lbcwallet/votingpool/withdrawal_wb_test.go

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// Copyright (c) 2015 The btcsuite developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package votingpool
import (
"bytes"
"reflect"
"sort"
"testing"
"github.com/btcsuite/btcd/chaincfg"
"github.com/btcsuite/btcd/txscript"
"github.com/btcsuite/btcd/wire"
"github.com/btcsuite/btcutil"
"github.com/btcsuite/btcutil/hdkeychain"
"github.com/btcsuite/btcwallet/waddrmgr"
"github.com/btcsuite/btcwallet/walletdb"
"github.com/btcsuite/btcwallet/wtxmgr"
)
// TestOutputSplittingNotEnoughInputs checks that an output will get split if we
// don't have enough inputs to fulfil it.
func TestOutputSplittingNotEnoughInputs(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
net := pool.Manager().ChainParams()
output1Amount := btcutil.Amount(2)
output2Amount := btcutil.Amount(3)
requests := []OutputRequest{
// These output requests will have the same server ID, so we know
// they'll be fulfilled in the order they're defined here, which is
// important for this test.
TstNewOutputRequest(t, 1, "34eVkREKgvvGASZW7hkgE2uNc1yycntMK6", output1Amount, net),
TstNewOutputRequest(t, 2, "34eVkREKgvvGASZW7hkgE2uNc1yycntMK6", output2Amount, net),
}
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seriesID, eligible := TstCreateCreditsOnNewSeries(t, pool, []int64{7})
w := newWithdrawal(0, requests, eligible, *TstNewChangeAddress(t, pool, seriesID, 0))
w.txOptions = func(tx *withdrawalTx) {
// Trigger an output split because of lack of inputs by forcing a high fee.
// If we just started with not enough inputs for the requested outputs,
// fulfillRequests() would drop outputs until we had enough.
tx.calculateFee = TstConstantFee(3)
}
if err := w.fulfillRequests(); err != nil {
t.Fatal(err)
}
if len(w.transactions) != 1 {
t.Fatalf("Wrong number of finalized transactions; got %d, want 1", len(w.transactions))
}
tx := w.transactions[0]
if len(tx.outputs) != 2 {
t.Fatalf("Wrong number of outputs; got %d, want 2", len(tx.outputs))
}
// The first output should've been left untouched.
if tx.outputs[0].amount != output1Amount {
t.Fatalf("Wrong amount for first tx output; got %v, want %v",
tx.outputs[0].amount, output1Amount)
}
// The last output should have had its amount updated to whatever we had
// left after satisfying all previous outputs.
newAmount := tx.inputTotal() - output1Amount - tx.calculateFee()
checkLastOutputWasSplit(t, w, tx, output2Amount, newAmount)
}
func TestOutputSplittingOversizeTx(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
requestAmount := btcutil.Amount(5)
bigInput := int64(3)
smallInput := int64(2)
request := TstNewOutputRequest(
t, 1, "34eVkREKgvvGASZW7hkgE2uNc1yycntMK6", requestAmount, pool.Manager().ChainParams())
seriesID, eligible := TstCreateCreditsOnNewSeries(t, pool, []int64{smallInput, bigInput})
changeStart := TstNewChangeAddress(t, pool, seriesID, 0)
w := newWithdrawal(0, []OutputRequest{request}, eligible, *changeStart)
w.txOptions = func(tx *withdrawalTx) {
tx.calculateFee = TstConstantFee(0)
tx.calculateSize = func() int {
// Trigger an output split right after the second input is added.
if len(tx.inputs) == 2 {
return txMaxSize + 1
}
return txMaxSize - 1
}
}
if err := w.fulfillRequests(); err != nil {
t.Fatal(err)
}
if len(w.transactions) != 2 {
t.Fatalf("Wrong number of finalized transactions; got %d, want 2", len(w.transactions))
}
tx1 := w.transactions[0]
if len(tx1.outputs) != 1 {
t.Fatalf("Wrong number of outputs on tx1; got %d, want 1", len(tx1.outputs))
}
if tx1.outputs[0].amount != btcutil.Amount(bigInput) {
t.Fatalf("Wrong amount for output in tx1; got %d, want %d", tx1.outputs[0].amount,
bigInput)
}
tx2 := w.transactions[1]
if len(tx2.outputs) != 1 {
t.Fatalf("Wrong number of outputs on tx2; got %d, want 1", len(tx2.outputs))
}
if tx2.outputs[0].amount != btcutil.Amount(smallInput) {
t.Fatalf("Wrong amount for output in tx2; got %d, want %d", tx2.outputs[0].amount,
smallInput)
}
if len(w.status.outputs) != 1 {
t.Fatalf("Wrong number of output statuses; got %d, want 1", len(w.status.outputs))
}
status := w.status.outputs[request.outBailmentID()].status
if status != statusSplit {
t.Fatalf("Wrong output status; got '%s', want '%s'", status, statusSplit)
}
}
func TestSplitLastOutputNoOutputs(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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w := newWithdrawal(0, []OutputRequest{}, []credit{}, ChangeAddress{})
w.current = createWithdrawalTx(t, pool, []int64{}, []int64{})
err := w.splitLastOutput()
TstCheckError(t, "", err, ErrPreconditionNotMet)
}
// Check that all outputs requested in a withdrawal match the outputs of the generated
// transaction(s).
func TestWithdrawalTxOutputs(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
net := pool.Manager().ChainParams()
// Create eligible inputs and the list of outputs we need to fulfil.
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seriesID, eligible := TstCreateCreditsOnNewSeries(t, pool, []int64{2e6, 4e6})
outputs := []OutputRequest{
TstNewOutputRequest(t, 1, "34eVkREKgvvGASZW7hkgE2uNc1yycntMK6", 3e6, net),
TstNewOutputRequest(t, 2, "3PbExiaztsSYgh6zeMswC49hLUwhTQ86XG", 2e6, net),
}
changeStart := TstNewChangeAddress(t, pool, seriesID, 0)
w := newWithdrawal(0, outputs, eligible, *changeStart)
if err := w.fulfillRequests(); err != nil {
t.Fatal(err)
}
if len(w.transactions) != 1 {
t.Fatalf("Unexpected number of transactions; got %d, want 1", len(w.transactions))
}
tx := w.transactions[0]
// The created tx should include both eligible credits, so we expect it to have
// an input amount of 2e6+4e6 satoshis.
