return
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}
func checkForUnexpectedEOF(err error, offset int64) {
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if err == io.EOF {
panic(&SyntaxError{
Offset: offset,
What: io.ErrUnexpectedEOF,
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})
}
}
func (d *Decoder) readByte() byte {
b, err := d.r.ReadByte()
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if err != nil {
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checkForUnexpectedEOF(err, d.Offset)
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panic(err)
}
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d.Offset++
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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) {
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for {
b := d.readByte()
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if b == sep {
return
}
d.buf.WriteByte(b)
}
}
func checkForIntParseError(err error, offset int64) {
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if err != nil {
panic(&SyntaxError{
Offset: offset,
What: err,
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})
}
}
func (d *Decoder) throwSyntaxError(offset int64, err error) {
panic(&SyntaxError{
Offset: offset,
What: err,
})
}
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// called when 'i' was consumed
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func (d *Decoder) parseInt(v reflect.Value) {
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start := d.Offset - 1
d.readUntil('e')
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if d.buf.Len() == 0 {
panic(&SyntaxError{
Offset: start,
What: errors.New("empty integer value"),
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})
}
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s := d.buf.String()
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switch v.Kind() {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
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n, err := strconv.ParseInt(s, 10, 64)
checkForIntParseError(err, start)
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if v.OverflowInt(n) {
panic(&UnmarshalTypeError{
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Value: "integer " + s,
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Type: v.Type(),
})
}
v.SetInt(n)
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
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n, err := strconv.ParseUint(s, 10, 64)
checkForIntParseError(err, start)
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if v.OverflowUint(n) {
panic(&UnmarshalTypeError{
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Value: "integer " + s,
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Type: v.Type(),
})
}
v.SetUint(n)
case reflect.Bool:
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v.SetBool(s != "0")
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default:
panic(&UnmarshalTypeError{
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Value: "integer " + s,
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Type: v.Type(),
})
}
d.buf.Reset()
}
func (d *Decoder) parseString(v reflect.Value) error {
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start := d.Offset - 1
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// read the string length first
d.readUntil(':')
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length, err := strconv.ParseInt(d.buf.String(), 10, 64)
checkForIntParseError(err, start)
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d.buf.Reset()
n, err := io.CopyN(&d.buf, d.r, length)
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d.Offset += n
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if err != nil {
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checkForUnexpectedEOF(err, d.Offset)
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panic(&SyntaxError{
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Offset: d.Offset,
What: errors.New("unexpected I/O error: " + err.Error()),
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})
}
defer d.buf.Reset()
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switch v.Kind() {
case reflect.String:
v.SetString(d.buf.String())
return nil
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case reflect.Slice:
if v.Type().Elem().Kind() != reflect.Uint8 {
break
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}
v.SetBytes(append([]byte(nil), d.buf.Bytes()...))
return nil
case reflect.Array:
if v.Type().Elem().Kind() != reflect.Uint8 {
break
}
reflect.Copy(v, reflect.ValueOf(d.buf.Bytes()))
return nil
}
// I believe we return here to support "ignore_unmarshal_type_error".
return &UnmarshalTypeError{
Value: "string",
Type: v.Type(),
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}
}
// Info for parsing a dict value.
type dictField struct {
Value reflect.Value // Storage for the parsed value.
// True if field value should be parsed into Value. If false, the value
// should be parsed and discarded.
Ok bool
Set func() // Call this after parsing into Value.
