lightningnetwork / lnd / 14388908780

package routing

import (

        "context"

        "fmt"

        "math"

        "math/big"

        "sort"

        "sync"

        "sync/atomic"

        "time"

        "github.com/btcsuite/btcd/btcec/v2"

        "github.com/btcsuite/btcd/btcutil"

        "github.com/davecgh/go-spew/spew"

        "github.com/go-errors/errors"

        "github.com/lightningnetwork/lnd/amp"

        "github.com/lightningnetwork/lnd/channeldb"

        "github.com/lightningnetwork/lnd/clock"

        "github.com/lightningnetwork/lnd/fn/v2"

        "github.com/lightningnetwork/lnd/graph/db/models"

        "github.com/lightningnetwork/lnd/htlcswitch"

        "github.com/lightningnetwork/lnd/lntypes"

        "github.com/lightningnetwork/lnd/lnutils"

        "github.com/lightningnetwork/lnd/lnwallet"

        "github.com/lightningnetwork/lnd/lnwire"

        "github.com/lightningnetwork/lnd/record"

        "github.com/lightningnetwork/lnd/routing/route"

        "github.com/lightningnetwork/lnd/routing/shards"

        "github.com/lightningnetwork/lnd/tlv"

        "github.com/lightningnetwork/lnd/zpay32"

)

const (

        // DefaultPayAttemptTimeout is the default payment attempt timeout. The

        // payment attempt timeout defines the duration after which we stop

        // trying more routes for a payment.

        DefaultPayAttemptTimeout = time.Second * 60

        // MinCLTVDelta is the minimum CLTV value accepted by LND for all

        // timelock deltas. This includes both forwarding CLTV deltas set on

        // channel updates, as well as final CLTV deltas used to create BOLT 11

        // payment requests.

        //

        // NOTE: For payment requests, BOLT 11 stipulates that a final CLTV

        // delta of 9 should be used when no value is decoded. This however

        // leads to inflexibility in upgrading this default parameter, since it

        // can create inconsistencies around the assumed value between sender

        // and receiver. Specifically, if the receiver assumes a higher value

        // than the sender, the receiver will always see the received HTLCs as

        // invalid due to their timelock not meeting the required delta.

        //

        // We skirt this by always setting an explicit CLTV delta when creating

        // invoices. This allows LND nodes to freely update the minimum without

        // creating incompatibilities during the upgrade process. For some time

        // LND has used an explicit default final CLTV delta of 40 blocks for

        // bitcoin, though we now clamp the lower end of this

        // range for user-chosen deltas to 18 blocks to be conservative.

        MinCLTVDelta = 18

        // MaxCLTVDelta is the maximum CLTV value accepted by LND for all

        // timelock deltas.

        MaxCLTVDelta = math.MaxUint16

)

var (

        // ErrRouterShuttingDown is returned if the router is in the process of

        // shutting down.

        ErrRouterShuttingDown = fmt.Errorf("router shutting down")

        // ErrSelfIntro is a failure returned when the source node of a

        // route request is also the introduction node. This is not yet

        // supported because LND does not support blinded forwardingg.

        ErrSelfIntro = errors.New("introduction point as own node not " +

                "supported")

        // ErrHintsAndBlinded is returned if a route request has both

        // bolt 11 route hints and a blinded path set.

        ErrHintsAndBlinded = errors.New("bolt 11 route hints and blinded " +

                "paths are mutually exclusive")

        // ErrExpiryAndBlinded is returned if a final cltv and a blinded path

        // are provided, as the cltv should be provided within the blinded

        // path.

        ErrExpiryAndBlinded = errors.New("final cltv delta and blinded " +

                "paths are mutually exclusive")

        // ErrTargetAndBlinded is returned is a target destination and a

        // blinded path are both set (as the target is inferred from the

        // blinded path).

        ErrTargetAndBlinded = errors.New("target node and blinded paths " +

                "are mutually exclusive")

        // ErrNoTarget is returned when the target node for a route is not

        // provided by either a blinded route or a cleartext pubkey.