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inputAmount := eligible[0].Amount + eligible[1].Amount
change := inputAmount - (outputs[0].Amount + outputs[1].Amount + tx.calculateFee())
expectedOutputs := append(
outputs, TstNewOutputRequest(t, 3, changeStart.addr.String(), change, net))
msgtx := tx.toMsgTx()
checkMsgTxOutputs(t, msgtx, expectedOutputs)
}
// Check that withdrawal.status correctly states that no outputs were fulfilled when we
// don't have enough eligible credits for any of them.
func TestFulfillRequestsNoSatisfiableOutputs(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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seriesID, eligible := TstCreateCreditsOnNewSeries(t, pool, []int64{1e6})
request := TstNewOutputRequest(
t, 1, "3Qt1EaKRD9g9FeL2DGkLLswhK1AKmmXFSe", btcutil.Amount(3e6), pool.Manager().ChainParams())
changeStart := TstNewChangeAddress(t, pool, seriesID, 0)
w := newWithdrawal(0, []OutputRequest{request}, eligible, *changeStart)
if err := w.fulfillRequests(); err != nil {
t.Fatal(err)
}
if len(w.transactions) != 0 {
t.Fatalf("Unexpected number of transactions; got %d, want 0", len(w.transactions))
}
if len(w.status.outputs) != 1 {
t.Fatalf("Unexpected number of outputs in WithdrawalStatus; got %d, want 1",
len(w.status.outputs))
}
status := w.status.outputs[request.outBailmentID()].status
if status != statusPartial {
t.Fatalf("Unexpected status for requested outputs; got '%s', want '%s'",
status, statusPartial)
}
}
// Check that some requested outputs are not fulfilled when we don't have credits for all
// of them.
func TestFulfillRequestsNotEnoughCreditsForAllRequests(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
net := pool.Manager().ChainParams()
// Create eligible inputs and the list of outputs we need to fulfil.
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seriesID, eligible := TstCreateCreditsOnNewSeries(t, pool, []int64{2e6, 4e6})
out1 := TstNewOutputRequest(
t, 1, "34eVkREKgvvGASZW7hkgE2uNc1yycntMK6", btcutil.Amount(3e6), net)
out2 := TstNewOutputRequest(
t, 2, "3PbExiaztsSYgh6zeMswC49hLUwhTQ86XG", btcutil.Amount(2e6), net)
out3 := TstNewOutputRequest(
t, 3, "3Qt1EaKRD9g9FeL2DGkLLswhK1AKmmXFSe", btcutil.Amount(5e6), net)
outputs := []OutputRequest{out1, out2, out3}
changeStart := TstNewChangeAddress(t, pool, seriesID, 0)
w := newWithdrawal(0, outputs, eligible, *changeStart)
if err := w.fulfillRequests(); err != nil {
t.Fatal(err)
}
tx := w.transactions[0]
// The created tx should spend both eligible credits, so we expect it to have
// an input amount of 2e6+4e6 satoshis.
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inputAmount := eligible[0].Amount + eligible[1].Amount
// We expect it to include outputs for requests 1 and 2, plus a change output, but
// output request #3 should not be there because we don't have enough credits.
change := inputAmount - (out1.Amount + out2.Amount + tx.calculateFee())
expectedOutputs := []OutputRequest{out1, out2}
sort.Sort(byOutBailmentID(expectedOutputs))
expectedOutputs = append(
expectedOutputs, TstNewOutputRequest(t, 4, changeStart.addr.String(), change, net))
msgtx := tx.toMsgTx()
checkMsgTxOutputs(t, msgtx, expectedOutputs)
// withdrawal.status should state that outputs 1 and 2 were successfully fulfilled,
// and that output 3 was not.
expectedStatuses := map[OutBailmentID]outputStatus{
out1.outBailmentID(): statusSuccess,
out2.outBailmentID(): statusSuccess,
out3.outBailmentID(): statusPartial}
for _, wOutput := range w.status.outputs {
if wOutput.status != expectedStatuses[wOutput.request.outBailmentID()] {
t.Fatalf("Unexpected status for %v; got '%s', want '%s'", wOutput.request,
wOutput.status, expectedStatuses[wOutput.request.outBailmentID()])
}
}
}
// TestRollbackLastOutput tests the case where we rollback one output
// and one input, such that sum(in) >= sum(out) + fee.
func TestRollbackLastOutput(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{3, 3, 2, 1, 3}, []int64{3, 3, 2, 2})
initialInputs := tx.inputs
initialOutputs := tx.outputs
tx.calculateFee = TstConstantFee(1)
removedInputs, removedOutput, err := tx.rollBackLastOutput()
if err != nil {
t.Fatal("Unexpected error:", err)
}
// The above rollBackLastOutput() call should have removed the last output
// and the last input.
lastOutput := initialOutputs[len(initialOutputs)-1]
if removedOutput != lastOutput {
t.Fatalf("Wrong rolled back output; got %s want %s", removedOutput, lastOutput)
}
if len(removedInputs) != 1 {
t.Fatalf("Unexpected number of inputs removed; got %d, want 1", len(removedInputs))
}
lastInput := initialInputs[len(initialInputs)-1]
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if !reflect.DeepEqual(removedInputs[0], lastInput) {
t.Fatalf("Wrong rolled back input; got %s want %s", removedInputs[0], lastInput)
}
// Now check that the inputs and outputs left in the tx match what we
// expect.
checkTxOutputs(t, tx, initialOutputs[:len(initialOutputs)-1])
checkTxInputs(t, tx, initialInputs[:len(initialInputs)-1])
}
func TestRollbackLastOutputMultipleInputsRolledBack(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
// This tx will need the 3 last inputs to fulfill the second output, so they
// should all be rolled back and returned in the reverse order they were added.
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tx := createWithdrawalTx(t, pool, []int64{1, 2, 3, 4}, []int64{1, 8})
initialInputs := tx.inputs
initialOutputs := tx.outputs
tx.calculateFee = TstConstantFee(0)
removedInputs, _, err := tx.rollBackLastOutput()
if err != nil {
t.Fatal("Unexpected error:", err)
}
if len(removedInputs) != 3 {
t.Fatalf("Unexpected number of inputs removed; got %d, want 3", len(removedInputs))
}
for i, amount := range []btcutil.Amount{4, 3, 2} {
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if removedInputs[i].Amount != amount {
t.Fatalf("Unexpected input amount; got %v, want %v", removedInputs[i].Amount, amount)
}
}
// Now check that the inputs and outputs left in the tx match what we
// expect.
checkTxOutputs(t, tx, initialOutputs[:len(initialOutputs)-1])
checkTxInputs(t, tx, initialInputs[:len(initialInputs)-len(removedInputs)])
}
// TestRollbackLastOutputNoInputsRolledBack tests the case where we roll back
// one output but don't need to roll back any inputs.
