mirror of
https://github.com/nspcc-dev/neo-go.git
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423 lines
12 KiB
Go
423 lines
12 KiB
Go
package transaction
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import (
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"encoding/json"
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"errors"
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"fmt"
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"math"
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"math/rand"
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"github.com/nspcc-dev/neo-go/pkg/config/netmode"
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"github.com/nspcc-dev/neo-go/pkg/crypto/hash"
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"github.com/nspcc-dev/neo-go/pkg/encoding/address"
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"github.com/nspcc-dev/neo-go/pkg/encoding/fixedn"
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"github.com/nspcc-dev/neo-go/pkg/io"
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"github.com/nspcc-dev/neo-go/pkg/util"
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)
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const (
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// MaxScriptLength is the limit for transaction's script length.
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MaxScriptLength = math.MaxUint16
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// MaxTransactionSize is the upper limit size in bytes that a transaction can reach. It is
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// set to be 102400.
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MaxTransactionSize = 102400
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// MaxValidUntilBlockIncrement is the upper increment size of blockhain height in blocks
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// exceeding that a transaction should fail validation. It is set to estimated daily number
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// of blocks with 15s interval.
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MaxValidUntilBlockIncrement = 5760
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// MaxAttributes is maximum number of attributes including signers that can be contained
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// within a transaction. It is set to be 16.
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MaxAttributes = 16
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// DummyVersion represents reserved transaction version for trimmed transactions.
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DummyVersion = 255
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)
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// Transaction is a process recorded in the NEO blockchain.
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type Transaction struct {
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// The trading version which is currently 0.
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Version uint8
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// Random number to avoid hash collision.
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Nonce uint32
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// Fee to be burned.
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SystemFee int64
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// Fee to be distributed to consensus nodes.
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NetworkFee int64
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// Maximum blockchain height exceeding which
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// transaction should fail verification.
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ValidUntilBlock uint32
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// Code to run in NeoVM for this transaction.
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Script []byte
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// Transaction attributes.
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Attributes []Attribute
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// Transaction signers list (starts with Sender).
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Signers []Signer
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// The scripts that comes with this transaction.
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// Scripts exist out of the verification script
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// and invocation script.
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Scripts []Witness
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// Network magic number. This one actually is not a part of the
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// wire-representation of Transaction, but it's absolutely necessary
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// for correct signing/verification.
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Network netmode.Magic
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// size is transaction's serialized size.
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size int
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// Hash of the transaction (double SHA256).
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hash util.Uint256
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// Hash of the transaction used to verify it (single SHA256).
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verificationHash util.Uint256
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// Trimmed indicates this is a transaction from trimmed
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// data.
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Trimmed bool
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}
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// NewTrimmedTX returns a trimmed transaction with only its hash
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// and Trimmed to true.
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func NewTrimmedTX(hash util.Uint256) *Transaction {
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return &Transaction{
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hash: hash,
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Trimmed: true,
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}
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}
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// New returns a new transaction to execute given script and pay given system
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// fee.
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func New(network netmode.Magic, script []byte, gas int64) *Transaction {
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return &Transaction{
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Version: 0,
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Nonce: rand.Uint32(),
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Script: script,
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SystemFee: gas,
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Attributes: []Attribute{},
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Signers: []Signer{},
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Scripts: []Witness{},
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Network: network,
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}
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}
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// Hash returns the hash of the transaction.
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func (t *Transaction) Hash() util.Uint256 {
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if t.hash.Equals(util.Uint256{}) {
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if t.createHash() != nil {
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panic("failed to compute hash!")
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}
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}
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return t.hash
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}
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// GetSignedHash returns a hash of the transaction used to verify it.
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func (t *Transaction) GetSignedHash() util.Uint256 {
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if t.verificationHash.Equals(util.Uint256{}) {
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if t.createHash() != nil {
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panic("failed to compute hash!")
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}
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}
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return t.verificationHash
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}
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// HasAttribute returns true iff t has an attribute of type typ.
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func (t *Transaction) HasAttribute(typ AttrType) bool {
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for i := range t.Attributes {
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if t.Attributes[i].Type == typ {
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return true
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}
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}
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return false
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}
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// GetAttributes returns the list of transaction's attributes of the given type.
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// Returns nil in case if attributes not found.
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func (t *Transaction) GetAttributes(typ AttrType) []Attribute {
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var result []Attribute
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for _, attr := range t.Attributes {
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if attr.Type == typ {
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result = append(result, attr)
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}
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}
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return result
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}
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// decodeHashableFields decodes the fields that are used for signing the
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// transaction, which are all fields except the scripts.
