package channeldb import ( "bytes" "crypto/rand" "crypto/sha256" "errors" "fmt" "io" "reflect" "testing" "time" "github.com/btcsuite/btcwallet/walletdb" "github.com/davecgh/go-spew/spew" "github.com/lightningnetwork/lnd/kvdb" "github.com/lightningnetwork/lnd/lntypes" "github.com/lightningnetwork/lnd/record" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) func genPreimage() ([32]byte, error) { var preimage [32]byte if _, err := io.ReadFull(rand.Reader, preimage[:]); err != nil { return preimage, err } return preimage, nil } func genInfo() (*PaymentCreationInfo, *HTLCAttemptInfo, lntypes.Preimage, error) { preimage, err := genPreimage() if err != nil { return nil, nil, preimage, fmt.Errorf("unable to "+ "generate preimage: %v", err) } rhash := sha256.Sum256(preimage[:]) attempt := NewHtlcAttempt( 0, priv, *testRoute.Copy(), time.Time{}, nil, ) return &PaymentCreationInfo{ PaymentIdentifier: rhash, Value: testRoute.ReceiverAmt(), CreationTime: time.Unix(time.Now().Unix(), 0), PaymentRequest: []byte("hola"), }, &attempt.HTLCAttemptInfo, preimage, nil } // TestPaymentControlSwitchFail checks that payment status returns to Failed // status after failing, and that InitPayment allows another HTLC for the // same payment hash. func TestPaymentControlSwitchFail(t *testing.T) { t.Parallel() db, err := MakeTestDB(t) require.NoError(t, err, "unable to init db") pControl := NewPaymentControl(db) info, attempt, preimg, err := genInfo() require.NoError(t, err, "unable to generate htlc message") // Sends base htlc message which initiate StatusInFlight. err = pControl.InitPayment(info.PaymentIdentifier, info) require.NoError(t, err, "unable to send htlc message") assertPaymentIndex(t, pControl, info.PaymentIdentifier) assertPaymentStatus( t, pControl, info.PaymentIdentifier, StatusInitiated, ) assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, nil, ) // Fail the payment, which should moved it to Failed. failReason := FailureReasonNoRoute _, err = pControl.Fail(info.PaymentIdentifier, failReason) require.NoError(t, err, "unable to fail payment hash") // Verify the status is indeed Failed. assertPaymentStatus(t, pControl, info.PaymentIdentifier, StatusFailed) assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, &failReason, nil, ) // Lookup the payment so we can get its old sequence number before it is // overwritten. payment, err := pControl.FetchPayment(info.PaymentIdentifier) require.NoError(t, err) // Sends the htlc again, which should succeed since the prior payment // failed. err = pControl.InitPayment(info.PaymentIdentifier, info) require.NoError(t, err, "unable to send htlc message") // Check that our index has been updated, and the old index has been // removed. assertPaymentIndex(t, pControl, info.PaymentIdentifier) assertNoIndex(t, pControl, payment.SequenceNum) assertPaymentStatus( t, pControl, info.PaymentIdentifier, StatusInitiated, ) assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, nil, ) // Record a new attempt. In this test scenario, the attempt fails. // However, this is not communicated to control tower in the current // implementation. It only registers the initiation of the attempt. _, err = pControl.RegisterAttempt(info.PaymentIdentifier, attempt) require.NoError(t, err, "unable to register attempt") htlcReason := HTLCFailUnreadable _, err = pControl.FailAttempt( info.PaymentIdentifier, attempt.AttemptID, &HTLCFailInfo{ Reason: htlcReason, }, ) if err != nil { t.Fatal(err) } assertPaymentStatus( t, pControl, info.PaymentIdentifier, StatusInFlight, ) htlc := &htlcStatus{ HTLCAttemptInfo: attempt, failure: &htlcReason, } assertPaymentInfo(t, pControl, info.PaymentIdentifier, info, nil, htlc) // Record another attempt. attempt.AttemptID = 1 _, err = pControl.RegisterAttempt(info.PaymentIdentifier, attempt) require.NoError(t, err, "unable to send htlc message") assertPaymentStatus(t, pControl, info.PaymentIdentifier, StatusInFlight) htlc = &htlcStatus{ HTLCAttemptInfo: attempt, } assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, htlc, ) // Settle the attempt and verify that status was changed to // StatusSucceeded. payment, err = pControl.SettleAttempt( info.PaymentIdentifier, attempt.AttemptID, &HTLCSettleInfo{ Preimage: preimg, }, ) require.NoError(t, err, "error shouldn't have been received, got") if len(payment.HTLCs) != 2 { t.Fatalf("payment should have two htlcs, got: %d", len(payment.HTLCs)) } err = assertRouteEqual(&payment.HTLCs[0].Route, &attempt.Route) if err != nil { t.Fatalf("unexpected route returned: %v vs %v: %v", spew.Sdump(attempt.Route), spew.Sdump(payment.HTLCs[0].Route), err) } assertPaymentStatus(t, pControl, info.PaymentIdentifier, StatusSucceeded) htlc.settle = &preimg assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, htlc, ) // Attempt a final payment, which should now fail since the prior // payment succeed. err = pControl.InitPayment(info.PaymentIdentifier, info) if !errors.Is(err, ErrAlreadyPaid) { t.Fatalf("unable to send htlc message: %v", err) } } // TestPaymentControlSwitchDoubleSend checks the ability of payment control to // prevent double sending of htlc message, when message is in StatusInFlight. func TestPaymentControlSwitchDoubleSend(t *testing.T) { t.Parallel() db, err := MakeTestDB(t) require.NoError(t, err, "unable to init db") pControl := NewPaymentControl(db) info, attempt, preimg, err := genInfo() require.NoError(t, err, "unable to generate htlc message") // Sends base htlc message which initiate base status and move it to // StatusInFlight and verifies that it was changed. err = pControl.InitPayment(info.PaymentIdentifier, info) require.NoError(t, err, "unable to send htlc message") assertPaymentIndex(t, pControl, info.PaymentIdentifier) assertPaymentStatus( t, pControl, info.PaymentIdentifier, StatusInitiated, ) assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, nil, ) // Try to initiate double sending of htlc message with the same // payment hash, should result in error indicating that payment has // already been sent. err = pControl.InitPayment(info.PaymentIdentifier, info) require.ErrorIs(t, err, ErrPaymentExists) // Record an attempt. _, err = pControl.RegisterAttempt(info.PaymentIdentifier, attempt) require.NoError(t, err, "unable to send htlc message") assertPaymentStatus(t, pControl, info.PaymentIdentifier, StatusInFlight) htlc := &htlcStatus{ HTLCAttemptInfo: attempt, } assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, htlc, ) // Sends base htlc message which initiate StatusInFlight. err = pControl.InitPayment(info.PaymentIdentifier, info) if !errors.Is(err, ErrPaymentInFlight) { t.Fatalf("payment control wrong behaviour: " + "double sending must trigger ErrPaymentInFlight error") } // After settling, the error should be ErrAlreadyPaid. _, err = pControl.SettleAttempt( info.PaymentIdentifier, attempt.AttemptID, &HTLCSettleInfo{ Preimage: preimg, }, ) require.NoError(t, err, "error shouldn't have been received, got") assertPaymentStatus(t, pControl, info.PaymentIdentifier, StatusSucceeded) htlc.settle = &preimg assertPaymentInfo(t, pControl, info.PaymentIdentifier, info, nil, htlc) err = pControl.InitPayment(info.PaymentIdentifier, info) if !errors.Is(err, ErrAlreadyPaid) { t.Fatalf("unable to send htlc message: %v", err) } } // TestPaymentControlSuccessesWithoutInFlight checks that the payment // control will disallow calls to Success when no payment is in flight. func TestPaymentControlSuccessesWithoutInFlight(t *testing.T) { t.Parallel() db, err := MakeTestDB(t) require.NoError(t, err, "unable to init db") pControl := NewPaymentControl(db) info, _, preimg, err := genInfo() require.NoError(t, err, "unable to generate htlc message") // Attempt to complete the payment should fail. _, err = pControl.SettleAttempt( info.PaymentIdentifier, 0, &HTLCSettleInfo{ Preimage: preimg, }, ) if err != ErrPaymentNotInitiated { t.Fatalf("expected ErrPaymentNotInitiated, got %v", err) } } // TestPaymentControlFailsWithoutInFlight checks that a strict payment // control will disallow calls to Fail when no payment is in flight. func TestPaymentControlFailsWithoutInFlight(t *testing.T) { t.Parallel() db, err := MakeTestDB(t) require.NoError(t, err, "unable to init db") pControl := NewPaymentControl(db) info, _, _, err := genInfo() require.NoError(t, err, "unable to generate htlc message") // Calling Fail should return an error. _, err = pControl.Fail(info.PaymentIdentifier, FailureReasonNoRoute) if err != ErrPaymentNotInitiated { t.Fatalf("expected ErrPaymentNotInitiated, got %v", err) } } // TestPaymentControlDeleteNonInFlight checks that calling DeletePayments only // deletes payments from the database that are not in-flight. func TestPaymentControlDeleteNonInFlight(t *testing.T) { t.Parallel() db, err := MakeTestDB(t) require.NoError(t, err, "unable to init db") // Create a sequence number for duplicate payments that will not collide // with the sequence numbers for the payments we create. These values // start at 1, so 9999 is a safe bet for this test. var duplicateSeqNr = 9999 pControl := NewPaymentControl(db) payments := []struct { failed bool success bool hasDuplicate bool }{ { failed: true, success: false, hasDuplicate: false, }, { failed: false, success: true, hasDuplicate: false, }, { failed: false, success: false, hasDuplicate: false, }, { failed: false, success: true, hasDuplicate: true, }, } var numSuccess, numInflight int for _, p := range payments { info, attempt, preimg, err := genInfo() if err != nil { t.Fatalf("unable to generate htlc message: %v", err) } // Sends base htlc message which initiate StatusInFlight. err = pControl.InitPayment(info.PaymentIdentifier, info) if err != nil { t.Fatalf("unable to send htlc message: %v", err) } _, err = pControl.RegisterAttempt(info.PaymentIdentifier, attempt) if err != nil { t.Fatalf("unable to send htlc message: %v", err) } htlc := &htlcStatus{ HTLCAttemptInfo: attempt, } if p.failed { // Fail the payment attempt. htlcFailure := HTLCFailUnreadable _, err := pControl.FailAttempt( info.PaymentIdentifier, attempt.AttemptID, &HTLCFailInfo{ Reason: htlcFailure, }, ) if err != nil { t.Fatalf("unable to fail htlc: %v", err) } // Fail the payment, which should moved it to Failed. failReason := FailureReasonNoRoute _, err = pControl.Fail(info.PaymentIdentifier, failReason) if err != nil { t.Fatalf("unable to fail payment hash: %v", err) } // Verify the status is indeed Failed. assertPaymentStatus(t, pControl, info.PaymentIdentifier, StatusFailed) htlc.failure = &htlcFailure assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, &failReason, htlc, ) } else if p.success { // Verifies that status was changed to StatusSucceeded. _, err := pControl.SettleAttempt( info.PaymentIdentifier, attempt.AttemptID, &HTLCSettleInfo{ Preimage: preimg, }, ) if err != nil { t.Fatalf("error shouldn't have been received, got: %v", err) } assertPaymentStatus(t, pControl, info.PaymentIdentifier, StatusSucceeded) htlc.settle = &preimg assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, htlc, ) numSuccess++ } else { assertPaymentStatus(t, pControl, info.PaymentIdentifier, StatusInFlight) assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, htlc, ) numInflight++ } // If the payment is intended to have a duplicate payment, we // add one. if p.hasDuplicate { appendDuplicatePayment( t, pControl.db, info.PaymentIdentifier, uint64(duplicateSeqNr), preimg, ) duplicateSeqNr++ numSuccess++ } } // Delete all failed payments. numPayments, err := db.DeletePayments(true, false) require.NoError(t, err) require.EqualValues(t, 1, numPayments) // This should leave the succeeded and in-flight payments. dbPayments, err := db.FetchPayments() if err != nil { t.Fatal(err) } if len(dbPayments) != numSuccess+numInflight { t.Fatalf("expected %d payments, got %d", numSuccess+numInflight, len(dbPayments)) } var s, i int for _, p := range dbPayments { t.Log("fetch payment has status", p.Status) switch p.Status { case StatusSucceeded: s++ case StatusInFlight: i++ } } if s != numSuccess { t.Fatalf("expected %d succeeded payments , got %d", numSuccess, s) } if i != numInflight { t.Fatalf("expected %d in-flight payments, got %d", numInflight, i) } // Now delete all payments except in-flight. numPayments, err = db.DeletePayments(false, false) require.NoError(t, err) require.EqualValues(t, 2, numPayments) // This should leave the in-flight payment. dbPayments, err = db.FetchPayments() if err != nil { t.Fatal(err) } if len(dbPayments) != numInflight { t.Fatalf("expected %d payments, got %d", numInflight, len(dbPayments)) } for _, p := range dbPayments { if p.Status != StatusInFlight { t.Fatalf("expected in-fligth status, got %v", p.Status) } } // Finally, check that we only have a single index left in the payment // index bucket. var indexCount int err = kvdb.View(db, func(tx walletdb.ReadTx) error { index := tx.ReadBucket(paymentsIndexBucket) return index.ForEach(func(k, v []byte) error { indexCount++ return nil }) }, func() { indexCount = 0 }) require.NoError(t, err) require.Equal(t, 1, indexCount) } // TestPaymentControlDeletePayments tests that DeletePayments correctly deletes // information about completed payments from the database. func TestPaymentControlDeletePayments(t *testing.T) { t.Parallel() db, err := MakeTestDB(t) require.NoError(t, err, "unable to init db") pControl := NewPaymentControl(db) // Register three payments: // 1. A payment with two failed attempts. // 2. A payment with one failed and one settled attempt. // 3. A payment with one failed and one in-flight attempt. payments := []*payment{ {status: StatusFailed}, {status: StatusSucceeded}, {status: StatusInFlight}, } // Use helper function to register the test payments in the data and // populate the data to the payments slice. createTestPayments(t, pControl, payments) // Check that all payments are there as we added them. assertPayments(t, db, payments) // Delete HTLC