package liquidity import ( "github.com/btcsuite/btcd/btcutil" "github.com/lightninglabs/loop" "github.com/lightninglabs/loop/swap" "github.com/lightningnetwork/lnd/input" "github.com/lightningnetwork/lnd/lnwallet/chainfee" "github.com/lightningnetwork/lnd/lnwire" "github.com/lightningnetwork/lnd/routing/route" ) // Compile time assertion that loop in suggestions satisfy our interface. var _ swapSuggestion = (*loopInSwapSuggestion)(nil) type loopInSwapSuggestion struct { loop.LoopInRequest } // amount returns the amount of the swap suggestion. func (l *loopInSwapSuggestion) amount() btcutil.Amount { return l.LoopInRequest.Amount } // fees returns the highest fees that we could pay for the swap suggestion. func (l *loopInSwapSuggestion) fees() btcutil.Amount { return worstCaseInFees( l.LoopInRequest.MaxMinerFee, l.LoopInRequest.MaxSwapFee, defaultLoopInSweepFee, ) } // channels returns no channels for loop in swap suggestions because we do not // restrict loop in swaps by channel id. func (l *loopInSwapSuggestion) channels() []lnwire.ShortChannelID { return nil } // peers returns the peer that a loop in swap is restricted to, if it is set. func (l *loopInSwapSuggestion) peers(_ map[uint64]route.Vertex) []route.Vertex { if l.LoopInRequest.LastHop == nil { return nil } return []route.Vertex{ *l.LoopInRequest.LastHop, } } // worstCaseInFees returns the largest possible fees for a loop in swap. func worstCaseInFees(maxMinerFee, swapFee btcutil.Amount, sweepEst chainfee.SatPerKWeight) btcutil.Amount { failureFee := maxMinerFee + loopInSweepFee(sweepEst) successFee := maxMinerFee + swapFee if failureFee > successFee { return failureFee } return successFee } // loopInSweepFee provides an estimated fee for our sweep transaction, based // on the fee rate provided. We can calculate our fees for htlcv2 and p2wkh // timeout addresses because automated loop ins will be handled entirely by the // client, so we know what types will be used. func loopInSweepFee(fee chainfee.SatPerKWeight) btcutil.Amount { var estimator input.TxWeightEstimator // We sweep loop in swaps to wpkh addresses provided by lnd. estimator.AddP2WKHOutput() // Create a htlcv2, which is what all autoloops will use, so that we // can get our maximum timeout witness size. htlc := swap.HtlcScriptV2{} maxSize := htlc.MaxTimeoutWitnessSize() estimator.AddWitnessInput(maxSize) return fee.FeeForWeight(estimator.Weight()) }