8b398bdbd1
We already have all of the information required for the outputs from the ListUnspent method.
286 lines
9.6 KiB
Go
286 lines
9.6 KiB
Go
package sweep
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import (
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"fmt"
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"math"
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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/input"
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"github.com/lightningnetwork/lnd/lnwallet"
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)
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const (
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// defaultNumBlocksEstimate is the number of blocks that we fall back
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// to issuing an estimate for if a fee pre fence doesn't specify an
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// explicit conf target or fee rate.
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defaultNumBlocksEstimate = 6
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)
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// FeePreference allows callers to express their time value for inclusion of a
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// transaction into a block via either a confirmation target, or a fee rate.
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type FeePreference struct {
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// ConfTarget if non-zero, signals a fee preference expressed in the
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// number of desired blocks between first broadcast, and confirmation.
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ConfTarget uint32
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// FeeRate if non-zero, signals a fee pre fence expressed in the fee
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// rate expressed in sat/kw for a particular transaction.
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FeeRate lnwallet.SatPerKWeight
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}
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// String returns a human-readable string of the fee preference.
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func (p FeePreference) String() string {
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if p.ConfTarget != 0 {
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return fmt.Sprintf("%v blocks", p.ConfTarget)
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}
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return p.FeeRate.String()
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}
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// DetermineFeePerKw will determine the fee in sat/kw that should be paid given
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// an estimator, a confirmation target, and a manual value for sat/byte. A
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// value is chosen based on the two free parameters as one, or both of them can
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// be zero.
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func DetermineFeePerKw(feeEstimator lnwallet.FeeEstimator,
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feePref FeePreference) (lnwallet.SatPerKWeight, error) {
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switch {
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// If both values are set, then we'll return an error as we require a
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// strict directive.
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case feePref.FeeRate != 0 && feePref.ConfTarget != 0:
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return 0, fmt.Errorf("only FeeRate or ConfTarget should " +
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"be set for FeePreferences")
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// If the target number of confirmations is set, then we'll use that to
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// consult our fee estimator for an adequate fee.
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case feePref.ConfTarget != 0:
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feePerKw, err := feeEstimator.EstimateFeePerKW(
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uint32(feePref.ConfTarget),
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)
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if err != nil {
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return 0, fmt.Errorf("unable to query fee "+
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"estimator: %v", err)
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}
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return feePerKw, nil
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// If a manual sat/byte fee rate is set, then we'll use that directly.
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// We'll need to convert it to sat/kw as this is what we use
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// internally.
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case feePref.FeeRate != 0:
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feePerKW := feePref.FeeRate
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if feePerKW < lnwallet.FeePerKwFloor {
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log.Infof("Manual fee rate input of %d sat/kw is "+
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"too low, using %d sat/kw instead", feePerKW,
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lnwallet.FeePerKwFloor)
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feePerKW = lnwallet.FeePerKwFloor
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}
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return feePerKW, nil
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// Otherwise, we'll attempt a relaxed confirmation target for the
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// transaction
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default:
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feePerKw, err := feeEstimator.EstimateFeePerKW(
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defaultNumBlocksEstimate,
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)
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if err != nil {
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return 0, fmt.Errorf("unable to query fee estimator: "+
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"%v", err)
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}
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return feePerKw, nil
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}
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}
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// UtxoSource is an interface that allows a caller to access a source of UTXOs
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// to use when crafting sweep transactions.
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type UtxoSource interface {
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// ListUnspentWitness returns all UTXOs from the source that have
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// between minConfs and maxConfs number of confirmations.
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ListUnspentWitness(minConfs, maxConfs int32) ([]*lnwallet.Utxo, error)
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}
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// CoinSelectionLocker is an interface that allows the caller to perform an
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// operation, which is synchronized with all coin selection attempts. This can
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// be used when an operation requires that all coin selection operations cease
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// forward progress. Think of this as an exclusive lock on coin selection
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// operations.
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type CoinSelectionLocker interface {
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// WithCoinSelectLock will execute the passed function closure in a
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// synchronized manner preventing any coin selection operations from
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// proceeding while the closure if executing. This can be seen as the
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// ability to execute a function closure under an exclusive coin
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// selection lock.
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WithCoinSelectLock(func() error) error
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}
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// OutpointLocker allows a caller to lock/unlock an outpoint. When locked, the
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// outpoints shouldn't be used for any sort of channel funding of coin
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// selection. Locked outpoints are not expect to be persisted between restarts.
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type OutpointLocker interface {
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// LockOutpoint locks a target outpoint, rendering it unusable for coin
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// selection.
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LockOutpoint(o wire.OutPoint)
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// UnlockOutpoint unlocks a target outpoint, allowing it to be used for
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// coin selection once again.
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UnlockOutpoint(o wire.OutPoint)
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}
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// WalletSweepPackage is a package that gives the caller the ability to sweep
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// ALL funds from a wallet in a single transaction. We also package a function
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// closure that allows one to abort the operation.
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type WalletSweepPackage struct {
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// SweepTx is a fully signed, and valid transaction that is broadcast,
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// will sweep ALL confirmed coins in the wallet with a single
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// transaction.
