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package common
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import (
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"encoding/binary"
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"fmt"
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"math/big"
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ethCommon "github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/hermeznetwork/tracerr"
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"github.com/iden3/go-iden3-crypto/babyjub"
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)
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const (
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// L1UserTxBytesLen is the length of the byte array that represents the L1Tx
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L1UserTxBytesLen = 72
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// L1CoordinatorTxBytesLen is the length of the byte array that represents the L1CoordinatorTx
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L1CoordinatorTxBytesLen = 101
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)
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// L1Tx is a struct that represents a L1 tx
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type L1Tx struct {
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// Stored in DB: mandatory fileds
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// TxID (12 bytes) for L1Tx is:
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// bytes: | 1 | 8 | 2 | 1 |
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// values: | type | ToForgeL1TxsNum | Position | 0 (padding) |
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// where type:
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// - L1UserTx: 0
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// - L1CoordinatorTx: 1
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TxID TxID `meddler:"id"`
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ToForgeL1TxsNum *int64 `meddler:"to_forge_l1_txs_num"` // toForgeL1TxsNum in which the tx was forged / will be forged
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Position int `meddler:"position"`
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UserOrigin bool `meddler:"user_origin"` // true if the tx was originated by a user, false if it was aoriginated by a coordinator. Note that this differ from the spec for implementation simplification purpposes
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FromIdx Idx `meddler:"from_idx,zeroisnull"` // FromIdx is used by L1Tx/Deposit to indicate the Idx receiver of the L1Tx.LoadAmount (deposit)
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FromEthAddr ethCommon.Address `meddler:"from_eth_addr,zeroisnull"`
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FromBJJ *babyjub.PublicKey `meddler:"from_bjj,zeroisnull"`
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ToIdx Idx `meddler:"to_idx"` // ToIdx is ignored in L1Tx/Deposit, but used in the L1Tx/DepositAndTransfer
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TokenID TokenID `meddler:"token_id"`
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Amount *big.Int `meddler:"amount,bigint"`
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// EffectiveAmount only applies to L1UserTx.
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EffectiveAmount *big.Int `meddler:"effective_amount,bigintnull"`
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LoadAmount *big.Int `meddler:"load_amount,bigint"`
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// EffectiveLoadAmount only applies to L1UserTx.
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EffectiveLoadAmount *big.Int `meddler:"effective_load_amount,bigintnull"`
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EthBlockNum int64 `meddler:"eth_block_num"` // Ethereum Block Number in which this L1Tx was added to the queue
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Type TxType `meddler:"type"`
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BatchNum *BatchNum `meddler:"batch_num"`
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}
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// NewL1Tx returns the given L1Tx with the TxId & Type parameters calculated
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// from the L1Tx values
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func NewL1Tx(l1Tx *L1Tx) (*L1Tx, error) {
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// calculate TxType
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var txType TxType
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if l1Tx.FromIdx == 0 {
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if l1Tx.ToIdx == Idx(0) {
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txType = TxTypeCreateAccountDeposit
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} else if l1Tx.ToIdx >= IdxUserThreshold {
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txType = TxTypeCreateAccountDepositTransfer
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} else {
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return l1Tx, tracerr.Wrap(fmt.Errorf("Can not determine type of L1Tx, invalid ToIdx value: %d", l1Tx.ToIdx))
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}
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} else if l1Tx.FromIdx >= IdxUserThreshold {
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if l1Tx.ToIdx == Idx(0) {
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txType = TxTypeDeposit
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} else if l1Tx.ToIdx == Idx(1) {
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txType = TxTypeForceExit
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} else if l1Tx.ToIdx >= IdxUserThreshold {
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if l1Tx.LoadAmount.Int64() == int64(0) {
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txType = TxTypeForceTransfer
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} else {
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txType = TxTypeDepositTransfer
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}
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} else {
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return l1Tx, tracerr.Wrap(fmt.Errorf("Can not determine type of L1Tx, invalid ToIdx value: %d", l1Tx.ToIdx))
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}
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} else {
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return l1Tx, tracerr.Wrap(fmt.Errorf("Can not determine type of L1Tx, invalid FromIdx value: %d", l1Tx.FromIdx))
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}
