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262 lines
8.2 KiB
Go
262 lines
8.2 KiB
Go
package routing
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import (
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"time"
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"github.com/lightningnetwork/lnd/routing/route"
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)
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// missionControlState is an object that manages the internal mission control
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// state. Note that it isn't thread safe and synchronization needs to be
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// enforced externally.
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type missionControlState struct {
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// lastPairResult tracks the last payment result (on a pair basis) for
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// each transited node. This is a multi-layer map that allows us to look
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// up the failure history of all connected channels (node pairs) for a
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// particular node.
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lastPairResult map[route.Vertex]NodeResults
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// lastSecondChance tracks the last time a second chance was granted for
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// a directed node pair.
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lastSecondChance map[DirectedNodePair]time.Time
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// minFailureRelaxInterval is the minimum time that must have passed
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// since the previously recorded failure before the failure amount may
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// be raised.
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minFailureRelaxInterval time.Duration
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}
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// newMissionControlState instantiates a new mission control state object.
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func newMissionControlState(
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minFailureRelaxInterval time.Duration) *missionControlState {
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return &missionControlState{
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lastPairResult: make(map[route.Vertex]NodeResults),
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lastSecondChance: make(map[DirectedNodePair]time.Time),
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minFailureRelaxInterval: minFailureRelaxInterval,
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}
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}
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// getLastPairResult returns the current state for connections to the given node.
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func (m *missionControlState) getLastPairResult(node route.Vertex) (NodeResults,
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bool) {
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result, ok := m.lastPairResult[node]
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return result, ok
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}
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// ResetHistory resets the history of MissionControl returning it to a state as
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// if no payment attempts have been made.
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func (m *missionControlState) resetHistory() {
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m.lastPairResult = make(map[route.Vertex]NodeResults)
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m.lastSecondChance = make(map[DirectedNodePair]time.Time)
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}
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// setLastPairResult stores a result for a node pair.
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func (m *missionControlState) setLastPairResult(fromNode, toNode route.Vertex,
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timestamp time.Time, result *pairResult) {
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nodePairs, ok := m.lastPairResult[fromNode]
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if !ok {
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nodePairs = make(NodeResults)
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m.lastPairResult[fromNode] = nodePairs
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}
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current := nodePairs[toNode]
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// Apply the new result to the existing data for this pair. If there is
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// no existing data, apply it to the default values for TimedPairResult.
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if result.success {
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successAmt := result.amt
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current.SuccessTime = timestamp
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// Only update the success amount if this amount is higher. This
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// prevents the success range from shrinking when there is no
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// reason to do so. For example: small amount probes shouldn't
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// affect a previous success for a much larger amount.
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if successAmt > current.SuccessAmt {
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current.SuccessAmt = successAmt
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}
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// If the success amount goes into the failure range, move the
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// failure range up. Future attempts up to the success amount
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// are likely to succeed. We don't want to clear the failure
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// completely, because we haven't learnt much for amounts above
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// the current success amount.
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if !current.FailTime.IsZero() && successAmt >= current.FailAmt {
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current.FailAmt = successAmt + 1
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}
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} else {
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// For failures we always want to update both the amount and the
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// time. Those need to relate to the same result, because the
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// time is used to gradually diminish the penality for that
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// specific result. Updating the timestamp but not the amount
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// could cause a failure for a lower amount (a more severe
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// condition) to be revived as if it just happened.
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failAmt := result.amt
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// Drop result if it would increase the failure amount too soon
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// after a previous failure. This can happen if htlc results
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// come in out of order. This check makes it easier for payment
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// processes to converge to a final state.
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failInterval := timestamp.Sub(current.FailTime)
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if failAmt > current.FailAmt &&
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failInterval < m.minFailureRelaxInterval {
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log.Debugf("Ignoring higher amount failure within min "+
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"failure relaxation interval: prev_fail_amt=%v, "+
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"fail_amt=%v, interval=%v",
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current.FailAmt, failAmt, failInterval)
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return
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}
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current.FailTime = timestamp
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current.FailAmt = failAmt
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switch {
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// The failure amount is set to zero when the failure is
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// amount-independent, meaning that the attempt would have
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// failed regardless of the amount. This should also reset the
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// success amount to zero.
