c1d845aa0d
Removes duplicate sweep tx code from commit resolver and delegates generation to UtxoSweeper in the sweep package.
226 lines
6.8 KiB
Go
226 lines
6.8 KiB
Go
package sweep
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import (
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"github.com/btcsuite/btcd/blockchain"
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"github.com/btcsuite/btcd/txscript"
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"github.com/btcsuite/btcd/wire"
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"github.com/btcsuite/btcutil"
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"github.com/lightningnetwork/lnd/lnwallet"
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)
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// UtxoSweeper provides the functionality to generate sweep txes. The plan is to
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// extend UtxoSweeper in the future to also manage the actual sweeping process
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// by itself.
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type UtxoSweeper struct {
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cfg *UtxoSweeperConfig
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}
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// UtxoSweeperConfig contains dependencies of UtxoSweeper.
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type UtxoSweeperConfig struct {
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// GenSweepScript generates a P2WKH script belonging to the wallet where
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// funds can be swept.
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GenSweepScript func() ([]byte, error)
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// Estimator is used when crafting sweep transactions to estimate the
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// necessary fee relative to the expected size of the sweep transaction.
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Estimator lnwallet.FeeEstimator
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// Signer is used by the sweeper to generate valid witnesses at the
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// time the incubated outputs need to be spent.
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Signer lnwallet.Signer
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// ConfTarget specifies a target for the number of blocks until an
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// initial confirmation.
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ConfTarget uint32
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}
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// New returns a new UtxoSweeper instance.
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func New(cfg *UtxoSweeperConfig) *UtxoSweeper {
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return &UtxoSweeper{
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cfg: cfg,
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}
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}
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// CreateSweepTx accepts a list of outputs and signs and generates a txn that
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// spends from them. This method also makes an accurate fee estimate before
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// generating the required witnesses.
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//
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// The value of currentBlockHeight argument will be set as the tx locktime. This
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// function assumes that all CLTV inputs will be unlocked after
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// currentBlockHeight. Reasons not to use the maximum of all actual CLTV expiry
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// values of the inputs:
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//
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// - Make handling re-orgs easier.
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// - Thwart future possible fee sniping attempts.
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// - Make us blend in with the bitcoind wallet.
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func (s *UtxoSweeper) CreateSweepTx(inputs []Input,
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currentBlockHeight uint32) (*wire.MsgTx, error) {
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// Create a transaction which sweeps all the newly mature outputs into
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// an output controlled by the wallet.
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// TODO(roasbeef): can be more intelligent about buffering outputs to
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// be more efficient on-chain.
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var weightEstimate lnwallet.TxWeightEstimator
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// Our sweep transaction will pay to a single segwit p2wkh address,
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// ensure it contributes to our weight estimate.
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weightEstimate.AddP2WKHOutput()
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// For each output, use its witness type to determine the estimate
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// weight of its witness, and add it to the proper set of spendable
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// outputs.
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csvCount := 0
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cltvCount := 0
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unknownCount := 0
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for i := range inputs {
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input := inputs[i]
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switch input.WitnessType() {
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// Outputs on a remote commitment transaction that pay directly
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// to us.
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case lnwallet.CommitmentNoDelay:
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weightEstimate.AddP2WKHInput()
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// Outputs on a past commitment transaction that pay directly
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// to us.
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case lnwallet.CommitmentTimeLock:
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weightEstimate.AddWitnessInput(
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lnwallet.ToLocalTimeoutWitnessSize,
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)
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csvCount++
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// Outgoing second layer HTLC's that have confirmed within the
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// chain, and the output they produced is now mature enough to
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// sweep.
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case lnwallet.HtlcOfferedTimeoutSecondLevel:
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weightEstimate.AddWitnessInput(
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lnwallet.ToLocalTimeoutWitnessSize,
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)
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csvCount++
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// Incoming second layer HTLC's that have confirmed within the
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// chain, and the output they produced is now mature enough to
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// sweep.
