5e5cc9b209
Before this commit, during a reservation, we wouldn’t ever specify our minHTL value. We don’t yet fully validate all channel constrains, but doing this now serves to ensure that once those features are merged, we’ll actually be setting a valid value for minHTLC.
515 lines
20 KiB
Go
515 lines
20 KiB
Go
package lnwallet
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import (
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"fmt"
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"net"
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"sync"
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"github.com/lightningnetwork/lnd/channeldb"
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"github.com/lightningnetwork/lnd/lnwire"
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"github.com/roasbeef/btcd/btcec"
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"github.com/roasbeef/btcd/chaincfg/chainhash"
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"github.com/roasbeef/btcd/wire"
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"github.com/roasbeef/btcutil"
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)
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// ChannelContribution is the primary constituent of the funding workflow
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// within lnwallet. Each side first exchanges their respective contributions
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// along with channel specific parameters like the min fee/KB. Once
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// contributions have been exchanged, each side will then produce signatures
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// for all their inputs to the funding transactions, and finally a signature
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// for the other party's version of the commitment transaction.
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type ChannelContribution struct {
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// FundingOutpoint is the amount of funds contributed to the funding
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// transaction.
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FundingAmount btcutil.Amount
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// Inputs to the funding transaction.
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Inputs []*wire.TxIn
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// ChangeOutputs are the Outputs to be used in the case that the total
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// value of the funding inputs is greater than the total potential
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// channel capacity.
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ChangeOutputs []*wire.TxOut
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// FirstCommitmentPoint is the first commitment point that will be used
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// to create the revocation key in the first commitment transaction we
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// send to the remote party.
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FirstCommitmentPoint *btcec.PublicKey
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// ChannelConfig is the concrete contribution that this node is
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// offering to the channel. This includes all the various constraints
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// such as the min HTLC, and also all the keys which will be used for
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// the duration of the channel.
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*channeldb.ChannelConfig
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}
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// toChanConfig returns the raw channel configuration generated by a node's
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// contribution to the channel.
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func (c *ChannelContribution) toChanConfig() channeldb.ChannelConfig {
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return *c.ChannelConfig
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}
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// InputScript represents any script inputs required to redeem a previous
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// output. This struct is used rather than just a witness, or scripSig in
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// order to accommodate nested p2sh which utilizes both types of input scripts.
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type InputScript struct {
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Witness [][]byte
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ScriptSig []byte
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}
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// ChannelReservation represents an intent to open a lightning payment channel
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// a counterparty. The funding processes from reservation to channel opening is
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// a 3-step process. In order to allow for full concurrency during the
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// reservation workflow, resources consumed by a contribution are "locked"
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// themselves. This prevents a number of race conditions such as two funding
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// transactions double-spending the same input. A reservation can also be
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// cancelled, which removes the resources from limbo, allowing another
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// reservation to claim them.
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//
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// The reservation workflow consists of the following three steps:
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// 1. lnwallet.InitChannelReservation
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// * One requests the wallet to allocate the necessary resources for a
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// channel reservation. These resources a put in limbo for the lifetime
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// of a reservation.
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// * Once completed the reservation will have the wallet's contribution
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// accessible via the .OurContribution() method. This contribution
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// contains the necessary items to allow the remote party to build both
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// the funding, and commitment transactions.
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// 2. ChannelReservation.ProcessContribution/ChannelReservation.ProcessSingleContribution
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// * The counterparty presents their contribution to the payment channel.
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// This allows us to build the funding, and commitment transactions
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// ourselves.
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// * We're now able to sign our inputs to the funding transactions, and
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// the counterparty's version of the commitment transaction.
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// * All signatures crafted by us, are now available via .OurSignatures().
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// 3. ChannelReservation.CompleteReservation/ChannelReservation.CompleteReservationSingle
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// * The final step in the workflow. The counterparty presents the
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// signatures for all their inputs to the funding transaction, as well
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// as a signature to our version of the commitment transaction.
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// * We then verify the validity of all signatures before considering the
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// channel "open".
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type ChannelReservation struct {
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// This mutex MUST be held when either reading or modifying any of the
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// fields below.