func TestRollbackLastOutputNoInputsRolledBack(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{4}, []int64{2, 3})
initialInputs := tx.inputs
initialOutputs := tx.outputs
tx.calculateFee = TstConstantFee(1)
removedInputs, removedOutput, err := tx.rollBackLastOutput()
if err != nil {
t.Fatal("Unexpected error:", err)
}
// The above rollBackLastOutput() call should have removed the
// last output but no inputs.
lastOutput := initialOutputs[len(initialOutputs)-1]
if removedOutput != lastOutput {
t.Fatalf("Wrong output; got %s want %s", removedOutput, lastOutput)
}
if len(removedInputs) != 0 {
t.Fatalf("Expected no removed inputs, but got %d inputs", len(removedInputs))
}
// Now check that the inputs and outputs left in the tx match what we
// expect.
checkTxOutputs(t, tx, initialOutputs[:len(initialOutputs)-1])
checkTxInputs(t, tx, initialInputs)
}
// TestRollBackLastOutputInsufficientOutputs checks that
// rollBackLastOutput returns an error if there are less than two
// outputs in the transaction.
func TestRollBackLastOutputInsufficientOutputs(t *testing.T) {
tx := newWithdrawalTx(defaultTxOptions)
_, _, err := tx.rollBackLastOutput()
TstCheckError(t, "", err, ErrPreconditionNotMet)
output := &WithdrawalOutput{request: TstNewOutputRequest(
t, 1, "34eVkREKgvvGASZW7hkgE2uNc1yycntMK6", btcutil.Amount(3), &chaincfg.MainNetParams)}
tx.addOutput(output.request)
_, _, err = tx.rollBackLastOutput()
TstCheckError(t, "", err, ErrPreconditionNotMet)
}
// TestRollbackLastOutputWhenNewOutputAdded checks that we roll back the last
// output if a tx becomes too big right after we add a new output to it.
func TestRollbackLastOutputWhenNewOutputAdded(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
net := pool.Manager().ChainParams()
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series, eligible := TstCreateCreditsOnNewSeries(t, pool, []int64{5, 5})
requests := []OutputRequest{
// This is ordered by bailment ID
TstNewOutputRequest(t, 1, "34eVkREKgvvGASZW7hkgE2uNc1yycntMK6", 1, net),
TstNewOutputRequest(t, 2, "3PbExiaztsSYgh6zeMswC49hLUwhTQ86XG", 2, net),
}
changeStart := TstNewChangeAddress(t, pool, series, 0)
w := newWithdrawal(0, requests, eligible, *changeStart)
w.txOptions = func(tx *withdrawalTx) {
tx.calculateFee = TstConstantFee(0)
tx.calculateSize = func() int {
// Trigger an output split right after the second output is added.
if len(tx.outputs) > 1 {
return txMaxSize + 1
}
return txMaxSize - 1
}
}
if err := w.fulfillRequests(); err != nil {
t.Fatal("Unexpected error:", err)
}
// At this point we should have two finalized transactions.
if len(w.transactions) != 2 {
t.Fatalf("Wrong number of finalized transactions; got %d, want 2", len(w.transactions))
}
// First tx should have one output with 1 and one change output with 4
// satoshis.
firstTx := w.transactions[0]
req1 := requests[0]
checkTxOutputs(t, firstTx,
[]*withdrawalTxOut{&withdrawalTxOut{request: req1, amount: req1.Amount}})
checkTxChangeAmount(t, firstTx, btcutil.Amount(4))
// Second tx should have one output with 2 and one changeoutput with 3 satoshis.
secondTx := w.transactions[1]
req2 := requests[1]
checkTxOutputs(t, secondTx,
[]*withdrawalTxOut{&withdrawalTxOut{request: req2, amount: req2.Amount}})
checkTxChangeAmount(t, secondTx, btcutil.Amount(3))
}
// TestRollbackLastOutputWhenNewInputAdded checks that we roll back the last
// output if a tx becomes too big right after we add a new input to it.
func TestRollbackLastOutputWhenNewInputAdded(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
net := pool.Manager().ChainParams()
series, eligible := TstCreateCreditsOnNewSeries(t, pool, []int64{6, 5, 4, 3, 2, 1})
requests := []OutputRequest{
// This is manually ordered by outBailmentIDHash, which is the order in
// which they're going to be fulfilled by w.fulfillRequests().
TstNewOutputRequest(t, 1, "34eVkREKgvvGASZW7hkgE2uNc1yycntMK6", 1, net),
TstNewOutputRequest(t, 3, "3Qt1EaKRD9g9FeL2DGkLLswhK1AKmmXFSe", 6, net),
TstNewOutputRequest(t, 2, "3PbExiaztsSYgh6zeMswC49hLUwhTQ86XG", 3, net),
}
changeStart := TstNewChangeAddress(t, pool, series, 0)
w := newWithdrawal(0, requests, eligible, *changeStart)
w.txOptions = func(tx *withdrawalTx) {
tx.calculateFee = TstConstantFee(0)
tx.calculateSize = func() int {
// Make a transaction too big as soon as a fourth input is added to it.
if len(tx.inputs) > 3 {
return txMaxSize + 1
}
return txMaxSize - 1
}
}
// The rollback should be triggered right after the 4th input is added in
// order to fulfill the second request.
if err := w.fulfillRequests(); err != nil {
t.Fatal("Unexpected error:", err)
}
// At this point we should have two finalized transactions.
if len(w.transactions) != 2 {
t.Fatalf("Wrong number of finalized transactions; got %d, want 2", len(w.transactions))
}
// First tx should have one output with amount of 1, the first input from
// the stack of eligible inputs (last slice item), and no change output.
firstTx := w.transactions[0]
req1 := requests[0]
checkTxOutputs(t, firstTx,
[]*withdrawalTxOut{&withdrawalTxOut{request: req1, amount: req1.Amount}})
checkTxInputs(t, firstTx, eligible[5:6])
// Second tx should have outputs for the two last requests (in the same
// order they were passed to newWithdrawal), and the 3 inputs needed to
// fulfill that (in reverse order as they were passed to newWithdrawal, as
// that's how fulfillRequests() consumes them) and no change output.
secondTx := w.transactions[1]
wantOutputs := []*withdrawalTxOut{
&withdrawalTxOut{request: requests[1], amount: requests[1].Amount},
&withdrawalTxOut{request: requests[2], amount: requests[2].Amount}}
checkTxOutputs(t, secondTx, wantOutputs)
wantInputs := []credit{eligible[4], eligible[3], eligible[2]}
checkTxInputs(t, secondTx, wantInputs)
}
func TestWithdrawalTxRemoveOutput(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{}, []int64{1, 2})
outputs := tx.outputs
// Make sure we have created the transaction with the expected
// outputs.
