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encoder.go
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encoder.go
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package eos
import (
"bytes"
"encoding/binary"
"encoding/hex"
"errors"
"fmt"
"io"
"math"
"reflect"
"sort"
"time"
"github.com/eoscanada/eos-go/ecc"
"go.uber.org/zap"
)
// MarshalerBinary is the interface implemented by types
// that can marshal to an EOSIO binary description of themselves.
//
// **Warning** This is experimental, exposed only for internal usage for now.
type MarshalerBinary interface {
MarshalBinary(encoder *Encoder) error
}
func MarshalBinary(v interface{}) ([]byte, error) {
buf := new(bytes.Buffer)
encoder := NewEncoder(buf)
err := encoder.Encode(v)
return buf.Bytes(), err
}
// --------------------------------------------------------------
// Encoder implements the EOS packing, similar to FC_BUFFER
// --------------------------------------------------------------
type Encoder struct {
output io.Writer
Order binary.ByteOrder
count int
}
func NewEncoder(w io.Writer) *Encoder {
return &Encoder{
output: w,
Order: binary.LittleEndian,
count: 0,
}
}
func (e *Encoder) writeName(name Name) error {
val, err := StringToName(string(name))
if err != nil {
return fmt.Errorf("writeName: %w", err)
}
return e.writeUint64(val)
}
func (e *Encoder) Encode(v interface{}) (err error) {
switch cv := v.(type) {
case MarshalerBinary:
return cv.MarshalBinary(e)
case BaseVariant:
err = e.writeUVarInt(int(cv.TypeID))
if err != nil {
return
}
return e.Encode(cv.Impl)
case SafeString:
return e.writeString(string(cv))
case Name:
return e.writeName(cv)
case AccountName:
name := Name(cv)
return e.writeName(name)
case PermissionName:
name := Name(cv)
return e.writeName(name)
case ActionName:
name := Name(cv)
return e.writeName(name)
case TableName:
name := Name(cv)
return e.writeName(name)
case ScopeName:
name := Name(cv)
return e.writeName(name)
case string:
return e.writeString(cv)
case CompressionType:
return e.writeByte(byte(cv))
case TransactionStatus:
return e.writeByte(byte(cv))
case IDListMode:
return e.writeByte(byte(cv))
case byte:
return e.writeByte(cv)
case int8:
return e.writeByte(byte(cv))
case int16:
return e.writeInt16(cv)
case uint16:
return e.writeUint16(cv)
case int32:
return e.writeInt32(cv)
case uint32:
return e.writeUint32(cv)
case uint64:
return e.writeUint64(cv)
case Int64:
return e.writeUint64(uint64(cv))
case int64:
return e.writeInt64(cv)
case float32:
return e.writeFloat32(cv)
case float64:
return e.writeFloat64(cv)
case Varint32:
return e.writeVarInt32(int32(cv))
case Uint128:
return e.writeUint128(cv)
case Int128:
return e.writeUint128(Uint128(cv))
case Float128:
return e.writeUint128(Uint128(cv))
case Varuint32:
return e.writeUVarInt32(uint32(cv))
case bool:
return e.writeBool(cv)
case Bool:
return e.writeBool(bool(cv))
case JSONTime:
return e.writeJSONTime(cv)
case HexBytes:
return e.writeByteArray(cv)
case Checksum160:
return e.writeChecksum160(cv)
case Checksum256:
return e.writeChecksum256(cv)
case Checksum512:
return e.writeChecksum512(cv)
