lnd.xprv/routing/missioncontrol_test.go

package routing

import (
	"testing"
	"time"

	"github.com/lightningnetwork/lnd/lnwire"
	"github.com/lightningnetwork/lnd/routing/route"
)

var (
	mcTestNode = route.Vertex{}
	mcTestEdge = EdgeLocator{
		ChannelID: 123,
	}
	mcTestTime = time.Date(2018, time.January, 9, 14, 00, 00, 0, time.UTC)
)

type mcTestContext struct {
	t   *testing.T
	mc  *MissionControl
	now time.Time
}

func createMcTestContext(t *testing.T) *mcTestContext {
	ctx := &mcTestContext{
		t:   t,
		now: mcTestTime,
	}

	mc := NewMissionControl(
		nil, nil, nil, &MissionControlConfig{
			PenaltyHalfLife:       30 * time.Minute,
			AprioriHopProbability: 0.8,
		},
	)

	mc.now = func() time.Time { return ctx.now }
	ctx.mc = mc

	return ctx
}

// 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.getEdgeProbability(mcTestNode, mcTestEdge, amt)
	if p != expected {
		ctx.t.Fatalf("unexpected probability %v", p)
	}
}

// TestMissionControl tests mission control probability estimation.
func TestMissionControl(t *testing.T) {
	ctx := createMcTestContext(t)

	ctx.now = testTime

	testTime := time.Date(2018, time.January, 9, 14, 00, 00, 0, time.UTC)

	testNode := route.Vertex{}
	testEdge := edge{
		channel: 123,
	}

	// Initial probability is expected to be 1.
	ctx.expectP(1000, 0.8)

	// Expect probability to be zero after reporting the edge as failed.
	ctx.mc.reportEdgeFailure(testEdge, 1000)
	ctx.expectP(1000, 0)

	// As we reported with a min penalization amt, a lower amt than reported
	// should be unaffected.
	ctx.expectP(500, 0.8)

	// Edge decay started.
	ctx.now = testTime.Add(30 * time.Minute)
	ctx.expectP(1000, 0.4)

	// Edge fails again, this time without a min penalization amt. The edge
	// should be penalized regardless of amount.
	ctx.mc.reportEdgeFailure(testEdge, 0)
	ctx.expectP(1000, 0)
	ctx.expectP(500, 0)

	// Edge decay started.
	ctx.now = testTime.Add(60 * time.Minute)
	ctx.expectP(1000, 0.4)

	// A node level failure should bring probability of every channel back
	// to zero.
	ctx.mc.reportVertexFailure(testNode)
	ctx.expectP(1000, 0)

	// Check whether history snapshot looks sane.
	history := ctx.mc.GetHistorySnapshot()
	if len(history.Nodes) != 1 {
		t.Fatal("unexpected number of nodes")
	}

	if len(history.Nodes[0].Channels) != 1 {
		t.Fatal("unexpected number of channels")
	}
}
routing: global probability based mission control Previously every payment had its own local mission control state which was in effect only for that payment. In this commit most of the local state is removed and payments all tap into the global mission control probability estimator. Furthermore the decay time of pruned edges and nodes is extended, so that observations about the network can better benefit future payment processes. Last, the probability function is transformed from a binary output to a gradual curve, allowing for a better trade off between candidate routes. 2019-03-19 19:09:27 +03:00			`package routing`

			`import (`
			`"testing"`
			`"time"`

			`"github.com/lightningnetwork/lnd/lnwire"`
			`"github.com/lightningnetwork/lnd/routing/route"`
			`)`

routing/test: create mission control test context 2019-06-03 21:32:07 +03:00			`var (`
			`mcTestNode = route.Vertex{}`
			`mcTestEdge = EdgeLocator{`
			`ChannelID: 123,`
			`}`
			`mcTestTime = time.Date(2018, time.January, 9, 14, 00, 00, 0, time.UTC)`
			`)`

			`type mcTestContext struct {`
			`t *testing.T`
			`mc *MissionControl`
			`now time.Time`
			`}`

			`func createMcTestContext(t testing.T) mcTestContext {`
			`ctx := &mcTestContext{`
			`t: t,`
			`now: mcTestTime,`
			`}`
routing: global probability based mission control Previously every payment had its own local mission control state which was in effect only for that payment. In this commit most of the local state is removed and payments all tap into the global mission control probability estimator. Furthermore the decay time of pruned edges and nodes is extended, so that observations about the network can better benefit future payment processes. Last, the probability function is transformed from a binary output to a gradual curve, allowing for a better trade off between candidate routes. 2019-03-19 19:09:27 +03:00
routing+routerrpc: expose mission control parameters in lnd config This commit exposes the three main parameters that influence mission control and path finding to the user as command line or config file flags. It allows for fine-tuning for optimal results. 2019-05-22 12:56:04 +03:00			`mc := NewMissionControl(`
			`nil, nil, nil, &MissionControlConfig{`
			`PenaltyHalfLife: 30 * time.Minute,`
			`AprioriHopProbability: 0.8,`
			`},`
			`)`
routing/test: create mission control test context 2019-06-03 21:32:07 +03:00
			`mc.now = func() time.Time { return ctx.now }`
			`ctx.mc = mc`

			`return ctx`
			`}`

			`// 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.getEdgeProbability(mcTestNode, mcTestEdge, amt)`
			`if p != expected {`
			`ctx.t.Fatalf("unexpected probability %v", p)`
			`}`
			`}`

			`// TestMissionControl tests mission control probability estimation.`
			`func TestMissionControl(t *testing.T) {`
			`ctx := createMcTestContext(t)`