checkTxOutputs(t, tx, outputs)
remainingOutput := tx.outputs[0]
wantRemovedOutput := tx.outputs[1]
gotRemovedOutput := tx.removeOutput()
// Check the popped output looks correct.
if gotRemovedOutput != wantRemovedOutput {
t.Fatalf("Removed output wrong; got %v, want %v", gotRemovedOutput, wantRemovedOutput)
}
// And that the remaining output is correct.
checkTxOutputs(t, tx, []*withdrawalTxOut{remainingOutput})
// Make sure that the remaining output is really the right one.
if tx.outputs[0] != remainingOutput {
t.Fatalf("Wrong output: got %v, want %v", tx.outputs[0], remainingOutput)
}
}
func TestWithdrawalTxRemoveInput(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{1, 2}, []int64{})
inputs := tx.inputs
// Make sure we have created the transaction with the expected inputs
checkTxInputs(t, tx, inputs)
remainingInput := tx.inputs[0]
wantRemovedInput := tx.inputs[1]
gotRemovedInput := tx.removeInput()
// Check the popped input looks correct.
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if !reflect.DeepEqual(gotRemovedInput, wantRemovedInput) {
t.Fatalf("Popped input wrong; got %v, want %v", gotRemovedInput, wantRemovedInput)
}
checkTxInputs(t, tx, inputs[0:1])
// Make sure that the remaining input is really the right one.
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if !reflect.DeepEqual(tx.inputs[0], remainingInput) {
t.Fatalf("Wrong input: got %v, want %v", tx.inputs[0], remainingInput)
}
}
func TestWithdrawalTxAddChange(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
input, output, fee := int64(4e6), int64(3e6), int64(10)
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tx := createWithdrawalTx(t, pool, []int64{input}, []int64{output})
tx.calculateFee = TstConstantFee(btcutil.Amount(fee))
if !tx.addChange([]byte{}) {
t.Fatal("tx.addChange() returned false, meaning it did not add a change output")
}
msgtx := tx.toMsgTx()
if len(msgtx.TxOut) != 2 {
t.Fatalf("Unexpected number of txouts; got %d, want 2", len(msgtx.TxOut))
}
gotChange := msgtx.TxOut[1].Value
wantChange := input - output - fee
if gotChange != wantChange {
t.Fatalf("Unexpected change amount; got %v, want %v", gotChange, wantChange)
}
}
// TestWithdrawalTxAddChangeNoChange checks that withdrawalTx.addChange() does not
// add a change output when there's no satoshis left after paying all
// outputs+fees.
func TestWithdrawalTxAddChangeNoChange(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
input, output, fee := int64(4e6), int64(4e6), int64(0)
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tx := createWithdrawalTx(t, pool, []int64{input}, []int64{output})
tx.calculateFee = TstConstantFee(btcutil.Amount(fee))
if tx.addChange([]byte{}) {
t.Fatal("tx.addChange() returned true, meaning it added a change output")
}
msgtx := tx.toMsgTx()
if len(msgtx.TxOut) != 1 {
t.Fatalf("Unexpected number of txouts; got %d, want 1", len(msgtx.TxOut))
}
}
func TestWithdrawalTxToMsgTxNoInputsOrOutputsOrChange(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{}, []int64{})
msgtx := tx.toMsgTx()
compareMsgTxAndWithdrawalTxOutputs(t, msgtx, tx)
compareMsgTxAndWithdrawalTxInputs(t, msgtx, tx)
}
func TestWithdrawalTxToMsgTxNoInputsOrOutputsWithChange(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{}, []int64{})
tx.changeOutput = wire.NewTxOut(int64(1), []byte{})
msgtx := tx.toMsgTx()
compareMsgTxAndWithdrawalTxOutputs(t, msgtx, tx)
compareMsgTxAndWithdrawalTxInputs(t, msgtx, tx)
}
func TestWithdrawalTxToMsgTxWithInputButNoOutputsWithChange(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{1}, []int64{})
tx.changeOutput = wire.NewTxOut(int64(1), []byte{})
msgtx := tx.toMsgTx()
compareMsgTxAndWithdrawalTxOutputs(t, msgtx, tx)
compareMsgTxAndWithdrawalTxInputs(t, msgtx, tx)
}
func TestWithdrawalTxToMsgTxWithInputOutputsAndChange(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{1, 2, 3}, []int64{4, 5, 6})
tx.changeOutput = wire.NewTxOut(int64(7), []byte{})
msgtx := tx.toMsgTx()
compareMsgTxAndWithdrawalTxOutputs(t, msgtx, tx)
compareMsgTxAndWithdrawalTxInputs(t, msgtx, tx)
}
func TestWithdrawalTxInputTotal(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{5}, []int64{})
if tx.inputTotal() != btcutil.Amount(5) {
t.Fatalf("Wrong total output; got %v, want %v", tx.outputTotal(), btcutil.Amount(5))
}
}
func TestWithdrawalTxOutputTotal(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{}, []int64{4})
tx.changeOutput = wire.NewTxOut(int64(1), []byte{})
if tx.outputTotal() != btcutil.Amount(4) {
t.Fatalf("Wrong total output; got %v, want %v", tx.outputTotal(), btcutil.Amount(4))
}
}
func TestWithdrawalInfoMatch(t *testing.T) {
tearDown, _, pool := TstCreatePool(t)
defer tearDown()
roundID := uint32(0)
wi := createAndFulfillWithdrawalRequests(t, pool, roundID)
// Use freshly created values for requests, startAddress and changeStart
// to simulate what would happen if we had recreated them from the
// serialized data in the DB.
requestsCopy := make([]OutputRequest, len(wi.requests))
copy(requestsCopy, wi.requests)
startAddr := TstNewWithdrawalAddress(t, pool, wi.startAddress.seriesID, wi.startAddress.branch,
wi.startAddress.index)
changeStart := TstNewChangeAddress(t, pool, wi.changeStart.seriesID, wi.changeStart.index)
// First check that it matches when all fields are identical.
matches := wi.match(requestsCopy, *startAddr, wi.lastSeriesID, *changeStart, wi.dustThreshold)
if !matches {
t.Fatal("Should match when everything is identical.")
}
// It also matches if the OutputRequests are not in the same order.
diffOrderRequests := make([]OutputRequest, len(requestsCopy))
copy(diffOrderRequests, requestsCopy)
diffOrderRequests[0], diffOrderRequests[1] = requestsCopy[1], requestsCopy[0]
matches = wi.match(diffOrderRequests, *startAddr, wi.lastSeriesID, *changeStart,
wi.dustThreshold)
if !matches {
t.Fatal("Should match when requests are in different order.")
