// Copyright (c) 2016 The btcsuite developers // Use of this source code is governed by an ISC // license that can be found in the LICENSE file. package txauthor_test import ( "testing" "github.com/roasbeef/btcd/wire" "github.com/roasbeef/btcutil" . "github.com/roasbeef/btcwallet/wallet/txauthor" "github.com/roasbeef/btcwallet/wallet/txrules" "github.com/roasbeef/btcwallet/wallet/internal/txsizes" ) func p2pkhOutputs(amounts ...btcutil.Amount) []*wire.TxOut { v := make([]*wire.TxOut, 0, len(amounts)) for _, a := range amounts { outScript := make([]byte, txsizes.P2PKHOutputSize) v = append(v, wire.NewTxOut(int64(a), outScript)) } return v } func makeInputSource(unspents []*wire.TxOut) InputSource { // Return outputs in order. currentTotal := btcutil.Amount(0) currentInputs := make([]*wire.TxIn, 0, len(unspents)) f := func(target btcutil.Amount) (btcutil.Amount, []*wire.TxIn, [][]byte, error) { for currentTotal < target && len(unspents) != 0 { u := unspents[0] unspents = unspents[1:] nextInput := wire.NewTxIn(&wire.OutPoint{}, nil) currentTotal += btcutil.Amount(u.Value) currentInputs = append(currentInputs, nextInput) } return currentTotal, currentInputs, make([][]byte, len(currentInputs)), nil } return InputSource(f) } func TestNewUnsignedTransaction(t *testing.T) { tests := []struct { UnspentOutputs []*wire.TxOut Outputs []*wire.TxOut RelayFee btcutil.Amount ChangeAmount btcutil.Amount InputSourceError bool InputCount int }{ 0: { UnspentOutputs: p2pkhOutputs(1e8), Outputs: p2pkhOutputs(1e8), RelayFee: 1e3, InputSourceError: true, }, 1: { UnspentOutputs: p2pkhOutputs(1e8), Outputs: p2pkhOutputs(1e6), RelayFee: 1e3, ChangeAmount: 1e8 - 1e6 - txrules.FeeForSerializeSize(1e3, txsizes.EstimateSerializeSize(1, p2pkhOutputs(1e6), true)), InputCount: 1, }, 2: { UnspentOutputs: p2pkhOutputs(1e8), Outputs: p2pkhOutputs(1e6), RelayFee: 1e4, ChangeAmount: 1e8 - 1e6 - txrules.FeeForSerializeSize(1e4, txsizes.EstimateSerializeSize(1, p2pkhOutputs(1e6), true)), InputCount: 1, }, 3: { UnspentOutputs: p2pkhOutputs(1e8), Outputs: p2pkhOutputs(1e6, 1e6, 1e6), RelayFee: 1e4, ChangeAmount: 1e8 - 3e6 - txrules.FeeForSerializeSize(1e4, txsizes.EstimateSerializeSize(1, p2pkhOutputs(1e6, 1e6, 1e6), true)), InputCount: 1, }, 4: { UnspentOutputs: p2pkhOutputs(1e8), Outputs: p2pkhOutputs(1e6, 1e6, 1e6), RelayFee: 2.55e3, ChangeAmount: 1e8 - 3e6 - txrules.FeeForSerializeSize(2.55e3, txsizes.EstimateSerializeSize(1, p2pkhOutputs(1e6, 1e6, 1e6), true)), InputCount: 1, }, // Test dust thresholds (546 for a 1e3 relay fee). 5: { UnspentOutputs: p2pkhOutputs(1e8), Outputs: p2pkhOutputs(1e8 - 545 - txrules.FeeForSerializeSize(1e3, txsizes.EstimateSerializeSize(1, p2pkhOutputs(0), true))), RelayFee: 1e3, ChangeAmount: 0, InputCount: 1, }, 6: { UnspentOutputs: p2pkhOutputs(1e8), Outputs: p2pkhOutputs(1e8 - 546 - txrules.FeeForSerializeSize(1e3, txsizes.EstimateSerializeSize(1, p2pkhOutputs(0), true))), RelayFee: 1e3, ChangeAmount: 546, InputCount: 1, }, // Test dust thresholds (1392.3 for a 2.55e3 relay fee). 