			`ctx.now = testTime`
routing: global probability based mission control Previously every payment had its own local mission control state which was in effect only for that payment. In this commit most of the local state is removed and payments all tap into the global mission control probability estimator. Furthermore the decay time of pruned edges and nodes is extended, so that observations about the network can better benefit future payment processes. Last, the probability function is transformed from a binary output to a gradual curve, allowing for a better trade off between candidate routes. 2019-03-19 19:09:27 +03:00
			`testTime := time.Date(2018, time.January, 9, 14, 00, 00, 0, time.UTC)`

			`testNode := route.Vertex{}`
			`testEdge := edge{`
			`channel: 123,`
			`}`

			`// Initial probability is expected to be 1.`
routing/test: create mission control test context 2019-06-03 21:32:07 +03:00			`ctx.expectP(1000, 0.8)`
routing: global probability based mission control Previously every payment had its own local mission control state which was in effect only for that payment. In this commit most of the local state is removed and payments all tap into the global mission control probability estimator. Furthermore the decay time of pruned edges and nodes is extended, so that observations about the network can better benefit future payment processes. Last, the probability function is transformed from a binary output to a gradual curve, allowing for a better trade off between candidate routes. 2019-03-19 19:09:27 +03:00
			`// Expect probability to be zero after reporting the edge as failed.`
routing/test: create mission control test context 2019-06-03 21:32:07 +03:00			`ctx.mc.reportEdgeFailure(testEdge, 1000)`
			`ctx.expectP(1000, 0)`
routing: global probability based mission control Previously every payment had its own local mission control state which was in effect only for that payment. In this commit most of the local state is removed and payments all tap into the global mission control probability estimator. Furthermore the decay time of pruned edges and nodes is extended, so that observations about the network can better benefit future payment processes. Last, the probability function is transformed from a binary output to a gradual curve, allowing for a better trade off between candidate routes. 2019-03-19 19:09:27 +03:00
			`// As we reported with a min penalization amt, a lower amt than reported`
			`// should be unaffected.`
routing/test: create mission control test context 2019-06-03 21:32:07 +03:00			`ctx.expectP(500, 0.8)`
routing: global probability based mission control Previously every payment had its own local mission control state which was in effect only for that payment. In this commit most of the local state is removed and payments all tap into the global mission control probability estimator. Furthermore the decay time of pruned edges and nodes is extended, so that observations about the network can better benefit future payment processes. Last, the probability function is transformed from a binary output to a gradual curve, allowing for a better trade off between candidate routes. 2019-03-19 19:09:27 +03:00
			`// Edge decay started.`
routing/test: create mission control test context 2019-06-03 21:32:07 +03:00			`ctx.now = testTime.Add(30 * time.Minute)`
			`ctx.expectP(1000, 0.4)`
routing: global probability based mission control Previously every payment had its own local mission control state which was in effect only for that payment. In this commit most of the local state is removed and payments all tap into the global mission control probability estimator. Furthermore the decay time of pruned edges and nodes is extended, so that observations about the network can better benefit future payment processes. Last, the probability function is transformed from a binary output to a gradual curve, allowing for a better trade off between candidate routes. 2019-03-19 19:09:27 +03:00
			`// Edge fails again, this time without a min penalization amt. The edge`
			`// should be penalized regardless of amount.`
routing/test: create mission control test context 2019-06-03 21:32:07 +03:00			`ctx.mc.reportEdgeFailure(testEdge, 0)`
			`ctx.expectP(1000, 0)`
			`ctx.expectP(500, 0)`
routing: global probability based mission control Previously every payment had its own local mission control state which was in effect only for that payment. In this commit most of the local state is removed and payments all tap into the global mission control probability estimator. Furthermore the decay time of pruned edges and nodes is extended, so that observations about the network can better benefit future payment processes. Last, the probability function is transformed from a binary output to a gradual curve, allowing for a better trade off between candidate routes. 2019-03-19 19:09:27 +03:00
			`// Edge decay started.`
routing/test: create mission control test context 2019-06-03 21:32:07 +03:00			`ctx.now = testTime.Add(60 * time.Minute)`
			`ctx.expectP(1000, 0.4)`
routing: global probability based mission control Previously every payment had its own local mission control state which was in effect only for that payment. In this commit most of the local state is removed and payments all tap into the global mission control probability estimator. Furthermore the decay time of pruned edges and nodes is extended, so that observations about the network can better benefit future payment processes. Last, the probability function is transformed from a binary output to a gradual curve, allowing for a better trade off between candidate routes. 2019-03-19 19:09:27 +03:00
			`// A node level failure should bring probability of every channel back`
			`// to zero.`
routing/test: create mission control test context 2019-06-03 21:32:07 +03:00			`ctx.mc.reportVertexFailure(testNode)`
			`ctx.expectP(1000, 0)`
routing+routerrpc: expose mission control state over rpc This commit exposes mission control state for rpc for development purposes. 2019-05-10 11:38:31 +03:00
			`// Check whether history snapshot looks sane.`
routing/test: create mission control test context 2019-06-03 21:32:07 +03:00			`history := ctx.mc.GetHistorySnapshot()`
routing+routerrpc: expose mission control state over rpc This commit exposes mission control state for rpc for development purposes. 2019-05-10 11:38:31 +03:00			`if len(history.Nodes) != 1 {`
			`t.Fatal("unexpected number of nodes")`
			`}`

			`if len(history.Nodes[0].Channels) != 1 {`
			`t.Fatal("unexpected number of channels")`
			`}`
routing: global probability based mission control Previously every payment had its own local mission control state which was in effect only for that payment. In this commit most of the local state is removed and payments all tap into the global mission control probability estimator. Furthermore the decay time of pruned edges and nodes is extended, so that observations about the network can better benefit future payment processes. Last, the probability function is transformed from a binary output to a gradual curve, allowing for a better trade off between candidate routes. 2019-03-19 19:09:27 +03:00			`}`