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decode.go
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decode.go
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/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package hessian
import (
"bufio"
"bytes"
"io"
"reflect"
)
import (
perrors "github.com/pkg/errors"
)
// Decoder struct
type Decoder struct {
reader *bufio.Reader
refs []interface{}
refHolders []*_refHolder
// record type refs, both list and map need it
typeRefs *TypeRefs
classInfoList []*ClassInfo
isSkip bool
// In strict mode, a class data can be decoded only when the class is registered, otherwise error returned.
// In non-strict mode, a class data will be decoded to a map when the class is not registered.
// The default is non-strict mode, user can change it as required.
Strict bool
}
// FindClassInfo find ClassInfo for the given name in decoder class info list.
func (d *Decoder) FindClassInfo(javaName string) *ClassInfo {
for _, info := range d.classInfoList {
if info.javaName == javaName {
return info
}
}
return nil
}
// Error part
var (
ErrNotEnoughBuf = perrors.Errorf("not enough buf")
ErrIllegalRefIndex = perrors.Errorf("illegal ref index")
)
// NewDecoder generate a decoder instance
func NewDecoder(b []byte) *Decoder {
return &Decoder{reader: bufio.NewReader(bytes.NewReader(b)), typeRefs: &TypeRefs{records: map[string]bool{}}}
}
// NewStrictDecoder generates a strict mode decoder instance.
// In strict mode, all target class must be registered.
func NewStrictDecoder(b []byte) *Decoder {
return &Decoder{
reader: bufio.NewReader(bytes.NewReader(b)),
typeRefs: &TypeRefs{records: map[string]bool{}},
Strict: true,
}
}
// NewDecoderSize generate a decoder instance.
func NewDecoderSize(b []byte, size int) *Decoder {
return &Decoder{reader: bufio.NewReaderSize(bytes.NewReader(b), size), typeRefs: &TypeRefs{records: map[string]bool{}}}
}
// NewDecoderWithSkip generate a decoder instance with skip.
func NewDecoderWithSkip(b []byte) *Decoder {
return &Decoder{reader: bufio.NewReader(bytes.NewReader(b)), typeRefs: &TypeRefs{records: map[string]bool{}}, isSkip: true}
}
// NewCheapDecoderWithSkip generate a decoder instance with skip,
// only for cache pool, before decode Reset should be called.
// For example, with pooling use, will effectively improve performance
//
// var hessianPool = &sync.Pool{
// New: func() interface{} {
// return hessian.NewCheapDecoderWithSkip([]byte{})
// },
// }
//
// decoder := hessianPool.Get().(*hessian.Decoder)
// fill decode data
// decoder.Reset(data[:])
// decode anything ...
// hessianPool.Put(decoder)
func NewCheapDecoderWithSkip(b []byte) *Decoder {
return &Decoder{reader: bufio.NewReader(bytes.NewReader(b)), isSkip: true}
}
// Clean clean the Decoder (room) for a new object decoding.
// Notice it won't reset reader buffer and will continue to read data from it.
