mirror of
https://github.com/lightningnetwork/lnd.git
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5172a5e255
In this commit, we introduce support for arbitrary client fee preferences when accepting input sweep requests. This is possible with the addition of fee rate buckets. Fee rate buckets are buckets that contain inputs with similar fee rates within a specific range, e.g., 1-10 sat/vbyte, 11-20 sat/vbyte, etc. Having these buckets allows us to batch and sweep inputs from different clients with similar fee rates within a single transaction, allowing us to save on chain fees. With this addition, we can now get rid of the UtxoSweeper's default fee preference. As of this commit, any clients using the it to sweep inputs specify the same fee preference to not change their behavior. Each of these can be fine-tuned later on given their use cases.
298 lines
8.7 KiB
Go
298 lines
8.7 KiB
Go
package contractcourt
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import (
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"encoding/binary"
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"fmt"
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"io"
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"github.com/btcsuite/btcd/wire"
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"github.com/lightningnetwork/lnd/input"
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"github.com/lightningnetwork/lnd/lnwallet"
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"github.com/lightningnetwork/lnd/sweep"
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)
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const (
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// commitOutputConfTarget is the default confirmation target we'll use
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// for sweeps of commit outputs that belong to us.
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commitOutputConfTarget = 6
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)
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// commitSweepResolver is a resolver that will attempt to sweep the commitment
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// output paying to us, in the case that the remote party broadcasts their
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// version of the commitment transaction. We can sweep this output immediately,
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// as it doesn't have a time-lock delay.
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type commitSweepResolver struct {
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// commitResolution contains all data required to successfully sweep
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// this HTLC on-chain.
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commitResolution lnwallet.CommitOutputResolution
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// resolved reflects if the contract has been fully resolved or not.
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resolved bool
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// broadcastHeight is the height that the original contract was
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// broadcast to the main-chain at. We'll use this value to bound any
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// historical queries to the chain for spends/confirmations.
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broadcastHeight uint32
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// chanPoint is the channel point of the original contract.
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chanPoint wire.OutPoint
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ResolverKit
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}
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// ResolverKey returns an identifier which should be globally unique for this
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// particular resolver within the chain the original contract resides within.
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func (c *commitSweepResolver) ResolverKey() []byte {
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key := newResolverID(c.commitResolution.SelfOutPoint)
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return key[:]
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}
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// Resolve instructs the contract resolver to resolve the output on-chain. Once
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// the output has been *fully* resolved, the function should return immediately
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// with a nil ContractResolver value for the first return value. In the case
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// that the contract requires further resolution, then another resolve is
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// returned.
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//
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// NOTE: This function MUST be run as a goroutine.
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func (c *commitSweepResolver) Resolve() (ContractResolver, error) {
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// If we're already resolved, then we can exit early.
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if c.resolved {
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return nil, nil
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}
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// First, we'll register for a notification once the commitment output
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// itself has been confirmed.
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//
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// TODO(roasbeef): instead sweep asap if remote commit? yeh
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commitTXID := c.commitResolution.SelfOutPoint.Hash
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sweepScript := c.commitResolution.SelfOutputSignDesc.Output.PkScript
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confNtfn, err := c.Notifier.RegisterConfirmationsNtfn(
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&commitTXID, sweepScript, 1, c.broadcastHeight,
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)
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if err != nil {
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return nil, err
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}
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log.Debugf("%T(%v): waiting for commit tx to confirm", c, c.chanPoint)
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select {
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case _, ok := <-confNtfn.Confirmed:
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if !ok {
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return nil, fmt.Errorf("quitting")
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}
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case <-c.Quit:
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return nil, fmt.Errorf("quitting")
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}
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// We're dealing with our commitment transaction if the delay on the
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// resolution isn't zero.
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isLocalCommitTx := c.commitResolution.MaturityDelay != 0
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if !isLocalCommitTx {
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// We'll craft an input with all the information required for
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// the sweeper to create a fully valid sweeping transaction to
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// recover these coins.
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inp := input.MakeBaseInput(
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&c.commitResolution.SelfOutPoint,
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input.CommitmentNoDelay,
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&c.commitResolution.SelfOutputSignDesc,
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c.broadcastHeight,
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)
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// With our input constructed, we'll now offer it to the
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// sweeper.
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log.Infof("%T(%v): sweeping commit output", c, c.chanPoint)
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feePref := sweep.FeePreference{ConfTarget: commitOutputConfTarget}
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resultChan, err := c.Sweeper.SweepInput(&inp, feePref)
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if err != nil {
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log.Errorf("%T(%v): unable to sweep input: %v",
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c, c.chanPoint, err)
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return nil, err
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}
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// Sweeper is going to join this input with other inputs if
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// possible and publish the sweep tx. When the sweep tx
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// confirms, it signals us through the result channel with the
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// outcome. Wait for this to happen.
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select {
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case sweepResult := <-resultChan:
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if sweepResult.Err != nil {
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log.Errorf("%T(%v): unable to sweep input: %v",
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c, c.chanPoint, sweepResult.Err)
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return nil, sweepResult.Err
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}
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log.Infof("ChannelPoint(%v) commit tx is fully resolved by "+
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"sweep tx: %v", c.chanPoint, sweepResult.Tx.TxHash())
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case <-c.Quit:
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return nil, fmt.Errorf("quitting")
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}
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c.resolved = true
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return nil, c.Checkpoint(c)
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}
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// Otherwise we are dealing with a local commitment transaction and the
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// output we need to sweep has been sent to the nursery for incubation.