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case lnwallet.HtlcAcceptedSuccessSecondLevel:
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weightEstimate.AddWitnessInput(
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lnwallet.ToLocalTimeoutWitnessSize,
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)
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csvCount++
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// An HTLC on the commitment transaction of the remote party,
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// that has had its absolute timelock expire.
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case lnwallet.HtlcOfferedRemoteTimeout:
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weightEstimate.AddWitnessInput(
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lnwallet.AcceptedHtlcTimeoutWitnessSize,
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)
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cltvCount++
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default:
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unknownCount++
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log.Warnf("kindergarten output in nursery store "+
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"contains unexpected witness type: %v",
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input.WitnessType())
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continue
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}
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}
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log.Infof("Creating sweep transaction for %v inputs (%v CSV, %v CLTV)",
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len(inputs)-unknownCount, csvCount, cltvCount)
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txWeight := int64(weightEstimate.Weight())
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return s.populateSweepTx(txWeight, currentBlockHeight, inputs)
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}
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// populateSweepTx populate the final sweeping transaction with all witnesses
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// in place for all inputs using the provided txn fee. The created transaction
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// has a single output sending all the funds back to the source wallet, after
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// accounting for the fee estimate.
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func (s *UtxoSweeper) populateSweepTx(txWeight int64, currentBlockHeight uint32,
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inputs []Input) (*wire.MsgTx, error) {
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// Generate the receiving script to which the funds will be swept.
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pkScript, err := s.cfg.GenSweepScript()
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if err != nil {
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return nil, err
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}
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// Sum up the total value contained in the inputs.
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var totalSum btcutil.Amount
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for _, o := range inputs {
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totalSum += btcutil.Amount(o.SignDesc().Output.Value)
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}
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// Using the txn weight estimate, compute the required txn fee.
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feePerKw, err := s.cfg.Estimator.EstimateFeePerKW(s.cfg.ConfTarget)
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if err != nil {
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return nil, err
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}
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log.Debugf("Using %v sat/kw for sweep tx", int64(feePerKw))
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txFee := feePerKw.FeeForWeight(txWeight)
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// Sweep as much possible, after subtracting txn fees.
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sweepAmt := int64(totalSum - txFee)
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// Create the sweep transaction that we will be building. We use
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// version 2 as it is required for CSV. The txn will sweep the amount
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// after fees to the pkscript generated above.
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sweepTx := wire.NewMsgTx(2)
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sweepTx.AddTxOut(&wire.TxOut{
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PkScript: pkScript,
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Value: sweepAmt,
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})
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sweepTx.LockTime = currentBlockHeight
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// Add all inputs to the sweep transaction. Ensure that for each
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// csvInput, we set the sequence number properly.
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for _, input := range inputs {
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sweepTx.AddTxIn(&wire.TxIn{
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PreviousOutPoint: *input.OutPoint(),
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Sequence: input.BlocksToMaturity(),
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})
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}
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// Before signing the transaction, check to ensure that it meets some
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// basic validity requirements.
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// TODO(conner): add more control to sanity checks, allowing us to delay
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// spending "problem" outputs, e.g. possibly batching with other classes
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// if fees are too low.
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btx := btcutil.NewTx(sweepTx)
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if err := blockchain.CheckTransactionSanity(btx); err != nil {
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return nil, err
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}
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hashCache := txscript.NewTxSigHashes(sweepTx)
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// With all the inputs in place, use each output's unique witness
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// function to generate the final witness required for spending.
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addWitness := func(idx int, tso Input) error {
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witness, err := tso.BuildWitness(
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s.cfg.Signer, sweepTx, hashCache, idx,
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)
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if err != nil {
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return err
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}
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sweepTx.TxIn[idx].Witness = witness
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return nil
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}
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// Finally we'll attach a valid witness to each csv and cltv input
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// within the sweeping transaction.
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for i, input := range inputs {
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if err := addWitness(i, input); err != nil {
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return nil, err
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}
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}
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return sweepTx, nil
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}
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