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516 lines
16 KiB
Go
516 lines
16 KiB
Go
package routing
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import (
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"fmt"
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"github.com/lightningnetwork/lnd/channeldb"
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"github.com/lightningnetwork/lnd/lnwire"
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"github.com/lightningnetwork/lnd/routing/route"
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)
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// Instantiate variables to allow taking a reference from the failure reason.
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var (
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reasonError = channeldb.FailureReasonError
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reasonIncorrectDetails = channeldb.FailureReasonPaymentDetails
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)
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// pairResult contains the result of the interpretation of a payment attempt for
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// a specific node pair.
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type pairResult struct {
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// amt is the amount that was forwarded for this pair. Can be set to
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// zero for failures that are amount independent.
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amt lnwire.MilliSatoshi
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// success indicates whether the payment attempt was successful through
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// this pair.
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success bool
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}
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// failPairResult creates a new result struct for a failure.
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func failPairResult(minPenalizeAmt lnwire.MilliSatoshi) pairResult {
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return pairResult{
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amt: minPenalizeAmt,
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}
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}
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// newSuccessPairResult creates a new result struct for a success.
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func successPairResult(successAmt lnwire.MilliSatoshi) pairResult {
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return pairResult{
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success: true,
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amt: successAmt,
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}
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}
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// String returns the human-readable representation of a pair result.
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func (p pairResult) String() string {
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var resultType string
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if p.success {
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resultType = "success"
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} else {
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resultType = "failed"
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}
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return fmt.Sprintf("%v (amt=%v)", resultType, p.amt)
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}
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// interpretedResult contains the result of the interpretation of a payment
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// attempt.
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type interpretedResult struct {
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// nodeFailure points to a node pubkey if all channels of that node are
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// responsible for the result.
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nodeFailure *route.Vertex
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// pairResults contains a map of node pairs for which we have a result.
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pairResults map[DirectedNodePair]pairResult
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// finalFailureReason is set to a non-nil value if it makes no more
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// sense to start another payment attempt. It will contain the reason
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// why.
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finalFailureReason *channeldb.FailureReason
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// policyFailure is set to a node pair if there is a policy failure on
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// that connection. This is used to control the second chance logic for
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// policy failures.
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policyFailure *DirectedNodePair
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}
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// interpretResult interprets a payment outcome and returns an object that
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// contains information required to update mission control.
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func interpretResult(rt *route.Route, success bool, failureSrcIdx *int,
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failure lnwire.FailureMessage) *interpretedResult {
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i := &interpretedResult{
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pairResults: make(map[DirectedNodePair]pairResult),
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}
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if success {
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i.processSuccess(rt)
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} else {
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i.processFail(rt, failureSrcIdx, failure)
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}
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return i
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}
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// processSuccess processes a successful payment attempt.
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func (i *interpretedResult) processSuccess(route *route.Route) {
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// For successes, all nodes must have acted in the right way. Therefore
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// we mark all of them with a success result.
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i.successPairRange(route, 0, len(route.Hops)-1)
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}
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// processFail processes a failed payment attempt.
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func (i *interpretedResult) processFail(
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rt *route.Route, errSourceIdx *int,
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failure lnwire.FailureMessage) {
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if errSourceIdx == nil {
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i.processPaymentOutcomeUnknown(rt)
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return
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}
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switch *errSourceIdx {
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// We are the source of the failure.
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case 0:
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i.processPaymentOutcomeSelf(rt, failure)
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// A failure from the final hop was received.
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case len(rt.Hops):
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i.processPaymentOutcomeFinal(
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rt, failure,
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)
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// An intermediate hop failed. Interpret the outcome, update reputation
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// and try again.
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default:
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i.processPaymentOutcomeIntermediate(
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rt, *errSourceIdx, failure,
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)
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}
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}
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// processPaymentOutcomeSelf handles failures sent by ourselves.
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func (i *interpretedResult) processPaymentOutcomeSelf(
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rt *route.Route, failure lnwire.FailureMessage) {
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switch failure.(type) {
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// We receive a malformed htlc failure from our peer. We trust ourselves
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// to send the correct htlc, so our peer must be at fault.
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case *lnwire.FailInvalidOnionVersion,
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*lnwire.FailInvalidOnionHmac,
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*lnwire.FailInvalidOnionKey:
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i.failNode(rt, 1)
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// If this was a payment to a direct peer, we can stop trying.
