package wtxmgr_test import ( "math/rand" "reflect" "testing" "github.com/lbryio/lbcd/chaincfg/chainhash" "github.com/lbryio/lbcd/wire" "github.com/lbryio/lbcwallet/wtxmgr" ) // createTx is a helper method to create random transactions that spend // particular inputs. func createTx(t *testing.T, numOutputs int, inputs ...wire.OutPoint) *wire.MsgTx { t.Helper() tx := wire.NewMsgTx(1) if len(inputs) == 0 { tx.AddTxIn(&wire.TxIn{}) } else { for _, input := range inputs { tx.AddTxIn(&wire.TxIn{PreviousOutPoint: input}) } } for i := 0; i < numOutputs; i++ { var pkScript [32]byte if _, err := rand.Read(pkScript[:]); err != nil { t.Fatal(err) } tx.AddTxOut(&wire.TxOut{ Value: rand.Int63(), PkScript: pkScript[:], }) } return tx } // getOutPoint returns the outpoint for the output with the given index in the // transaction. func getOutPoint(tx *wire.MsgTx, index uint32) wire.OutPoint { return wire.OutPoint{Hash: tx.TxHash(), Index: index} } // TestDependencySort ensures that transactions are topologically sorted by // their dependency order under multiple scenarios. A transaction (a) can depend // on another (b) as long as (a) spends an output created in (b). func TestDependencySort(t *testing.T) { t.Parallel() tests := []struct { name string // setup is in charge of setting the dependency graph and // returning the transactions in their expected sorted order. setup func(t *testing.T) []*wire.MsgTx }{ { name: "single dependency chain", setup: func(t *testing.T) []*wire.MsgTx { // a -> b -> c a := createTx(t, 1) b := createTx(t, 1, getOutPoint(a, 0)) c := createTx(t, 1, getOutPoint(b, 0)) return []*wire.MsgTx{a, b, c} }, }, { name: "double dependency chain", setup: func(t *testing.T) []*wire.MsgTx { // a -> b // a -> c // c -> d // d -> b a := createTx(t, 2) c := createTx(t, 1, getOutPoint(a, 1)) d := createTx(t, 1, getOutPoint(c, 0)) b := createTx(t, 1, getOutPoint(a, 0), getOutPoint(d, 0)) return []*wire.MsgTx{a, c, d, b} }, }, { name: "multi dependency chain", setup: func(t *testing.T) []*wire.MsgTx { // a -> e // a -> c // e -> c // c -> g // a -> b // g -> b // e -> f // c -> f // g -> f // b -> f // b -> d // f -> d a := createTx(t, 3) a0 := getOutPoint(a, 0) e := createTx(t, 2, a0) a1 := getOutPoint(a, 1) e0 := getOutPoint(e, 0) c := createTx(t, 2, a1, e0) c0 := getOutPoint(c, 0) g := createTx(t, 2, c0) a2 := getOutPoint(a, 2) g0 := getOutPoint(g, 0) b := createTx(t, 1, a2, g0) e1 := getOutPoint(e, 1) c1 := getOutPoint(c, 1) g1 := getOutPoint(g, 1) b0 := getOutPoint(b, 0) f := createTx(t, 1, e1, c1, g1, b0) f0 := getOutPoint(f, 0) d := createTx(t, 1, b0, f0) return []*wire.MsgTx{a, e, c, g, b, f, d} }, }, } for _, test := range tests { test := test t.Run(test.name, func(t *testing.T) { t.Parallel() exp := test.setup(t) txSet := make(map[chainhash.Hash]*wire.MsgTx, len(exp)) for _, tx := range exp { txSet[tx.TxHash()] = tx } sortedTxs := wtxmgr.DependencySort(txSet) if !reflect.DeepEqual(sortedTxs, exp) { t.Fatalf("expected %v, got %v", exp, sortedTxs) } }) } }