mirror of
https://github.com/lightningnetwork/lnd.git
synced 2024-11-19 01:43:16 +01:00
23cc8389f2
In this commit, we update the `HopIterator` to gain awareness of the new TLV hop payload. The default `HopIterator` will now hide the details of the TLV from the caller, and return the same `ForwardingInfo` struct in a uniform manner. We also add a new method: `ExtraOnionBlob` to allow the caller to obtain the raw EOB (the serialized TLV stream) to pass around. Within the link, we'll now pass the EOB information into the invoice registry. This allows the registry to parse out any additional information from the EOB that it needs to settle the payment, such as a preimage shard in the AMP case.
323 lines
10 KiB
Go
323 lines
10 KiB
Go
package contractcourt
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import (
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"encoding/binary"
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"errors"
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"fmt"
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"io"
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"github.com/lightningnetwork/lnd/channeldb"
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"github.com/lightningnetwork/lnd/invoices"
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"github.com/btcsuite/btcutil"
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"github.com/lightningnetwork/lnd/lntypes"
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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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// 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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// 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, fmt.Errorf("quitting")
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}
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currentHeight = newBlock.Height
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case <-h.Quit:
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return nil, fmt.Errorf("resolver stopped")
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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.payHash) {
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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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event, err := h.Registry.NotifyExitHopHtlc(
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h.payHash, h.htlcAmt, h.htlcExpiry, currentHeight,
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hodlChan, nil,
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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.payHash)
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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.payHash) {
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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, fmt.Errorf("quitting")
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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, fmt.Errorf("resolver stopped")
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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.htlcAmt.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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Incoming: true,
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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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// 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 (h *htlcIncomingContestResolver) Decode(r io.Reader) error {
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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 err
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}
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// Then we'll decode our internal resolver.
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return h.htlcSuccessResolver.Decode(r)
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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 (h *htlcIncomingContestResolver) AttachResolverKit(r ResolverKit) {
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h.ResolverKit = r
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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 _ ContractResolver = (*htlcIncomingContestResolver)(nil)
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