0735d359b9
We are going to use the config struct to allow getting and setting of the mission control config in the commits that follow. Self node is not something we want to change, so we move it out for better separation.
217 lines
5.3 KiB
Go
217 lines
5.3 KiB
Go
package routing
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import (
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"io/ioutil"
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"os"
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"testing"
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"time"
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"github.com/lightningnetwork/lnd/channeldb/kvdb"
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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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var (
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mcTestRoute = &route.Route{
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SourcePubKey: mcTestSelf,
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Hops: []*route.Hop{
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{
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ChannelID: 1,
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PubKeyBytes: route.Vertex{11},
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AmtToForward: 1000,
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LegacyPayload: true,
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},
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{
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ChannelID: 2,
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PubKeyBytes: route.Vertex{12},
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LegacyPayload: true,
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},
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},
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}
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mcTestTime = time.Date(2018, time.January, 9, 14, 00, 00, 0, time.UTC)
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mcTestSelf = route.Vertex{10}
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mcTestNode1 = mcTestRoute.Hops[0].PubKeyBytes
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mcTestNode2 = mcTestRoute.Hops[1].PubKeyBytes
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testPenaltyHalfLife = 30 * time.Minute
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testAprioriHopProbability = 0.9
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testAprioriWeight = 0.5
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)
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type mcTestContext struct {
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t *testing.T
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mc *MissionControl
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now time.Time
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db kvdb.Backend
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dbPath string
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pid uint64
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}
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func createMcTestContext(t *testing.T) *mcTestContext {
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ctx := &mcTestContext{
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t: t,
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now: mcTestTime,
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}
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file, err := ioutil.TempFile("", "*.db")
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if err != nil {
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t.Fatal(err)
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}
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ctx.dbPath = file.Name()
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ctx.db, err = kvdb.Open(
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kvdb.BoltBackendName, ctx.dbPath, true, kvdb.DefaultDBTimeout,
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)
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if err != nil {
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t.Fatal(err)
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}
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ctx.restartMc()
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return ctx
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}
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// restartMc creates a new instances of mission control on the same database.
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func (ctx *mcTestContext) restartMc() {
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mc, err := NewMissionControl(
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ctx.db, mcTestSelf,
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&MissionControlConfig{
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PenaltyHalfLife: testPenaltyHalfLife,
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AprioriHopProbability: testAprioriHopProbability,
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AprioriWeight: testAprioriWeight,
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},
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)
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if err != nil {
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ctx.t.Fatal(err)
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}
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mc.now = func() time.Time { return ctx.now }
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ctx.mc = mc
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}
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// cleanup closes the database and removes the temp file.
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func (ctx *mcTestContext) cleanup() {
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ctx.db.Close()
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os.Remove(ctx.dbPath)
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}
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// Assert that mission control returns a probability for an edge.
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func (ctx *mcTestContext) expectP(amt lnwire.MilliSatoshi, expected float64) {
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ctx.t.Helper()
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p := ctx.mc.GetProbability(mcTestNode1, mcTestNode2, amt)
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if p != expected {
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ctx.t.Fatalf("expected probability %v but got %v", expected, p)
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}
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}
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// reportFailure reports a failure by using a test route.
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func (ctx *mcTestContext) reportFailure(amt lnwire.MilliSatoshi,
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failure lnwire.FailureMessage) {
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mcTestRoute.Hops[0].AmtToForward = amt
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errorSourceIdx := 1
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ctx.mc.ReportPaymentFail(
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ctx.pid, mcTestRoute, &errorSourceIdx, failure,
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)
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}
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// reportSuccess reports a success by using a test route.
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func (ctx *mcTestContext) reportSuccess() {
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err := ctx.mc.ReportPaymentSuccess(ctx.pid, mcTestRoute)
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if err != nil {
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ctx.t.Fatal(err)
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}
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ctx.pid++
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}
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// TestMissionControl tests mission control probability estimation.
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func TestMissionControl(t *testing.T) {
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ctx := createMcTestContext(t)
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defer ctx.cleanup()
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ctx.now = testTime
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testTime := time.Date(2018, time.January, 9, 14, 00, 00, 0, time.UTC)
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// For local channels, we expect a higher probability than our a prior
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// test probability.
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selfP := ctx.mc.GetProbability(mcTestSelf, mcTestNode1, 100)
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if selfP != prevSuccessProbability {
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t.Fatalf("expected prev success prob for untried local chans")
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}
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// Initial probability is expected to be the a priori.
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ctx.expectP(1000, testAprioriHopProbability)
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// Expect probability to be zero after reporting the edge as failed.
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ctx.reportFailure(1000, lnwire.NewTemporaryChannelFailure(nil))
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ctx.expectP(1000, 0)
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// As we reported with a min penalization amt, a lower amt than reported
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// should return the node probability, which is the a priori
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// probability.
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ctx.expectP(500, testAprioriHopProbability)
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// Edge decay started. The node probability weighted average should now
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// have shifted from 1:1 to 1:0.5 -> 60%. The connection probability is
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// half way through the recovery, so we expect 30% here.
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ctx.now = testTime.Add(30 * time.Minute)
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ctx.expectP(1000, 0.3)
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// Edge fails again, this time without a min penalization amt. The edge
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// should be penalized regardless of amount.
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ctx.reportFailure(0, lnwire.NewTemporaryChannelFailure(nil))
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ctx.expectP(1000, 0)
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ctx.expectP(500, 0)
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// Edge decay started.
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ctx.now = testTime.Add(60 * time.Minute)
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ctx.expectP(1000, 0.3)
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// Restart mission control to test persistence.
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ctx.restartMc()
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ctx.expectP(1000, 0.3)
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// A node level failure should bring probability of all known channels
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// back to zero.
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ctx.reportFailure(0, lnwire.NewExpiryTooSoon(lnwire.ChannelUpdate{}))
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ctx.expectP(1000, 0)
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// Check whether history snapshot looks sane.
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history := ctx.mc.GetHistorySnapshot()
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if len(history.Pairs) != 4 {
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t.Fatalf("expected 4 pairs, but got %v", len(history.Pairs))
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}
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// Test reporting a success.
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ctx.reportSuccess()
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}
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// TestMissionControlChannelUpdate tests that the first channel update is not
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// penalizing the channel yet.
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func TestMissionControlChannelUpdate(t *testing.T) {
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ctx := createMcTestContext(t)
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// Report a policy related failure. Because it is the first, we don't
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// expect a penalty.
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ctx.reportFailure(
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0, lnwire.NewFeeInsufficient(0, lnwire.ChannelUpdate{}),
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)
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ctx.expectP(100, testAprioriHopProbability)
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// Report another failure for the same channel. We expect it to be
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// pruned.
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ctx.reportFailure(
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0, lnwire.NewFeeInsufficient(0, lnwire.ChannelUpdate{}),
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)
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ctx.expectP(100, 0)
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}
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