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if len(rt.Hops) == 1 {
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i.finalFailureReason = &reasonError
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}
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// Any other failure originating from ourselves should be temporary and
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// caused by changing conditions between path finding and execution of
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// the payment. We just retry and trust that the information locally
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// available in the link has been updated.
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default:
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log.Warnf("Routing failure for local channel %v occurred",
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rt.Hops[0].ChannelID)
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}
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}
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// processPaymentOutcomeFinal handles failures sent by the final hop.
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func (i *interpretedResult) processPaymentOutcomeFinal(
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route *route.Route, failure lnwire.FailureMessage) {
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n := len(route.Hops)
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// If a failure from the final node is received, we will fail the
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// payment in almost all cases. Only when the penultimate node sends an
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// incorrect htlc, we want to retry via another route. Invalid onion
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// failures are not expected, because the final node wouldn't be able to
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// encrypt that failure.
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switch failure.(type) {
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// Expiry or amount of the HTLC doesn't match the onion, try another
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// route.
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case *lnwire.FailFinalIncorrectCltvExpiry,
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*lnwire.FailFinalIncorrectHtlcAmount:
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// We trust ourselves. If this is a direct payment, we penalize
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// the final node and fail the payment.
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if n == 1 {
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i.failNode(route, n)
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i.finalFailureReason = &reasonError
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return
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}
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// Otherwise penalize the last pair of the route and retry.
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// Either the final node is at fault, or it gets sent a bad htlc
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// from its predecessor.
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i.failPair(route, n-1)
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// The other hops relayed correctly, so assign those pairs a
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// success result. At this point, n >= 2.
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i.successPairRange(route, 0, n-2)
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// We are using wrong payment hash or amount, fail the payment.
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case *lnwire.FailIncorrectPaymentAmount,
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*lnwire.FailIncorrectDetails:
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// Assign all pairs a success result, as the payment reached the
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// destination correctly.
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i.successPairRange(route, 0, n-1)
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i.finalFailureReason = &reasonIncorrectDetails
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// The HTLC that was extended to the final hop expires too soon. Fail
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// the payment, because we may be using the wrong final cltv delta.
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case *lnwire.FailFinalExpiryTooSoon:
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// TODO(roasbeef): can happen to to race condition, try again
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// with recent block height
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// TODO(joostjager): can also happen because a node delayed
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// deliberately. What to penalize?
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i.finalFailureReason = &reasonIncorrectDetails
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case *lnwire.FailMPPTimeout:
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// Assign all pairs a success result, as the payment reached the
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// destination correctly. Continue the payment process.
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i.successPairRange(route, 0, n-1)
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default:
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// All other errors are considered terminal if coming from the
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// final hop. They indicate that something is wrong at the
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// recipient, so we do apply a penalty.
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i.failNode(route, n)
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// Other channels in the route forwarded correctly.
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if n >= 2 {
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i.successPairRange(route, 0, n-2)
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}
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i.finalFailureReason = &reasonError
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}
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}
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// processPaymentOutcomeIntermediate handles failures sent by an intermediate
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// hop.
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func (i *interpretedResult) processPaymentOutcomeIntermediate(
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route *route.Route, errorSourceIdx int,
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failure lnwire.FailureMessage) {
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reportOutgoing := func() {
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i.failPair(
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route, errorSourceIdx,
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)
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}
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reportOutgoingBalance := func() {
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i.failPairBalance(
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route, errorSourceIdx,
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)
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// All nodes up to the failing pair must have forwarded
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// successfully.
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i.successPairRange(route, 0, errorSourceIdx-1)
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}
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reportIncoming := func() {
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// We trust ourselves. If the error comes from the first hop, we
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// can penalize the whole node. In that case there is no
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// uncertainty as to which node to blame.
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if errorSourceIdx == 1 {
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i.failNode(route, errorSourceIdx)
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return
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}
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// Otherwise report the incoming pair.
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i.failPair(
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route, errorSourceIdx-1,
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)
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// All nodes up to the failing pair must have forwarded
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// successfully.
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if errorSourceIdx > 1 {
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i.successPairRange(route, 0, errorSourceIdx-2)
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}
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}
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reportNode := func() {
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// Fail only the node that reported the failure.