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sync.RWMutex
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// fundingTx is the funding transaction for this pending channel.
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fundingTx *wire.MsgTx
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// In order of sorted inputs. Sorting is done in accordance
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// to BIP-69: https://github.com/bitcoin/bips/blob/master/bip-0069.mediawiki.
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ourFundingInputScripts []*InputScript
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theirFundingInputScripts []*InputScript
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// Our signature for their version of the commitment transaction.
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ourCommitmentSig []byte
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theirCommitmentSig []byte
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ourContribution *ChannelContribution
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theirContribution *ChannelContribution
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partialState *channeldb.OpenChannel
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nodeAddr *net.TCPAddr
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// The ID of this reservation, used to uniquely track the reservation
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// throughout its lifetime.
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reservationID uint64
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// pushMSat the amount of milli-satoshis that should be pushed to the
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// responder of a single funding channel as part of the initial
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// commitment state.
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pushMSat lnwire.MilliSatoshi
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// chanOpen houses a struct containing the channel and additional
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// confirmation details will be sent on once the channel is considered
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// 'open'. A channel is open once the funding transaction has reached a
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// sufficient number of confirmations.
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chanOpen chan *openChanDetails
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chanOpenErr chan error
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wallet *LightningWallet
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}
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// NewChannelReservation creates a new channel reservation. This function is
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// used only internally by lnwallet. In order to concurrent safety, the
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// creation of all channel reservations should be carried out via the
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// lnwallet.InitChannelReservation interface.
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func NewChannelReservation(capacity, fundingAmt, commitFeePerKw btcutil.Amount,
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wallet *LightningWallet, id uint64, pushMSat lnwire.MilliSatoshi,
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chainHash *chainhash.Hash) (*ChannelReservation, error) {
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var (
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ourBalance lnwire.MilliSatoshi
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theirBalance lnwire.MilliSatoshi
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initiator bool
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)
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commitFee := btcutil.Amount(
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(int64(commitFeePerKw) * CommitWeight) / 1000,
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)
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fundingMSat := lnwire.NewMSatFromSatoshis(fundingAmt)
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capacityMSat := lnwire.NewMSatFromSatoshis(capacity)
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feeMSat := lnwire.NewMSatFromSatoshis(commitFee)
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// If we're the responder to a single-funder reservation, then we have
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// no initial balance in the channel unless the remote party is pushing
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// some funds to us within the first commitment state.
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if fundingAmt == 0 {
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ourBalance = pushMSat
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theirBalance = capacityMSat - feeMSat - pushMSat
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initiator = false
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} else {
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// TODO(roasbeef): need to rework fee structure in general and
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// also when we "unlock" dual funder within the daemon
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if capacity == fundingAmt {
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// If we're initiating a single funder workflow, then
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// we pay all the initial fees within the commitment
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// transaction. We also deduct our balance by the
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// amount pushed as part of the initial state.
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ourBalance = capacityMSat - feeMSat - pushMSat
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theirBalance = pushMSat
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} else {
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// Otherwise, this is a dual funder workflow where both
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// slides split the amount funded and the commitment
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// fee.
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ourBalance = fundingMSat - (feeMSat / 2)
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theirBalance = capacityMSat - fundingMSat - (feeMSat / 2) + pushMSat
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}
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initiator = true
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}
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// If we're the initiator and our starting balance within the channel
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// after we take account of fees is below dust, then we'll reject this
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// channel creation request.
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//
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// TODO(roasbeef): reject if 30% goes to fees? dust channel
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if initiator && ourBalance.ToSatoshis() <= DefaultDustLimit() {
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return nil, fmt.Errorf("unable to init reservation, with "+
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"fee=%v sat/kw, local output is too small: %v sat",
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int64(commitFee), int64(ourBalance.ToSatoshis()))
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}
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// Next we'll set the channel type based on what we can ascertain about
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// the balances/push amount within the channel.
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var chanType channeldb.ChannelType
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// If either of the balances are zero at this point, or we have a
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// non-zero push amt (there's no pushing for dual funder), then this is
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// a single-funder channel.