IgnoreUnmarshalTypeError bool
}
// Returns specifics for parsing a dict field value.
func getDictField(dict reflect.Value, key string) dictField {
// get valuev as a map value or as a struct field
switch dict.Kind() {
case reflect.Map:
value := reflect.New(dict.Type().Elem()).Elem()
return dictField{
Value: value,
Ok: true,
Set: func() {
if dict.IsNil() {
dict.Set(reflect.MakeMap(dict.Type()))
}
// Assigns the value into the map.
dict.SetMapIndex(reflect.ValueOf(key).Convert(dict.Type().Key()), value)
},
}
case reflect.Struct:
sf, ok := getStructFieldForKey(dict.Type(), key)
if !ok {
return dictField{}
}
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if sf.r.PkgPath != "" {
panic(&UnmarshalFieldError{
Key: key,
Type: dict.Type(),
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Field: sf.r,
})
}
return dictField{
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Value: dict.FieldByIndex(sf.r.Index),
Ok: true,
Set: func() {},
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IgnoreUnmarshalTypeError: sf.tag.IgnoreUnmarshalTypeError(),
}
default:
return dictField{}
}
}
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type structField struct {
r reflect.StructField
tag tag
}
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var (
structFieldsMu sync.Mutex
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structFields = map[reflect.Type]map[string]structField{}
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)
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func parseStructFields(struct_ reflect.Type, each func(string, structField)) {
for i, n := 0, struct_.NumField(); i < n; i++ {
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f := struct_.Field(i)
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if f.Anonymous {
continue
}
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tagStr := f.Tag.Get("bencode")
if tagStr == "-" {
continue
}
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tag := parseTag(tagStr)
key := tag.Key()
if key == "" {
key = f.Name
}
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each(key, structField{f, tag})
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}
}
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func saveStructFields(struct_ reflect.Type) {
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m := make(map[string]structField)
parseStructFields(struct_, func(key string, sf structField) {
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m[key] = sf
})
structFields[struct_] = m
}
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func getStructFieldForKey(struct_ reflect.Type, key string) (f structField, ok bool) {
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structFieldsMu.Lock()
if _, ok := structFields[struct_]; !ok {
saveStructFields(struct_)
}
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f, ok = structFields[struct_][key]
structFieldsMu.Unlock()
return
}
func (d *Decoder) parseDict(v reflect.Value) error {
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// so, at this point 'd' byte was consumed, let's just read key/value
// pairs one by one
for {
var keyStr string
keyValue := reflect.ValueOf(&keyStr).Elem()
ok, err := d.parseValue(keyValue)
if err != nil {
return fmt.Errorf("error parsing dict key: %s", err)
}
if !ok {
return nil
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}
df := getDictField(v, keyStr)
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// now we need to actually parse it
if df.Ok {
// log.Printf("parsing ok struct field for key %q", keyStr)
ok, err = d.parseValue(df.Value)
} else {
// Discard the value, there's nowhere to put it.
var if_ interface{}
if_, ok = d.parseValueInterface()
if if_ == nil {
err = fmt.Errorf("error parsing value for key %q", keyStr)
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}
}
if err != nil {
if _, ok := err.(*UnmarshalTypeError); !ok || !df.IgnoreUnmarshalTypeError {
return fmt.Errorf("parsing value for key %q: %s", keyStr, err)
}
}
if !ok {
return fmt.Errorf("missing value for key %q", keyStr)
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}
if df.Ok {
df.Set()
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}
}
}
func (d *Decoder) parseList(v reflect.Value) error {
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switch v.Kind() {
case reflect.Array, reflect.Slice:
default:
panic(&UnmarshalTypeError{
Value: "array",
Type: v.Type(),
})
}
i := 0
for ; ; i++ {
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if v.Kind() == reflect.Slice && i >= v.Len() {
v.Set(reflect.Append(v, reflect.Zero(v.Type().Elem())))
}
if i < v.Len() {
ok, err := d.parseValue(v.Index(i))
if err != nil {
return err
}
if !ok {
break
}
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} else {
_, ok := d.parseValueInterface()
if !ok {
break
}
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}
}
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))
}
return nil
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}
func (d *Decoder) readOneValue() bool {
b, err := d.r.ReadByte()
if err != nil {
panic(err)
}
if b == 'e' {
d.r.UnreadByte()
return false
} else {
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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(':')
s := reflect.StringHeader{
uintptr(unsafe.Pointer(&d.buf.Bytes()[start])),
d.buf.Len() - start,
}
length, err := strconv.ParseInt(*(*string)(unsafe.Pointer(&s)), 10, 64)
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checkForIntParseError(err, d.Offset-1)
d.buf.WriteString(":")
n, err := io.CopyN(&d.buf, d.r, length)
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d.Offset += n
if err != nil {
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checkForUnexpectedEOF(err, d.Offset)