attempts for failed payments only. numPayments, err := db.DeletePayments(true, true) require.NoError(t, err) require.EqualValues(t, 0, numPayments) // The failed payment is the only altered one. payments[0].htlcs = 0 assertPayments(t, db, payments) // Delete failed attempts for all payments. numPayments, err = db.DeletePayments(false, true) require.NoError(t, err) require.EqualValues(t, 0, numPayments) // The failed attempts should be deleted, except for the in-flight // payment, that shouldn't be altered until it has completed. payments[1].htlcs = 1 assertPayments(t, db, payments) // Now delete all failed payments. numPayments, err = db.DeletePayments(true, false) require.NoError(t, err) require.EqualValues(t, 1, numPayments) assertPayments(t, db, payments[1:]) // Finally delete all completed payments. numPayments, err = db.DeletePayments(false, false) require.NoError(t, err) require.EqualValues(t, 1, numPayments) assertPayments(t, db, payments[2:]) } // TestPaymentControlDeleteSinglePayment tests that DeletePayment correctly // deletes information about a completed payment from the database. func TestPaymentControlDeleteSinglePayment(t *testing.T) { t.Parallel() db, err := MakeTestDB(t) require.NoError(t, err, "unable to init db") pControl := NewPaymentControl(db) // Register four payments: // All payments will have one failed HTLC attempt and one HTLC attempt // according to its final status. // 1. A payment with two failed attempts. // 2. Another payment with two failed attempts. // 3. A payment with one failed and one settled attempt. // 4. A payment with one failed and one in-flight attempt. // Initiate payments, which is a slice of payment that is used as // template to create the corresponding test payments in the database. // // Note: The payment id and number of htlc attempts of each payment will // be added to this slice when creating the payments below. // This allows the slice to be used directly for testing purposes. payments := []*payment{ {status: StatusFailed}, {status: StatusFailed}, {status: StatusSucceeded}, {status: StatusInFlight}, } // Use helper function to register the test payments in the data and // populate the data to the payments slice. createTestPayments(t, pControl, payments) // Check that all payments are there as we added them. assertPayments(t, db, payments) // Delete HTLC attempts for first payment only. require.NoError(t, db.DeletePayment(payments[0].id, true)) // The first payment is the only altered one as its failed HTLC should // have been removed but is still present as payment. payments[0].htlcs = 0 assertPayments(t, db, payments) // Delete the first payment completely. require.NoError(t, db.DeletePayment(payments[0].id, false)) // The first payment should have been deleted. assertPayments(t, db, payments[1:]) // Now delete the second payment completely. require.NoError(t, db.DeletePayment(payments[1].id, false)) // The Second payment should have been deleted. assertPayments(t, db, payments[2:]) // Delete failed HTLC attempts for the third payment. require.NoError(t, db.DeletePayment(payments[2].id, true)) // Only the successful HTLC attempt should be left for the third payment. payments[2].htlcs = 1 assertPayments(t, db, payments[2:]) // Now delete the third payment completely. require.NoError(t, db.DeletePayment(payments[2].id, false)) // Only the last payment should be left. assertPayments(t, db, payments[3:]) // Deleting HTLC attempts from InFlight payments should not work and an // error returned. require.Error(t, db.DeletePayment(payments[3].id, true)) // The payment is InFlight and therefore should not have been altered. assertPayments(t, db, payments[3:]) // Finally deleting the InFlight payment should also not work and an // error returned. require.Error(t, db.DeletePayment(payments[3].id, false)) // The payment is InFlight and therefore should not have been altered. assertPayments(t, db, payments[3:]) } // TestPaymentControlMultiShard checks the ability of payment control to // have multiple in-flight HTLCs for a single payment. func TestPaymentControlMultiShard(t *testing.T) { t.Parallel() // We will register three HTLC attempts, and always fail the second // one. We'll generate all combinations of settling/failing the first // and third HTLC, and assert that the payment status end up as we // expect. type testCase struct { settleFirst bool settleLast bool } var tests []testCase for _, f := range []bool{true, false} { for _, l := range []bool{true, false} { tests = append(tests, testCase{f, l}) } } runSubTest := func(t *testing.T, test testCase) { db, err := MakeTestDB(t) if err != nil { t.Fatalf("unable to init db: %v", err) } pControl := NewPaymentControl(db) info, attempt, preimg, err := genInfo() if err != nil { t.Fatalf("unable to generate htlc message: %v", err) } // Init the payment, moving it to the StatusInFlight state. err = pControl.InitPayment(info.PaymentIdentifier, info) if err != nil { t.Fatalf("unable to send htlc message: %v", err) } assertPaymentIndex(t, pControl, info.PaymentIdentifier) assertPaymentStatus( t, pControl, info.PaymentIdentifier, StatusInitiated, ) assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, nil, ) // Create three unique attempts we'll use for the test, and // register them with the payment control. We set each // attempts's value to one third of the payment amount, and // populate the MPP options. shardAmt := info.Value / 3 attempt.Route.FinalHop().AmtToForward = shardAmt attempt.Route.FinalHop().MPP = record.NewMPP( info.Value, [32]byte{1}, ) var attempts []*HTLCAttemptInfo for i := uint64(0); i < 3; i++ { a := *attempt a.AttemptID = i attempts = append(attempts, &a) _, err = pControl.RegisterAttempt(info.PaymentIdentifier, &a) if err != nil { t.Fatalf("unable to send htlc message: %v", err) } assertPaymentStatus( t, pControl, info.PaymentIdentifier, StatusInFlight, ) htlc := &htlcStatus{ HTLCAttemptInfo: &a, } assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, htlc, ) } // For a fourth attempt, check that attempting to // register it will fail since the total sent amount // will be too large. b := *attempt b.AttemptID = 3 _, err = pControl.RegisterAttempt(info.PaymentIdentifier, &b) require.ErrorIs(t, err, ErrValueExceedsAmt) // Fail the second attempt. a := attempts[1] htlcFail := HTLCFailUnreadable _, err = pControl.FailAttempt( info.PaymentIdentifier, a.AttemptID, &HTLCFailInfo{ Reason: htlcFail, }, ) if err != nil { t.Fatal(err) } htlc := &htlcStatus{ HTLCAttemptInfo: a, failure: &htlcFail, } assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, htlc, ) // Payment should still be in-flight. assertPaymentStatus(t, pControl, info.PaymentIdentifier, StatusInFlight) // Depending on the test case, settle or fail the first attempt. a = attempts[0] htlc = &htlcStatus{ HTLCAttemptInfo: a, } var firstFailReason *FailureReason if test.settleFirst { _, err := pControl.SettleAttempt( info.PaymentIdentifier, a.AttemptID, &HTLCSettleInfo{ Preimage: preimg, }, ) if err != nil { t.Fatalf("error shouldn't have been "+ "received, got: %v", err) } // Assert that the HTLC has had the preimage recorded. htlc.settle = &preimg assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, htlc, ) } else { _, err := pControl.FailAttempt( info.PaymentIdentifier, a.AttemptID, &HTLCFailInfo{ Reason: htlcFail, }, ) if err != nil { t.Fatalf("error shouldn't have been "+ "received, got: %v", err) } // Assert the failure was recorded. htlc.failure = &htlcFail assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, nil, htlc, ) // We also record a payment level fail, to move it into // a terminal state. failReason := FailureReasonNoRoute _, err = pControl.Fail(info.PaymentIdentifier, failReason) if err != nil { t.Fatalf("unable to fail payment hash: %v", err) } // Record the reason we failed the payment, such that // we can assert this later in the test. firstFailReason = &failReason // The payment is now considered pending fail, since // there is still an active HTLC. assertPaymentStatus( t, pControl, info.PaymentIdentifier, StatusInFlight, ) } // Try to register yet another attempt. This should fail now // that the payment has reached a terminal condition. b = *attempt b.AttemptID = 3 _, err = pControl.RegisterAttempt(info.PaymentIdentifier, &b) if test.settleFirst { require.ErrorIs(t, err, ErrPaymentPendingSettled) } else { require.ErrorIs(t, err, ErrPaymentPendingFailed) } assertPaymentStatus(t, pControl, info.PaymentIdentifier, StatusInFlight) // Settle or fail the remaining attempt based on the testcase. a = attempts[2] htlc = &htlcStatus{ HTLCAttemptInfo: a, } if test.settleLast { // Settle the last outstanding attempt. _, err = pControl.SettleAttempt( info.PaymentIdentifier, a.AttemptID, &HTLCSettleInfo{ Preimage: preimg, }, ) require.NoError(t, err, "unable to settle") htlc.settle = &preimg assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, firstFailReason, htlc, ) } else { // Fail the attempt. _, err := pControl.FailAttempt( info.PaymentIdentifier, a.AttemptID, &HTLCFailInfo{ Reason: htlcFail, }, ) if err != nil { t.Fatalf("error shouldn't have been "+ "received, got: %v", err) } // Assert the failure was recorded. htlc.failure = &htlcFail assertPaymentInfo( t, pControl, info.PaymentIdentifier, info, firstFailReason, htlc, ) // Check