        ErrNoTarget = errors.New("destination not set in target or blinded " +

                "path")

        // ErrSkipTempErr is returned when a non-MPP is made yet the

        // skipTempErr flag is set.

        ErrSkipTempErr = errors.New("cannot skip temp error for non-MPP")

)

// PaymentAttemptDispatcher is used by the router to send payment attempts onto

// the network, and receive their results.

type PaymentAttemptDispatcher interface {

        // SendHTLC is a function that directs a link-layer switch to

        // forward a fully encoded payment to the first hop in the route

        // denoted by its public key. A non-nil error is to be returned if the

        // payment was unsuccessful.

        SendHTLC(firstHop lnwire.ShortChannelID,

                attemptID uint64,

                htlcAdd *lnwire.UpdateAddHTLC) error

        // GetAttemptResult returns the result of the payment attempt with

        // the given attemptID. The paymentHash should be set to the payment's

        // overall hash, or in case of AMP payments the payment's unique

        // identifier.

        //

        // The method returns a channel where the payment result will be sent

        // when available, or an error is encountered during forwarding. When a

        // result is received on the channel, the HTLC is guaranteed to no

        // longer be in flight.  The switch shutting down is signaled by

        // closing the channel. If the attemptID is unknown,

        // ErrPaymentIDNotFound will be returned.

        GetAttemptResult(attemptID uint64, paymentHash lntypes.Hash,

                deobfuscator htlcswitch.ErrorDecrypter) (

                <-chan *htlcswitch.PaymentResult, error)

        // CleanStore calls the underlying result store, telling it is safe to

        // delete all entries except the ones in the keepPids map. This should

        // be called periodically to let the switch clean up payment results

        // that we have handled.

        // NOTE: New payment attempts MUST NOT be made after the keepPids map

        // has been created and this method has returned.

        CleanStore(keepPids map[uint64]struct{}) error

        // HasAttemptResult reads the network result store to fetch the

        // specified attempt. Returns true if the attempt result exists.

        //

        // NOTE: This method is used and should only be used by the router to

        // resume payments during startup. It can be viewed as a subset of

        // `GetAttemptResult` in terms of its functionality, and can be removed

        // once we move the construction of `UpdateAddHTLC` and

        // `ErrorDecrypter` into `htlcswitch`.

        HasAttemptResult(attemptID uint64) (bool, error)

}

// PaymentSessionSource is an interface that defines a source for the router to

// retrieve new payment sessions.

type PaymentSessionSource interface {

        // NewPaymentSession creates a new payment session that will produce

        // routes to the given target. An optional set of routing hints can be

        // provided in order to populate additional edges to explore when

        // finding a path to the payment's destination.

        NewPaymentSession(p *LightningPayment,

                firstHopBlob fn.Option[tlv.Blob],

                ts fn.Option[htlcswitch.AuxTrafficShaper]) (PaymentSession,

                error)

        // NewPaymentSessionEmpty creates a new paymentSession instance that is

        // empty, and will be exhausted immediately. Used for failure reporting

        // to missioncontrol for resumed payment we don't want to make more

        // attempts for.

        NewPaymentSessionEmpty() PaymentSession

}

// MissionControlQuerier is an interface that exposes failure reporting and

// probability estimation.

type MissionControlQuerier interface {

        // ReportPaymentFail reports a failed payment to mission control as

        // input for future probability estimates. It returns a bool indicating

        // whether this error is a final error and no further payment attempts

        // need to be made.

        ReportPaymentFail(attemptID uint64, rt *route.Route,

                failureSourceIdx *int, failure lnwire.FailureMessage) (

                *channeldb.FailureReason, error)

        // ReportPaymentSuccess reports a successful payment to mission control

        // as input for future probability estimates.

        ReportPaymentSuccess(attemptID uint64, rt *route.Route) error

        // GetProbability is expected to return the success probability of a

        // payment from fromNode along edge.

        GetProbability(fromNode, toNode route.Vertex,

                amt lnwire.MilliSatoshi, capacity btcutil.Amount) float64

}

// FeeSchema is the set fee configuration for a Lightning Node on the network.