case []byte:
return e.writeByteArray(cv)
case ecc.PublicKey:
return e.writePublicKey(cv)
case ecc.Signature:
return e.writeSignature(cv)
case Tstamp:
return e.writeTstamp(cv)
case BlockTimestamp:
return e.writeBlockTimestamp(cv)
case CurrencyName:
return e.writeCurrencyName(cv)
case Symbol:
value, err := cv.ToUint64()
if err != nil {
return fmt.Errorf("encoding symbol: %w", err)
}
return e.writeUint64(value)
case SymbolCode:
return e.writeUint64(uint64(cv))
case Asset:
return e.writeAsset(cv)
case ActionData:
return e.writeActionData(cv)
case *ActionData:
return e.writeActionData(*cv)
case *Packet:
return e.writeBlockP2PMessageEnvelope(*cv)
case TimePoint:
return e.writeUint64(uint64(cv))
case TimePointSec:
return e.writeUint32(uint32(cv))
case nil:
default:
rv := reflect.Indirect(reflect.ValueOf(v))
t := rv.Type()
switch t.Kind() {
case reflect.Array:
l := t.Len()
if tracer.Enabled() {
defer func(prev *zap.Logger) { zlog = prev }(zlog)
zlog = zlog.Named("array")
zlog.Debug("encode: array", zap.Int("length", l), typeField("type", v))
}
for i := 0; i < l; i++ {
if err = e.Encode(rv.Index(i).Interface()); err != nil {
return
}
}
case reflect.Slice:
l := rv.Len()
if err = e.writeUVarInt(l); err != nil {
return
}
if tracer.Enabled() {
defer func(prev *zap.Logger) { zlog = prev }(zlog)
zlog = zlog.Named("slice")
zlog.Debug("encode: slice", zap.Int("length", l), typeField("type", v))
}
for i := 0; i < l; i++ {
if err = e.Encode(rv.Index(i).Interface()); err != nil {
return
}
}
case reflect.Struct:
l := rv.NumField()
if tracer.Enabled() {
zlog.Debug("encode: struct", zap.Int("fields", l), typeField("type", v))
defer func(prev *zap.Logger) { zlog = prev }(zlog)
zlog = zlog.Named("struct")
}
for i := 0; i < l; i++ {
field := t.Field(i)
if tracer.Enabled() {
zlog.Debug("field", zap.String("field", field.Name))
}
tag := field.Tag.Get("eos")
if tag == "-" {
continue
}
if v := rv.Field(i); t.Field(i).Name != "_" {
if v.CanInterface() {
isPresent := true
if tag == "optional" {
isPresent = !v.IsZero()
e.writeBool(isPresent)
}
if isPresent {
if err = e.Encode(v.Interface()); err != nil {
return
}
}
}
}
}
case reflect.Map:
keys := rv.MapKeys()
keyCount := len(keys)
keyType := t.Key()
if tracer.Enabled() {
zlog.Debug("encode: map", zap.Int("key_count", keyCount), typeField("key_type", keyType))
defer func(prev *zap.Logger) { zlog = prev }(zlog)
zlog = zlog.Named("map")
}
if err = e.writeUVarInt(keyCount); err != nil {
return
}
if keyCount == 0 {
return
}
keyKind, errCompare := basicKindFromReflect(keyType.Kind())
if errCompare != nil {
return fmt.Errorf("encode map: key of type %t must be comparable: %w", keyType, errCompare)
}
sort.Slice(keys, func(i, j int) bool {
left := keys[i]
right := keys[j]
// We have validate most of this already, only case that can still happens is in error in coverage
isLower, err := lt(keyKind, left, right)
if err != nil {
panic(fmt.Errorf("encode map: unable to compare keys: %w", err))
}
return isLower
})
for _, mapKey := range keys {
if err = e.Encode(mapKey.Interface()); err != nil {
return
}