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if l1Tx.Type != "" && l1Tx.Type != txType {
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return l1Tx, tracerr.Wrap(fmt.Errorf("L1Tx.Type: %s, should be: %s", l1Tx.Type, txType))
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}
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l1Tx.Type = txType
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txID, err := l1Tx.CalcTxID()
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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l1Tx.TxID = *txID
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return l1Tx, nil
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}
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// CalcTxID calculates the TxId of the L1Tx
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func (tx *L1Tx) CalcTxID() (*TxID, error) {
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var txID TxID
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if tx.UserOrigin {
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if tx.ToForgeL1TxsNum == nil {
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return nil, tracerr.Wrap(fmt.Errorf("L1Tx.UserOrigin == true && L1Tx.ToForgeL1TxsNum == nil"))
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}
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txID[0] = TxIDPrefixL1UserTx
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var toForgeL1TxsNumBytes [8]byte
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binary.BigEndian.PutUint64(toForgeL1TxsNumBytes[:], uint64(*tx.ToForgeL1TxsNum))
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copy(txID[1:9], toForgeL1TxsNumBytes[:])
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} else {
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if tx.BatchNum == nil {
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return nil, tracerr.Wrap(fmt.Errorf("L1Tx.UserOrigin == false && L1Tx.BatchNum == nil"))
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}
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txID[0] = TxIDPrefixL1CoordTx
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var batchNumBytes [8]byte
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binary.BigEndian.PutUint64(batchNumBytes[:], uint64(*tx.BatchNum))
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copy(txID[1:9], batchNumBytes[:])
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}
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var positionBytes [2]byte
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binary.BigEndian.PutUint16(positionBytes[:], uint16(tx.Position))
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copy(txID[9:11], positionBytes[:])
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return &txID, nil
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}
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// Tx returns a *Tx from the L1Tx
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func (tx L1Tx) Tx() Tx {
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f := new(big.Float).SetInt(tx.EffectiveAmount)
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amountFloat, _ := f.Float64()
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userOrigin := new(bool)
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*userOrigin = tx.UserOrigin
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genericTx := Tx{
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IsL1: true,
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TxID: tx.TxID,
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Type: tx.Type,
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Position: tx.Position,
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FromIdx: tx.FromIdx,
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ToIdx: tx.ToIdx,
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Amount: tx.EffectiveAmount,
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AmountFloat: amountFloat,
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TokenID: tx.TokenID,
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ToForgeL1TxsNum: tx.ToForgeL1TxsNum,
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UserOrigin: userOrigin,
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FromEthAddr: tx.FromEthAddr,
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FromBJJ: tx.FromBJJ,
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LoadAmount: tx.EffectiveLoadAmount,
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EthBlockNum: tx.EthBlockNum,
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}
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if tx.LoadAmount != nil {
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lf := new(big.Float).SetInt(tx.LoadAmount)
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loadAmountFloat, _ := lf.Float64()
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genericTx.LoadAmountFloat = &loadAmountFloat
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}
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return genericTx
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}
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// TxCompressedData spec:
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// [ 1 bits ] empty (toBJJSign) // 1 byte
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// [ 8 bits ] empty (userFee) // 1 byte
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// [ 40 bits ] empty (nonce) // 5 bytes
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// [ 32 bits ] tokenID // 4 bytes
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// [ 16 bits ] amountFloat16 // 2 bytes
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// [ 48 bits ] toIdx // 6 bytes
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// [ 48 bits ] fromIdx // 6 bytes
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// [ 16 bits ] chainId // 2 bytes
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// [ 32 bits ] empty (signatureConstant) // 4 bytes
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// Total bits compressed data: 241 bits // 31 bytes in *big.Int representation
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func (tx L1Tx) TxCompressedData() (*big.Int, error) {
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amountFloat16, err := NewFloat16(tx.Amount)
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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var b [31]byte
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// b[0:7] empty: no ToBJJSign, no fee, no nonce
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copy(b[7:11], tx.TokenID.Bytes())
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copy(b[11:13], amountFloat16.Bytes())