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if ourBalance == 0 || theirBalance == 0 || pushMSat != 0 {
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chanType = channeldb.SingleFunder
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} else {
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// Otherwise, this is a dual funder channel, and no side is
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// technically the "initiator"
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initiator = false
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chanType = channeldb.DualFunder
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}
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return &ChannelReservation{
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ourContribution: &ChannelContribution{
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FundingAmount: ourBalance.ToSatoshis(),
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ChannelConfig: &channeldb.ChannelConfig{},
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},
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theirContribution: &ChannelContribution{
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FundingAmount: theirBalance.ToSatoshis(),
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ChannelConfig: &channeldb.ChannelConfig{},
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},
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partialState: &channeldb.OpenChannel{
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ChanType: chanType,
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ChainHash: *chainHash,
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IsPending: true,
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IsInitiator: initiator,
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Capacity: capacity,
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LocalCommitment: channeldb.ChannelCommitment{
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LocalBalance: ourBalance,
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RemoteBalance: theirBalance,
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FeePerKw: commitFeePerKw,
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CommitFee: commitFee,
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},
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RemoteCommitment: channeldb.ChannelCommitment{
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LocalBalance: ourBalance,
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RemoteBalance: theirBalance,
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FeePerKw: commitFeePerKw,
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CommitFee: commitFee,
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},
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Db: wallet.Cfg.Database,
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},
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pushMSat: pushMSat,
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reservationID: id,
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chanOpen: make(chan *openChanDetails, 1),
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chanOpenErr: make(chan error, 1),
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wallet: wallet,
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}, nil
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}
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// SetNumConfsRequired sets the number of confirmations that are required for
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// the ultimate funding transaction before the channel can be considered open.
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// This is distinct from the main reservation workflow as it allows
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// implementations a bit more flexibility w.r.t to if the responder of the
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// initiator sets decides the number of confirmations needed.
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func (r *ChannelReservation) SetNumConfsRequired(numConfs uint16) {
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r.Lock()
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defer r.Unlock()
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r.partialState.NumConfsRequired = numConfs
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}
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// RegisterMinHTLC registers our desired amount for the smallest acceptable
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// HTLC we'll accept within this channel. Any HTLC's that are extended which
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// are below this value will SHOULD be rejected.
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func (r *ChannelReservation) RegisterMinHTLC(minHTLC lnwire.MilliSatoshi) {
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r.Lock()
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defer r.Unlock()
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r.ourContribution.MinHTLC = minHTLC
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}
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// CommitConstraints takes the constraints that the remote party specifies for
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// the type of commitments that we can generate for them. These constraints
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// include several parameters that serve as flow control restricting the amount
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// of satoshis that can be transferred in a single commitment. This function
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// will also attempt to verify the constraints for sanity, returning an error
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// if the parameters are seemed unsound.
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func (r *ChannelReservation) CommitConstraints(csvDelay, maxHtlcs uint16,
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maxValueInFlight lnwire.MilliSatoshi, chanReserve btcutil.Amount) error {
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r.Lock()
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defer r.Unlock()
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r.ourContribution.ChannelConfig.CsvDelay = csvDelay
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r.ourContribution.ChannelConfig.ChanReserve = chanReserve
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r.ourContribution.ChannelConfig.MaxAcceptedHtlcs = maxHtlcs
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r.ourContribution.ChannelConfig.MaxPendingAmount = maxValueInFlight
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return nil
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}
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// RemoteChanConstraints returns our desired parameters which constraint the
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// type of commitment transactions that the remote party can extend for our
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// current state. In order to ensure that we only accept sane states, we'll
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// specify: the required reserve the remote party must uphold, the max value in
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// flight, and the maximum number of HTLC's that can propose in a state.
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func (r *ChannelReservation) RemoteChanConstraints() (btcutil.Amount, lnwire.MilliSatoshi, uint16) {
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chanCapacity := r.partialState.Capacity
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// TODO(roasbeef): move csv delay calculation into func?
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// By default, we'll require them to maintain at least 1% of the total
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// channel capacity at all times. This is the absolute amount the
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// settled balance of the remote party must be above at *all* times.
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chanReserve := (chanCapacity) / 100
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// We'll allow them to fully utilize the full bandwidth of the channel,
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// minus our required reserve.
