package itest import ( "context" "encoding/hex" "github.com/btcsuite/btcutil" "github.com/lightningnetwork/lnd/lnrpc" "github.com/lightningnetwork/lnd/lnrpc/routerrpc" "github.com/lightningnetwork/lnd/lntest" ) // testSendMultiPathPayment tests that we are able to successfully route a // payment using multiple shards across different paths. func testSendMultiPathPayment(net *lntest.NetworkHarness, t *harnessTest) { ctxb := context.Background() ctx := newMppTestContext(t, net) defer ctx.shutdownNodes() const paymentAmt = btcutil.Amount(300000) // Set up a network with three different paths Alice <-> Bob. Channel // capacities are set such that the payment can only succeed if (at // least) three paths are used. // // _ Eve _ // / \ // Alice -- Carol ---- Bob // \ / // \__ Dave ____/ // ctx.openChannel(ctx.carol, ctx.bob, 135000) ctx.openChannel(ctx.alice, ctx.carol, 235000) ctx.openChannel(ctx.dave, ctx.bob, 135000) ctx.openChannel(ctx.alice, ctx.dave, 135000) ctx.openChannel(ctx.eve, ctx.bob, 135000) ctx.openChannel(ctx.carol, ctx.eve, 135000) defer ctx.closeChannels() ctx.waitForChannels() // Increase Dave's fee to make the test deterministic. Otherwise it // would be unpredictable whether pathfinding would go through Charlie // or Dave for the first shard. _, err := ctx.dave.UpdateChannelPolicy( context.Background(), &lnrpc.PolicyUpdateRequest{ Scope: &lnrpc.PolicyUpdateRequest_Global{Global: true}, BaseFeeMsat: 500000, FeeRate: 0.001, TimeLockDelta: 40, }, ) if err != nil { t.Fatalf("dave policy update: %v", err) } // Our first test will be Alice paying Bob using a SendPayment call. // Let Bob create an invoice for Alice to pay. payReqs, rHashes, invoices, err := createPayReqs( net.Bob, paymentAmt, 1, ) if err != nil { t.Fatalf("unable to create pay reqs: %v", err) } rHash := rHashes[0] payReq := payReqs[0] payment := sendAndAssertSuccess( t, net.Alice, &routerrpc.SendPaymentRequest{ PaymentRequest: payReq, MaxParts: 10, TimeoutSeconds: 60, FeeLimitMsat: noFeeLimitMsat, }, ) // Make sure we got the preimage. if payment.PaymentPreimage != hex.EncodeToString(invoices[0].RPreimage) { t.Fatalf("preimage doesn't match") } // Check that Alice split the payment in at least three shards. Because // the hand-off of the htlc to the link is asynchronous (via a mailbox), // there is some non-determinism in the process. Depending on whether // the new pathfinding round is started before or after the htlc is // locked into the channel, different sharding may occur. Therefore we // can only check if the number of shards isn't below the theoretical // minimum. succeeded := 0 for _, htlc := range payment.Htlcs { if htlc.Status == lnrpc.HTLCAttempt_SUCCEEDED { succeeded++ } } const minExpectedShards = 3 if succeeded < minExpectedShards { t.Fatalf("expected at least %v shards, but got %v", minExpectedShards, succeeded) } // Make sure Bob show the invoice as settled for the full // amount. ctxt, _ := context.WithTimeout(ctxb, defaultTimeout) inv, err := ctx.bob.LookupInvoice( ctxt, &lnrpc.PaymentHash{ RHash: rHash, }, ) if err != nil { t.Fatalf("error when obtaining invoice: %v", err) } if inv.AmtPaidSat != int64(paymentAmt) { t.Fatalf("incorrect payment amt for invoice"+ "want: %d, got %d", paymentAmt, inv.AmtPaidSat) } if inv.State != lnrpc.Invoice_SETTLED { t.Fatalf("Invoice not settled: %v", inv.State) } settled := 0 for _, htlc := range inv.Htlcs { if htlc.State == lnrpc.InvoiceHTLCState_SETTLED { settled++ } } if settled != succeeded { t.Fatalf("expected invoice to be settled "+ "with %v HTLCs, had %v", succeeded, settled) } }