1597a92160
This commit prepares for the commit sweep resolver to report on its state.
382 lines
12 KiB
Go
382 lines
12 KiB
Go
package contractcourt
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import (
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"bytes"
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"encoding/binary"
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"errors"
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"io"
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"github.com/btcsuite/btcutil"
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"github.com/lightningnetwork/lnd/channeldb"
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"github.com/lightningnetwork/lnd/htlcswitch/hop"
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"github.com/lightningnetwork/lnd/invoices"
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"github.com/lightningnetwork/lnd/lntypes"
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"github.com/lightningnetwork/lnd/lnwallet"
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)
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// htlcIncomingContestResolver is a ContractResolver that's able to resolve an
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// incoming HTLC that is still contested. An HTLC is still contested, if at the
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// time of commitment broadcast, we don't know of the preimage for it yet, and
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// it hasn't expired. In this case, we can resolve the HTLC if we learn of the
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// preimage, otherwise the remote party will sweep it after it expires.
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//
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// TODO(roasbeef): just embed the other resolver?
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type htlcIncomingContestResolver struct {
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// htlcExpiry is the absolute expiry of this incoming HTLC. We use this
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// value to determine if we can exit early as if the HTLC times out,
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// before we learn of the preimage then we can't claim it on chain
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// successfully.
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htlcExpiry uint32
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// htlcSuccessResolver is the inner resolver that may be utilized if we
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// learn of the preimage.
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htlcSuccessResolver
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}
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// newIncomingContestResolver instantiates a new incoming htlc contest resolver.
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func newIncomingContestResolver(
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res lnwallet.IncomingHtlcResolution, broadcastHeight uint32,
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htlc channeldb.HTLC, resCfg ResolverConfig) *htlcIncomingContestResolver {
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success := newSuccessResolver(
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res, broadcastHeight, htlc, resCfg,
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)
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return &htlcIncomingContestResolver{
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htlcExpiry: htlc.RefundTimeout,
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htlcSuccessResolver: *success,
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}
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}
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// Resolve attempts to resolve this contract. As we don't yet know of the
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// preimage for the contract, we'll wait for one of two things to happen:
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//
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// 1. We learn of the preimage! In this case, we can sweep the HTLC incoming
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// and ensure that if this was a multi-hop HTLC we are made whole. In this
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// case, an additional ContractResolver will be returned to finish the
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// job.
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//
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// 2. The HTLC expires. If this happens, then the contract is fully resolved
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// as we have no remaining actions left at our disposal.
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//
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// NOTE: Part of the ContractResolver interface.
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func (h *htlcIncomingContestResolver) Resolve() (ContractResolver, error) {
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// If we're already full resolved, then we don't have anything further
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// to do.
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if h.resolved {
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return nil, nil
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}
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// First try to parse the payload. If that fails, we can stop resolution
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// now.
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payload, err := h.decodePayload()
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if err != nil {
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log.Debugf("ChannelArbitrator(%v): cannot decode payload of "+
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"htlc %v", h.ChanPoint, h.HtlcPoint())
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// If we've locked in an htlc with an invalid payload on our
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// commitment tx, we don't need to resolve it. The other party
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// will time it out and get their funds back. This situation can
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// present itself when we crash before processRemoteAdds in the
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// link has ran.
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h.resolved = true
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return nil, nil
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}
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// Register for block epochs. After registration, the current height
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// will be sent on the channel immediately.
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blockEpochs, err := h.Notifier.RegisterBlockEpochNtfn(nil)
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if err != nil {
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return nil, err
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}
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defer blockEpochs.Cancel()
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var currentHeight int32
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select {
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case newBlock, ok := <-blockEpochs.Epochs:
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if !ok {
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return nil, errResolverShuttingDown
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}
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currentHeight = newBlock.Height
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case <-h.quit:
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return nil, errResolverShuttingDown
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}
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// We'll first check if this HTLC has been timed out, if so, we can
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// return now and mark ourselves as resolved. If we're past the point of
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// expiry of the HTLC, then at this point the sender can sweep it, so
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// we'll end our lifetime. Here we deliberately forego the chance that
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// the sender doesn't sweep and we already have or will learn the
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// preimage. Otherwise the resolver could potentially stay active
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// indefinitely and the channel will never close properly.