}
// It should not match when the OutputRequests are not the same.
diffRequests := diffOrderRequests
diffRequests[0] = OutputRequest{}
matches = wi.match(diffRequests, *startAddr, wi.lastSeriesID, *changeStart, wi.dustThreshold)
if matches {
t.Fatal("Should not match as requests is not equal.")
}
// It should not match when lastSeriesID is not equal.
matches = wi.match(requestsCopy, *startAddr, wi.lastSeriesID+1, *changeStart, wi.dustThreshold)
if matches {
t.Fatal("Should not match as lastSeriesID is not equal.")
}
// It should not match when dustThreshold is not equal.
matches = wi.match(requestsCopy, *startAddr, wi.lastSeriesID, *changeStart, wi.dustThreshold+1)
if matches {
t.Fatal("Should not match as dustThreshold is not equal.")
}
// It should not match when startAddress is not equal.
diffStartAddr := TstNewWithdrawalAddress(t, pool, startAddr.seriesID, startAddr.branch+1,
startAddr.index)
matches = wi.match(requestsCopy, *diffStartAddr, wi.lastSeriesID, *changeStart,
wi.dustThreshold)
if matches {
t.Fatal("Should not match as startAddress is not equal.")
}
// It should not match when changeStart is not equal.
diffChangeStart := TstNewChangeAddress(t, pool, changeStart.seriesID, changeStart.index+1)
matches = wi.match(requestsCopy, *startAddr, wi.lastSeriesID, *diffChangeStart,
wi.dustThreshold)
if matches {
t.Fatal("Should not match as changeStart is not equal.")
}
}
func TestGetWithdrawalStatus(t *testing.T) {
tearDown, _, pool := TstCreatePool(t)
defer tearDown()
roundID := uint32(0)
wi := createAndFulfillWithdrawalRequests(t, pool, roundID)
serialized, err := serializeWithdrawal(wi.requests, wi.startAddress, wi.lastSeriesID,
wi.changeStart, wi.dustThreshold, wi.status)
if err != nil {
t.Fatal(err)
}
err = pool.namespace.Update(
func(tx walletdb.Tx) error {
return putWithdrawal(tx, pool.ID, roundID, serialized)
})
if err != nil {
t.Fatal(err)
}
// Here we should get a WithdrawalStatus that matches wi.status.
var status *WithdrawalStatus
TstRunWithManagerUnlocked(t, pool.Manager(), func() {
status, err = getWithdrawalStatus(pool, roundID, wi.requests, wi.startAddress,
wi.lastSeriesID, wi.changeStart, wi.dustThreshold)
})
if err != nil {
t.Fatal(err)
}
TstCheckWithdrawalStatusMatches(t, wi.status, *status)
// Here we should get a nil WithdrawalStatus because the parameters are not
// identical to those of the stored WithdrawalStatus with this roundID.
dustThreshold := wi.dustThreshold + 1
TstRunWithManagerUnlocked(t, pool.Manager(), func() {
status, err = getWithdrawalStatus(pool, roundID, wi.requests, wi.startAddress,
wi.lastSeriesID, wi.changeStart, dustThreshold)
})
if err != nil {
t.Fatal(err)
}
if status != nil {
t.Fatalf("Expected a nil status, got %v", status)
}
}
func TestSignMultiSigUTXO(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
// Create a new tx with a single input that we're going to sign.
mgr := pool.Manager()
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tx := createWithdrawalTx(t, pool, []int64{4e6}, []int64{4e6})
sigs, err := getRawSigs([]*withdrawalTx{tx})
if err != nil {
t.Fatal(err)
}
msgtx := tx.toMsgTx()
txSigs := sigs[tx.ntxid()]
idx := 0 // The index of the tx input we're going to sign.
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pkScript := tx.inputs[idx].PkScript
TstRunWithManagerUnlocked(t, mgr, func() {
if err = signMultiSigUTXO(mgr, msgtx, idx, pkScript, txSigs[idx]); err != nil {
t.Fatal(err)
}
})
}
func TestSignMultiSigUTXOUnparseablePkScript(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
mgr := pool.Manager()
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tx := createWithdrawalTx(t, pool, []int64{4e6}, []int64{})
msgtx := tx.toMsgTx()
unparseablePkScript := []byte{0x01}
err := signMultiSigUTXO(mgr, msgtx, 0, unparseablePkScript, []RawSig{RawSig{}})
TstCheckError(t, "", err, ErrTxSigning)
}
func TestSignMultiSigUTXOPkScriptNotP2SH(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
mgr := pool.Manager()
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tx := createWithdrawalTx(t, pool, []int64{4e6}, []int64{})
addr, _ := btcutil.DecodeAddress("1MirQ9bwyQcGVJPwKUgapu5ouK2E2Ey4gX", mgr.ChainParams())
pubKeyHashPkScript, _ := txscript.PayToAddrScript(addr.(*btcutil.AddressPubKeyHash))
msgtx := tx.toMsgTx()
err := signMultiSigUTXO(mgr, msgtx, 0, pubKeyHashPkScript, []RawSig{RawSig{}})
TstCheckError(t, "", err, ErrTxSigning)
}
func TestSignMultiSigUTXORedeemScriptNotFound(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
mgr := pool.Manager()
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tx := createWithdrawalTx(t, pool, []int64{4e6}, []int64{})
// This is a P2SH address for which the addr manager doesn't have the redeem
// script.
addr, _ := btcutil.DecodeAddress("3Hb4xcebcKg4DiETJfwjh8sF4uDw9rqtVC", mgr.ChainParams())
if _, err := mgr.Address(addr); err == nil {
t.Fatalf("Address %s found in manager when it shouldn't", addr)
}
msgtx := tx.toMsgTx()
pkScript, _ := txscript.PayToAddrScript(addr.(*btcutil.AddressScriptHash))
err := signMultiSigUTXO(mgr, msgtx, 0, pkScript, []RawSig{RawSig{}})
TstCheckError(t, "", err, ErrTxSigning)
}
func TestSignMultiSigUTXONotEnoughSigs(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
mgr := pool.Manager()
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tx := createWithdrawalTx(t, pool, []int64{4e6}, []int64{})
sigs, err := getRawSigs([]*withdrawalTx{tx})
if err != nil {
t.Fatal(err)
}
msgtx := tx.toMsgTx()
txSigs := sigs[tx.ntxid()]
idx := 0 // The index of the tx input we're going to sign.