that we can override any perevious terminal // failure. This is to allow multiple concurrent shard // write a terminal failure to the database without // syncing. failReason := FailureReasonPaymentDetails _, err = pControl.Fail(info.PaymentIdentifier, failReason) require.NoError(t, err, "unable to fail") } var ( finalStatus PaymentStatus registerErr error ) switch { // If one of the attempts settled but the other failed with // terminal error, we would still consider the payment is // settled. case test.settleFirst && !test.settleLast: finalStatus = StatusSucceeded registerErr = ErrPaymentAlreadySucceeded case !test.settleFirst && test.settleLast: finalStatus = StatusSucceeded registerErr = ErrPaymentAlreadySucceeded // If both failed, we end up in a failed status. case !test.settleFirst && !test.settleLast: finalStatus = StatusFailed registerErr = ErrPaymentAlreadyFailed // Otherwise, the payment has a succeed status. case test.settleFirst && test.settleLast: finalStatus = StatusSucceeded registerErr = ErrPaymentAlreadySucceeded } assertPaymentStatus( t, pControl, info.PaymentIdentifier, finalStatus, ) // Finally assert we cannot register more attempts. _, err = pControl.RegisterAttempt(info.PaymentIdentifier, &b) require.Equal(t, registerErr, err) } for _, test := range tests { test := test subTest := fmt.Sprintf("first=%v, second=%v", test.settleFirst, test.settleLast) t.Run(subTest, func(t *testing.T) { runSubTest(t, test) }) } } func TestPaymentControlMPPRecordValidation(t *testing.T) { t.Parallel() db, err := MakeTestDB(t) require.NoError(t, err, "unable to init db") pControl := NewPaymentControl(db) info, attempt, _, err := genInfo() require.NoError(t, err, "unable to generate htlc message") // Init the payment. err = pControl.InitPayment(info.PaymentIdentifier, info) require.NoError(t, err, "unable to send htlc message") // Create three unique attempts we'll use for the test, and // register them with the payment control. We set each // attempts's value to one third of the payment amount, and // populate the MPP options. shardAmt := info.Value / 3 attempt.Route.FinalHop().AmtToForward = shardAmt attempt.Route.FinalHop().MPP = record.NewMPP( info.Value, [32]byte{1}, ) _, err = pControl.RegisterAttempt(info.PaymentIdentifier, attempt) require.NoError(t, err, "unable to send htlc message") // Now try to register a non-MPP attempt, which should fail. b := *attempt b.AttemptID = 1 b.Route.FinalHop().MPP = nil _, err = pControl.RegisterAttempt(info.PaymentIdentifier, &b) if err != ErrMPPayment { t.Fatalf("expected ErrMPPayment, got: %v", err) } // Try to register attempt one with a different payment address. b.Route.FinalHop().MPP = record.NewMPP( info.Value, [32]byte{2}, ) _, err = pControl.RegisterAttempt(info.PaymentIdentifier, &b) if err != ErrMPPPaymentAddrMismatch { t.Fatalf("expected ErrMPPPaymentAddrMismatch, got: %v", err) } // Try registering one with a different total amount. b.Route.FinalHop().MPP = record.NewMPP( info.Value/2, [32]byte{1}, ) _, err = pControl.RegisterAttempt(info.PaymentIdentifier, &b) if err != ErrMPPTotalAmountMismatch { t.Fatalf("expected ErrMPPTotalAmountMismatch, got: %v", err) } // Create and init a new payment. This time we'll check that we cannot // register an MPP attempt if we already registered a non-MPP one. info, attempt, _, err = genInfo() require.NoError(t, err, "unable to generate htlc message") err = pControl.InitPayment(info.PaymentIdentifier, info) require.NoError(t, err, "unable to send htlc message") attempt.Route.FinalHop().MPP = nil _, err = pControl.RegisterAttempt(info.PaymentIdentifier, attempt) require.NoError(t, err, "unable to send htlc message") // Attempt to register an MPP attempt, which should fail. b = *attempt b.AttemptID = 1 b.Route.FinalHop().MPP = record.NewMPP( info.Value, [32]byte{1}, ) _, err = pControl.RegisterAttempt(info.PaymentIdentifier, &b) if err != ErrNonMPPayment { t.Fatalf("expected ErrNonMPPayment, got: %v", err) } } // TestDeleteFailedAttempts checks that DeleteFailedAttempts properly removes // failed HTLCs from finished payments. func TestDeleteFailedAttempts(t *testing.T) { t.Parallel() t.Run("keep failed payment attempts", func(t *testing.T) { testDeleteFailedAttempts(t, true) }) t.Run("remove failed payment attempts", func(t *testing.T) { testDeleteFailedAttempts(t, false) }) } func testDeleteFailedAttempts(t *testing.T, keepFailedPaymentAttempts bool) { db, err := MakeTestDB(t) require.NoError(t, err, "unable to init db") db.keepFailedPaymentAttempts = keepFailedPaymentAttempts pControl := NewPaymentControl(db) // Register