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if uint32(currentHeight) >= h.htlcExpiry {
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// TODO(roasbeef): should also somehow check if outgoing is
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// resolved or not
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// * may need to hook into the circuit map
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// * can't timeout before the outgoing has been
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log.Infof("%T(%v): HTLC has timed out (expiry=%v, height=%v), "+
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"abandoning", h, h.htlcResolution.ClaimOutpoint,
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h.htlcExpiry, currentHeight)
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h.resolved = true
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return nil, h.Checkpoint(h)
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}
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// tryApplyPreimage is a helper function that will populate our internal
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// resolver with the preimage we learn of. This should be called once
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// the preimage is revealed so the inner resolver can properly complete
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// its duties. The boolean return value indicates whether the preimage
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// was properly applied.
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applyPreimage := func(preimage lntypes.Preimage) error {
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// Sanity check to see if this preimage matches our htlc. At
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// this point it should never happen that it does not match.
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if !preimage.Matches(h.htlc.RHash) {
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return errors.New("preimage does not match hash")
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}
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// Update htlcResolution with the matching preimage.
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h.htlcResolution.Preimage = preimage
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log.Infof("%T(%v): extracted preimage=%v from beacon!", h,
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h.htlcResolution.ClaimOutpoint, preimage)
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// If this our commitment transaction, then we'll need to
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// populate the witness for the second-level HTLC transaction.
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if h.htlcResolution.SignedSuccessTx != nil {
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// Within the witness for the success transaction, the
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// preimage is the 4th element as it looks like:
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//
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// * <sender sig> <recvr sig> <preimage> <witness script>
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//
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// We'll populate it within the witness, as since this
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// was a "contest" resolver, we didn't yet know of the
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// preimage.
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h.htlcResolution.SignedSuccessTx.TxIn[0].Witness[3] = preimage[:]
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}
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return nil
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}
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// If the HTLC hasn't expired yet, then we may still be able to claim
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// it if we learn of the pre-image, so we'll subscribe to the preimage
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// database to see if it turns up, or the HTLC times out.
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//
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// NOTE: This is done BEFORE opportunistically querying the db, to
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// ensure the preimage can't be delivered between querying and
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// registering for the preimage subscription.
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preimageSubscription := h.PreimageDB.SubscribeUpdates()
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defer preimageSubscription.CancelSubscription()
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// Define closure to process hodl events either direct or triggered by
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// later notifcation.
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processHodlEvent := func(e invoices.HodlEvent) (ContractResolver,
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error) {
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if e.Preimage == nil {
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log.Infof("%T(%v): Exit hop HTLC canceled "+
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"(expiry=%v, height=%v), abandoning", h,
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h.htlcResolution.ClaimOutpoint,
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h.htlcExpiry, currentHeight)
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h.resolved = true
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return nil, h.Checkpoint(h)
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}
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if err := applyPreimage(*e.Preimage); err != nil {
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return nil, err
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}
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return &h.htlcSuccessResolver, nil
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}
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// Create a buffered hodl chan to prevent deadlock.
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hodlChan := make(chan interface{}, 1)
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// Notify registry that we are potentially resolving as an exit hop
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// on-chain. If this HTLC indeed pays to an existing invoice, the
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// invoice registry will tell us what to do with the HTLC. This is
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// identical to HTLC resolution in the link.
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circuitKey := channeldb.CircuitKey{
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ChanID: h.ShortChanID,
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HtlcID: h.htlc.HtlcIndex,
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}
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event, err := h.Registry.NotifyExitHopHtlc(
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h.htlc.RHash, h.htlc.Amt, h.htlcExpiry, currentHeight,
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circuitKey, hodlChan, payload,
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)
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switch err {
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case channeldb.ErrInvoiceNotFound:
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case nil:
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defer h.Registry.HodlUnsubscribeAll(hodlChan)
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// Resolve the htlc directly if possible.
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if event != nil {
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return processHodlEvent(*event)
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}
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default:
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return nil, err
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}
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// With the epochs and preimage subscriptions initialized, we'll query
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// to see if we already know the preimage.
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preimage, ok := h.PreimageDB.LookupPreimage(h.htlc.RHash)
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if ok {
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// If we do, then this means we can claim the HTLC! However,
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// we don't know how to ourselves, so we'll return our inner
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// resolver which has the knowledge to do so.