// Using the coefficients described within the schema, the required fee to

// forward outgoing payments can be derived.

type FeeSchema struct {

        // BaseFee is the base amount of milli-satoshis that will be chained

        // for ANY payment forwarded.

        BaseFee lnwire.MilliSatoshi

        // FeeRate is the rate that will be charged for forwarding payments.

        // This value should be interpreted as the numerator for a fraction

        // (fixed point arithmetic) whose denominator is 1 million. As a result

        // the effective fee rate charged per mSAT will be: (amount *

        // FeeRate/1,000,000).

        FeeRate uint32

        // InboundFee is the inbound fee schedule that applies to forwards

        // coming in through a channel to which this FeeSchema pertains.

        InboundFee fn.Option[models.InboundFee]

}

// ChannelPolicy holds the parameters that determine the policy we enforce

// when forwarding payments on a channel. These parameters are communicated

// to the rest of the network in ChannelUpdate messages.

type ChannelPolicy struct {

        // FeeSchema holds the fee configuration for a channel.

        FeeSchema

        // TimeLockDelta is the required HTLC timelock delta to be used

        // when forwarding payments.

        TimeLockDelta uint32

        // MaxHTLC is the maximum HTLC size including fees we are allowed to

        // forward over this channel.

        MaxHTLC lnwire.MilliSatoshi

        // MinHTLC is the minimum HTLC size including fees we are allowed to

        // forward over this channel.

        MinHTLC *lnwire.MilliSatoshi

}

// Config defines the configuration for the ChannelRouter. ALL elements within

// the configuration MUST be non-nil for the ChannelRouter to carry out its

// duties.

type Config struct {

        // SelfNode is the public key of the node that this channel router

        // belongs to.

        SelfNode route.Vertex

        // RoutingGraph is a graph source that will be used for pathfinding.

        RoutingGraph Graph

        // Chain is the router's source to the most up-to-date blockchain data.

        // All incoming advertised channels will be checked against the chain

        // to ensure that the channels advertised are still open.

        Chain lnwallet.BlockChainIO

        // Payer is an instance of a PaymentAttemptDispatcher and is used by

        // the router to send payment attempts onto the network, and receive

        // their results.

        Payer PaymentAttemptDispatcher

        // Control keeps track of the status of ongoing payments, ensuring we

        // can properly resume them across restarts.

        Control ControlTower

        // MissionControl is a shared memory of sorts that executions of

        // payment path finding use in order to remember which vertexes/edges

        // were pruned from prior attempts. During SendPayment execution,

        // errors sent by nodes are mapped into a vertex or edge to be pruned.

        // Each run will then take into account this set of pruned

        // vertexes/edges to reduce route failure and pass on graph information

        // gained to the next execution.

        MissionControl MissionControlQuerier

        // SessionSource defines a source for the router to retrieve new payment

        // sessions.

        SessionSource PaymentSessionSource

        // GetLink is a method that allows the router to query the lower link

        // layer to determine the up-to-date available bandwidth at a

        // prospective link to be traversed. If the link isn't available, then

        // a value of zero should be returned. Otherwise, the current up-to-

        // date knowledge of the available bandwidth of the link should be

        // returned.

        GetLink getLinkQuery

        // NextPaymentID is a method that guarantees to return a new, unique ID

        // each time it is called. This is used by the router to generate a

        // unique payment ID for each payment it attempts to send, such that

        // the switch can properly handle the HTLC.

        NextPaymentID func() (uint64, error)

        // PathFindingConfig defines global path finding parameters.

        PathFindingConfig PathFindingConfig

        // Clock is mockable time provider.

        Clock clock.Clock

        // ApplyChannelUpdate can be called to apply a new channel update to the

        // graph that we received from a payment failure.

        ApplyChannelUpdate func(msg *lnwire.ChannelUpdate1) bool

        // ClosedSCIDs is used by the router to fetch closed channels.

        //

        // TODO(yy): remove it once the root cause of stuck payments is found.

        ClosedSCIDs map[lnwire.ShortChannelID]struct{}

        // TrafficShaper is an optional traffic shaper that can be used to

        // control the outgoing channel of a payment.