// Here we provide reqSigs-1 signatures to SignMultiSigUTXO()
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reqSigs := tx.inputs[idx].addr.series().TstGetReqSigs()
txInSigs := txSigs[idx][:reqSigs-1]
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pkScript := tx.inputs[idx].PkScript
TstRunWithManagerUnlocked(t, mgr, func() {
err = signMultiSigUTXO(mgr, msgtx, idx, pkScript, txInSigs)
})
TstCheckError(t, "", err, ErrTxSigning)
}
func TestSignMultiSigUTXOWrongRawSigs(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
mgr := pool.Manager()
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tx := createWithdrawalTx(t, pool, []int64{4e6}, []int64{})
sigs := []RawSig{RawSig{0x00}, RawSig{0x01}}
idx := 0 // The index of the tx input we're going to sign.
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pkScript := tx.inputs[idx].PkScript
var err error
TstRunWithManagerUnlocked(t, mgr, func() {
err = signMultiSigUTXO(mgr, tx.toMsgTx(), idx, pkScript, sigs)
})
TstCheckError(t, "", err, ErrTxSigning)
}
func TestGetRawSigs(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{5e6, 4e6}, []int64{})
sigs, err := getRawSigs([]*withdrawalTx{tx})
if err != nil {
t.Fatal(err)
}
msgtx := tx.toMsgTx()
txSigs := sigs[tx.ntxid()]
if len(txSigs) != len(tx.inputs) {
t.Fatalf("Unexpected number of sig lists; got %d, want %d", len(txSigs), len(tx.inputs))
}
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checkNonEmptySigsForPrivKeys(t, txSigs, tx.inputs[0].addr.series().privateKeys)
// Since we have all the necessary signatures (m-of-n), we construct the
// sigsnature scripts and execute them to make sure the raw signatures are
// valid.
signTxAndValidate(t, pool.Manager(), msgtx, txSigs, tx.inputs)
}
func TestGetRawSigsOnlyOnePrivKeyAvailable(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{5e6, 4e6}, []int64{})
// Remove all private keys but the first one from the credit's series.
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series := tx.inputs[0].addr.series()
for i := range series.privateKeys[1:] {
series.privateKeys[i] = nil
}
sigs, err := getRawSigs([]*withdrawalTx{tx})
if err != nil {
t.Fatal(err)
}
txSigs := sigs[tx.ntxid()]
if len(txSigs) != len(tx.inputs) {
t.Fatalf("Unexpected number of sig lists; got %d, want %d", len(txSigs), len(tx.inputs))
}
checkNonEmptySigsForPrivKeys(t, txSigs, series.privateKeys)
}
func TestGetRawSigsUnparseableRedeemScript(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{5e6, 4e6}, []int64{})
// Change the redeem script for one of our tx inputs, to force an error in
// getRawSigs().
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tx.inputs[0].addr.script = []byte{0x01}
_, err := getRawSigs([]*withdrawalTx{tx})
TstCheckError(t, "", err, ErrRawSigning)
}
func TestGetRawSigsInvalidAddrBranch(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{5e6, 4e6}, []int64{})
// Change the branch of our input's address to an invalid value, to force
// an error in getRawSigs().
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tx.inputs[0].addr.branch = Branch(999)
_, err := getRawSigs([]*withdrawalTx{tx})
TstCheckError(t, "", err, ErrInvalidBranch)
}
// TestOutBailmentIDSort tests that we can correctly sort a slice
// of output requests by the hash of the outbailmentID.
func TestOutBailmentIDSort(t *testing.T) {
or00 := OutputRequest{cachedHash: []byte{0, 0}}
or01 := OutputRequest{cachedHash: []byte{0, 1}}
or10 := OutputRequest{cachedHash: []byte{1, 0}}
or11 := OutputRequest{cachedHash: []byte{1, 1}}
want := []OutputRequest{or00, or01, or10, or11}
random := []OutputRequest{or11, or00, or10, or01}
sort.Sort(byOutBailmentID(random))
if !reflect.DeepEqual(random, want) {
t.Fatalf("Sort failed; got %v, want %v", random, want)
}
}
func TestTxTooBig(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{5}, []int64{1})
tx.calculateSize = func() int { return txMaxSize - 1 }
if tx.isTooBig() {
t.Fatalf("Tx is smaller than max size (%d < %d) but was considered too big",
tx.calculateSize(), txMaxSize)
}
// A tx whose size is equal to txMaxSize should be considered too big.
tx.calculateSize = func() int { return txMaxSize }
if !tx.isTooBig() {
t.Fatalf("Tx size is equal to the max size (%d == %d) but was not considered too big",
tx.calculateSize(), txMaxSize)
}
tx.calculateSize = func() int { return txMaxSize + 1 }
if !tx.isTooBig() {
t.Fatalf("Tx size is bigger than max size (%d > %d) but was not considered too big",
tx.calculateSize(), txMaxSize)
}
}
func TestTxSizeCalculation(t *testing.T) {
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tearDown, pool, _ := TstCreatePoolAndTxStore(t)
defer tearDown()
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tx := createWithdrawalTx(t, pool, []int64{1, 5}, []int64{2})
size := tx.calculateSize()
// Now add a change output, get a msgtx, sign it and get its SerializedSize
// to compare with the value above. We need to replace the calculateFee
// method so that the tx.addChange() call below always adds a change
// output.
tx.calculateFee = TstConstantFee(1)
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seriesID := tx.inputs[0].addr.SeriesID()
tx.addChange(TstNewChangeAddress(t, pool, seriesID, 0).addr.ScriptAddress())
msgtx := tx.toMsgTx()
sigs, err := getRawSigs([]*withdrawalTx{tx})
if err != nil {
t.Fatal(err)
}
signTxAndValidate(t, pool.Manager(), msgtx, sigs[tx.ntxid()], tx.inputs)
// ECDSA signatures have variable length (71-73 bytes) but in
// calculateSize() we use a dummy signature for the worst-case scenario (73
// bytes) so the estimate here can be up to 2 bytes bigger for every
// signature in every input's SigScript.
