package routing import ( "github.com/lightningnetwork/lnd/channeldb" "github.com/lightningnetwork/lnd/lnwire" "github.com/lightningnetwork/lnd/routing/route" ) // BlockPadding is used to increment the finalCltvDelta value for the last hop // to prevent an HTLC being failed if some blocks are mined while it's in-flight. const BlockPadding uint16 = 3 // noRouteError encodes a non-critical error encountered during path finding. type noRouteError uint8 const ( // errNoTlvPayload is returned when the destination hop does not support // a tlv payload. errNoTlvPayload noRouteError = iota // errNoPaymentAddr is returned when the destination hop does not // support payment addresses. errNoPaymentAddr // errNoPathFound is returned when a path to the target destination does // not exist in the graph. errNoPathFound // errInsufficientLocalBalance is returned when none of the local // channels have enough balance for the payment. errInsufficientBalance // errEmptyPaySession is returned when the empty payment session is // queried for a route. errEmptyPaySession ) // Error returns the string representation of the noRouteError func (e noRouteError) Error() string { switch e { case errNoTlvPayload: return "destination hop doesn't understand new TLV payloads" case errNoPaymentAddr: return "destination hop doesn't understand payment addresses" case errNoPathFound: return "unable to find a path to destination" case errEmptyPaySession: return "empty payment session" case errInsufficientBalance: return "insufficient local balance" default: return "unknown no-route error" } } // FailureReason converts a path finding error into a payment-level failure. func (e noRouteError) FailureReason() channeldb.FailureReason { switch e { case errNoTlvPayload, errNoPaymentAddr, errNoPathFound, errEmptyPaySession: return channeldb.FailureReasonNoRoute case errInsufficientBalance: return channeldb.FailureReasonInsufficientBalance default: return channeldb.FailureReasonError } } // PaymentSession is used during SendPayment attempts to provide routes to // attempt. It also defines methods to give the PaymentSession additional // information learned during the previous attempts. type PaymentSession interface { // RequestRoute returns the next route to attempt for routing the // specified HTLC payment to the target node. The returned route should // carry at most maxAmt to the target node, and pay at most feeLimit in // fees. It can carry less if the payment is MPP. The activeShards // argument should be set to instruct the payment session about the // number of in flight HTLCS for the payment, such that it can choose // splitting strategy accordingly. // // A noRouteError is returned if a non-critical error is encountered // during path finding. RequestRoute(maxAmt, feeLimit lnwire.MilliSatoshi, activeShards, height uint32) (*route.Route, error) } // paymentSession is used during an HTLC routings session to prune the local // chain view in response to failures, and also report those failures back to // MissionControl. The snapshot copied for this session will only ever grow, // and will now be pruned after a decay like the main view within mission // control. We do this as we want to avoid the case where we continually try a // bad edge or route multiple times in a session. This can lead to an infinite // loop if payment attempts take long enough. An additional set of edges can // also be provided to assist in reaching the payment's destination. type paymentSession struct { additionalEdges map[route.Vertex][]*channeldb.ChannelEdgePolicy getBandwidthHints func() (map[uint64]lnwire.MilliSatoshi, error) sessionSource *SessionSource payment *LightningPayment empty bool pathFinder pathFinder } // RequestRoute returns a route which is likely to be capable for successfully // routing the specified HTLC payment to the target node. Initially the first // set of paths returned from this method may encounter routing failure along // the way, however as more payments are sent, mission control will start to // build an up to date view of the network itself. With each payment a new area // will be explored, which feeds into the recommendations made for routing. // // NOTE: This function is safe for concurrent access. // NOTE: Part of the PaymentSession interface. func (p *paymentSession) RequestRoute(maxAmt, feeLimit lnwire.MilliSatoshi, activeShards, height uint32) (*route.Route, error) { if p.empty { return nil, errEmptyPaySession } // Add BlockPadding to the finalCltvDelta so that the receiving node // does not reject the HTLC if some blocks are mined while it's in-flight. finalCltvDelta := p.payment.FinalCLTVDelta finalCltvDelta += BlockPadding // We need to subtract the final delta before passing it into path // finding. The optimal path is independent of the final cltv delta and // the path finding algorithm is unaware of this value. cltvLimit := p.payment.CltvLimit - uint32(finalCltvDelta) // TODO(roasbeef): sync logic amongst dist sys // Taking into account this prune view, we'll attempt to locate a path // to our destination, respecting the recommendations from // MissionControl. ss := p.sessionSource restrictions := &RestrictParams{ ProbabilitySource: ss.MissionControl.GetProbability, FeeLimit: feeLimit, OutgoingChannelID: p.payment.OutgoingChannelID, LastHop: p.payment.LastHop, CltvLimit: cltvLimit, DestCustomRecords: p.payment.DestCustomRecords, DestFeatures: p.payment.DestFeatures, PaymentAddr: p.payment.PaymentAddr, } // We'll also obtain a set of bandwidthHints from the lower layer for // each of our outbound channels. This will allow the path finding to // skip any links that aren't active or just don't have enough bandwidth // to carry the payment. New bandwidth hints are queried for every new // path finding attempt, because concurrent payments may change // balances. bandwidthHints, err := p.getBandwidthHints() if err != nil { return nil, err } finalHtlcExpiry := int32(height) + int32(finalCltvDelta) path, err := p.pathFinder( &graphParams{ graph: ss.Graph, additionalEdges: p.additionalEdges, bandwidthHints: bandwidthHints, }, restrictions, &ss.PathFindingConfig, ss.SelfNode.PubKeyBytes, p.payment.Target, maxAmt, finalHtlcExpiry, ) if err != nil { return nil, err } // With the next candidate path found, we'll attempt to turn this into // a route by applying the time-lock and fee requirements. sourceVertex := route.Vertex(ss.SelfNode.PubKeyBytes) route, err := newRoute( sourceVertex, path, height, finalHopParams{ amt: maxAmt, cltvDelta: finalCltvDelta, records: p.payment.DestCustomRecords, paymentAddr: p.payment.PaymentAddr, }, ) if err != nil { // TODO(roasbeef): return which edge/vertex didn't work // out return nil, err } return route, err }