        TrafficShaper fn.Option[htlcswitch.AuxTrafficShaper]

}

// EdgeLocator is a struct used to identify a specific edge.

type EdgeLocator struct {

        // ChannelID is the channel of this edge.

        ChannelID uint64

        // Direction takes the value of 0 or 1 and is identical in definition to

        // the channel direction flag. A value of 0 means the direction from the

        // lower node pubkey to the higher.

        Direction uint8

}

// String returns a human-readable version of the edgeLocator values.

// ChannelRouter is the layer 3 router within the Lightning stack. Below the

// ChannelRouter is the HtlcSwitch, and below that is the Bitcoin blockchain

// itself. The primary role of the ChannelRouter is to respond to queries for

// potential routes that can support a payment amount, and also general graph

// reachability questions. The router will prune the channel graph

// automatically as new blocks are discovered which spend certain known funding

// outpoints, thereby closing their respective channels.

type ChannelRouter struct {

        started uint32 // To be used atomically.

        stopped uint32 // To be used atomically.

        // cfg is a copy of the configuration struct that the ChannelRouter was

        // initialized with.

        cfg *Config

        quit chan struct{}

        wg   sync.WaitGroup

}

// New creates a new instance of the ChannelRouter with the specified

// configuration parameters. As part of initialization, if the router detects

// that the channel graph isn't fully in sync with the latest UTXO (since the

// channel graph is a subset of the UTXO set) set, then the router will proceed

// to fully sync to the latest state of the UTXO set.

// Start launches all the goroutines the ChannelRouter requires to carry out

// its duties. If the router has already been started, then this method is a

// noop.

}

// Stop signals the ChannelRouter to gracefully halt all routines. This method

// will *block* until all goroutines have excited. If the channel router has

// already stopped then this method will return immediately.

}

// RouteRequest contains the parameters for a pathfinding request. It may

// describe a request to make a regular payment or one to a blinded path

// (incdicated by a non-nil BlindedPayment field).

type RouteRequest struct {

        // Source is the node that the path originates from.

        Source route.Vertex

        // Target is the node that the path terminates at. If the route

        // includes a blinded path, target will be the blinded node id of the

        // final hop in the blinded route.

        Target route.Vertex

        // Amount is the Amount in millisatoshis to be delivered to the target

        // node.

        Amount lnwire.MilliSatoshi

        // TimePreference expresses the caller's time preference for

        // pathfinding.

        TimePreference float64

        // Restrictions provides a set of additional Restrictions that the

        // route must adhere to.

        Restrictions *RestrictParams

        // CustomRecords is a set of custom tlv records to include for the

        // final hop.

        CustomRecords record.CustomSet

        // RouteHints contains an additional set of edges to include in our

        // view of the graph. This may either be a set of hints for private

        // channels or a "virtual" hop hint that represents a blinded route.

        RouteHints RouteHints

        // FinalExpiry is the cltv delta for the final hop. If paying to a

        // blinded path, this value is a duplicate of the delta provided

        // in blinded payment.

        FinalExpiry uint16

        // BlindedPathSet contains a set of optional blinded paths and

        // parameters used to reach a target node blinded paths. This field is

        // mutually exclusive with the Target field.

        BlindedPathSet *BlindedPaymentPathSet

}

// RouteHints is an alias type for a set of route hints, with the source node

// as the map's key and the details of the hint(s) in the edge policy.

type RouteHints map[route.Vertex][]AdditionalEdge

// NewRouteRequest produces a new route request for a regular payment or one

// to a blinded route, validating that the target, routeHints and finalExpiry

// parameters are mutually exclusive with the blindedPayment parameter (which

// contains these values for blinded payments).

func NewRouteRequest(source route.Vertex, target *route.Vertex,

        amount lnwire.MilliSatoshi, timePref float64,

        restrictions *RestrictParams, customRecords record.CustomSet,

        routeHints RouteHints, blindedPathSet *BlindedPaymentPathSet,

                // Check that the values for a clear path have not been set,

                // as this is an ambiguous signal from the caller.