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case failAmt == 0:
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current.SuccessAmt = 0
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// If the failure range goes into the success range, move the
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// success range down.
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case failAmt <= current.SuccessAmt:
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current.SuccessAmt = failAmt - 1
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}
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}
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log.Debugf("Setting %v->%v range to [%v-%v]",
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fromNode, toNode, current.SuccessAmt, current.FailAmt)
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nodePairs[toNode] = current
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}
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// setAllFail stores a fail result for all known connections to and from the
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// given node.
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func (m *missionControlState) setAllFail(node route.Vertex,
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timestamp time.Time) {
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for fromNode, nodePairs := range m.lastPairResult {
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for toNode := range nodePairs {
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if fromNode == node || toNode == node {
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nodePairs[toNode] = TimedPairResult{
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FailTime: timestamp,
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}
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}
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}
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}
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}
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// requestSecondChance checks whether the node fromNode can have a second chance
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// at providing a channel update for its channel with toNode.
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func (m *missionControlState) requestSecondChance(timestamp time.Time,
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fromNode, toNode route.Vertex) bool {
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// Look up previous second chance time.
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pair := DirectedNodePair{
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From: fromNode,
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To: toNode,
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}
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lastSecondChance, ok := m.lastSecondChance[pair]
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// If the channel hasn't already be given a second chance or its last
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// second chance was long ago, we give it another chance.
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if !ok || timestamp.Sub(lastSecondChance) > minSecondChanceInterval {
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m.lastSecondChance[pair] = timestamp
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log.Debugf("Second chance granted for %v->%v", fromNode, toNode)
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return true
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}
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// Otherwise penalize the channel, because we don't allow channel
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// updates that are that frequent. This is to prevent nodes from keeping
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// us busy by continuously sending new channel updates.
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log.Debugf("Second chance denied for %v->%v, remaining interval: %v",
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fromNode, toNode, timestamp.Sub(lastSecondChance))
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return false
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}
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// GetHistorySnapshot takes a snapshot from the current mission control state
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// and actual probability estimates.
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func (m *missionControlState) getSnapshot() *MissionControlSnapshot {
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log.Debugf("Requesting history snapshot from mission control: "+
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"pair_result_count=%v", len(m.lastPairResult))
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pairs := make([]MissionControlPairSnapshot, 0, len(m.lastPairResult))
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for fromNode, fromPairs := range m.lastPairResult {
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for toNode, result := range fromPairs {
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pair := NewDirectedNodePair(fromNode, toNode)
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pairSnapshot := MissionControlPairSnapshot{
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Pair: pair,
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TimedPairResult: result,
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}
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pairs = append(pairs, pairSnapshot)
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}
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}
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snapshot := MissionControlSnapshot{
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Pairs: pairs,
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}
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return &snapshot
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}
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// importSnapshot takes an existing snapshot and merges it with our current
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// state if the result provided are fresher than our current results. It returns
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// the number of pairs that were used.
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func (m *missionControlState) importSnapshot(snapshot *MissionControlSnapshot) int {
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var imported int
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for _, pair := range snapshot.Pairs {
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fromNode := pair.Pair.From
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toNode := pair.Pair.To
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results, found := m.getLastPairResult(fromNode)
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if !found {
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results = make(map[route.Vertex]TimedPairResult)
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}
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lastResult := results[toNode]
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failResult := failPairResult(pair.FailAmt)
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imported += m.importResult(
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lastResult.FailTime, pair.FailTime, failResult,
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fromNode, toNode,
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)
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successResult := successPairResult(pair.SuccessAmt)
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imported += m.importResult(
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lastResult.SuccessTime, pair.SuccessTime, successResult,
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fromNode, toNode,
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)
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}
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return imported
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}
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func (m *missionControlState) importResult(currentTs, importedTs time.Time,
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importedResult pairResult, fromNode, toNode route.Vertex) int {
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if currentTs.After(importedTs) {
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log.Debugf("Not setting pair result for %v->%v (%v) "+
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"success=%v, timestamp %v older than last result %v",
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fromNode, toNode, importedResult.amt,
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importedResult.success, importedTs, currentTs)
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return 0
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}
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m.setLastPairResult(fromNode, toNode, importedTs, &importedResult)
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return 1
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}
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