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toIdxBytes, err := tx.ToIdx.Bytes()
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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copy(b[13:19], toIdxBytes[:])
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fromIdxBytes, err := tx.FromIdx.Bytes()
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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copy(b[19:25], fromIdxBytes[:])
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copy(b[25:27], []byte{0, 0}) // TODO this will be generated by the ChainID config parameter
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copy(b[27:31], SignatureConstantBytes[:])
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bi := new(big.Int).SetBytes(b[:])
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return bi, nil
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}
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// BytesDataAvailability encodes a L1Tx into []byte for the Data Availability
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func (tx *L1Tx) BytesDataAvailability(nLevels uint32) ([]byte, error) {
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idxLen := nLevels / 8 //nolint:gomnd
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b := make([]byte, ((nLevels*2)+16+8)/8) //nolint:gomnd
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fromIdxBytes, err := tx.FromIdx.Bytes()
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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copy(b[0:idxLen], fromIdxBytes[6-idxLen:])
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toIdxBytes, err := tx.ToIdx.Bytes()
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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copy(b[idxLen:idxLen*2], toIdxBytes[6-idxLen:])
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if tx.EffectiveAmount != nil {
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amountFloat16, err := NewFloat16(tx.EffectiveAmount)
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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copy(b[idxLen*2:idxLen*2+2], amountFloat16.Bytes())
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}
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// fee = 0 (as is L1Tx) b[10:11]
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return b[:], nil
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}
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// BytesGeneric returns the generic representation of a L1Tx. This method is
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// used to compute the []byte representation of a L1UserTx, and also to compute
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// the L1TxData for the ZKInputs (at the HashGlobalInputs), using this method
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// for L1CoordinatorTxs & L1UserTxs (for the ZKInputs case).
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func (tx *L1Tx) BytesGeneric() ([]byte, error) {
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var b [L1UserTxBytesLen]byte
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copy(b[0:20], tx.FromEthAddr.Bytes())
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if tx.FromBJJ != nil {
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pkCompL := tx.FromBJJ.Compress()
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pkCompB := SwapEndianness(pkCompL[:])
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copy(b[20:52], pkCompB[:])
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}
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fromIdxBytes, err := tx.FromIdx.Bytes()
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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copy(b[52:58], fromIdxBytes[:])
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loadAmountFloat16, err := NewFloat16(tx.LoadAmount)
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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copy(b[58:60], loadAmountFloat16.Bytes())
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amountFloat16, err := NewFloat16(tx.Amount)
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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copy(b[60:62], amountFloat16.Bytes())
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copy(b[62:66], tx.TokenID.Bytes())
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toIdxBytes, err := tx.ToIdx.Bytes()
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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copy(b[66:72], toIdxBytes[:])
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return b[:], nil
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}
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// BytesUser encodes a L1UserTx into []byte
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func (tx *L1Tx) BytesUser() ([]byte, error) {
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if !tx.UserOrigin {
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return nil, tracerr.Wrap(fmt.Errorf("Can not calculate BytesUser() for a L1CoordinatorTx"))
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}
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return tx.BytesGeneric()
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}
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// BytesCoordinatorTx encodes a L1CoordinatorTx into []byte
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func (tx *L1Tx) BytesCoordinatorTx(compressedSignatureBytes []byte) ([]byte, error) {
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if tx.UserOrigin {
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return nil, tracerr.Wrap(fmt.Errorf("Can not calculate BytesCoordinatorTx() for a L1UserTx"))
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}
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var b [L1CoordinatorTxBytesLen]byte
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v := compressedSignatureBytes[64]
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s := compressedSignatureBytes[32:64]
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r := compressedSignatureBytes[0:32]
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b[0] = v
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copy(b[1:33], s)
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copy(b[33:65], r)
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pkCompL := tx.FromBJJ.Compress()
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pkCompB := SwapEndianness(pkCompL[:])
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copy(b[65:97], pkCompB[:])
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copy(b[97:101], tx.TokenID.Bytes())
