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neoneo-go/pkg/vm/serialization.go
Roman Khimov 2d0ad30fcf vm: rework Map with internal slice representation 
Which makes iterating over map stable which is important for serialization and
and even fixes occasional test failures. We use the same ordering here as
NEO 3.0 uses, but it should also be fine for NEO 2.0 because it has no
defined order.
2020-04-01 19:33:53 +03:00

143 lines
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package vm
import (
"errors"
"github.com/nspcc-dev/neo-go/pkg/io"
"github.com/nspcc-dev/neo-go/pkg/vm/emit"
)
type stackItemType byte
const (
byteArrayT stackItemType = 0x00
booleanT stackItemType = 0x01
integerT stackItemType = 0x02
arrayT stackItemType = 0x80
structT stackItemType = 0x81
mapT stackItemType = 0x82
)
// SerializeItem encodes given StackItem into the byte slice.
func SerializeItem(item StackItem) ([]byte, error) {
w := io.NewBufBinWriter()
EncodeBinaryStackItem(item, w.BinWriter)
if w.Err != nil {
return nil, w.Err
}
return w.Bytes(), nil
}
// EncodeBinaryStackItem encodes given StackItem into the given BinWriter. It's
// similar to io.Serializable's EncodeBinary, but works with StackItem
// interface.
func EncodeBinaryStackItem(item StackItem, w *io.BinWriter) {
serializeItemTo(item, w, make(map[StackItem]bool))
}
func serializeItemTo(item StackItem, w *io.BinWriter, seen map[StackItem]bool) {
if seen[item] {
w.Err = errors.New("recursive structures can't be serialized")
return
}
switch t := item.(type) {
case *ByteArrayItem:
w.WriteBytes([]byte{byte(byteArrayT)})
w.WriteVarBytes(t.value)
case *BoolItem:
w.WriteBytes([]byte{byte(booleanT)})
w.WriteBool(t.value)
case *BigIntegerItem:
w.WriteBytes([]byte{byte(integerT)})
w.WriteVarBytes(emit.IntToBytes(t.value))
case *InteropItem:
w.Err = errors.New("interop item can't be serialized")
case *ArrayItem, *StructItem:
seen[item] = true
_, isArray := t.(*ArrayItem)
if isArray {
w.WriteBytes([]byte{byte(arrayT)})
} else {
w.WriteBytes([]byte{byte(structT)})
}
arr := t.Value().([]StackItem)
w.WriteVarUint(uint64(len(arr)))
for i := range arr {
serializeItemTo(arr[i], w, seen)
}
case *MapItem:
seen[item] = true
w.WriteBytes([]byte{byte(mapT)})
w.WriteVarUint(uint64(len(t.value)))
for i := range t.value {
serializeItemTo(t.value[i].Key, w, seen)
serializeItemTo(t.value[i].Value, w, seen)
}
}
}
// DeserializeItem decodes StackItem from the given byte slice.
func DeserializeItem(data []byte) (StackItem, error) {
r := io.NewBinReaderFromBuf(data)
item := DecodeBinaryStackItem(r)
if r.Err != nil {
return nil, r.Err
}
return item, nil
}
// DecodeBinaryStackItem decodes previously serialized StackItem from the given
// reader. It's similar to the io.Serializable's DecodeBinary(), but implemented
// as a function because StackItem itself is an interface. Caveat: always check
// reader's error value before using the returned StackItem.
func DecodeBinaryStackItem(r *io.BinReader) StackItem {
var t = r.ReadB()
if r.Err != nil {
return nil
}
switch stackItemType(t) {
case byteArrayT:
data := r.ReadVarBytes()
return NewByteArrayItem(data)
case booleanT:
var b = r.ReadBool()
return NewBoolItem(b)
case integerT:
data := r.ReadVarBytes()
num := emit.BytesToInt(data)
return &BigIntegerItem{
value: num,
}
case arrayT, structT:
size := int(r.ReadVarUint())
arr := make([]StackItem, size)
for i := 0; i < size; i++ {
arr[i] = DecodeBinaryStackItem(r)
}
if stackItemType(t) == arrayT {
return &ArrayItem{value: arr}
}
return &StructItem{value: arr}
case mapT:
size := int(r.ReadVarUint())
m := NewMapItem()
for i := 0; i < size; i++ {
key := DecodeBinaryStackItem(r)
value := DecodeBinaryStackItem(r)
if r.Err != nil {
break
}
m.Add(key, value)
}
return m
default:
r.Err = errors.New("unknown type")
return nil
}
}
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