if err = e.Encode(rv.MapIndex(mapKey).Interface()); err != nil {
return
}
}
default:
return errors.New("Encode: unsupported type " + t.String())
}
}
return
}
func (e *Encoder) toWriter(bytes []byte) (err error) {
e.count += len(bytes)
if tracer.Enabled() {
zlog.Debug(" appending", zap.Stringer("hex", HexBytes(bytes)), zap.Int("pos", e.count))
}
_, err = e.output.Write(bytes)
return
}
func (e *Encoder) writeByteArray(b []byte) error {
if tracer.Enabled() {
zlog.Debug("write byte array", zap.Int("len", len(b)))
}
if err := e.writeUVarInt(len(b)); err != nil {
return err
}
return e.toWriter(b)
}
func (e *Encoder) writeUVarInt(v int) (err error) {
if tracer.Enabled() {
zlog.Debug("write uvarint", zap.Int("val", v))
}
buf := make([]byte, 8)
l := binary.PutUvarint(buf, uint64(v))
return e.toWriter(buf[:l])
}
func (e *Encoder) writeUVarInt32(v uint32) (err error) {
if tracer.Enabled() {
zlog.Debug("write varuint32", zap.Uint32("val", v))
}
buf := make([]byte, binary.MaxVarintLen32)
l := binary.PutUvarint(buf, uint64(v))
return e.toWriter(buf[:l])
}
func (e *Encoder) writeVarInt(v int) (err error) {
if tracer.Enabled() {
zlog.Debug("write varint", zap.Int("val", v))
}
buf := make([]byte, 8)
l := binary.PutVarint(buf, int64(v))
return e.toWriter(buf[:l])
}
func (e *Encoder) writeVarInt32(v int32) (err error) {
if tracer.Enabled() {
zlog.Debug("write varint32", zap.Int32("val", v))
}
buf := make([]byte, binary.MaxVarintLen32)
l := binary.PutVarint(buf, int64(v))
return e.toWriter(buf[:l])
}
func (e *Encoder) writeByte(b byte) (err error) {
if tracer.Enabled() {
zlog.Debug("write byte", zap.Uint8("val", b))
}
return e.toWriter([]byte{b})
}
func (e *Encoder) writeBool(b bool) (err error) {
if tracer.Enabled() {
zlog.Debug("write bool", zap.Bool("val", b))
}
var out byte
if b {
out = 1
}
return e.writeByte(out)
}
func (e *Encoder) writeUint16(i uint16) (err error) {
if tracer.Enabled() {
zlog.Debug("write uint16", zap.Uint16("val", i))
}
buf := make([]byte, TypeSize.Uint16)
binary.LittleEndian.PutUint16(buf, i)
return e.toWriter(buf)
}
func (e *Encoder) writeInt16(i int16) (err error) {
if tracer.Enabled() {
zlog.Debug("write int16", zap.Int16("val", i))
}
return e.writeUint16(uint16(i))
}
func (e *Encoder) writeInt32(i int32) (err error) {
if tracer.Enabled() {
zlog.Debug("write int32", zap.Int32("val", i))
}
return e.writeUint32(uint32(i))
}
func (e *Encoder) writeUint32(i uint32) (err error) {
if tracer.Enabled() {
zlog.Debug("write uint32", zap.Uint32("val", i))
}
buf := make([]byte, TypeSize.Uint32)
binary.LittleEndian.PutUint32(buf, i)
return e.toWriter(buf)
}
func (e *Encoder) writeInt64(i int64) (err error) {
if tracer.Enabled() {
zlog.Debug("write int64", zap.Int64("val", i))
}
return e.writeUint64(uint64(i))
}
func (e *Encoder) writeUint64(i uint64) (err error) {
if tracer.Enabled() {
zlog.Debug("write uint64", zap.Uint64("val", i))
}
buf := make([]byte, TypeSize.Uint64)
binary.LittleEndian.PutUint64(buf, i)
return e.toWriter(buf)
}
func (e *Encoder) writeUint128(i Uint128) (err error) {
if tracer.Enabled() {