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return b[:], nil
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}
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// L1UserTxFromBytes decodes a L1Tx from []byte
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func L1UserTxFromBytes(b []byte) (*L1Tx, error) {
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if len(b) != L1UserTxBytesLen {
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return nil, tracerr.Wrap(fmt.Errorf("Can not parse L1Tx bytes, expected length %d, current: %d", 68, len(b)))
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}
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tx := &L1Tx{
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UserOrigin: true,
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}
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var err error
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tx.FromEthAddr = ethCommon.BytesToAddress(b[0:20])
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pkCompB := b[20:52]
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pkCompL := SwapEndianness(pkCompB)
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var pkComp babyjub.PublicKeyComp
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copy(pkComp[:], pkCompL)
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tx.FromBJJ, err = pkComp.Decompress()
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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fromIdx, err := IdxFromBytes(b[52:58])
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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tx.FromIdx = fromIdx
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tx.LoadAmount = Float16FromBytes(b[58:60]).BigInt()
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tx.Amount = Float16FromBytes(b[60:62]).BigInt()
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tx.TokenID, err = TokenIDFromBytes(b[62:66])
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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tx.ToIdx, err = IdxFromBytes(b[66:72])
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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return tx, nil
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}
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func signHash(data []byte) []byte {
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msg := fmt.Sprintf("\x19Ethereum Signed Message:\n%d%s", len(data), data)
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return crypto.Keccak256([]byte(msg))
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}
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// L1CoordinatorTxFromBytes decodes a L1Tx from []byte
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func L1CoordinatorTxFromBytes(b []byte, chainID *big.Int, hermezAddress ethCommon.Address) (*L1Tx, error) {
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if len(b) != L1CoordinatorTxBytesLen {
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return nil, tracerr.Wrap(fmt.Errorf("Can not parse L1CoordinatorTx bytes, expected length %d, current: %d", 101, len(b)))
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}
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bytesMessage := []byte("I authorize this babyjubjub key for hermez rollup account creation")
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tx := &L1Tx{
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UserOrigin: false,
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}
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var err error
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v := b[0]
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s := b[1:33]
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r := b[33:65]
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pkCompB := b[65:97]
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pkCompL := SwapEndianness(pkCompB)
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var pkComp babyjub.PublicKeyComp
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copy(pkComp[:], pkCompL)
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tx.FromBJJ, err = pkComp.Decompress()
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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tx.TokenID, err = TokenIDFromBytes(b[97:101])
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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tx.Amount = big.NewInt(0)
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tx.LoadAmount = big.NewInt(0)
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if int(v) > 0 {
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// L1CoordinatorTX ETH
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// Ethereum adds 27 to v
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v = b[0] - byte(27) //nolint:gomnd
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chainIDBytes := ethCommon.LeftPadBytes(chainID.Bytes(), 2)
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var data []byte
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data = append(data, bytesMessage...)
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data = append(data, pkCompB...)
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data = append(data, chainIDBytes[:]...)
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data = append(data, hermezAddress.Bytes()...)
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var signature []byte
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signature = append(signature, r[:]...)
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signature = append(signature, s[:]...)
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signature = append(signature, v)
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hash := signHash(data)
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pubKeyBytes, err := crypto.Ecrecover(hash, signature)
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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pubKey, err := crypto.UnmarshalPubkey(pubKeyBytes)
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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tx.FromEthAddr = crypto.PubkeyToAddress(*pubKey)
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} else {
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// L1Coordinator Babyjub
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tx.FromEthAddr = RollupConstEthAddressInternalOnly
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}
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return tx, nil
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}
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