// Copyright (c) 2020 The btcsuite developers // Use of this source code is governed by an ISC // license that can be found in the LICENSE file. package wallet import ( "bytes" "encoding/hex" "strings" "testing" "github.com/lbryio/lbcd/txscript" "github.com/lbryio/lbcd/wire" btcutil "github.com/lbryio/lbcutil" "github.com/lbryio/lbcutil/psbt" "github.com/lbryio/lbcwallet/waddrmgr" ) var ( testScriptP2WSH, _ = hex.DecodeString( "0020d554616badeb46ccd4ce4b115e1c8d098e942d1387212d0af9ff93a1" + "9c8f100e", ) testScriptP2WKH, _ = hex.DecodeString( "0014e7a43aa41ef6d72dc6baeeaad8362cedf63b79a3", ) ) // TestFundPsbt tests that a given PSBT packet is funded correctly. func TestFundPsbt(t *testing.T) { w, cleanup := testWallet(t) defer cleanup() // Create a P2WKH address we can use to send some coins to. addr, err := w.CurrentAddress(0, waddrmgr.KeyScopeBIP0084) if err != nil { t.Fatalf("unable to get current address: %v", addr) } p2wkhAddr, err := txscript.PayToAddrScript(addr) if err != nil { t.Fatalf("unable to convert wallet address to p2wkh: %v", err) } // Also create a nested P2WKH address we can use to send some coins to. addr, err = w.CurrentAddress(0, waddrmgr.KeyScopeBIP0049Plus) if err != nil { t.Fatalf("unable to get current address: %v", addr) } np2wkhAddr, err := txscript.PayToAddrScript(addr) if err != nil { t.Fatalf("unable to convert wallet address to np2wkh: %v", err) } // Register two big UTXO that will be used when funding the PSBT. incomingTx1 := &wire.MsgTx{ TxIn: []*wire.TxIn{{}}, TxOut: []*wire.TxOut{wire.NewTxOut(1000000, p2wkhAddr)}, } addUtxo(t, w, incomingTx1) utxo1 := wire.OutPoint{ Hash: incomingTx1.TxHash(), Index: 0, } incomingTx2 := &wire.MsgTx{ TxIn: []*wire.TxIn{{}}, TxOut: []*wire.TxOut{wire.NewTxOut(900000, np2wkhAddr)}, } addUtxo(t, w, incomingTx2) utxo2 := wire.OutPoint{ Hash: incomingTx2.TxHash(), Index: 0, } testCases := []struct { name string packet *psbt.Packet feeRateSatPerKB btcutil.Amount expectedErr string validatePackage bool expectedFee int64 expectedChange int64 expectedInputs []wire.OutPoint additionalChecks func(*testing.T, *psbt.Packet, int32) }{{ name: "no outputs provided", packet: &psbt.Packet{ UnsignedTx: &wire.MsgTx{}, }, feeRateSatPerKB: 0, expectedErr: "PSBT packet must contain at least one input or output", }, { name: "single input, no outputs", packet: &psbt.Packet{ UnsignedTx: &wire.MsgTx{ TxIn: []*wire.TxIn{{ PreviousOutPoint: utxo1, }}, }, Inputs: []psbt.PInput{{}}, }, feeRateSatPerKB: 20000, validatePackage: true, expectedInputs: []wire.OutPoint{utxo1}, expectedFee: 2200, expectedChange: 997800, }, { name: "no dust outputs", packet: &psbt.Packet{ UnsignedTx: &wire.MsgTx{ TxOut: []*wire.TxOut{{ PkScript: []byte("foo"), Value: 100, }}, }, Outputs: []psbt.POutput{{}}, }, feeRateSatPerKB: 0, expectedErr: "transaction output is dust", }, { name: "two outputs, no inputs", packet: &psbt.Packet{ UnsignedTx: &wire.MsgTx{ TxOut: []*wire.TxOut{{ PkScript: testScriptP2WSH, Value: 100000, }, { PkScript: testScriptP2WKH, Value: 50000, }}, }, Outputs: []psbt.POutput{{}, {}}, }, feeRateSatPerKB: 2000, // 2 sat/byte expectedErr: "", validatePackage: true, expectedFee: 368, expectedChange: 1000000 - 150000 - 368, expectedInputs: []wire.OutPoint{utxo1}, }, { name: "large output, no inputs", packet: &psbt.Packet{ UnsignedTx: &wire.MsgTx{ TxOut: []*wire.TxOut{{ PkScript: testScriptP2WSH, Value: 1500000, }}, }, Outputs: []psbt.POutput{{}}, }, feeRateSatPerKB: 4000, // 4 sat/byte expectedErr: "", validatePackage: true, expectedFee: 980, expectedChange: 1900000 - 1500000 - 980, expectedInputs: []wire.OutPoint{utxo1, utxo2}, }, { name: "two outputs, two inputs", packet: &psbt.Packet{ UnsignedTx: &wire.MsgTx{ TxIn: []*wire.TxIn{{ PreviousOutPoint: utxo1, }, { PreviousOutPoint: utxo2, }}, TxOut: []*wire.TxOut{{ PkScript: testScriptP2WSH, Value: 100000, }, { PkScript: testScriptP2WKH, Value: 50000, }}, }, Inputs: []psbt.PInput{{}, {}}, Outputs: []psbt.POutput{{}, {}}, }, feeRateSatPerKB: 2000, // 2 sat/byte expectedErr: "", validatePackage: true, expectedFee: 552, expectedChange: 1900000 - 150000 - 552, expectedInputs: []wire.OutPoint{utxo1, utxo2}, additionalChecks: func(t *testing.T, packet *psbt.Packet, changeIndex int32) { // Check outputs, find index for each of the 3 expected. txOuts := packet.UnsignedTx.TxOut if len(txOuts) != 3 { t.Fatalf("unexpected outputs, got %d wanted 3", len(txOuts)) } p2wkhIndex := -1 p2wshIndex := -1 totalOut := int64(0) for idx, txOut := range txOuts { script := txOut.PkScript totalOut += txOut.Value switch { case bytes.Equal(script, testScriptP2WKH): p2wkhIndex = idx case bytes.Equal(script, testScriptP2WSH): p2wshIndex = idx } } totalIn := int64(0) for _, txIn := range packet.Inputs { totalIn += txIn.WitnessUtxo.Value } // All outputs must be found. if p2wkhIndex < 0 || p2wshIndex < 0 || changeIndex < 0 { t.Fatalf("not all outputs found, got indices "+ "p2wkh=%d, p2wsh=%d, change=%d", p2wkhIndex, p2wshIndex, changeIndex) } // After BIP 69 sorting, the P2WKH output should be // before the P2WSH output because the PK script is // lexicographically smaller. if p2wkhIndex > p2wshIndex { t.Fatalf("expected output with script %x to "+ "be before script %x", txOuts[p2wkhIndex].PkScript, txOuts[p2wshIndex].PkScript) } }, }} for _, tc := range testCases { tc := tc t.Run(tc.name, func(t *testing.T) { changeIndex, err := w.FundPsbt( tc.packet, nil, 1, 0, tc.feeRateSatPerKB, CoinSelectionLargest, ) // In any case, unlock the UTXO before continuing, we // don't want to pollute other test iterations. for _, in := range tc.packet.UnsignedTx.TxIn { w.UnlockOutpoint(in.PreviousOutPoint) } // Make sure the error is what we expected. if err == nil && tc.expectedErr != "" { t.Fatalf("expected error '%s' but got nil", tc.expectedErr) } if err != nil && tc.expectedErr == "" { t.Fatalf("expected nil error but got '%v'", err) } if err != nil && !strings.Contains(err.Error(), tc.expectedErr) { t.Fatalf("expected error '%s' but got '%v'", tc.expectedErr, err) } if !tc.validatePackage { return } // Check wire inputs. packet := tc.packet assertTxInputs(t, packet, tc.expectedInputs) // Run any additional tests if available. if tc.additionalChecks != nil { tc.additionalChecks(t, packet, changeIndex) } // Finally, check the change output size and fee. txOuts := packet.UnsignedTx.TxOut totalOut := int64(0) for _, txOut := range txOuts { totalOut += txOut.Value } totalIn := int64(0) for _, txIn := range packet.Inputs { totalIn += txIn.WitnessUtxo.Value } fee := totalIn - totalOut if fee != tc.expectedFee { t.Fatalf("unexpected fee, got %d wanted %d", fee, tc.expectedFee) } if txOuts[changeIndex].Value != tc.expectedChange { t.Fatalf("unexpected change output size, got "+ "%d wanted %d", txOuts[changeIndex].Value, tc.expectedChange) } }) } } func assertTxInputs(t *testing.T, packet *psbt.Packet, expected []wire.OutPoint) { if len(packet.UnsignedTx.TxIn) != len(expected) { t.Fatalf("expected %d inputs to be added, got %d", len(expected), len(packet.UnsignedTx.TxIn)) } // The order of the UTXOs is random, we need to loop through each of // them to make sure they're found. We also check that no signature data // was added yet. for _, txIn := range packet.UnsignedTx.TxIn { if !containsUtxo(expected, txIn.PreviousOutPoint) { t.Fatalf("outpoint %v not found in list of expected "+ "UTXOs", txIn.PreviousOutPoint) } if len(txIn.SignatureScript) > 0 { t.Fatalf("expected scriptSig to be empty on "+ "txin, got %x instead", txIn.SignatureScript) } if len(txIn.Witness) > 0 { t.Fatalf("expected witness to be empty on "+ "txin, got %v instead", txIn.Witness) } } } func containsUtxo(list []wire.OutPoint, candidate wire.OutPoint) bool { for _, utxo := range list { if utxo == candidate { return true } } return false } // TestFinalizePsbt tests that a given PSBT packet can be finalized. func TestFinalizePsbt(t *testing.T) { w, cleanup := testWallet(t) defer cleanup() // Create a P2WKH address we can use to send some coins to. addr, err := w.CurrentAddress(0, waddrmgr.KeyScopeBIP0084) if err != nil { t.Fatalf("unable to get current address: %v", addr) } p2wkhAddr, err := txscript.PayToAddrScript(addr) if err != nil { t.Fatalf("unable to convert wallet address to p2wkh: %v", err) } // Also create a nested P2WKH address we can send coins to. addr, err = w.CurrentAddress(0, waddrmgr.KeyScopeBIP0049Plus) if err != nil { t.Fatalf("unable to get current address: %v", addr) } np2wkhAddr, err := txscript.PayToAddrScript(addr) if err != nil { t.Fatalf("unable to convert wallet address to np2wkh: %v", err) } // Register two big UTXO that will be used when funding the PSBT. utxOutP2WKH := wire.NewTxOut(1000000, p2wkhAddr) utxOutNP2WKH := wire.NewTxOut(1000000, np2wkhAddr) incomingTx := &wire.MsgTx{ TxIn: []*wire.TxIn{{}}, TxOut: []*wire.TxOut{utxOutP2WKH, utxOutNP2WKH}, } addUtxo(t, w, incomingTx) // Create the packet that we want to sign. packet := &psbt.Packet{ UnsignedTx: &wire.MsgTx{ TxIn: []*wire.TxIn{{ PreviousOutPoint: wire.OutPoint{ Hash: incomingTx.TxHash(), Index: 0, }, }, { PreviousOutPoint: wire.OutPoint{ Hash: incomingTx.TxHash(), Index: 1, }, }}, TxOut: []*wire.TxOut{{ PkScript: testScriptP2WKH, Value: 50000, }, { PkScript: testScriptP2WSH, Value: 100000, }, { PkScript: testScriptP2WKH, Value: 849632, }}, }, Inputs: []psbt.PInput{{ WitnessUtxo: utxOutP2WKH, SighashType: txscript.SigHashAll, }, { NonWitnessUtxo: incomingTx, SighashType: txscript.SigHashAll, }}, Outputs: []psbt.POutput{{}, {}, {}}, } // Finalize it to add all witness data then extract the final TX. err = w.FinalizePsbt(nil, 0, packet) if err != nil { t.Fatalf("error finalizing PSBT packet: %v", err) } finalTx, err := psbt.Extract(packet) if err != nil { t.Fatalf("error extracting final TX from PSBT: %v", err) } // Finally verify that the created witness is valid. err = validateMsgTx( finalTx, [][]byte{utxOutP2WKH.PkScript, utxOutNP2WKH.PkScript}, []btcutil.Amount{1000000, 1000000}, ) if err != nil { t.Fatalf("error validating tx: %v", err) } }