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maxDiff := 2 * len(msgtx.TxIn) * int(tx.inputs[0].addr.series().reqSigs)
// To make things worse, there's a possibility that the length of the
// actual SignatureScript is at the upper boundary of one of the uint*
// types, and when that happens our dummy SignatureScript is likely to have
// a length that cannot be represented in the same uint* type as that of the
// actual one, so we need to account for that here too. As per
// wire.VarIntSerializeSize(), the biggest difference would be of 4
// bytes, when the actual SigScript size fits in a uint32 but the dummy one
// needs a uint64.
maxDiff += 4 * len(msgtx.TxIn)
if size-msgtx.SerializeSize() > maxDiff {
t.Fatalf("Size difference bigger than maximum expected: %d - %d > %d",
size, msgtx.SerializeSize(), maxDiff)
} else if size-msgtx.SerializeSize() < 0 {
t.Fatalf("Tx size (%d) bigger than estimated size (%d)", msgtx.SerializeSize(), size)
}
}
func TestTxFeeEstimationForSmallTx(t *testing.T) {
tx := newWithdrawalTx(defaultTxOptions)
// A tx that is smaller than 1000 bytes in size should have a fee of 10000
// satoshis.
tx.calculateSize = func() int { return 999 }
fee := tx.calculateFee()
wantFee := btcutil.Amount(1e3)
if fee != wantFee {
t.Fatalf("Unexpected tx fee; got %v, want %v", fee, wantFee)
}
}
func TestTxFeeEstimationForLargeTx(t *testing.T) {
tx := newWithdrawalTx(defaultTxOptions)
// A tx that is larger than 1000 bytes in size should have a fee of 1e3
// satoshis plus 1e3 for every 1000 bytes.
tx.calculateSize = func() int { return 3000 }
fee := tx.calculateFee()
wantFee := btcutil.Amount(4e3)
if fee != wantFee {
t.Fatalf("Unexpected tx fee; got %v, want %v", fee, wantFee)
}
}
func TestStoreTransactionsWithoutChangeOutput(t *testing.T) {
tearDown, pool, store := TstCreatePoolAndTxStore(t)
defer tearDown()
wtx := createWithdrawalTxWithStoreCredits(t, store, pool, []int64{4e6}, []int64{3e6})
tx := &changeAwareTx{MsgTx: wtx.toMsgTx(), changeIdx: int32(-1)}
if err := storeTransactions(store, []*changeAwareTx{tx}); err != nil {
t.Fatal(err)
}
credits, err := store.UnspentOutputs()
if err != nil {
t.Fatal(err)
}
if len(credits) != 0 {
t.Fatalf("Unexpected number of credits in txstore; got %d, want 0", len(credits))
}
}
func TestStoreTransactionsWithChangeOutput(t *testing.T) {
tearDown, pool, store := TstCreatePoolAndTxStore(t)
defer tearDown()
wtx := createWithdrawalTxWithStoreCredits(t, store, pool, []int64{5e6}, []int64{1e6, 1e6})
wtx.changeOutput = wire.NewTxOut(int64(3e6), []byte{})
msgtx := wtx.toMsgTx()
tx := &changeAwareTx{MsgTx: msgtx, changeIdx: int32(len(msgtx.TxOut) - 1)}
if err := storeTransactions(store, []*changeAwareTx{tx}); err != nil {
t.Fatal(err)
}
hash := msgtx.TxHash()
txDetails, err := store.TxDetails(&hash)
if err != nil {
t.Fatal(err)
}
if txDetails == nil {
t.Fatal("The new tx doesn't seem to have been stored")
}
storedTx := txDetails.TxRecord.MsgTx
outputTotal := int64(0)
for i, txOut := range storedTx.TxOut {
if int32(i) != tx.changeIdx {
outputTotal += txOut.Value
}
}
if outputTotal != int64(2e6) {
t.Fatalf("Unexpected output amount; got %v, want %v", outputTotal, int64(2e6))
}
inputTotal := btcutil.Amount(0)
for _, debit := range txDetails.Debits {
inputTotal += debit.Amount
}
if inputTotal != btcutil.Amount(5e6) {
t.Fatalf("Unexpected input amount; got %v, want %v", inputTotal, btcutil.Amount(5e6))
}
credits, err := store.UnspentOutputs()
if err != nil {
t.Fatal(err)
}
if len(credits) != 1 {
t.Fatalf("Unexpected number of credits in txstore; got %d, want 1", len(credits))
}
changeOutpoint := wire.OutPoint{Hash: hash, Index: uint32(tx.changeIdx)}
if credits[0].OutPoint != changeOutpoint {
t.Fatalf("Credit's outpoint (%v) doesn't match the one from change output (%v)",
credits[0].OutPoint, changeOutpoint)
}
}
// createWithdrawalTxWithStoreCredits creates a new Credit in the given store
// for each entry in inputAmounts, and uses them to construct a withdrawalTx
// with one output for every entry in outputAmounts.
func createWithdrawalTxWithStoreCredits(t *testing.T, store *wtxmgr.Store, pool *Pool,
inputAmounts []int64, outputAmounts []int64) *withdrawalTx {
masters := []*hdkeychain.ExtendedKey{
TstCreateMasterKey(t, bytes.Repeat(uint32ToBytes(getUniqueID()), 4)),
TstCreateMasterKey(t, bytes.Repeat(uint32ToBytes(getUniqueID()), 4)),
TstCreateMasterKey(t, bytes.Repeat(uint32ToBytes(getUniqueID()), 4)),
}
def := TstCreateSeriesDef(t, pool, 2, masters)
TstCreateSeries(t, pool, []TstSeriesDef{def})
net := pool.Manager().ChainParams()
tx := newWithdrawalTx(defaultTxOptions)
for _, c := range TstCreateSeriesCreditsOnStore(t, pool, def.SeriesID, inputAmounts, store) {
tx.addInput(c)
}
for i, amount := range outputAmounts {
request := TstNewOutputRequest(
t, uint32(i), "34eVkREKgvvGASZW7hkgE2uNc1yycntMK6", btcutil.Amount(amount), net)
tx.addOutput(request)
}
return tx
}
// checkNonEmptySigsForPrivKeys checks that every signature list in txSigs has
// one non-empty signature for every non-nil private key in the given list. This
// is to make sure every signature list matches the specification at
// http://opentransactions.org/wiki/index.php/Siglist.
func checkNonEmptySigsForPrivKeys(t *testing.T, txSigs TxSigs, privKeys []*hdkeychain.ExtendedKey) {
for _, txInSigs := range txSigs {
if len(txInSigs) != len(privKeys) {
t.Fatalf("Number of items in sig list (%d) does not match number of privkeys (%d)",
len(txInSigs), len(privKeys))
}
for sigIdx, sig := range txInSigs {
key := privKeys[sigIdx]
if bytes.Equal(sig, []byte{}) && key != nil {
t.Fatalf("Empty signature (idx=%d) but key (%s) is available",
sigIdx, key.String())
} else if !bytes.Equal(sig, []byte{}) && key == nil {
t.Fatalf("Signature not empty (idx=%d) but key is not available", sigIdx)
}
}
}
}
// checkTxOutputs uses reflect.DeepEqual() to ensure that the tx outputs match
// the given slice of withdrawalTxOuts.
