routing: change representation of pair results in mc
This commit changes the in-memory structure of the mission control state. It prepares for calculation of a node probability. For this we need to be able to efficiently look up the last results for all channels of a node.
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@ -49,6 +49,9 @@ const (
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prevSuccessProbability = 0.95
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)
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// NodeResults contains previous results from a node to its peers.
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type NodeResults map[route.Vertex]timedPairResult
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// MissionControl contains state which summarizes the past attempts of HTLC
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// routing by external callers when sending payments throughout the network. It
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// acts as a shared memory during routing attempts with the goal to optimize the
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@ -59,8 +62,11 @@ const (
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// since the last failure is used to estimate a success probability that is fed
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// into the path finding process for subsequent payment attempts.
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type MissionControl struct {
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// lastPairResult tracks the last payment result per node pair.
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lastPairResult map[DirectedNodePair]timedPairResult
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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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// lastNodeFailure tracks the last node level failure per node.
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lastNodeFailure map[route.Vertex]time.Time
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@ -180,7 +186,7 @@ func NewMissionControl(db *bbolt.DB, cfg *MissionControlConfig) (
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}
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mc := &MissionControl{
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lastPairResult: make(map[DirectedNodePair]timedPairResult),
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lastPairResult: make(map[route.Vertex]NodeResults),
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lastNodeFailure: make(map[route.Vertex]time.Time),
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lastSecondChance: make(map[DirectedNodePair]time.Time),
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now: time.Now,
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@ -226,7 +232,7 @@ func (m *MissionControl) ResetHistory() error {
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return err
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}
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m.lastPairResult = make(map[DirectedNodePair]timedPairResult)
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m.lastPairResult = make(map[route.Vertex]NodeResults)
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m.lastNodeFailure = make(map[route.Vertex]time.Time)
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m.lastSecondChance = make(map[DirectedNodePair]time.Time)
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@ -264,6 +270,36 @@ func (m *MissionControl) getProbAfterFail(lastFailure time.Time) float64 {
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return probability
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}
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// getLastPairResult gets the last recorded result for a node pair.
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func (m *MissionControl) getLastPairResult(fromNode,
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toNode route.Vertex) *timedPairResult {
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nodePairs, ok := m.lastPairResult[fromNode]
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if !ok {
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return nil
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}
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lastResult, ok := nodePairs[toNode]
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if !ok {
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return nil
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}
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return &lastResult
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}
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// setLastPairResult stores a result for a node pair.
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func (m *MissionControl) setLastPairResult(fromNode,
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toNode route.Vertex, result *timedPairResult) {
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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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nodePairs[toNode] = *result
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}
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// getPairProbability estimates the probability of successfully
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// traversing from fromNode to toNode based on historical payment outcomes.
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func (m *MissionControl) getPairProbability(fromNode,
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@ -276,13 +312,12 @@ func (m *MissionControl) getPairProbability(fromNode,
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lastFail := m.lastNodeFailure[fromNode]
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// Retrieve the last pair outcome.
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pair := NewDirectedNodePair(fromNode, toNode)
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lastPairResult, ok := m.lastPairResult[pair]
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lastPairResult := m.getLastPairResult(fromNode, toNode)
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// Only look at the last pair outcome if it happened after the last node
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// level failure. Otherwise the node level failure is the most recent
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// and used as the basis for calculation of the probability.
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if ok && lastPairResult.timestamp.After(lastFail) {
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if lastPairResult != nil && lastPairResult.timestamp.After(lastFail) {
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if lastPairResult.success {
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return prevSuccessProbability
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}
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@ -355,20 +390,26 @@ func (m *MissionControl) GetHistorySnapshot() *MissionControlSnapshot {
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pairs := make([]MissionControlPairSnapshot, 0, len(m.lastPairResult))
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for v, h := range m.lastPairResult {
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// Show probability assuming amount meets min
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// penalization amount.
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prob := m.getPairProbability(v.From, v.To, h.minPenalizeAmt)
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for fromNode, fromPairs := range m.lastPairResult {
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for toNode, result := range fromPairs {
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// Show probability assuming amount meets min
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// penalization amount.
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prob := m.getPairProbability(
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fromNode, toNode, result.minPenalizeAmt,
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)
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pair := MissionControlPairSnapshot{
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Pair: v,
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MinPenalizeAmt: h.minPenalizeAmt,
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Timestamp: h.timestamp,
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SuccessProb: prob,
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LastAttemptSuccessful: h.success,
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pair := NewDirectedNodePair(fromNode, toNode)
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pairSnapshot := MissionControlPairSnapshot{
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Pair: pair,
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MinPenalizeAmt: result.minPenalizeAmt,
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Timestamp: result.timestamp,
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SuccessProb: prob,
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LastAttemptSuccessful: result.success,
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}
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pairs = append(pairs, pairSnapshot)
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}
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pairs = append(pairs, pair)
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}
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snapshot := MissionControlSnapshot{
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@ -480,10 +521,10 @@ func (m *MissionControl) applyPaymentResult(
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pair, pairResult.minPenalizeAmt)
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}
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m.lastPairResult[pair] = timedPairResult{
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m.setLastPairResult(pair.From, pair.To, &timedPairResult{
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timestamp: result.timeReply,
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pairResult: pairResult,
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}
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})
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}
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return i.finalFailureReason
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