three payments: // All payments will have one failed HTLC attempt and one HTLC attempt // according to its final status. // 1. A payment with two failed attempts. // 2. A payment with one failed and one in-flight attempt. // 3. A payment with one failed and one settled attempt. // Initiate payments, which is a slice of payment that is used as // template to create the corresponding test payments in the database. // // Note: The payment id and number of htlc attempts of each payment will // be added to this slice when creating the payments below. // This allows the slice to be used directly for testing purposes. payments := []*payment{ {status: StatusFailed}, {status: StatusInFlight}, {status: StatusSucceeded}, } // Use helper function to register the test payments in the data and // populate the data to the payments slice. createTestPayments(t, pControl, payments) // Check that all payments are there as we added them. assertPayments(t, db, payments) // Calling DeleteFailedAttempts on a failed payment should delete all // HTLCs. require.NoError(t, pControl.DeleteFailedAttempts(payments[0].id)) // Expect all HTLCs to be deleted if the config is set to delete them. if !keepFailedPaymentAttempts { payments[0].htlcs = 0 } assertPayments(t, db, payments) // Calling DeleteFailedAttempts on an in-flight payment should return // an error. if keepFailedPaymentAttempts { require.NoError(t, pControl.DeleteFailedAttempts(payments[1].id)) } else { require.Error(t, pControl.DeleteFailedAttempts(payments[1].id)) } // Since DeleteFailedAttempts returned an error, we should expect the // payment to be unchanged. assertPayments(t, db, payments) // Cleaning up a successful payment should remove failed htlcs. require.NoError(t, pControl.DeleteFailedAttempts(payments[2].id)) // Expect all HTLCs except for the settled one to be deleted if the // config is set to delete them. if !keepFailedPaymentAttempts { payments[2].htlcs = 1 } assertPayments(t, db, payments) if keepFailedPaymentAttempts { // DeleteFailedAttempts is ignored, even for non-existent // payments, if the control tower is configured to keep failed // HTLCs. require.NoError(t, pControl.DeleteFailedAttempts(lntypes.ZeroHash)) } else { // Attempting to cleanup a non-existent payment returns an error. require.Error(t, pControl.DeleteFailedAttempts(lntypes.ZeroHash)) } } // assertPaymentStatus retrieves the status of the payment referred to by hash // and compares it with the expected state. func assertPaymentStatus(t *testing.T, p *PaymentControl, hash lntypes.Hash, expStatus PaymentStatus) { t.Helper() payment, err := p.FetchPayment(hash) if errors.Is(err, ErrPaymentNotInitiated) { return } if err != nil { t.Fatal(err) } if payment.Status != expStatus { t.Fatalf("payment status mismatch: expected %v, got %v", expStatus, payment.Status) } } type htlcStatus struct { *HTLCAttemptInfo settle *lntypes.Preimage failure *HTLCFailReason } // assertPaymentInfo retrieves the payment referred to by hash and verifies the // expected values. func assertPaymentInfo(t *testing.T, p *PaymentControl, hash lntypes.Hash, c *PaymentCreationInfo, f *FailureReason, a *htlcStatus) { t.Helper() payment, err := p.FetchPayment(hash) if err != nil { t.Fatal(err) } if !reflect.DeepEqual(payment.Info, c) { t.Fatalf("PaymentCreationInfos don't match: %v vs %v", spew.Sdump(payment.Info), spew.Sdump(c)) } if f != nil { if *payment.FailureReason != *f { t.Fatal("unexpected failure reason") } } else { if payment.FailureReason != nil { t.Fatal("unexpected failure reason") } } if a == nil { if len(payment.HTLCs) > 0 { t.Fatal("expected no htlcs") } return } htlc := payment.HTLCs[a.AttemptID] if err := assertRouteEqual(&htlc.Route, &a.Route); err != nil { t.Fatal("routes do not match") } if htlc.AttemptID != a.AttemptID { t.Fatalf("unnexpected attempt ID %v, expected %v", htlc.AttemptID, a.AttemptID) } if a.failure != nil { if htlc.Failure == nil { t.Fatalf("expected HTLC to be failed") } if htlc.Failure.Reason != *a.failure { t.Fatalf("expected HTLC failure %v, had %v", *a.failure, htlc.Failure.Reason) } } else if htlc.Failure != nil { t.Fatalf("expected no HTLC failure") } if a.settle != nil { if htlc.Settle.Preimage != *a.settle { t.Fatalf("Preimages don't match: %x vs %x", htlc.Settle.Preimage, a.settle) } } else if htlc.Settle != nil { t.Fatal("expected no settle info") } } // fetchPaymentIndexEntry gets the payment hash for the sequence number provided // from our payment indexes bucket. func fetchPaymentIndexEntry(_ *testing.T, p *PaymentControl, sequenceNumber uint64) (*lntypes.Hash, error) { var hash lntypes.Hash if err := kvdb.View(p.db, func(tx walletdb.ReadTx) error { indexBucket := tx.ReadBucket(paymentsIndexBucket) key := make([]byte, 8) byteOrder.PutUint64(key, sequenceNumber) indexValue := indexBucket.Get(key) if indexValue == nil { return errNoSequenceNrIndex } r := bytes.NewReader(indexValue) var err error hash, err = deserializePaymentIndex(r) return err }, func() { hash = lntypes.Hash{} }); err != nil { return nil, err } return &hash, nil } // assertPaymentIndex looks up the index for a payment in the db and checks // that its payment hash matches the expected hash passed in. func assertPaymentIndex(t *testing.T, p *PaymentControl, expectedHash lntypes.Hash) { // Lookup the payment so that we have its sequence number and check // that is has correctly been indexed in the payment indexes bucket. pmt, err := p.FetchPayment(expectedHash) require.NoError(t, err) hash, err := fetchPaymentIndexEntry(t, p, pmt.SequenceNum) require.NoError(t, err) assert.Equal(t, expectedHash, *hash) } // assertNoIndex checks that an index for the sequence number provided does not // exist. func assertNoIndex(t *testing.T, p *PaymentControl, seqNr uint64) { _, err := fetchPaymentIndexEntry(t, p, seqNr) require.Equal(t, errNoSequenceNrIndex, err) } // payment is a helper structure that holds basic information on a test payment, // such as the payment id, the status and the total number of HTLCs attempted. type payment struct { id lntypes.Hash status PaymentStatus htlcs int } // createTestPayments registers payments depending on the provided statuses in // the payments slice. Each payment will receive one failed HTLC and another // HTLC depending on the final status of the payment provided. func createTestPayments(t *testing.T, p *PaymentControl, payments []*payment) { attemptID := uint64(0) for i := 0; i < len(payments); i++ { info, attempt, preimg, err := genInfo() require.NoError(t, err, "unable to generate htlc message") // Set the payment id accordingly in the payments slice. payments[i].id = info.PaymentIdentifier attempt.AttemptID = attemptID attemptID++ // Init the payment. err = p.InitPayment(info.PaymentIdentifier, info) require.NoError(t, err, "unable to send htlc message") // Register and fail the first attempt for all payments. _, err = p.RegisterAttempt(info.PaymentIdentifier, attempt) require.NoError(t, err, "unable to send htlc message") htlcFailure := HTLCFailUnreadable _, err = p.FailAttempt( info.PaymentIdentifier, attempt.AttemptID, &HTLCFailInfo{ Reason: htlcFailure, }, ) require.NoError(t, err, "unable to fail htlc") // Increase the HTLC counter in the payments slice for the // failed attempt. payments[i].htlcs++ // Depending on the test case, fail or succeed the next // attempt. attempt.AttemptID = attemptID attemptID++ _, err = p.RegisterAttempt(info.PaymentIdentifier, attempt) require.NoError(t, err, "unable to send htlc message") switch payments[i].status { // Fail the attempt and the payment overall. case StatusFailed: htlcFailure := HTLCFailUnreadable _, err = p.FailAttempt( info.PaymentIdentifier, attempt.AttemptID, &HTLCFailInfo{ Reason: htlcFailure, }, ) require.NoError(t, err, "unable to fail htlc") failReason := FailureReasonNoRoute _, err = p.Fail(info.PaymentIdentifier, failReason) require.NoError(t, err, "unable to fail payment hash") // Settle the attempt case StatusSucceeded: _, err := p.SettleAttempt( info.PaymentIdentifier, attempt.AttemptID, &HTLCSettleInfo{ Preimage: preimg, }, ) require.NoError(t, err, "no error should have been "+ "received from settling a htlc attempt") // We leave the attempt in-flight by doing nothing. case StatusInFlight: } // Increase the HTLC counter in the payments slice for any // attempt above. payments[i].htlcs++ } } // assertPayments is a helper function that given a slice of payment and // indices for the slice asserts that exactly the same payments in the // slice for the provided indices exist when fetching payments from the // database. func assertPayments(t *testing.T, db *DB, payments []*payment) { t.Helper() dbPayments, err := db.FetchPayments() require.NoError(t, err, "could not fetch payments from db") // Make sure that the number of fetched payments is the same // as expected. require.Len(t, dbPayments, len(payments), "unexpected number of payments") // Convert fetched payments of type MPPayment to our helper structure. p := make([]*payment, len(dbPayments)) for i, dbPayment := range dbPayments { p[i] = &payment{ id: dbPayment.Info.PaymentIdentifier, status: dbPayment.Status, htlcs: len(dbPayment.HTLCs), } } // Check that each payment we want to assert exists in the database. require.Equal(t, payments, p) }