package loop import ( "context" "errors" "testing" "time" "github.com/btcsuite/btcd/blockchain" "github.com/btcsuite/btcd/wire" "github.com/btcsuite/btcutil" "github.com/lightninglabs/loop/lndclient" "github.com/lightninglabs/loop/loopdb" "github.com/lightninglabs/loop/sweep" "github.com/lightninglabs/loop/test" ) // TestLateHtlcPublish tests that the client is not revealing the preimage if // there are not enough blocks left. func TestLateHtlcPublish(t *testing.T) { defer test.Guard(t)() lnd := test.NewMockLnd() ctx := test.NewContext(t, lnd) server := newServerMock() store := newStoreMock(t) expiryChan := make(chan time.Time) timerFactory := func(expiry time.Duration) <-chan time.Time { return expiryChan } height := int32(600) cfg := &swapConfig{ lnd: &lnd.LndServices, store: store, server: server, } swap, err := newLoopOutSwap( context.Background(), cfg, height, testRequest, ) if err != nil { t.Fatal(err) } sweeper := &sweep.Sweeper{Lnd: &lnd.LndServices} blockEpochChan := make(chan interface{}) statusChan := make(chan SwapInfo) errChan := make(chan error) go func() { err := swap.execute(context.Background(), &executeConfig{ statusChan: statusChan, sweeper: sweeper, blockEpochChan: blockEpochChan, timerFactory: timerFactory, }, height) if err != nil { logger.Error(err) } errChan <- err }() store.assertLoopOutStored() state := <-statusChan if state.State != loopdb.StateInitiated { t.Fatal("unexpected state") } signalSwapPaymentResult := ctx.AssertPaid(swapInvoiceDesc) signalPrepaymentResult := ctx.AssertPaid(prepayInvoiceDesc) // Expect client to register for conf ctx.AssertRegisterConf() // // Wait too long before publishing htlc. blockEpochChan <- int32(swap.CltvExpiry - 10) signalSwapPaymentResult( errors.New(lndclient.PaymentResultUnknownPaymentHash), ) signalPrepaymentResult( errors.New(lndclient.PaymentResultUnknownPaymentHash), ) store.assertStoreFinished(loopdb.StateFailTimeout) status := <-statusChan if status.State != loopdb.StateFailTimeout { t.Fatal("unexpected state") } err = <-errChan if err != nil { t.Fatal(err) } } // TestCustomSweepConfTarget ensures we are able to sweep a Loop Out HTLC with a // custom confirmation target. func TestCustomSweepConfTarget(t *testing.T) { defer test.Guard(t)() lnd := test.NewMockLnd() ctx := test.NewContext(t, lnd) // Use the highest sweep confirmation target before we attempt to use // the default. testRequest.SweepConfTarget = testLoopOutOnChainCltvDelta - DefaultSweepConfTargetDelta - 1 // Set up custom fee estimates such that the lower confirmation target // yields a much higher fee rate. ctx.Lnd.SetFeeEstimate(testRequest.SweepConfTarget, 250) ctx.Lnd.SetFeeEstimate(DefaultSweepConfTarget, 10000) cfg := &swapConfig{ lnd: &lnd.LndServices, store: newStoreMock(t), server: newServerMock(), } swap, err := newLoopOutSwap( context.Background(), cfg, ctx.Lnd.Height, testRequest, ) if err != nil { t.Fatal(err) } // Set up the required dependencies to execute the swap. // // TODO: create test context similar to loopInTestContext. sweeper := &sweep.Sweeper{Lnd: &lnd.LndServices} blockEpochChan := make(chan interface{}) statusChan := make(chan SwapInfo) expiryChan := make(chan time.Time) timerFactory := func(expiry time.Duration) <-chan time.Time { return expiryChan } errChan := make(chan error) go func() { err := swap.execute(context.Background(), &executeConfig{ statusChan: statusChan, blockEpochChan: blockEpochChan, timerFactory: timerFactory, sweeper: sweeper, }, ctx.Lnd.Height) if err != nil { logger.Error(err) } errChan <- err }() // The swap should be found in its initial state. cfg.store.