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func (t *Transaction) decodeHashableFields(br *io.BinReader) {
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t.Version = uint8(br.ReadB())
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t.Nonce = br.ReadU32LE()
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t.SystemFee = int64(br.ReadU64LE())
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t.NetworkFee = int64(br.ReadU64LE())
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t.ValidUntilBlock = br.ReadU32LE()
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br.ReadArray(&t.Signers, MaxAttributes)
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br.ReadArray(&t.Attributes, MaxAttributes-len(t.Signers))
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t.Script = br.ReadVarBytes(MaxScriptLength)
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if br.Err == nil {
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br.Err = t.isValid()
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}
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}
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// DecodeBinary implements Serializable interface.
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func (t *Transaction) DecodeBinary(br *io.BinReader) {
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t.decodeHashableFields(br)
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if br.Err != nil {
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return
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}
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br.ReadArray(&t.Scripts)
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// Create the hash of the transaction at decode, so we dont need
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// to do it anymore.
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if br.Err == nil {
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br.Err = t.createHash()
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_ = t.Size()
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}
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}
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// EncodeBinary implements Serializable interface.
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func (t *Transaction) EncodeBinary(bw *io.BinWriter) {
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t.encodeHashableFields(bw)
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bw.WriteArray(t.Scripts)
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}
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// encodeHashableFields encodes the fields that are not used for
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// signing the transaction, which are all fields except the scripts.
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func (t *Transaction) encodeHashableFields(bw *io.BinWriter) {
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if len(t.Script) == 0 {
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bw.Err = errors.New("transaction has no script")
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return
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}
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bw.WriteB(byte(t.Version))
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bw.WriteU32LE(t.Nonce)
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bw.WriteU64LE(uint64(t.SystemFee))
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bw.WriteU64LE(uint64(t.NetworkFee))
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bw.WriteU32LE(t.ValidUntilBlock)
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bw.WriteArray(t.Signers)
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bw.WriteArray(t.Attributes)
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bw.WriteVarBytes(t.Script)
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}
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// createHash creates the hash of the transaction.
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func (t *Transaction) createHash() error {
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b := t.GetSignedPart()
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if b == nil {
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return errors.New("failed to serialize hashable data")
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}
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t.updateHashes(b)
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return nil
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}
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// updateHashes updates Transaction's hashes based on the given buffer which should
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// be a signable data slice.
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func (t *Transaction) updateHashes(b []byte) {
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t.verificationHash = hash.Sha256(b)
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t.hash = hash.Sha256(t.verificationHash.BytesBE())
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}
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// GetSignedPart returns a part of the transaction which must be signed.
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func (t *Transaction) GetSignedPart() []byte {
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buf := io.NewBufBinWriter()
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buf.WriteU32LE(uint32(t.Network))
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t.encodeHashableFields(buf.BinWriter)
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if buf.Err != nil {
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return nil
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}
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return buf.Bytes()
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}
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// DecodeSignedPart decodes a part of transaction from GetSignedPart data.
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func (t *Transaction) DecodeSignedPart(buf []byte) error {
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r := io.NewBinReaderFromBuf(buf)
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t.Network = netmode.Magic(r.ReadU32LE())
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t.decodeHashableFields(r)
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if r.Err != nil {
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return r.Err
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}
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// Ensure all the data was read.
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_ = r.ReadB()
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if r.Err == nil {
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return errors.New("additional data after the signed part")
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}
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t.Scripts = make([]Witness, 0)
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t.updateHashes(buf)
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return nil
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}
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// Bytes converts the transaction to []byte
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func (t *Transaction) Bytes() []byte {
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buf := io.NewBufBinWriter()
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t.EncodeBinary(buf.BinWriter)
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if buf.Err != nil {
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return nil
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}
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return buf.Bytes()
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}
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// NewTransactionFromBytes decodes byte array into *Transaction
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func NewTransactionFromBytes(network netmode.Magic, b []byte) (*Transaction, error) {
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tx := &Transaction{Network: network}
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r := io.NewBinReaderFromBuf(b)
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tx.DecodeBinary(r)
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if r.Err != nil {
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return nil, r.Err
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}
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_ = r.ReadB()
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if r.Err == nil {
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return nil, errors.New("additional data after the transaction")
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}
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tx.size = len(b)
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return tx, nil
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}
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// FeePerByte returns NetworkFee of the transaction divided by
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// its size
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func (t *Transaction) FeePerByte() int64 {
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return t.NetworkFee / int64(t.Size())
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}
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// Size returns size of the serialized transaction.
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func (t *Transaction) Size() int {
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if t.size == 0 {
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t.size = io.GetVarSize(t)
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}
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return t.size
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}
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// Sender returns the sender of the transaction which is always on the first place
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// in the transaction's signers list.
