|
|
package common
import ( "fmt" "math/big"
ethCrypto "github.com/ethereum/go-ethereum/crypto" "github.com/hermeznetwork/tracerr" )
// L2Tx is a struct that represents an already forged L2 tx
type L2Tx struct { // Stored in DB: mandatory fileds
TxID TxID `meddler:"id"` BatchNum BatchNum `meddler:"batch_num"` // batchNum in which this tx was forged.
Position int `meddler:"position"` FromIdx Idx `meddler:"from_idx"` ToIdx Idx `meddler:"to_idx"` // TokenID is filled by the TxProcessor
TokenID TokenID `meddler:"token_id"` Amount *big.Int `meddler:"amount,bigint"` Fee FeeSelector `meddler:"fee"` // Nonce is filled by the TxProcessor
Nonce Nonce `meddler:"nonce"` Type TxType `meddler:"type"` EthBlockNum int64 `meddler:"eth_block_num"` // Ethereum Block Number in which this L2Tx was added to the queue
}
// NewL2Tx returns the given L2Tx with the TxId & Type parameters calculated
// from the L2Tx values
func NewL2Tx(tx *L2Tx) (*L2Tx, error) { txTypeOld := tx.Type if err := tx.SetType(); err != nil { return nil, tracerr.Wrap(err) } // If original Type doesn't match the correct one, return error
if txTypeOld != "" && txTypeOld != tx.Type { return nil, tracerr.Wrap(fmt.Errorf("L2Tx.Type: %s, should be: %s", tx.Type, txTypeOld)) }
txIDOld := tx.TxID if err := tx.SetID(); err != nil { return nil, tracerr.Wrap(err) } // If original TxID doesn't match the correct one, return error
if txIDOld != (TxID{}) && txIDOld != tx.TxID { return tx, tracerr.Wrap(fmt.Errorf("L2Tx.TxID: %s, should be: %s", tx.TxID.String(), txIDOld.String())) }
return tx, nil }
// SetType sets the type of the transaction. Uses (FromIdx, Nonce).
func (tx *L2Tx) SetType() error { if tx.ToIdx == Idx(1) { tx.Type = TxTypeExit } else if tx.ToIdx >= IdxUserThreshold { tx.Type = TxTypeTransfer } else { return tracerr.Wrap(fmt.Errorf( "cannot determine type of L2Tx, invalid ToIdx value: %d", tx.ToIdx)) } return nil }
// SetID sets the ID of the transaction
func (tx *L2Tx) SetID() error { txID, err := tx.CalculateTxID() if err != nil { return err } tx.TxID = txID return nil }
// CalculateTxID returns the TxID of the transaction. This method is used to
// set the TxID for L2Tx and for PoolL2Tx.
func (tx L2Tx) CalculateTxID() ([TxIDLen]byte, error) { var txID TxID var b []byte // FromIdx
fromIdxBytes, err := tx.FromIdx.Bytes() if err != nil { return txID, tracerr.Wrap(err) } b = append(b, fromIdxBytes[:]...) // TokenID
b = append(b, tx.TokenID.Bytes()[:]...) // Amount
amountFloat16, err := NewFloat16(tx.Amount) if err != nil { return txID, tracerr.Wrap(fmt.Errorf("%s: %d", err, tx.Amount)) } b = append(b, amountFloat16.Bytes()...) // Nonce
nonceBytes, err := tx.Nonce.Bytes() if err != nil { return txID, tracerr.Wrap(err) } b = append(b, nonceBytes[:]...) // Fee
b = append(b, byte(tx.Fee))
// calculate hash
h := ethCrypto.Keccak256Hash(b).Bytes()
txID[0] = TxIDPrefixL2Tx copy(txID[1:], h) return txID, nil }
// Tx returns a *Tx from the L2Tx
func (tx *L2Tx) Tx() *Tx { batchNum := new(BatchNum) *batchNum = tx.BatchNum fee := new(FeeSelector) *fee = tx.Fee nonce := new(Nonce) *nonce = tx.Nonce return &Tx{ IsL1: false, TxID: tx.TxID, Type: tx.Type, Position: tx.Position, FromIdx: tx.FromIdx, ToIdx: tx.ToIdx, TokenID: tx.TokenID, Amount: tx.Amount, BatchNum: batchNum, EthBlockNum: tx.EthBlockNum, Fee: fee, Nonce: nonce, } }
// PoolL2Tx returns the data structure of PoolL2Tx with the parameters of a
// L2Tx filled
func (tx L2Tx) PoolL2Tx() *PoolL2Tx { return &PoolL2Tx{ TxID: tx.TxID, FromIdx: tx.FromIdx, ToIdx: tx.ToIdx, TokenID: tx.TokenID, Amount: tx.Amount, Fee: tx.Fee, Nonce: tx.Nonce, Type: tx.Type, } }
// L2TxsToPoolL2Txs returns an array of []*PoolL2Tx from an array of []*L2Tx,
// where the PoolL2Tx only have the parameters of a L2Tx filled.
func L2TxsToPoolL2Txs(txs []L2Tx) []PoolL2Tx { var r []PoolL2Tx for _, tx := range txs { r = append(r, *tx.PoolL2Tx()) } return r }
// TxIDsFromL2Txs returns an array of TxID from the []L2Tx
func TxIDsFromL2Txs(txs []L2Tx) []TxID { txIDs := make([]TxID, len(txs)) for i, tx := range txs { txIDs[i] = tx.TxID } return txIDs }
// BytesDataAvailability encodes a L2Tx into []byte for the Data Availability
// [ fromIdx | toIdx | amountFloat16 | Fee ]
func (tx L2Tx) BytesDataAvailability(nLevels uint32) ([]byte, error) { idxLen := nLevels / 8 //nolint:gomnd
b := make([]byte, ((nLevels*2)+16+8)/8) //nolint:gomnd
fromIdxBytes, err := tx.FromIdx.Bytes() if err != nil { return nil, tracerr.Wrap(err) } copy(b[0:idxLen], fromIdxBytes[6-idxLen:]) // [6-idxLen:] as is BigEndian
toIdxBytes, err := tx.ToIdx.Bytes() if err != nil { return nil, tracerr.Wrap(err) } copy(b[idxLen:idxLen*2], toIdxBytes[6-idxLen:])
amountFloat16, err := NewFloat16(tx.Amount) if err != nil { return nil, tracerr.Wrap(err) }
copy(b[idxLen*2:idxLen*2+2], amountFloat16.Bytes()) b[idxLen*2+2] = byte(tx.Fee)
return b[:], nil }
// L2TxFromBytesDataAvailability decodes a L2Tx from []byte (Data Availability)
func L2TxFromBytesDataAvailability(b []byte, nLevels int) (*L2Tx, error) { idxLen := nLevels / 8 //nolint:gomnd
tx := &L2Tx{} var err error
var paddedFromIdxBytes [6]byte copy(paddedFromIdxBytes[6-idxLen:], b[0:idxLen]) tx.FromIdx, err = IdxFromBytes(paddedFromIdxBytes[:]) if err != nil { return nil, tracerr.Wrap(err) }
var paddedToIdxBytes [6]byte copy(paddedToIdxBytes[6-idxLen:6], b[idxLen:idxLen*2]) tx.ToIdx, err = IdxFromBytes(paddedToIdxBytes[:]) if err != nil { return nil, tracerr.Wrap(err) }
tx.Amount = Float16FromBytes(b[idxLen*2 : idxLen*2+2]).BigInt() tx.Fee = FeeSelector(b[idxLen*2+2]) return tx, nil }
|