(*storeMock).assertLoopOutStored() state := <-statusChan if state.State != loopdb.StateInitiated { t.Fatal("unexpected state") } // We'll then pay both the swap and prepay invoice, which should trigger // the server to publish the on-chain HTLC. signalSwapPaymentResult := ctx.AssertPaid(swapInvoiceDesc) signalPrepaymentResult := ctx.AssertPaid(prepayInvoiceDesc) signalSwapPaymentResult(nil) signalPrepaymentResult(nil) // Notify the confirmation notification for the HTLC. ctx.AssertRegisterConf() blockEpochChan <- int32(ctx.Lnd.Height + 1) htlcTx := wire.NewMsgTx(2) htlcTx.AddTxOut(&wire.TxOut{ Value: int64(swap.AmountRequested), PkScript: swap.htlc.PkScript, }) ctx.NotifyConf(htlcTx) // The client should then register for a spend of the HTLC and attempt // to sweep it using the custom confirmation target. ctx.AssertRegisterSpendNtfn(swap.htlc.PkScript) expiryChan <- time.Now() cfg.store.(*storeMock).assertLoopOutState(loopdb.StatePreimageRevealed) status := <-statusChan if status.State != loopdb.StatePreimageRevealed { t.Fatalf("expected state %v, got %v", loopdb.StatePreimageRevealed, status.State) } // assertSweepTx performs some sanity checks on a sweep transaction to // ensure it was constructed correctly. assertSweepTx := func(expConfTarget int32) *wire.MsgTx { t.Helper() sweepTx := ctx.ReceiveTx() if sweepTx.TxIn[0].PreviousOutPoint.Hash != htlcTx.TxHash() { t.Fatalf("expected sweep tx to spend %v, got %v", htlcTx.TxHash(), sweepTx.TxIn[0].PreviousOutPoint) } // The fee used for the sweep transaction is an estimate based // on the maximum witness size, so we should expect to see a // lower fee when using the actual witness size of the // transaction. fee := btcutil.Amount( htlcTx.TxOut[0].Value - sweepTx.TxOut[0].Value, ) weight := blockchain.GetTransactionWeight(btcutil.NewTx(sweepTx)) feeRate, err := ctx.Lnd.WalletKit.EstimateFee( context.Background(), expConfTarget, ) if err != nil { t.Fatalf("unable to retrieve fee estimate: %v", err) } minFee := feeRate.FeeForWeight(weight) maxFee := btcutil.Amount(float64(minFee) * 1.1) if fee < minFee && fee > maxFee { t.Fatalf("expected sweep tx to have fee between %v-%v, "+ "got %v", minFee, maxFee, fee) } return sweepTx } // The sweep should have a fee that corresponds to the custom // confirmation target. sweepTx := assertSweepTx(testRequest.SweepConfTarget) // We'll then notify the height at which we begin using the default // confirmation target. defaultConfTargetHeight := ctx.Lnd.Height + testLoopOutOnChainCltvDelta - DefaultSweepConfTargetDelta blockEpochChan <- int32(defaultConfTargetHeight) expiryChan <- time.Now() // We should expect to see another sweep using the higher fee since the // spend hasn't been confirmed yet. sweepTx = assertSweepTx(DefaultSweepConfTarget) // Notify the spend so that the swap reaches its final state. ctx.NotifySpend(sweepTx, 0) cfg.store.(*storeMock).assertLoopOutState(loopdb.StateSuccess) status = <-statusChan if status.State != loopdb.StateSuccess { t.Fatalf("expected state %v, got %v", loopdb.StateSuccess, status.State) } if err := <-errChan; err != nil { t.Fatal(err) } }