func (d *Decoder) Clean() {
d.typeRefs = &TypeRefs{records: map[string]bool{}}
d.refs = nil
d.classInfoList = nil
}
/////////////////////////////////////////
// utilities
/////////////////////////////////////////
func (d *Decoder) Reset(b []byte) *Decoder {
// reuse reader buf, avoid allocate
d.reader.Reset(bytes.NewReader(b))
d.Clean()
return d
}
// peek a byte
func (d *Decoder) peekByte() byte {
return d.peek(1)[0]
}
// get the buffer length
func (d *Decoder) len() int {
d.peek(1) // peek one byte to get the buffer length
return d.reader.Buffered()
}
// ReadByte read a byte from Decoder, advance the ptr
func (d *Decoder) ReadByte() (byte, error) {
return d.reader.ReadByte()
}
// Discard skips the next n bytes
func (d *Decoder) Discard(n int) (int, error) {
return d.reader.Discard(n)
}
// unread a byte
func (d *Decoder) unreadByte() error {
return d.reader.UnreadByte()
}
// read byte arr, and return the length of b
func (d *Decoder) next(b []byte) (int, error) {
return d.reader.Read(b)
}
// read byte arr, and return the real length of b
func (d *Decoder) nextFull(b []byte) (int, error) {
return io.ReadFull(d.reader, b)
}
// peek n bytes, will not advance the read ptr
func (d *Decoder) peek(n int) []byte {
b, _ := d.reader.Peek(n)
return b
}
// read utf8 len(s) of array
func (d *Decoder) nextRune(s []rune) []rune {
var (
n int
i int
r rune
ri int
err error
)
n = len(s)
s = s[:0]
for i = 0; i < n; i++ {
if r, ri, err = d.reader.ReadRune(); err == nil && ri > 0 {
s = append(s, r)
}
}
return s
}
// read the type of data, used to decode list or map
func (d *Decoder) decMapType() (reflect.Type, error) {
var (
err error
arr [1]byte
buf []byte
tag byte
idx int32
typ reflect.Type
typName string
)
buf = arr[:1]
if _, err = io.ReadFull(d.reader, buf); err != nil {
return nil, perrors.WithStack(err)
}
tag = buf[0]
if (tag >= BC_STRING_DIRECT && tag <= STRING_DIRECT_MAX) ||
(tag >= 0x30 && tag <= 0x33) || (tag == BC_STRING) || (tag == BC_STRING_CHUNK) {
typName, err = d.decString(int32(tag))
if err != nil {
return nil, perrors.WithStack(err)
}
info, ok := getStructInfo(typName)
if ok {
typ = info.typ
} else {
typ = reflect.TypeOf(map[interface{}]interface{}{})
}
// add to type map
d.typeRefs.appendTypeRefs(typName, typ)
return typ, nil
}
if idx, err = d.decInt32(int32(tag)); err != nil {
return nil, perrors.WithStack(err)
}
typ = d.typeRefs.Get(int(idx))
if typ == nil {
return nil, perrors.Errorf("the type ref index %d is out of range", idx)
}
return typ, err
}
// Decode parse hessian data, and ensure the reflection value unpacked
func (d *Decoder) Decode() (interface{}, error) {
v, err := d.DecodeValue()
if err != nil {
return nil, err
}
for _, holder := range d.refHolders {
holder.notify()
}
return EnsureRawAny(v), nil
}
func (d *Decoder) Buffered() int { return d.reader.Buffered() }
// DecodeValue parse hessian data, the return value maybe a reflection value when it's a map, list, object, or ref.
func (d *Decoder) DecodeValue() (interface{}, error) {
var (
err error
tag byte
)
tag, err = d.ReadByte()
if perrors.Is(err, io.EOF) {
return nil, err
}
switch {
case tag == BC_END:
// return EOF error for end flag 'Z'
return nil, io.EOF
case tag == BC_NULL: // 'N': //null
return nil, nil
case tag == BC_TRUE: // 'T': //true
return true, nil
case tag == BC_FALSE: //'F': //false
return false, nil
case tag == BC_REF: // 'R': //ref, a int which represents the previous list or map