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if err := applyPreimage(preimage); err != nil {
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return nil, err
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}
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return &h.htlcSuccessResolver, nil
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}
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for {
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select {
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case preimage := <-preimageSubscription.WitnessUpdates:
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// We receive all new preimages, so we need to ignore
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// all except the preimage we are waiting for.
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if !preimage.Matches(h.htlc.RHash) {
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continue
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}
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if err := applyPreimage(preimage); err != nil {
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return nil, err
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}
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// We've learned of the preimage and this information
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// has been added to our inner resolver. We return it so
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// it can continue contract resolution.
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return &h.htlcSuccessResolver, nil
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case hodlItem := <-hodlChan:
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hodlEvent := hodlItem.(invoices.HodlEvent)
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return processHodlEvent(hodlEvent)
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case newBlock, ok := <-blockEpochs.Epochs:
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if !ok {
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return nil, errResolverShuttingDown
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}
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// If this new height expires the HTLC, then this means
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// we never found out the preimage, so we can mark
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// resolved and exit.
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newHeight := uint32(newBlock.Height)
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if newHeight >= h.htlcExpiry {
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log.Infof("%T(%v): HTLC has timed out "+
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"(expiry=%v, height=%v), abandoning", h,
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h.htlcResolution.ClaimOutpoint,
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h.htlcExpiry, currentHeight)
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h.resolved = true
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return nil, h.Checkpoint(h)
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}
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case <-h.quit:
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return nil, errResolverShuttingDown
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}
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}
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}
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// report returns a report on the resolution state of the contract.
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func (h *htlcIncomingContestResolver) report() *ContractReport {
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// No locking needed as these values are read-only.
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finalAmt := h.htlc.Amt.ToSatoshis()
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if h.htlcResolution.SignedSuccessTx != nil {
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finalAmt = btcutil.Amount(
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h.htlcResolution.SignedSuccessTx.TxOut[0].Value,
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)
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}
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return &ContractReport{
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Outpoint: h.htlcResolution.ClaimOutpoint,
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Type: ReportOutputIncomingHtlc,
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Amount: finalAmt,
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MaturityHeight: h.htlcExpiry,
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LimboBalance: finalAmt,
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Stage: 1,
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}
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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 (h *htlcIncomingContestResolver) Stop() {
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close(h.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 (h *htlcIncomingContestResolver) IsResolved() bool {
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return h.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 (h *htlcIncomingContestResolver) Encode(w io.Writer) error {
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// We'll first write out the one field unique to this resolver.
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if err := binary.Write(w, endian, h.htlcExpiry); err != nil {
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return err
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}
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// Then we'll write out our internal resolver.
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return h.htlcSuccessResolver.Encode(w)
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}
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// newIncomingContestResolverFromReader attempts to decode an encoded ContractResolver
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// from the passed Reader instance, returning an active ContractResolver
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// instance.
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func newIncomingContestResolverFromReader(r io.Reader, resCfg ResolverConfig) (
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*htlcIncomingContestResolver, error) {
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h := &htlcIncomingContestResolver{}
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// We'll first read the one field unique to this resolver.
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if err := binary.Read(r, endian, &h.htlcExpiry); err != nil {
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return nil, err
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}
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// Then we'll decode our internal resolver.
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successResolver, err := newSuccessResolverFromReader(r, resCfg)
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if err != nil {
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return nil, err
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}
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h.htlcSuccessResolver = *successResolver
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return h, nil
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}
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// Supplement adds additional information to the resolver that is required
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// before Resolve() is called.
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//
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// NOTE: Part of the htlcContractResolver interface.
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func (h *htlcIncomingContestResolver) Supplement(htlc channeldb.HTLC) {
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h.htlc = htlc
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}
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// decodePayload (re)decodes the hop payload of a received htlc.
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func (h *htlcIncomingContestResolver) decodePayload() (*hop.Payload, error) {
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onionReader := bytes.NewReader(h.htlc.OnionBlob)
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iterator, err := h.OnionProcessor.ReconstructHopIterator(
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onionReader, h.htlc.RHash[:],
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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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return iterator.HopPayload()
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}
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// A compile time assertion to ensure htlcIncomingContestResolver meets the
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// ContractResolver interface.
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var _ htlcContractResolver = (*htlcIncomingContestResolver)(nil)
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