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maxValue := lnwire.NewMSatFromSatoshis(chanCapacity - chanReserve)
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// Finally, we'll permit them to utilize the full channel bandwidth
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maxHTLCs := uint16(MaxHTLCNumber / 2)
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return chanReserve, maxValue, maxHTLCs
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}
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// OurContribution returns the wallet's fully populated contribution to the
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// pending payment channel. See 'ChannelContribution' for further details
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// regarding the contents of a contribution.
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//
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// NOTE: This SHOULD NOT be modified.
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// TODO(roasbeef): make copy?
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func (r *ChannelReservation) OurContribution() *ChannelContribution {
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r.RLock()
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defer r.RUnlock()
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return r.ourContribution
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}
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// ProcessContribution verifies the counterparty's contribution to the pending
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// payment channel. As a result of this incoming message, lnwallet is able to
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// build the funding transaction, and both commitment transactions. Once this
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// message has been processed, all signatures to inputs to the funding
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// transaction belonging to the wallet are available. Additionally, the wallet
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// will generate a signature to the counterparty's version of the commitment
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// transaction.
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func (r *ChannelReservation) ProcessContribution(theirContribution *ChannelContribution) error {
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errChan := make(chan error, 1)
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r.wallet.msgChan <- &addContributionMsg{
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pendingFundingID: r.reservationID,
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contribution: theirContribution,
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err: errChan,
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}
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return <-errChan
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}
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// ProcessSingleContribution verifies, and records the initiator's contribution
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// to this pending single funder channel. Internally, no further action is
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// taken other than recording the initiator's contribution to the single funder
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// channel.
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func (r *ChannelReservation) ProcessSingleContribution(theirContribution *ChannelContribution) error {
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errChan := make(chan error, 1)
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r.wallet.msgChan <- &addSingleContributionMsg{
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pendingFundingID: r.reservationID,
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contribution: theirContribution,
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err: errChan,
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}
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return <-errChan
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}
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// TheirContribution returns the counterparty's pending contribution to the
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// payment channel. See 'ChannelContribution' for further details regarding the
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// contents of a contribution. This attribute will ONLY be available after a
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// call to .ProcesContribution().
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//
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// NOTE: This SHOULD NOT be modified.
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func (r *ChannelReservation) TheirContribution() *ChannelContribution {
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r.RLock()
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defer r.RUnlock()
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return r.theirContribution
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}
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// OurSignatures retrieves the wallet's signatures to all inputs to the funding
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// transaction belonging to itself, and also a signature for the counterparty's
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// version of the commitment transaction. The signatures for the wallet's
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// inputs to the funding transaction are returned in sorted order according to
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// BIP-69: https://github.com/bitcoin/bips/blob/master/bip-0069.mediawiki.
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//
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// NOTE: These signatures will only be populated after a call to
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// .ProcesContribution()
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func (r *ChannelReservation) OurSignatures() ([]*InputScript, []byte) {
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r.RLock()
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defer r.RUnlock()
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return r.ourFundingInputScripts, r.ourCommitmentSig
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}
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// CompleteReservation finalizes the pending channel reservation, transitioning
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// from a pending payment channel, to an open payment channel. All passed
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// signatures to the counterparty's inputs to the funding transaction will be
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// fully verified. Signatures are expected to be passed in sorted order
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// according to BIP-69:
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// https://github.com/bitcoin/bips/blob/master/bip-0069.mediawiki.
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// Additionally, verification is performed in order to ensure that the
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// counterparty supplied a valid signature to our version of the commitment
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// transaction. Once this method returns, caller's should then call
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// .WaitForChannelOpen() which will block until the funding transaction obtains
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// the configured number of confirmations. Once the method unblocks, a
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// LightningChannel instance is returned, marking the channel available for
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// updates.
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func (r *ChannelReservation) CompleteReservation(fundingInputScripts []*InputScript,
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commitmentSig []byte) (*channeldb.OpenChannel, error) {
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// TODO(roasbeef): add flag for watch or not?