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SweepTx *wire.MsgTx
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// CancelSweepAttempt allows the caller to cancel the sweep attempt.
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//
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// NOTE: If the sweeping transaction isn't or cannot be broadcast, then
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// this closure MUST be called, otherwise all selected utxos will be
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// unable to be used.
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CancelSweepAttempt func()
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}
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// CraftSweepAllTx attempts to craft a WalletSweepPackage which will allow the
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// caller to sweep ALL outputs within the wallet to a single UTXO, as specified
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// by the delivery address. The sweep transaction will be crafted with the
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// target fee rate, and will use the utxoSource and outpointLocker as sources
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// for wallet funds.
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func CraftSweepAllTx(feeRate lnwallet.SatPerKWeight, blockHeight uint32,
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deliveryAddr btcutil.Address, coinSelectLocker CoinSelectionLocker,
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utxoSource UtxoSource, outpointLocker OutpointLocker,
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feeEstimator lnwallet.FeeEstimator,
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signer input.Signer) (*WalletSweepPackage, error) {
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// TODO(roasbeef): turn off ATPL as well when available?
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var allOutputs []*lnwallet.Utxo
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// We'll make a function closure up front that allows us to unlock all
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// selected outputs to ensure that they become available again in the
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// case of an error after the outputs have been locked, but before we
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// can actually craft a sweeping transaction.
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unlockOutputs := func() {
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for _, utxo := range allOutputs {
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outpointLocker.UnlockOutpoint(utxo.OutPoint)
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}
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}
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// Next, we'll use the coinSelectLocker to ensure that no coin
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// selection takes place while we fetch and lock all outputs the wallet
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// knows of. Otherwise, it may be possible for a new funding flow to
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// lock an output while we fetch the set of unspent witnesses.
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err := coinSelectLocker.WithCoinSelectLock(func() error {
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// Now that we can be sure that no other coin selection
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// operations are going on, we can grab a clean snapshot of the
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// current UTXO state of the wallet.
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utxos, err := utxoSource.ListUnspentWitness(
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1, math.MaxInt32,
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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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// We'll now lock each UTXO to ensure that other callers don't
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// attempt to use these UTXOs in transactions while we're
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// crafting out sweep all transaction.
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for _, utxo := range utxos {
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outpointLocker.LockOutpoint(utxo.OutPoint)
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}
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allOutputs = append(allOutputs, utxos...)
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return nil
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})
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if err != nil {
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// If we failed at all, we'll unlock any outputs selected just
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// in case we had any lingering outputs.
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unlockOutputs()
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return nil, fmt.Errorf("unable to fetch+lock wallet "+
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"utxos: %v", err)
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}
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// Now that we've locked all the potential outputs to sweep, we'll
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// assemble an input for each of them, so we can hand it off to the
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// sweeper to generate and sign a transaction for us.
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var inputsToSweep []input.Input
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for _, output := range allOutputs {
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// As we'll be signing for outputs under control of the wallet,
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// we only need to populate the output value and output script.
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// The rest of the items will be populated internally within
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// the sweeper via the witness generation function.
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signDesc := &input.SignDescriptor{
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Output: &wire.TxOut{
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PkScript: output.PkScript,
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Value: int64(output.Value),
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},
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HashType: txscript.SigHashAll,
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}
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pkScript := output.PkScript
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// Based on the output type, we'll map it to the proper witness
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// type so we can generate the set of input scripts needed to
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// sweep the output.
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var witnessType input.WitnessType
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switch output.AddressType {
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// If this is a p2wkh output, then we'll assume it's a witness
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// key hash witness type.
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case lnwallet.WitnessPubKey:
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witnessType = input.WitnessKeyHash
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// If this is a p2sh output, then as since it's under control
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// of the wallet, we'll assume it's a nested p2sh output.
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case lnwallet.NestedWitnessPubKey:
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witnessType = input.NestedWitnessKeyHash
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// All other output types we count as unknown and will fail to
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// sweep.
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default:
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unlockOutputs()
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return nil, fmt.Errorf("unable to sweep coins, "+
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"unknown script: %x", pkScript[:])
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}
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// Now that we've constructed the items required, we'll make an
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// input which can be passed to the sweeper for ultimate
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// sweeping.
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input := input.MakeBaseInput(&output.OutPoint, witnessType, signDesc, 0)
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inputsToSweep = append(inputsToSweep, &input)
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}
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// Next, we'll convert the delivery addr to a pkScript that we can use
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// to create the sweep transaction.
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deliveryPkScript, err := txscript.PayToAddrScript(deliveryAddr)
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if err != nil {
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unlockOutputs()
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return nil, err
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}
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// Finally, we'll ask the sweeper to craft a sweep transaction which
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// respects our fee preference and targets all the UTXOs of the wallet.
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sweepTx, err := createSweepTx(
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inputsToSweep, deliveryPkScript, blockHeight, feeRate, signer,
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)
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if err != nil {
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unlockOutputs()
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return nil, err
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}
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return &WalletSweepPackage{
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SweepTx: sweepTx,
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CancelSweepAttempt: unlockOutputs,
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}, nil
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}
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