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// In this case, we'll wait until the commitment output has been spent.
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spendNtfn, err := c.Notifier.RegisterSpendNtfn(
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&c.commitResolution.SelfOutPoint,
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c.commitResolution.SelfOutputSignDesc.Output.PkScript,
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c.broadcastHeight,
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)
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if err != nil {
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return nil, err
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}
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log.Infof("%T(%v): waiting for commit output to be swept", c,
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c.chanPoint)
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var sweepTx *wire.MsgTx
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select {
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case commitSpend, ok := <-spendNtfn.Spend:
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if !ok {
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return nil, fmt.Errorf("quitting")
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}
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// Once we detect the commitment output has been spent,
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// we'll extract the spending transaction itself, as we
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// now consider this to be our sweep transaction.
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sweepTx = commitSpend.SpendingTx
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log.Infof("%T(%v): commit output swept by txid=%v",
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c, c.chanPoint, sweepTx.TxHash())
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if err := c.Checkpoint(c); err != nil {
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log.Errorf("unable to Checkpoint: %v", err)
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return nil, err
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}
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case <-c.Quit:
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return nil, fmt.Errorf("quitting")
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}
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log.Infof("%T(%v): waiting for commit sweep txid=%v conf", c, c.chanPoint,
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sweepTx.TxHash())
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// Now we'll wait until the sweeping transaction has been fully
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// confirmed. Once it's confirmed, we can mark this contract resolved.
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sweepTXID := sweepTx.TxHash()
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sweepingScript := sweepTx.TxOut[0].PkScript
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confNtfn, err = c.Notifier.RegisterConfirmationsNtfn(
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&sweepTXID, sweepingScript, 1, c.broadcastHeight,
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)
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if err != nil {
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return nil, err
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}
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select {
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case confInfo, ok := <-confNtfn.Confirmed:
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if !ok {
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return nil, fmt.Errorf("quitting")
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}
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log.Infof("ChannelPoint(%v) commit tx is fully resolved, at height: %v",
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c.chanPoint, confInfo.BlockHeight)
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case <-c.Quit:
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return nil, fmt.Errorf("quitting")
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}
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// Once the transaction has received a sufficient number of
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// confirmations, we'll mark ourselves as fully resolved and exit.
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c.resolved = true
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return nil, c.Checkpoint(c)
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}
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// Stop signals the resolver to cancel any current resolution processes, and
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// suspend.
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//
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// NOTE: Part of the ContractResolver interface.
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func (c *commitSweepResolver) Stop() {
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close(c.Quit)
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}
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// IsResolved returns true if the stored state in the resolve is fully
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// resolved. In this case the target output can be forgotten.
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//
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// NOTE: Part of the ContractResolver interface.
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func (c *commitSweepResolver) IsResolved() bool {
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return c.resolved
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}
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// Encode writes an encoded version of the ContractResolver into the passed
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// Writer.
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//
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// NOTE: Part of the ContractResolver interface.
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func (c *commitSweepResolver) Encode(w io.Writer) error {
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if err := encodeCommitResolution(w, &c.commitResolution); err != nil {
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return err
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}
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if err := binary.Write(w, endian, c.resolved); err != nil {
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return err
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}
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if err := binary.Write(w, endian, c.broadcastHeight); err != nil {
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return err
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}
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if _, err := w.Write(c.chanPoint.Hash[:]); err != nil {
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return err
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}
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err := binary.Write(w, endian, c.chanPoint.Index)
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if err != nil {
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return err
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}
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// Previously a sweep tx was serialized at this point. Refactoring
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// removed this, but keep in mind that this data may still be present in
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// the database.
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return nil
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}
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// Decode attempts to decode an encoded ContractResolver from the passed Reader
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// instance, returning an active ContractResolver instance.
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//
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// NOTE: Part of the ContractResolver interface.
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func (c *commitSweepResolver) Decode(r io.Reader) error {
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if err := decodeCommitResolution(r, &c.commitResolution); err != nil {
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return err
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}
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if err := binary.Read(r, endian, &c.resolved); err != nil {
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return err
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}
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if err := binary.Read(r, endian, &c.broadcastHeight); err != nil {
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return err
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}
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_, err := io.ReadFull(r, c.chanPoint.Hash[:])
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if err != nil {
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return err
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}
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err = binary.Read(r, endian, &c.chanPoint.Index)
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if err != nil {
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return err
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}
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// Previously a sweep tx was deserialized at this point. Refactoring
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// removed this, but keep in mind that this data may still be present in
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// the database.
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return nil
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}
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// AttachResolverKit should be called once a resolved is successfully decoded
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// from its stored format. This struct delivers a generic tool kit that
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// resolvers need to complete their duty.
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//
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// NOTE: Part of the ContractResolver interface.
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func (c *commitSweepResolver) AttachResolverKit(r ResolverKit) {
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c.ResolverKit = r
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}
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// A compile time assertion to ensure commitSweepResolver meets the
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// ContractResolver interface.
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var _ ContractResolver = (*commitSweepResolver)(nil)
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