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i.failNode(route, errorSourceIdx)
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// Other preceding channels in the route forwarded correctly.
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if errorSourceIdx > 1 {
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i.successPairRange(route, 0, errorSourceIdx-2)
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}
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}
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reportAll := func() {
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// We trust ourselves. If the error comes from the first hop, we
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// can penalize the whole node. In that case there is no
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// uncertainty as to which node to blame.
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if errorSourceIdx == 1 {
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i.failNode(route, errorSourceIdx)
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return
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}
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// Otherwise penalize all pairs up to the error source. This
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// includes our own outgoing connection.
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i.failPairRange(
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route, 0, errorSourceIdx-1,
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)
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}
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switch failure.(type) {
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// If a node reports onion payload corruption or an invalid version,
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// that node may be responsible, but it could also be that it is just
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// relaying a malformed htlc failure from it successor. By reporting the
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// outgoing channel set, we will surely hit the responsible node. At
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// this point, it is not possible that the node's predecessor corrupted
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// the onion blob. If the predecessor would have corrupted the payload,
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// the error source wouldn't have been able to encrypt this failure
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// message for us.
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case *lnwire.FailInvalidOnionVersion,
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*lnwire.FailInvalidOnionHmac,
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*lnwire.FailInvalidOnionKey:
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reportOutgoing()
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// If InvalidOnionPayload is received, we penalize only the reporting
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// node. We know the preceding hop didn't corrupt the onion, since the
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// reporting node is able to send the failure. We assume that we
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// constructed a valid onion payload and that the failure is most likely
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// an unknown required type or a bug in their implementation.
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case *lnwire.InvalidOnionPayload:
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reportNode()
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// If the next hop in the route wasn't known or offline, we'll only
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// penalize the channel set which we attempted to route over. This is
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// conservative, and it can handle faulty channels between nodes
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// properly. Additionally, this guards against routing nodes returning
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// errors in order to attempt to black list another node.
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case *lnwire.FailUnknownNextPeer:
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reportOutgoing()
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// Some implementations use this error when the next hop is offline, so we
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// do the same as FailUnknownNextPeer and also process the channel update.
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case *lnwire.FailChannelDisabled:
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// Set the node pair for which a channel update may be out of
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// date. The second chance logic uses the policyFailure field.
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i.policyFailure = &DirectedNodePair{
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From: route.Hops[errorSourceIdx-1].PubKeyBytes,
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To: route.Hops[errorSourceIdx].PubKeyBytes,
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}
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reportOutgoing()
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// All nodes up to the failing pair must have forwarded
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// successfully.
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i.successPairRange(route, 0, errorSourceIdx-1)
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// If we get a permanent channel, we'll prune the channel set in both
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// directions and continue with the rest of the routes.
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case *lnwire.FailPermanentChannelFailure:
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reportOutgoing()
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// When an HTLC parameter is incorrect, the node sending the error may
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// be doing something wrong. But it could also be that its predecessor
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// is intentionally modifying the htlc parameters that we instructed it
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// via the hop payload. Therefore we penalize the incoming node pair. A
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// third cause of this error may be that we have an out of date channel
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// update. This is handled by the second chance logic up in mission
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// control.
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case *lnwire.FailAmountBelowMinimum,
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*lnwire.FailFeeInsufficient,
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*lnwire.FailIncorrectCltvExpiry:
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// Set the node pair for which a channel update may be out of
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// date. The second chance logic uses the policyFailure field.
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i.policyFailure = &DirectedNodePair{
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From: route.Hops[errorSourceIdx-1].PubKeyBytes,
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To: route.Hops[errorSourceIdx].PubKeyBytes,
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}
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// We report incoming channel. If a second pair is granted in
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// mission control, this report is ignored.
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reportIncoming()
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// If the outgoing channel doesn't have enough capacity, we penalize.
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// But we penalize only in a single direction and only for amounts
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// greater than the attempted amount.
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case *lnwire.FailTemporaryChannelFailure:
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reportOutgoingBalance()
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// If FailExpiryTooSoon is received, there must have been some delay
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// along the path. We can't know which node is causing the delay, so we
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// penalize all of them up to the error source.
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//
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// Alternatively it could also be that we ourselves have fallen behind
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// somehow. We ignore that case for now.