func checkTxOutputs(t *testing.T, tx *withdrawalTx, outputs []*withdrawalTxOut) {
nOutputs := len(outputs)
if len(tx.outputs) != nOutputs {
t.Fatalf("Wrong number of outputs in tx; got %d, want %d", len(tx.outputs), nOutputs)
}
for i, output := range tx.outputs {
if !reflect.DeepEqual(output, outputs[i]) {
t.Fatalf("Unexpected output; got %s, want %s", output, outputs[i])
}
}
}
// checkMsgTxOutputs checks that the pkScript and amount of every output in the
// given msgtx match the pkScript and amount of every item in the slice of
// OutputRequests.
func checkMsgTxOutputs(t *testing.T, msgtx *wire.MsgTx, requests []OutputRequest) {
nRequests := len(requests)
if len(msgtx.TxOut) != nRequests {
t.Fatalf("Unexpected number of TxOuts; got %d, want %d", len(msgtx.TxOut), nRequests)
}
for i, request := range requests {
txOut := msgtx.TxOut[i]
if !bytes.Equal(txOut.PkScript, request.PkScript) {
t.Fatalf(
"Unexpected pkScript for request %d; got %v, want %v", i, txOut.PkScript,
request.PkScript)
}
gotAmount := btcutil.Amount(txOut.Value)
if gotAmount != request.Amount {
t.Fatalf(
"Unexpected amount for request %d; got %v, want %v", i, gotAmount, request.Amount)
}
}
}
// checkTxInputs ensures that the tx.inputs match the given inputs.
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func checkTxInputs(t *testing.T, tx *withdrawalTx, inputs []credit) {
if len(tx.inputs) != len(inputs) {
t.Fatalf("Wrong number of inputs in tx; got %d, want %d", len(tx.inputs), len(inputs))
}
for i, input := range tx.inputs {
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if !reflect.DeepEqual(input, inputs[i]) {
t.Fatalf("Unexpected input; got %s, want %s", input, inputs[i])
}
}
}
// signTxAndValidate will construct the signature script for each input of the given
// transaction (using the given raw signatures and the pkScripts from credits) and execute
// those scripts to validate them.
func signTxAndValidate(t *testing.T, mgr *waddrmgr.Manager, tx *wire.MsgTx, txSigs TxSigs,
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credits []credit) {
for i := range tx.TxIn {
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pkScript := credits[i].PkScript
TstRunWithManagerUnlocked(t, mgr, func() {
if err := signMultiSigUTXO(mgr, tx, i, pkScript, txSigs[i]); err != nil {
t.Fatal(err)
}
})
}
}
func compareMsgTxAndWithdrawalTxInputs(t *testing.T, msgtx *wire.MsgTx, tx *withdrawalTx) {
if len(msgtx.TxIn) != len(tx.inputs) {
t.Fatalf("Wrong number of inputs; got %d, want %d", len(msgtx.TxIn), len(tx.inputs))
}
for i, txin := range msgtx.TxIn {
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outpoint := tx.inputs[i].OutPoint
if txin.PreviousOutPoint != outpoint {
t.Fatalf("Wrong outpoint; got %v expected %v", txin.PreviousOutPoint, outpoint)
}
}
}
func compareMsgTxAndWithdrawalTxOutputs(t *testing.T, msgtx *wire.MsgTx, tx *withdrawalTx) {
nOutputs := len(tx.outputs)
if tx.changeOutput != nil {
nOutputs++
}
if len(msgtx.TxOut) != nOutputs {
t.Fatalf("Unexpected number of TxOuts; got %d, want %d", len(msgtx.TxOut), nOutputs)
}
for i, output := range tx.outputs {
outputRequest := output.request
txOut := msgtx.TxOut[i]
if !bytes.Equal(txOut.PkScript, outputRequest.PkScript) {
t.Fatalf(
"Unexpected pkScript for outputRequest %d; got %x, want %x",
i, txOut.PkScript, outputRequest.PkScript)
}
gotAmount := btcutil.Amount(txOut.Value)
if gotAmount != outputRequest.Amount {
t.Fatalf(
"Unexpected amount for outputRequest %d; got %v, want %v",
i, gotAmount, outputRequest.Amount)
}
}
// Finally check the change output if it exists
if tx.changeOutput != nil {
msgTxChange := msgtx.TxOut[len(msgtx.TxOut)-1]
if msgTxChange != tx.changeOutput {
t.Fatalf("wrong TxOut in msgtx; got %v, want %v", msgTxChange, tx.changeOutput)
}
}
}
func checkTxChangeAmount(t *testing.T, tx *withdrawalTx, amount btcutil.Amount) {
if !tx.hasChange() {
t.Fatalf("Transaction has no change.")
}
if tx.changeOutput.Value != int64(amount) {
t.Fatalf("Wrong change output amount; got %d, want %d",
tx.changeOutput.Value, int64(amount))
}
}
// checkLastOutputWasSplit ensures that the amount of the last output in the
// given tx matches newAmount and that the splitRequest amount is equal to
// origAmount - newAmount. It also checks that splitRequest is identical (except
// for its amount) to the request of the last output in the tx.
func checkLastOutputWasSplit(t *testing.T, w *withdrawal, tx *withdrawalTx,
origAmount, newAmount btcutil.Amount) {
splitRequest := w.pendingRequests[0]
lastOutput := tx.outputs[len(tx.outputs)-1]
if lastOutput.amount != newAmount {
t.Fatalf("Wrong amount in last output; got %s, want %s", lastOutput.amount, newAmount)
}
wantSplitAmount := origAmount - newAmount
if splitRequest.Amount != wantSplitAmount {
t.Fatalf("Wrong amount in split output; got %v, want %v", splitRequest.Amount,
wantSplitAmount)
}
// Check that the split request is identical (except for its amount) to the
// original one.
origRequest := lastOutput.request
if !bytes.Equal(origRequest.PkScript, splitRequest.PkScript) {
t.Fatalf("Wrong pkScript in split request; got %x, want %x", splitRequest.PkScript,
origRequest.PkScript)
}
if origRequest.Server != splitRequest.Server {
t.Fatalf("Wrong server in split request; got %s, want %s", splitRequest.Server,
origRequest.Server)
}
if origRequest.Transaction != splitRequest.Transaction {
t.Fatalf("Wrong transaction # in split request; got %d, want %d", splitRequest.Transaction,
origRequest.Transaction)
}
status := w.status.outputs[origRequest.outBailmentID()].status
if status != statusPartial {
t.Fatalf("Wrong output status; got '%s', want '%s'", status, statusPartial)
}
}