panic(&SyntaxError{
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Offset: d.Offset,
What: errors.New("unexpected I/O error: " + err.Error()),
})
}
break
}
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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, error) {
// we support one level of indirection at the moment
if v.Kind() == reflect.Ptr {
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// 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()))
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}
v = v.Elem()
}
if d.parseUnmarshaler(v) {
return true, nil
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}
// common case: interface{}
if v.Kind() == reflect.Interface && v.NumMethod() == 0 {
iface, _ := d.parseValueInterface()
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v.Set(reflect.ValueOf(iface))
return true, nil
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}
b, err := d.r.ReadByte()
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if err != nil {
panic(err)
}
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d.Offset++
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switch b {
case 'e':
return false, nil
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case 'd':
return true, d.parseDict(v)
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case 'l':
return true, d.parseList(v)
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case 'i':
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d.parseInt(v)
return true, nil
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default:
if b >= '0' && b <= '9' {
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// It's a string.
d.buf.Reset()
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// Write the first digit of the length to the buffer.
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d.buf.WriteByte(b)
return true, d.parseString(v)
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}
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d.raiseUnknownValueType(b, d.Offset-1)
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}
panic("unreachable")
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}
// 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()
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if err != nil {
panic(err)
}
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d.Offset++
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switch b {
case 'e':
return nil, false
case 'd':
return d.parseDictInterface(), true
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case 'l':
return d.parseListInterface(), true
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case 'i':
return d.parseIntInterface(), true
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default:
if b >= '0' && b <= '9' {
// string
// append first digit of the length to the buffer
d.buf.WriteByte(b)
return d.parseStringInterface(), true
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}
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d.raiseUnknownValueType(b, d.Offset-1)
panic("unreachable")
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}
}
func (d *Decoder) parseIntInterface() (ret interface{}) {
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start := d.Offset - 1
d.readUntil('e')
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if d.buf.Len() == 0 {
panic(&SyntaxError{
Offset: start,
What: errors.New("empty integer value"),
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})
}
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
}
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d.buf.Reset()
return
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}
func (d *Decoder) parseStringInterface() interface{} {
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start := d.Offset - 1
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// read the string length first
d.readUntil(':')
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length, err := strconv.ParseInt(d.buf.String(), 10, 64)
checkForIntParseError(err, start)
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d.buf.Reset()
n, err := io.CopyN(&d.buf, d.r, length)
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d.Offset += n
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if err != nil {
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checkForUnexpectedEOF(err, d.Offset)
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panic(&SyntaxError{
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Offset: d.Offset,
What: errors.New("unexpected I/O error: " + err.Error()),
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})
}
s := d.buf.String()
d.buf.Reset()
return s
}
func (d *Decoder) parseDictInterface() interface{} {
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dict := make(map[string]interface{})
for {
keyi, ok := d.parseValueInterface()
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if !ok {
break
}
key, ok := keyi.(string)
if !ok {
panic(&SyntaxError{
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Offset: d.Offset,
What: errors.New("non-string key in a dict"),
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})
}
valuei, ok := d.parseValueInterface()
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if !ok {
break
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}
dict[key] = valuei
}
return dict
}
func (d *Decoder) parseListInterface() interface{} {
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var list []interface{}
for {
valuei, ok := d.parseValueInterface()
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if !ok {
break
}
list = append(list, valuei)
}
if list == nil {
list = make([]interface{}, 0, 0)
}
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return list
}