package routing import ( "io/ioutil" "os" "testing" "time" "github.com/coreos/bbolt" "github.com/lightningnetwork/lnd/lnwire" "github.com/lightningnetwork/lnd/routing/route" ) var ( mcTestRoute = &route.Route{ SourcePubKey: mcTestSelf, Hops: []*route.Hop{ { ChannelID: 1, PubKeyBytes: route.Vertex{11}, AmtToForward: 1000, LegacyPayload: true, }, { ChannelID: 2, PubKeyBytes: route.Vertex{12}, LegacyPayload: true, }, }, } mcTestTime = time.Date(2018, time.January, 9, 14, 00, 00, 0, time.UTC) mcTestSelf = route.Vertex{10} mcTestNode1 = mcTestRoute.Hops[0].PubKeyBytes mcTestNode2 = mcTestRoute.Hops[1].PubKeyBytes testPenaltyHalfLife = 30 * time.Minute testAprioriHopProbability = 0.9 testAprioriWeight = 0.5 ) type mcTestContext struct { t *testing.T mc *MissionControl now time.Time db *bbolt.DB dbPath string pid uint64 } func createMcTestContext(t *testing.T) *mcTestContext { ctx := &mcTestContext{ t: t, now: mcTestTime, } file, err := ioutil.TempFile("", "*.db") if err != nil { t.Fatal(err) } ctx.dbPath = file.Name() ctx.db, err = bbolt.Open(ctx.dbPath, 0600, nil) if err != nil { t.Fatal(err) } ctx.restartMc() return ctx } // restartMc creates a new instances of mission control on the same database. func (ctx *mcTestContext) restartMc() { mc, err := NewMissionControl( ctx.db, &MissionControlConfig{ PenaltyHalfLife: testPenaltyHalfLife, AprioriHopProbability: testAprioriHopProbability, AprioriWeight: testAprioriWeight, SelfNode: mcTestSelf, }, ) if err != nil { ctx.t.Fatal(err) } mc.now = func() time.Time { return ctx.now } ctx.mc = mc } // cleanup closes the database and removes the temp file. func (ctx *mcTestContext) cleanup() { ctx.db.Close() os.Remove(ctx.dbPath) } // Assert that mission control returns a probability for an edge. func (ctx *mcTestContext) expectP(amt lnwire.MilliSatoshi, expected float64) { ctx.t.Helper() p := ctx.mc.GetProbability(mcTestNode1, mcTestNode2, amt) if p != expected { ctx.t.Fatalf("expected probability %v but got %v", expected, p) } } // reportFailure reports a failure by using a test route. func (ctx *mcTestContext) reportFailure(amt lnwire.MilliSatoshi, failure lnwire.FailureMessage) { mcTestRoute.Hops[0].AmtToForward = amt errorSourceIdx := 1 ctx.mc.ReportPaymentFail( ctx.pid, mcTestRoute, &errorSourceIdx, failure, ) } // reportSuccess reports a success by using a test route. func (ctx *mcTestContext) reportSuccess() { err := ctx.mc.ReportPaymentSuccess(ctx.pid, mcTestRoute) if err != nil { ctx.t.Fatal(err) } ctx.pid++ } // TestMissionControl tests mission control probability estimation. func TestMissionControl(t *testing.T) { ctx := createMcTestContext(t) defer ctx.cleanup() ctx.now = testTime testTime := time.Date(2018, time.January, 9, 14, 00, 00, 0, time.UTC) // For local channels, we expect a higher probability than our a prior // test probability. selfP := ctx.mc.GetProbability(mcTestSelf, mcTestNode1, 100) if selfP != prevSuccessProbability { t.Fatalf("expected prev success prob for untried local chans") } // Initial probability is expected to be the a priori. ctx.expectP(1000, testAprioriHopProbability) // Expect probability to be zero after reporting the edge as failed. ctx.reportFailure(1000, lnwire.NewTemporaryChannelFailure(nil)) ctx.expectP(1000, 0) // As we reported with a min penalization amt, a lower amt than reported // should return the node probability, which is the a priori // probability. ctx.expectP(500, testAprioriHopProbability) // Edge decay started. The node probability weighted average should now // have shifted from 1:1 to 1:0.5 -> 60%. The connection probability is // half way through the recovery, so we expect 30% here. ctx.now = testTime.Add(30 * time.Minute) ctx.expectP(1000, 0.3) // Edge fails again, this time without a min penalization amt. The edge // should be penalized regardless of amount. ctx.reportFailure(0, lnwire.NewTemporaryChannelFailure(nil)) ctx.expectP(1000, 0) ctx.expectP(500, 0) // Edge decay started. ctx.now = testTime.Add(60 * time.Minute) ctx.expectP(1000, 0.3) // Restart mission control to test persistence. ctx.restartMc() ctx.expectP(1000, 0.3) // A node level failure should bring probability of all known channels // back to zero. ctx.reportFailure(0, lnwire.NewExpiryTooSoon(lnwire.ChannelUpdate{})) ctx.expectP(1000, 0) // Check whether history snapshot looks sane. history := ctx.mc.GetHistorySnapshot() if len(history.Pairs) != 3 { t.Fatalf("expected 3 pairs, but got %v", len(history.Pairs)) } // Test reporting a success. ctx.reportSuccess() } // TestMissionControlChannelUpdate tests that the first channel update is not // penalizing the channel yet. func TestMissionControlChannelUpdate(t *testing.T) { ctx := createMcTestContext(t) // Report a policy related failure. Because it is the first, we don't // expect a penalty. ctx.reportFailure( 0, lnwire.NewFeeInsufficient(0, lnwire.ChannelUpdate{}), ) ctx.expectP(100, testAprioriHopProbability) // Report another failure for the same channel. We expect it to be // pruned. ctx.reportFailure( 0, lnwire.NewFeeInsufficient(0, lnwire.ChannelUpdate{}), ) ctx.expectP(100, 0) }