7: { UnspentOutputs: p2pkhOutputs(1e8), Outputs: p2pkhOutputs(1e8 - 1392 - txrules.FeeForSerializeSize(2.55e3, txsizes.EstimateSerializeSize(1, p2pkhOutputs(0), true))), RelayFee: 2.55e3, ChangeAmount: 0, InputCount: 1, }, 8: { UnspentOutputs: p2pkhOutputs(1e8), Outputs: p2pkhOutputs(1e8 - 1393 - txrules.FeeForSerializeSize(2.55e3, txsizes.EstimateSerializeSize(1, p2pkhOutputs(0), true))), RelayFee: 2.55e3, ChangeAmount: 1393, InputCount: 1, }, // Test two unspent outputs available but only one needed // (tested fee only includes one input rather than using a // serialize size for each). 9: { UnspentOutputs: p2pkhOutputs(1e8, 1e8), Outputs: p2pkhOutputs(1e8 - 546 - txrules.FeeForSerializeSize(1e3, txsizes.EstimateSerializeSize(1, p2pkhOutputs(0), true))), RelayFee: 1e3, ChangeAmount: 546, InputCount: 1, }, // Test that second output is not included to make the change // output not dust and be included in the transaction. // // It's debatable whether or not this is a good idea, but it's // how the function was written, so test it anyways. 10: { UnspentOutputs: p2pkhOutputs(1e8, 1e8), Outputs: p2pkhOutputs(1e8 - 545 - txrules.FeeForSerializeSize(1e3, txsizes.EstimateSerializeSize(1, p2pkhOutputs(0), true))), RelayFee: 1e3, ChangeAmount: 0, InputCount: 1, }, // Test two unspent outputs available where both are needed. 11: { UnspentOutputs: p2pkhOutputs(1e8, 1e8), Outputs: p2pkhOutputs(1e8), RelayFee: 1e3, ChangeAmount: 1e8 - txrules.FeeForSerializeSize(1e3, txsizes.EstimateSerializeSize(2, p2pkhOutputs(1e8), true)), InputCount: 2, }, // Test that zero change outputs are not included // (ChangeAmount=0 means don't include any change output). 12: { UnspentOutputs: p2pkhOutputs(1e8), Outputs: p2pkhOutputs(1e8), RelayFee: 0, ChangeAmount: 0, InputCount: 1, }, } changeSource := func() ([]byte, error) { // Only length matters for these tests. return make([]byte, txsizes.P2PKHPkScriptSize), nil } for i, test := range tests { inputSource := makeInputSource(test.UnspentOutputs) tx, err := NewUnsignedTransaction(test.Outputs, test.RelayFee, inputSource, changeSource) switch e := err.(type) { case nil: case InputSourceError: if !test.InputSourceError { t.Errorf("Test %d: Returned InputSourceError but expected "+ "change output with amount %v", i, test.ChangeAmount) } continue default: t.Errorf("Test %d: Unexpected error: %v", i, e) continue } if tx.ChangeIndex < 0 { if test.ChangeAmount != 0 { t.Errorf("Test %d: No change output added but expected output with amount %v", i, test.ChangeAmount) continue } } else { changeAmount := btcutil.Amount(tx.Tx.TxOut[tx.ChangeIndex].Value) if test.ChangeAmount == 0 { t.Errorf("Test %d: Included change output with value %v but expected no change", i, changeAmount) continue } if changeAmount != test.ChangeAmount { t.Errorf("Test %d: Got change amount %v, Expected %v", i, changeAmount, test.ChangeAmount) continue } } if len(tx.Tx.TxIn) != test.InputCount { t.Errorf("Test %d: Used %d outputs from input source, Expected %d", i, len(tx.Tx.TxIn), test.InputCount) } } }