        }

}

func getTargetNode(target *route.Vertex,

        }

}

// FindRoute attempts to query the ChannelRouter for the optimum path to a

// particular target destination to which it is able to send `amt` after

// factoring in channel capacities and cumulative fees along the route.

func (r *ChannelRouter) FindRoute(req *RouteRequest) (*route.Route, float64,

        // We'll fetch the current block height, so we can properly calculate

        // the required HTLC time locks within the route.

        // Now that we know the destination is reachable within the graph, we'll

        // execute our path finding algorithm.

        // Create the route with absolute time lock values.

}

// probabilitySource defines the signature of a function that can be used to

// query the success probability of sending a given amount between the two

// given vertices.

type probabilitySource func(route.Vertex, route.Vertex, lnwire.MilliSatoshi,

        btcutil.Amount) float64

// BlindedPathRestrictions are a set of constraints to adhere to when

// choosing a set of blinded paths to this node.

type BlindedPathRestrictions struct {

        // MinDistanceFromIntroNode is the minimum number of _real_ (non-dummy)

        // hops to include in a blinded path. Since we post-fix dummy hops, this

        // is the minimum distance between our node and the introduction node

        // of the path. This doesn't include our node, so if the minimum is 1,

        // then the path will contain at minimum our node along with an

        // introduction node hop.

        MinDistanceFromIntroNode uint8

        // NumHops is the number of hops that each blinded path should consist

        // of. If paths are found with a number of hops less that NumHops, then

        // dummy hops will be padded on to the route. This value doesn't

        // include our node, so if the maximum is 1, then the path will contain

        // our node along with an introduction node hop.

        NumHops uint8

        // MaxNumPaths is the maximum number of blinded paths to select.

        MaxNumPaths uint8

        // NodeOmissionSet is a set of nodes that should not be used within any

        // of the blinded paths that we generate.

        NodeOmissionSet fn.Set[route.Vertex]

}

// FindBlindedPaths finds a selection of paths to the destination node that can

// be used in blinded payment paths.

func (r *ChannelRouter) FindBlindedPaths(destination route.Vertex,

        amt lnwire.MilliSatoshi, probabilitySrc probabilitySource,

        // routeWithProbability groups a route with the probability of a

        // payment of the given amount succeeding on that path.

                // Don't bother adding a route if its success probability less

                // minimum that can be assigned to any single pair.

                }

        }

        // Sort the routes based on probability.

        // Now just choose the best paths up until the maximum number of allowed

        // paths.

                }

        }

}

// generateNewSessionKey generates a new ephemeral private key to be used for a

// payment attempt.

// LightningPayment describes a payment to be sent through the network to the

// final destination.

type LightningPayment struct {

        // Target is the node in which the payment should be routed towards.

        Target route.Vertex

        // Amount is the value of the payment to send through the network in

        // milli-satoshis.

        Amount lnwire.MilliSatoshi

        // FeeLimit is the maximum fee in millisatoshis that the payment should

        // accept when sending it through the network. The payment will fail

        // if there isn't a route with lower fees than this limit.

        FeeLimit lnwire.MilliSatoshi

        // CltvLimit is the maximum time lock that is allowed for attempts to

        // complete this payment.

        CltvLimit uint32

        // paymentHash is the r-hash value to use within the HTLC extended to

        // the first hop. This won't be set for AMP payments.

        paymentHash *lntypes.Hash

        // amp is an optional field that is set if and only if this is am AMP

        // payment.

        amp *AMPOptions

        // FinalCLTVDelta is the CTLV expiry delta to use for the _final_ hop

        // in the route. This means that the final hop will have a CLTV delta

        // of at least: currentHeight + FinalCLTVDelta.

        FinalCLTVDelta uint16

        // PayAttemptTimeout is a timeout value that we'll use to determine

        // when we should should abandon the payment attempt after consecutive

        // payment failure. This prevents us from attempting to send a payment

        // indefinitely. A zero value means the payment will never time out.

        //

        // TODO(halseth): make wallclock time to allow resume after startup.

        PayAttemptTimeout time.Duration

        // RouteHints represents the different routing hints that can be used to

        // assist a payment in reaching its destination successfully. These

        // hints will act as intermediate hops along the route.

