package channeldb import ( "crypto/rand" "crypto/sha256" "reflect" "testing" "time" "github.com/davecgh/go-spew/spew" "github.com/lightningnetwork/lnd/lnwire" ) func randInvoice(value lnwire.MilliSatoshi) (*Invoice, error) { var pre [32]byte if _, err := rand.Read(pre[:]); err != nil { return nil, err } i := &Invoice{ // Use single second precision to avoid false positive test // failures due to the monotonic time component. CreationDate: time.Unix(time.Now().Unix(), 0), Terms: ContractTerm{ PaymentPreimage: pre, Value: value, }, } i.Memo = []byte("memo") i.Receipt = []byte("receipt") // Create a random byte slice of MaxPaymentRequestSize bytes to be used // as a dummy paymentrequest, and determine if it should be set based // on one of the random bytes. var r [MaxPaymentRequestSize]byte if _, err := rand.Read(r[:]); err != nil { return nil, err } if r[0]&1 == 0 { i.PaymentRequest = r[:] } else { i.PaymentRequest = []byte("") } return i, nil } func TestInvoiceWorkflow(t *testing.T) { t.Parallel() db, cleanUp, err := makeTestDB() defer cleanUp() if err != nil { t.Fatalf("unable to make test db: %v", err) } // Create a fake invoice which we'll use several times in the tests // below. fakeInvoice := &Invoice{ // Use single second precision to avoid false positive test // failures due to the monotonic time component. CreationDate: time.Unix(time.Now().Unix(), 0), } fakeInvoice.Memo = []byte("memo") fakeInvoice.Receipt = []byte("receipt") fakeInvoice.PaymentRequest = []byte("") copy(fakeInvoice.Terms.PaymentPreimage[:], rev[:]) fakeInvoice.Terms.Value = lnwire.NewMSatFromSatoshis(10000) // Add the invoice to the database, this should succeed as there aren't // any existing invoices within the database with the same payment // hash. if err := db.AddInvoice(fakeInvoice); err != nil { t.Fatalf("unable to find invoice: %v", err) } // Attempt to retrieve the invoice which was just added to the // database. It should be found, and the invoice returned should be // identical to the one created above. paymentHash := sha256.Sum256(fakeInvoice.Terms.PaymentPreimage[:]) dbInvoice, err := db.LookupInvoice(paymentHash) if err != nil { t.Fatalf("unable to find invoice: %v", err) } if !reflect.DeepEqual(*fakeInvoice, dbInvoice) { t.Fatalf("invoice fetched from db doesn't match original %v vs %v", spew.Sdump(fakeInvoice), spew.Sdump(dbInvoice)) } // The add index of the invoice retrieved from the database should now // be fully populated. As this is the first index written to the DB, // the addIndex should be 1. if dbInvoice.AddIndex != 1 { t.Fatalf("wrong add index: expected %v, got %v", 1, dbInvoice.AddIndex) } // Settle the invoice, the version retrieved from the database should // now have the settled bit toggle to true and a non-default // SettledDate payAmt := fakeInvoice.Terms.Value * 2 if _, err := db.SettleInvoice(paymentHash, payAmt); err != nil { t.Fatalf("unable to settle invoice: %v", err) } dbInvoice2, err := db.LookupInvoice(paymentHash) if err != nil { t.Fatalf("unable to fetch invoice: %v", err) } if !dbInvoice2.Terms.Settled { t.Fatalf("invoice should now be settled but isn't") } if dbInvoice2.SettleDate.IsZero() { t.Fatalf("invoice should have non-zero SettledDate but isn't") } // Our 2x payment should be reflected, and also the settle index of 1 // should also have been committed for this index. if dbInvoice2.AmtPaid != payAmt { t.Fatalf("wrong amt paid: expected %v, got %v", payAmt, dbInvoice2.AmtPaid) } if dbInvoice2.SettleIndex != 1 { t.Fatalf("wrong settle index: expected %v, got %v", 1, dbInvoice2.SettleIndex) } // Attempt to insert generated above again, this should fail as // duplicates are rejected by the processing logic. if err := db.AddInvoice(fakeInvoice); err != ErrDuplicateInvoice { t.Fatalf("invoice insertion should fail due to duplication, "+ "instead %v", err) } // Attempt to look up a non-existent invoice, this should also fail but // with a "not found" error. var fakeHash [32]byte if _, err := db.LookupInvoice(fakeHash); err != ErrInvoiceNotFound { t.Fatalf("lookup should have failed, instead %v", err) } // Add 10 random invoices. const numInvoices = 10 amt := lnwire.NewMSatFromSatoshis(1000) invoices := make([]*Invoice, numInvoices+1) invoices[0] = &dbInvoice2 for i := 1; i < len(invoices)-1; i++ { invoice, err := randInvoice(amt) if err != nil { t.Fatalf("unable to create invoice: %v", err) } if err := db.AddInvoice(invoice); err != nil { t.Fatalf("unable to add invoice %v", err) } invoices[i] = invoice } // Perform a scan to collect all the active invoices. dbInvoices, err := db.FetchAllInvoices(false) if err != nil { t.Fatalf("unable to fetch all invoices: %v", err) } // The retrieve list of invoices should be identical as since we're // using big endian, the invoices should be retrieved in ascending // order (and the primary key should be incremented with each // insertion). for i := 0; i < len(invoices)-1; i++ { if !reflect.DeepEqual(*invoices[i], dbInvoices[i]) { t.Fatalf("retrieved invoices don't match %v vs %v", spew.Sdump(invoices[i]), spew.Sdump(dbInvoices[i])) } } } // TestInvoiceTimeSeries tests that newly added invoices invoices, as well as // settled invoices are added to the database are properly placed in the add // add or settle index which serves as an event time series. func TestInvoiceAddTimeSeries(t *testing.T) { t.Parallel() db, cleanUp, err := makeTestDB() defer cleanUp() if err != nil { t.Fatalf("unable to make test db: %v", err) } // We'll start off by creating 20 random invoices, and inserting them // into the database. const numInvoices = 20 amt := lnwire.NewMSatFromSatoshis(1000) invoices := make([]Invoice, numInvoices) for i := 0; i < len(invoices); i++ { invoice, err := randInvoice(amt) if err != nil { t.Fatalf("unable to create invoice: %v", err) } if err := db.AddInvoice(invoice); err != nil { t.Fatalf("unable to add invoice %v", err) } invoices[i] = *invoice } // With the invoices constructed, we'll now create a series of queries // that we'll use to assert expected return values of // InvoicesAddedSince. addQueries := []struct { sinceAddIndex uint64 resp []Invoice }{ // If we specify a value of zero, we shouldn't get any invoices // back. { sinceAddIndex: 0, }, // If we specify a value well beyond the number of inserted // invoices, we shouldn't get any invoices back. { sinceAddIndex: 99999999, }, // Using an index of 1 should result in all values, but the // first one being returned. { sinceAddIndex: 1, resp: invoices[1:], }, // If we use an index of 10, then we should retrieve the // reaming 10 invoices. { sinceAddIndex: 10, resp: invoices[10:], }, } for i, query := range addQueries { resp, err := db.InvoicesAddedSince(query.sinceAddIndex) if err != nil { t.Fatalf("unable to query: %v", err) } if !reflect.DeepEqual(query.resp, resp) { t.Fatalf("test #%v: expected %v, got %v", i, spew.Sdump(query.resp), spew.Sdump(resp)) } } // We'll now only settle the latter half of each of those invoices. for i := 10; i < len(invoices); i++ { invoice := &invoices[i] paymentHash := sha256.Sum256( invoice.Terms.PaymentPreimage[:], ) _, err := db.SettleInvoice(paymentHash, 0) if err != nil { t.Fatalf("unable to settle invoice: %v", err) } } invoices, err = db.FetchAllInvoices(false) if err != nil { t.Fatalf("unable to fetch invoices: %v", err) } // We'll slice off the first 10 invoices, as we only settled the last // 10. invoices = invoices[10:] // We'll now prepare an additional set of queries to ensure the settle // time series has properly been maintained in the database. settleQueries := []struct { sinceSettleIndex uint64 resp []Invoice }{ // If we specify a value of zero, we shouldn't get any settled // invoices back. { sinceSettleIndex: 0, }, // If we specify a value well beyond the number of settled // invoices, we shouldn't get any invoices back. { sinceSettleIndex: 99999999, }, // Using an index of 1 should result in the final 10 invoices // being returned, as we only settled those. { sinceSettleIndex: 1, resp: invoices[1:], }, } for i, query := range settleQueries { resp, err := db.InvoicesSettledSince(query.sinceSettleIndex) if err != nil { t.Fatalf("unable to query: %v", err) } if !reflect.DeepEqual(query.resp, resp) { t.Fatalf("test #%v: expected %v, got %v", i, spew.Sdump(query.resp), spew.Sdump(resp)) } } }