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func (t *Transaction) Sender() util.Uint160 {
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if len(t.Signers) == 0 {
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panic("transaction does not have signers")
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}
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return t.Signers[0].Account
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}
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// transactionJSON is a wrapper for Transaction and
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// used for correct marhalling of transaction.Data
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type transactionJSON struct {
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TxID util.Uint256 `json:"hash"`
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Size int `json:"size"`
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Version uint8 `json:"version"`
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Nonce uint32 `json:"nonce"`
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Sender string `json:"sender"`
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SystemFee fixedn.Fixed8 `json:"sysfee,string"`
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NetworkFee fixedn.Fixed8 `json:"netfee,string"`
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ValidUntilBlock uint32 `json:"validuntilblock"`
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Attributes []Attribute `json:"attributes"`
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Signers []Signer `json:"signers"`
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Script []byte `json:"script"`
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Scripts []Witness `json:"witnesses"`
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}
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// MarshalJSON implements json.Marshaler interface.
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func (t *Transaction) MarshalJSON() ([]byte, error) {
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tx := transactionJSON{
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TxID: t.Hash(),
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Size: t.Size(),
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Version: t.Version,
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Nonce: t.Nonce,
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Sender: address.Uint160ToString(t.Sender()),
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ValidUntilBlock: t.ValidUntilBlock,
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Attributes: t.Attributes,
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Signers: t.Signers,
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Script: t.Script,
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Scripts: t.Scripts,
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SystemFee: fixedn.Fixed8(t.SystemFee),
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NetworkFee: fixedn.Fixed8(t.NetworkFee),
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}
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return json.Marshal(tx)
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}
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// UnmarshalJSON implements json.Unmarshaler interface.
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func (t *Transaction) UnmarshalJSON(data []byte) error {
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tx := new(transactionJSON)
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if err := json.Unmarshal(data, tx); err != nil {
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return err
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}
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t.Version = tx.Version
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t.Nonce = tx.Nonce
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t.ValidUntilBlock = tx.ValidUntilBlock
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t.Attributes = tx.Attributes
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t.Signers = tx.Signers
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t.Scripts = tx.Scripts
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t.SystemFee = int64(tx.SystemFee)
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t.NetworkFee = int64(tx.NetworkFee)
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t.Script = tx.Script
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if t.Hash() != tx.TxID {
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return errors.New("txid doesn't match transaction hash")
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}
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if t.Size() != tx.Size {
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return errors.New("'size' doesn't match transaction size")
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}
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return t.isValid()
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}
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// Various errors for transaction validation.
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var (
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ErrInvalidVersion = errors.New("only version 0 is supported")
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ErrNegativeSystemFee = errors.New("negative system fee")
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ErrNegativeNetworkFee = errors.New("negative network fee")
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ErrTooBigFees = errors.New("too big fees: int64 overflow")
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ErrEmptySigners = errors.New("signers array should contain sender")
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ErrNonUniqueSigners = errors.New("transaction signers should be unique")
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ErrInvalidAttribute = errors.New("invalid attribute")
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ErrEmptyScript = errors.New("no script")
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)
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// isValid checks whether decoded/unmarshalled transaction has all fields valid.
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func (t *Transaction) isValid() error {
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if t.Version > 0 && t.Version != DummyVersion {
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return ErrInvalidVersion
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}
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if t.SystemFee < 0 {
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return ErrNegativeSystemFee
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}
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if t.NetworkFee < 0 {
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return ErrNegativeNetworkFee
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}
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if t.NetworkFee+t.SystemFee < t.SystemFee {
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return ErrTooBigFees
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}
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if len(t.Signers) == 0 {
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return ErrEmptySigners
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}
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for i := 0; i < len(t.Signers); i++ {
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for j := i + 1; j < len(t.Signers); j++ {
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if t.Signers[i].Account.Equals(t.Signers[j].Account) {
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return ErrNonUniqueSigners
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}
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}
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}
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attrs := map[AttrType]bool{}
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for i := range t.Attributes {
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typ := t.Attributes[i].Type
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if !typ.allowMultiple() {
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if attrs[typ] {
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return fmt.Errorf("%w: multiple '%s' attributes", ErrInvalidAttribute, typ.String())
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}
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attrs[typ] = true
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}
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}
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if len(t.Script) == 0 {
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return ErrEmptyScript
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}
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return nil
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}
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// HasSigner returns true in case if hash is present in the list of signers.
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func (t *Transaction) HasSigner(hash util.Uint160) bool {
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for _, h := range t.Signers {
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if h.Account.Equals(hash) {
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return true
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}
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}
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return false
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}
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