        //

        // NOTE: This is optional unless required by the payment. When providing

        // multiple routes, ensure the hop hints within each route are chained

        // together and sorted in forward order in order to reach the

        // destination successfully. This is mutually exclusive to the

        // BlindedPayment field.

        RouteHints [][]zpay32.HopHint

        // BlindedPathSet holds the information about a set of blinded paths to

        // the payment recipient. This is mutually exclusive to the RouteHints

        // field.

        BlindedPathSet *BlindedPaymentPathSet

        // OutgoingChannelIDs is the list of channels that are allowed for the

        // first hop. If nil, any channel may be used.

        OutgoingChannelIDs []uint64

        // LastHop is the pubkey of the last node before the final destination

        // is reached. If nil, any node may be used.

        LastHop *route.Vertex

        // DestFeatures specifies the set of features we assume the final node

        // has for pathfinding. Typically, these will be taken directly from an

        // invoice, but they can also be manually supplied or assumed by the

        // sender. If a nil feature vector is provided, the router will try to

        // fall back to the graph in order to load a feature vector for a node

        // in the public graph.

        DestFeatures *lnwire.FeatureVector

        // PaymentAddr is the payment address specified by the receiver. This

        // field should be a random 32-byte nonce presented in the receiver's

        // invoice to prevent probing of the destination.

        PaymentAddr *[32]byte

        // PaymentRequest is an optional payment request that this payment is

        // attempting to complete.

        PaymentRequest []byte

        // DestCustomRecords are TLV records that are to be sent to the final

        // hop in the new onion payload format. If the destination does not

        // understand this new onion payload format, then the payment will

        // fail.

        DestCustomRecords record.CustomSet

        // FirstHopCustomRecords are the TLV records that are to be sent to the

        // first hop of this payment. These records will be transmitted via the

        // wire message and therefore do not affect the onion payload size.

        FirstHopCustomRecords lnwire.CustomRecords

        // MaxParts is the maximum number of partial payments that may be used

        // to complete the full amount.

        MaxParts uint32

        // MaxShardAmt is the largest shard that we'll attempt to split using.

        // If this field is set, and we need to split, rather than attempting

        // half of the original payment amount, we'll use this value if half

        // the payment amount is greater than it.

        //

        // NOTE: This field is _optional_.

        MaxShardAmt *lnwire.MilliSatoshi

        // TimePref is the time preference for this payment. Set to -1 to

        // optimize for fees only, to 1 to optimize for reliability only or a

        // value in between for a mix.

        TimePref float64

        // Metadata is additional data that is sent along with the payment to

        // the payee.

        Metadata []byte

}

// AMPOptions houses information that must be known in order to send an AMP

// payment.

type AMPOptions struct {

        SetID     [32]byte

        RootShare [32]byte

}

// SetPaymentHash sets the given hash as the payment's overall hash. This

// should only be used for non-AMP payments.

}

// SetAMP sets the given AMP options for the payment.

}

// Identifier returns a 32-byte slice that uniquely identifies this single

// payment. For non-AMP payments this will be the payment hash, for AMP

// payments this will be the used SetID.

}

// SendPayment attempts to send a payment as described within the passed

// LightningPayment. This function is blocking and will return either: when the

// payment is successful, or all candidates routes have been attempted and

// resulted in a failed payment. If the payment succeeds, then a non-nil Route

// will be returned which describes the path the successful payment traversed

// within the network to reach the destination. Additionally, the payment

// preimage will also be returned.

func (r *ChannelRouter) SendPayment(payment *LightningPayment) ([32]byte,

}

// SendPaymentAsync is the non-blocking version of SendPayment. The payment

// result needs to be retrieved via the control tower.

func (r *ChannelRouter) SendPaymentAsync(ctx context.Context,

        }()

}

// spewPayment returns a log closures that provides a spewed string

// representation of the passed payment.

                }

        })

}

// PreparePayment creates the payment session and registers the payment with the

// control tower.

func (r *ChannelRouter) PreparePayment(payment *LightningPayment) (