return d.decRef(int32(tag))
case (0x80 <= tag && tag <= 0xbf) || (0xc0 <= tag && tag <= 0xcf) ||
(0xd0 <= tag && tag <= 0xd7) || tag == BC_INT: //'I': //int
return d.decInt32(int32(tag))
case (tag >= 0xd8 && tag <= 0xef) || (tag >= 0xf0 && tag <= 0xff) ||
(tag >= 0x38 && tag <= 0x3f) || (tag == BC_LONG_INT) || (tag == BC_LONG): //'L': //long
return d.decInt64(int32(tag))
case (tag == BC_DATE_MINUTE) || (tag == BC_DATE): //'d': //date
return d.decDate(int32(tag))
case (tag == BC_DOUBLE_ZERO) || (tag == BC_DOUBLE_ONE) || (tag == BC_DOUBLE_BYTE) ||
(tag == BC_DOUBLE_SHORT) || (tag == BC_DOUBLE_MILL) || (tag == BC_DOUBLE): //'D': //double
return d.decDouble(int32(tag))
// case 'S', 's', 'X', 'x': //string,xml
case (tag == BC_STRING_CHUNK || tag == BC_STRING) ||
(tag >= BC_STRING_DIRECT && tag <= STRING_DIRECT_MAX) ||
(tag >= 0x30 && tag <= 0x33):
return d.decString(int32(tag))
// case 'B', 'b': //binary
case (tag == BC_BINARY) || (tag == BC_BINARY_CHUNK) || (tag >= 0x20 && tag <= 0x2f) ||
(tag >= BC_BINARY_SHORT && tag <= 0x3f):
return d.decBinary(int32(tag))
// case 'V': //list
case (tag >= BC_LIST_DIRECT && tag <= 0x77) || (tag == BC_LIST_FIXED || tag == BC_LIST_VARIABLE) ||
(tag >= BC_LIST_DIRECT_UNTYPED && tag <= 0x7f) ||
(tag == BC_LIST_FIXED_UNTYPED || tag == BC_LIST_VARIABLE_UNTYPED):
return d.decList(int32(tag))
case (tag == BC_MAP) || (tag == BC_MAP_UNTYPED):
return d.decMap(int32(tag))
case (tag == BC_OBJECT_DEF) || (tag == BC_OBJECT) ||
(BC_OBJECT_DIRECT <= tag && tag <= (BC_OBJECT_DIRECT+OBJECT_DIRECT_MAX)):
return d.decObject(int32(tag))
default:
return nil, perrors.Errorf("Invalid type: %v,>>%v<<<", string(tag), d.peek(d.len()))
}
}
// decToDest decode data to dest value.
// Before and includes the version v1.12.1, it checks all possible types of the destination,
// and then decode the data according to the type.
// But there are too many cases, and it's impossible to handle all of them.
// After v1.12.1, it decodes the data first, and then set the value to the destination.
// If the destination is map, slice, array, it decodes separately.
func (d *Decoder) decToDest(dest reflect.Value) error {
destType := dest.Type()
destRawType := UnpackPtrType(destType)
// decode for special type, include map, slice, array.
switch destRawType.Kind() {
case reflect.Map:
return d.decMapByValue(dest)
case reflect.Slice, reflect.Array:
m, err := d.decList(TAG_READ)
if err != nil {
if perrors.Is(err, io.EOF) {
return nil
}
return perrors.WithStack(err)
}
return SetSlice(UnpackPtrValue(dest), m)
}
dec, err := d.DecodeValue()
if err != nil {
return perrors.Wrapf(err, "decToDest: %s", dest.Type().Name())
}
// if dec is nil, then return directly.
if dec == nil {
return nil
}
if ref, ok := dec.(*_refHolder); ok {
return unpackRefHolder(UnpackPtrValue(dest), destRawType, ref)
}
decValue := EnsurePackValue(dec)
SetValue(dest, decValue)
return nil
}
// ///////////////////////////////////////
// typeRefs
// ///////////////////////////////////////
type TypeRefs struct {
typeRefs []reflect.Type
records map[string]bool // record if existing for type
}
// appendTypeRefs add list or map type ref
func (t *TypeRefs) appendTypeRefs(name string, p reflect.Type) {
if t.records[name] {
return
}
t.records[name] = true
t.typeRefs = append(t.typeRefs, p)
}
func (t *TypeRefs) Get(index int) reflect.Type {
if len(t.typeRefs) <= index {
return nil
}
return t.typeRefs[index]
}