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case *lnwire.FailExpiryTooSoon:
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reportAll()
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// In all other cases, we penalize the reporting node. These are all
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// failures that should not happen.
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default:
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i.failNode(route, errorSourceIdx)
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}
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}
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// processPaymentOutcomeUnknown processes a payment outcome for which no failure
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// message or source is available.
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func (i *interpretedResult) processPaymentOutcomeUnknown(route *route.Route) {
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n := len(route.Hops)
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// If this is a direct payment, the destination must be at fault.
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if n == 1 {
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i.failNode(route, n)
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i.finalFailureReason = &reasonError
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return
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}
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// Otherwise penalize all channels in the route to make sure the
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// responsible node is at least hit too. We even penalize the connection
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// to our own peer, because that peer could also be responsible.
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i.failPairRange(route, 0, n-1)
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}
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// failNode marks the node indicated by idx in the route as failed. It also
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// marks the incoming and outgoing channels of the node as failed. This function
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// intentionally panics when the self node is failed.
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func (i *interpretedResult) failNode(rt *route.Route, idx int) {
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// Mark the node as failing.
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i.nodeFailure = &rt.Hops[idx-1].PubKeyBytes
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// Mark the incoming connection as failed for the node. We intent to
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// penalize as much as we can for a node level failure, including future
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// outgoing traffic for this connection. The pair as it is returned by
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// getPair is penalized in the original and the reversed direction. Note
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// that this will also affect the score of the failing node's peers.
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// This is necessary to prevent future routes from keep going into the
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// same node again.
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incomingChannelIdx := idx - 1
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inPair, _ := getPair(rt, incomingChannelIdx)
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i.pairResults[inPair] = failPairResult(0)
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i.pairResults[inPair.Reverse()] = failPairResult(0)
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// If not the ultimate node, mark the outgoing connection as failed for
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// the node.
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if idx < len(rt.Hops) {
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outgoingChannelIdx := idx
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outPair, _ := getPair(rt, outgoingChannelIdx)
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i.pairResults[outPair] = failPairResult(0)
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i.pairResults[outPair.Reverse()] = failPairResult(0)
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}
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}
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// failPairRange marks the node pairs from node fromIdx to node toIdx as failed
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// in both direction.
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func (i *interpretedResult) failPairRange(
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rt *route.Route, fromIdx, toIdx int) {
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for idx := fromIdx; idx <= toIdx; idx++ {
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i.failPair(rt, idx)
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}
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}
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// failPair marks a pair as failed in both directions.
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func (i *interpretedResult) failPair(
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rt *route.Route, idx int) {
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pair, _ := getPair(rt, idx)
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// Report pair in both directions without a minimum penalization amount.
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i.pairResults[pair] = failPairResult(0)
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i.pairResults[pair.Reverse()] = failPairResult(0)
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}
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// failPairBalance marks a pair as failed with a minimum penalization amount.
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func (i *interpretedResult) failPairBalance(
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rt *route.Route, channelIdx int) {
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pair, amt := getPair(rt, channelIdx)
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i.pairResults[pair] = failPairResult(amt)
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}
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// successPairRange marks the node pairs from node fromIdx to node toIdx as
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// succeeded.
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func (i *interpretedResult) successPairRange(
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rt *route.Route, fromIdx, toIdx int) {
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for idx := fromIdx; idx <= toIdx; idx++ {
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pair, amt := getPair(rt, idx)
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i.pairResults[pair] = successPairResult(amt)
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}
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}
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// getPair returns a node pair from the route and the amount passed between that
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// pair.
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func getPair(rt *route.Route, channelIdx int) (DirectedNodePair,
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lnwire.MilliSatoshi) {
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nodeTo := rt.Hops[channelIdx].PubKeyBytes
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var (
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nodeFrom route.Vertex
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amt lnwire.MilliSatoshi
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)
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if channelIdx == 0 {
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nodeFrom = rt.SourcePubKey
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amt = rt.TotalAmount
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} else {
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nodeFrom = rt.Hops[channelIdx-1].PubKeyBytes
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amt = rt.Hops[channelIdx-1].AmtToForward
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}
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pair := NewDirectedNodePair(nodeFrom, nodeTo)
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return pair, amt
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}
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