9 "github.com/vapor/encoding/blockchain"
10 "github.com/vapor/errors"
11 "github.com/vapor/protocol/bc/types/bytom"
14 const serRequired = 0x7 // Bit mask accepted serialization flag.
16 // Tx holds a transaction along with its hash.
22 // NewTx returns a new Tx containing data and its hash. If you have already
23 // computed the hash, use struct literal notation to make a Tx object directly.
24 func NewTx(data TxData) *Tx {
31 // OutputID return the hash of the output position
32 func (tx *Tx) OutputID(outputIndex int) *bytom.Hash {
33 return tx.ResultIds[outputIndex]
36 // UnmarshalText fulfills the encoding.TextUnmarshaler interface.
37 func (tx *Tx) UnmarshalText(p []byte) error {
38 if err := tx.TxData.UnmarshalText(p); err != nil {
42 tx.Tx = MapTx(&tx.TxData)
46 // SetInputArguments sets the Arguments field in input n.
47 func (tx *Tx) SetInputArguments(n uint32, args [][]byte) {
48 tx.Inputs[n].SetArguments(args)
49 id := tx.Tx.InputIDs[n]
51 switch e := e.(type) {
53 e.WitnessArguments = args
55 e.WitnessArguments = args
59 // TxData encodes a transaction in the blockchain.
68 // MarshalText fulfills the json.Marshaler interface.
69 func (tx *TxData) MarshalText() ([]byte, error) {
71 if _, err := tx.WriteTo(&buf); err != nil {
75 b := make([]byte, hex.EncodedLen(buf.Len()))
76 hex.Encode(b, buf.Bytes())
80 // UnmarshalText fulfills the encoding.TextUnmarshaler interface.
81 func (tx *TxData) UnmarshalText(p []byte) error {
82 b := make([]byte, hex.DecodedLen(len(p)))
83 if _, err := hex.Decode(b, p); err != nil {
87 r := blockchain.NewReader(b)
88 if err := tx.readFrom(r); err != nil {
92 if trailing := r.Len(); trailing > 0 {
93 return fmt.Errorf("trailing garbage (%d bytes)", trailing)
98 func (tx *TxData) readFrom(r *blockchain.Reader) (err error) {
99 startSerializedSize := r.Len()
101 if _, err = io.ReadFull(r, serflags[:]); err != nil {
102 return errors.Wrap(err, "reading serialization flags")
104 if serflags[0] != serRequired {
105 return fmt.Errorf("unsupported serflags %#x", serflags[0])
108 if tx.Version, err = blockchain.ReadVarint63(r); err != nil {
109 return errors.Wrap(err, "reading transaction version")
111 if tx.TimeRange, err = blockchain.ReadVarint63(r); err != nil {
115 n, err := blockchain.ReadVarint31(r)
117 return errors.Wrap(err, "reading number of transaction inputs")
122 if err = ti.readFrom(r); err != nil {
123 return errors.Wrapf(err, "reading input %d", len(tx.Inputs))
125 tx.Inputs = append(tx.Inputs, ti)
128 n, err = blockchain.ReadVarint31(r)
130 return errors.Wrap(err, "reading number of transaction outputs")
135 if err = to.readFrom(r); err != nil {
136 return errors.Wrapf(err, "reading output %d", len(tx.Outputs))
138 tx.Outputs = append(tx.Outputs, to)
140 tx.SerializedSize = uint64(startSerializedSize - r.Len())
144 // WriteTo writes tx to w.
145 func (tx *TxData) WriteTo(w io.Writer) (int64, error) {
146 ew := errors.NewWriter(w)
147 if err := tx.writeTo(ew, serRequired); err != nil {
150 return ew.Written(), ew.Err()
153 func (tx *TxData) writeTo(w io.Writer, serflags byte) error {
154 if _, err := w.Write([]byte{serflags}); err != nil {
155 return errors.Wrap(err, "writing serialization flags")
157 if _, err := blockchain.WriteVarint63(w, tx.Version); err != nil {
158 return errors.Wrap(err, "writing transaction version")
160 if _, err := blockchain.WriteVarint63(w, tx.TimeRange); err != nil {
161 return errors.Wrap(err, "writing transaction maxtime")
164 if _, err := blockchain.WriteVarint31(w, uint64(len(tx.Inputs))); err != nil {
165 return errors.Wrap(err, "writing tx input count")
168 for i, ti := range tx.Inputs {
169 if err := ti.writeTo(w); err != nil {
170 return errors.Wrapf(err, "writing tx input %d", i)
174 if _, err := blockchain.WriteVarint31(w, uint64(len(tx.Outputs))); err != nil {
175 return errors.Wrap(err, "writing tx output count")
178 for i, to := range tx.Outputs {
179 if err := to.writeTo(w); err != nil {
180 return errors.Wrapf(err, "writing tx output %d", i)