zlog.Debug("write uint128", zap.Stringer("hex", i), zap.Uint64("lo", i.Lo), zap.Uint64("hi", i.Hi))
}
buf := make([]byte, TypeSize.Uint128)
binary.LittleEndian.PutUint64(buf, i.Lo)
binary.LittleEndian.PutUint64(buf[TypeSize.Uint64:], i.Hi)
return e.toWriter(buf)
}
func (e *Encoder) writeFloat32(f float32) (err error) {
if tracer.Enabled() {
zlog.Debug("write float32", zap.Float32("val", f))
}
i := math.Float32bits(f)
buf := make([]byte, TypeSize.Uint32)
binary.LittleEndian.PutUint32(buf, i)
return e.toWriter(buf)
}
func (e *Encoder) writeFloat64(f float64) (err error) {
if tracer.Enabled() {
zlog.Debug("write float64", zap.Float64("val", f))
}
i := math.Float64bits(f)
buf := make([]byte, TypeSize.Uint64)
binary.LittleEndian.PutUint64(buf, i)
return e.toWriter(buf)
}
func (e *Encoder) writeString(s string) (err error) {
if tracer.Enabled() {
zlog.Debug("write string", zap.String("val", s))
}
return e.writeByteArray([]byte(s))
}
func (e *Encoder) writeChecksum160(checksum Checksum160) error {
if tracer.Enabled() {
zlog.Debug("write Checksum160", zap.Stringer("hex", HexBytes(checksum)))
}
if len(checksum) == 0 {
return e.toWriter(bytes.Repeat([]byte{0}, TypeSize.Checksum160))
}
return e.toWriter(checksum)
}
func (e *Encoder) writeChecksum256(checksum Checksum256) error {
if tracer.Enabled() {
zlog.Debug("write Checksum256", zap.Stringer("hex", HexBytes(checksum)))
}
if len(checksum) == 0 {
return e.toWriter(bytes.Repeat([]byte{0}, TypeSize.Checksum256))
}
return e.toWriter(checksum)
}
func (e *Encoder) writeChecksum512(checksum Checksum512) error {
if tracer.Enabled() {
zlog.Debug("write Checksum512", zap.Stringer("hex", HexBytes(checksum)))
}
if len(checksum) == 0 {
return e.toWriter(bytes.Repeat([]byte{0}, TypeSize.Checksum512))
}
return e.toWriter(checksum)
}
func (e *Encoder) writePublicKey(pk ecc.PublicKey) (err error) {
if tracer.Enabled() {
zlog.Debug("write public key", zap.Stringer("pubkey", pk))
}
err = pk.Validate()
if err != nil {
return fmt.Errorf("invalid public key: %w", err)
}
if err = e.writeByte(byte(pk.Curve)); err != nil {
return err
}
return e.toWriter(pk.Content)
}
func (e *Encoder) writeSignature(s ecc.Signature) (err error) {
if tracer.Enabled() {
zlog.Debug("write signature", zap.Stringer("sig", s))
}
err = s.Validate()
if err != nil {
return fmt.Errorf("invalid signature: %w", err)
}
if err = e.writeByte(byte(s.Curve)); err != nil {
return
}
return e.toWriter(s.Content)
}
func (e *Encoder) writeTstamp(t Tstamp) (err error) {
if tracer.Enabled() {
zlog.Debug("write tstamp", zap.Time("time", t.Time))
}
n := uint64(t.UnixNano())
return e.writeUint64(n)
}
func (e *Encoder) writeBlockTimestamp(bt BlockTimestamp) (err error) {
if tracer.Enabled() {
zlog.Debug("write block timestamp", zap.Time("time", bt.Time))
}
milliseconds := bt.UnixNano() / time.Millisecond.Nanoseconds()
slot := (milliseconds - 946684800000) / 500
return e.writeUint32(uint32(slot))
}
func (e *Encoder) writeCurrencyName(currency CurrencyName) (err error) {
// FIXME: this isn't really used.. we should implement serialization for the Symbol
// type only instead.
