lnd.xprv/routing/integrated_routing_context_test.go
Joost Jager 29476ec6a3
routing/test: test probability extrapolation
Adds an integrated routing test of probability extrapolation for untried
channels. The larger part of this commit is mock code to simulate the
Lightning Network.

The difference between this test and the existing pathfinding tests, is that
this test focuses on the feedback loop from result interpretation via
mission control updates and probability estimation back to pathfinding.
Improvements like probability extrapolation were previously only
validated by reasoning, while this setup makes it possible to assert the
improvement in a test and guard it for the future.
2020-02-11 14:19:13 +01:00

195 lines
4.4 KiB
Go

package routing
import (
"io/ioutil"
"os"
"testing"
"time"
"github.com/coreos/bbolt"
"github.com/lightningnetwork/lnd/lnwire"
"github.com/lightningnetwork/lnd/routing/route"
)
// integratedRoutingContext defines the context in which integrated routing
// tests run.
type integratedRoutingContext struct {
graph *mockGraph
t *testing.T
source *mockNode
target *mockNode
amt lnwire.MilliSatoshi
finalExpiry int32
mcCfg MissionControlConfig
pathFindingCfg PathFindingConfig
}
// newIntegratedRoutingContext instantiates a new integrated routing test
// context with a source and a target node.
func newIntegratedRoutingContext(t *testing.T) *integratedRoutingContext {
// Instantiate a mock graph.
source := newMockNode()
target := newMockNode()
graph := newMockGraph(t)
graph.addNode(source)
graph.addNode(target)
graph.source = source
// Initiate the test context with a set of default configuration values.
// We don't use the lnd defaults here, because otherwise changing the
// defaults would break the unit tests. The actual values picked aren't
// critical to excite certain behavior, but do need to be aligned with
// the test case assertions.
ctx := integratedRoutingContext{
t: t,
graph: graph,
amt: 100000,
finalExpiry: 40,
mcCfg: MissionControlConfig{
PenaltyHalfLife: 30 * time.Minute,
AprioriHopProbability: 0.6,
AprioriWeight: 0.5,
SelfNode: source.pubkey,
},
pathFindingCfg: PathFindingConfig{
PaymentAttemptPenalty: 1000,
},
source: source,
target: target,
}
return &ctx
}
// testPayment launches a test payment and asserts that it is completed after
// the expected number of attempts.
func (c *integratedRoutingContext) testPayment(expectedNofAttempts int) {
var nextPid uint64
// Create temporary database for mission control.
file, err := ioutil.TempFile("", "*.db")
if err != nil {
c.t.Fatal(err)
}
dbPath := file.Name()
defer os.Remove(dbPath)
db, err := bbolt.Open(dbPath, 0600, nil)
if err != nil {
c.t.Fatal(err)
}
defer db.Close()
// Instantiate a new mission control with the current configuration
// values.
mc, err := NewMissionControl(db, &c.mcCfg)
if err != nil {
c.t.Fatal(err)
}
// Instruct pathfinding to use mission control as a probabiltiy source.
restrictParams := RestrictParams{
ProbabilitySource: mc.GetProbability,
FeeLimit: lnwire.MaxMilliSatoshi,
}
// Now the payment control loop starts. It will keep trying routes until
// the payment succeeds.
for {
// Create bandwidth hints based on local channel balances.
bandwidthHints := map[uint64]lnwire.MilliSatoshi{}
for _, ch := range c.graph.nodes[c.source.pubkey].channels {
bandwidthHints[ch.id] = ch.balance
}
// Find a route.
path, err := findPathInternal(
nil, bandwidthHints, c.graph,
&restrictParams,
&c.pathFindingCfg,
c.source.pubkey, c.target.pubkey,
c.amt, c.finalExpiry,
)
if err != nil {
c.t.Fatal(err)
}
finalHop := finalHopParams{
amt: c.amt,
cltvDelta: uint16(c.finalExpiry),
}
route, err := newRoute(c.source.pubkey, path, 0, finalHop)
if err != nil {
c.t.Fatal(err)
}
// Send out the htlc on the mock graph.
pid := nextPid
nextPid++
htlcResult, err := c.graph.sendHtlc(route)
if err != nil {
c.t.Fatal(err)
}
// Process the result.
if htlcResult.failure == nil {
err := mc.ReportPaymentSuccess(pid, route)
if err != nil {
c.t.Fatal(err)
}
// If the payment is successful, the control loop can be
// broken out of.
break
}
// Failure, update mission control and retry.
c.t.Logf("fail: %v @ %v\n", htlcResult.failure, htlcResult.failureSource)
finalResult, err := mc.ReportPaymentFail(
pid, route,
getNodeIndex(route, htlcResult.failureSource),
htlcResult.failure,
)
if err != nil {
c.t.Fatal(err)
}
if finalResult != nil {
c.t.Logf("final result: %v\n", finalResult)
break
}
}
c.t.Logf("Payment attempts: %v\n", nextPid)
if expectedNofAttempts != int(nextPid) {
c.t.Fatalf("expected %v attempts, but needed %v",
expectedNofAttempts, nextPid)
}
}
// getNodeIndex returns the zero-based index of the given node in the route.
func getNodeIndex(route *route.Route, failureSource route.Vertex) *int {
if failureSource == route.SourcePubKey {
idx := 0
return &idx
}
for i, h := range route.Hops {
if h.PubKeyBytes == failureSource {
idx := i + 1
return &idx
}
}
return nil
}