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errChan := make(chan error, 1)
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completeChan := make(chan *channeldb.OpenChannel, 1)
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r.wallet.msgChan <- &addCounterPartySigsMsg{
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pendingFundingID: r.reservationID,
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theirFundingInputScripts: fundingInputScripts,
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theirCommitmentSig: commitmentSig,
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completeChan: completeChan,
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err: errChan,
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}
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return <-completeChan, <-errChan
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}
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// CompleteReservationSingle finalizes the pending single funder channel
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// reservation. Using the funding outpoint of the constructed funding
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// transaction, and the initiator's signature for our version of the commitment
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// transaction, we are able to verify the correctness of our commitment
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// transaction as crafted by the initiator. Once this method returns, our
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// signature for the initiator's version of the commitment transaction is
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// available via the .OurSignatures() method. As this method should only be
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// called as a response to a single funder channel, only a commitment signature
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// will be populated.
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func (r *ChannelReservation) CompleteReservationSingle(fundingPoint *wire.OutPoint,
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commitSig []byte) (*channeldb.OpenChannel, error) {
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errChan := make(chan error, 1)
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completeChan := make(chan *channeldb.OpenChannel, 1)
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r.wallet.msgChan <- &addSingleFunderSigsMsg{
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pendingFundingID: r.reservationID,
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fundingOutpoint: fundingPoint,
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theirCommitmentSig: commitSig,
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completeChan: completeChan,
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err: errChan,
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}
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return <-completeChan, <-errChan
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}
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// TheirSignatures returns the counterparty's signatures to all inputs to the
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// funding transaction belonging to them, as well as their signature for the
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// wallet's version of the commitment transaction. This methods is provided for
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// additional verification, such as needed by tests.
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//
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// NOTE: These attributes will be unpopulated before a call to
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// .CompleteReservation().
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func (r *ChannelReservation) TheirSignatures() ([]*InputScript, []byte) {
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r.RLock()
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defer r.RUnlock()
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return r.theirFundingInputScripts, r.theirCommitmentSig
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}
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// FinalFundingTx returns the finalized, fully signed funding transaction for
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// this reservation.
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//
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// NOTE: If this reservation was created as the non-initiator to a single
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// funding workflow, then the full funding transaction will not be available.
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// Instead we will only have the final outpoint of the funding transaction.
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func (r *ChannelReservation) FinalFundingTx() *wire.MsgTx {
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r.RLock()
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defer r.RUnlock()
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return r.fundingTx
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}
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// FundingOutpoint returns the outpoint of the funding transaction.
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//
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// NOTE: The pointer returned will only be set once the .ProcessContribution()
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// method is called in the case of the initiator of a single funder workflow,
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// and after the .CompleteReservationSingle() method is called in the case of
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// a responder to a single funder workflow.
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func (r *ChannelReservation) FundingOutpoint() *wire.OutPoint {
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r.RLock()
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defer r.RUnlock()
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return &r.partialState.FundingOutpoint
|
|
}
|
|
|
|
// Cancel abandons this channel reservation. This method should be called in
|
|
// the scenario that communications with the counterparty break down. Upon
|
|
// cancellation, all resources previously reserved for this pending payment
|
|
// channel are returned to the free pool, allowing subsequent reservations to
|
|
// utilize the now freed resources.
|
|
func (r *ChannelReservation) Cancel() error {
|
|
errChan := make(chan error, 1)
|
|
r.wallet.msgChan <- &fundingReserveCancelMsg{
|
|
pendingFundingID: r.reservationID,
|
|
err: errChan,
|
|
}
|
|
|
|
return <-errChan
|
|
}
|
|
|
|
// OpenChannelDetails wraps the finalized fully confirmed channel which
|
|
// resulted from a ChannelReservation instance with details concerning exactly
|
|
// _where_ in the chain the channel was ultimately opened.
|
|
type OpenChannelDetails struct {
|
|
// Channel is the active channel created by an instance of a
|
|
// ChannelReservation and the required funding workflow.
|
|
Channel *LightningChannel
|
|
|
|
// ConfirmationHeight is the block height within the chain that
|
|
// included the channel.
|
|
ConfirmationHeight uint32
|
|
|
|
// TransactionIndex is the index within the confirming block that the
|
|
// transaction resides.
|
|
TransactionIndex uint32
|
|
}
|