if tracer.Enabled() {
zlog.Debug("write currency", zap.String("name", string(currency)))
}
out := make([]byte, 7, 7)
copy(out, []byte(currency))
return e.toWriter(out)
}
func (e *Encoder) writeAsset(asset Asset) (err error) {
if tracer.Enabled() {
zlog.Debug("write asset", zap.Stringer("value", asset))
}
e.writeUint64(uint64(asset.Amount))
e.writeByte(asset.Precision)
symbol := make([]byte, 7, 7)
copy(symbol[:], []byte(asset.Symbol.Symbol))
return e.toWriter(symbol)
}
func (e *Encoder) writeJSONTime(tm JSONTime) (err error) {
if tracer.Enabled() {
zlog.Debug("write json time", zap.Time("time", tm.Time))
}
return e.writeUint32(uint32(tm.Unix()))
}
func (e *Encoder) writeBlockP2PMessageEnvelope(envelope Packet) (err error) {
if tracer.Enabled() {
zlog.Debug("p2p: write message envelope")
}
if envelope.P2PMessage != nil {
buf := new(bytes.Buffer)
subEncoder := NewEncoder(buf)
err = subEncoder.Encode(envelope.P2PMessage)
if err != nil {
err = fmt.Errorf("p2p message, %s", err)
return
}
envelope.Payload = buf.Bytes()
}
messageLen := uint32(len(envelope.Payload) + 1)
if tracer.Enabled() {
zlog.Debug("p2p: message length", zap.Uint32("len", messageLen))
}
err = e.writeUint32(messageLen)
if err == nil {
err = e.writeByte(byte(envelope.Type))
if err == nil {
return e.toWriter(envelope.Payload)
}
}
return
}
func (e *Encoder) writeActionData(actionData ActionData) (err error) {
if actionData.Data != nil {
//if reflect.TypeOf(actionData.Data) == reflect.TypeOf(&ActionData{}) {
// log.Fatal("pas cool")
//}
if tracer.Enabled() {
zlog.Debug("entering action data", typeField("type", actionData))
}
var d interface{}
d = actionData.Data
if reflect.TypeOf(d).Kind() == reflect.Ptr {
d = reflect.ValueOf(actionData.Data).Elem().Interface()
}
if reflect.TypeOf(d).Kind() == reflect.String { //todo : this is a very bad ack ......
data, err := hex.DecodeString(d.(string))
if err != nil {
return fmt.Errorf("ack, %s", err)
}
e.writeByteArray(data)
return nil
}
if tracer.Enabled() {
zlog.Debug("encoding action data", typeField("type", d))
}
raw, err := MarshalBinary(d)
if err != nil {
return err
}
if tracer.Enabled() {
zlog.Debug("writing action data", typeField("type", d))
}
return e.writeByteArray(raw)
}
return e.writeByteArray(actionData.HexData)
}
// lt evaluates the comparison a < b.
//
// Copied from text/template in Golang 1.19.2
func lt(valueKind kind, arg1, arg2 reflect.Value) (bool, error) {
arg1 = indirectInterface(arg1)
arg2 = indirectInterface(arg2)
truth := false
switch valueKind {
case floatKind:
truth = arg1.Float() < arg2.Float()
case intKind:
truth = arg1.Int() < arg2.Int()
case stringKind:
truth = arg1.String() < arg2.String()
case uintKind:
truth = arg1.Uint() < arg2.Uint()
default:
panic("invalid kind")
}
return truth, nil
}
// indirectInterface returns the concrete value in an interface value,
// or else the zero reflect.Value.
// That is, if v represents the interface value x, the result is the same as reflect.ValueOf(x):
// the fact that x was an interface value is forgotten.
func indirectInterface(v reflect.Value) reflect.Value {
if v.Kind() != reflect.Interface {
return v
}
if v.IsNil() {
return reflect.Value{}
}
return v.Elem()
}
type kind int
const (
invalidKind kind = iota
boolKind
complexKind
intKind
floatKind
stringKind
uintKind
)
func basicKindFromReflect(v reflect.Kind) (kind, error) {
switch v {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return intKind, nil
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr:
return uintKind, nil
case reflect.Float32, reflect.Float64:
return floatKind, nil
case reflect.String:
return stringKind, nil
}
return invalidKind, fmt.Errorf("invalid type %s for comparison", v)
}
func basicKind(v reflect.Value) (kind, error) {
return basicKindFromReflect(v.Kind())
}