sweep: clean up state mutation

The add function tries to add an input to the current set. It therefore
calculates what the new set would look like before actually adding. This
commit isolates the state of the tentative set so that there is less
opportunity for bugs to creep in.
This commit is contained in:
Joost Jager 2020-09-04 13:04:18 +02:00
parent cdbde5dd4c
commit 6df4fa84df
No known key found for this signature in database
GPG Key ID: A61B9D4C393C59C7

@ -30,9 +30,7 @@ const (
constraintsForce
)
// txInputSet is an object that accumulates tx inputs and keeps running counters
// on various properties of the tx.
type txInputSet struct {
type txInputSetState struct {
// weightEstimate is the (worst case) tx weight with the current set of
// inputs.
weightEstimate input.TxWeightEstimator
@ -43,12 +41,39 @@ type txInputSet struct {
// outputValue is the value of the tx output.
outputValue btcutil.Amount
// feePerKW is the fee rate used to calculate the tx fee.
feePerKW chainfee.SatPerKWeight
// inputs is the set of tx inputs.
inputs []input.Input
// walletInputTotal is the total value of inputs coming from the wallet.
walletInputTotal btcutil.Amount
// force indicates that this set must be swept even if the total yield
// is negative.
force bool
}
func (t *txInputSetState) clone() txInputSetState {
s := txInputSetState{
weightEstimate: t.weightEstimate,
inputTotal: t.inputTotal,
outputValue: t.outputValue,
walletInputTotal: t.walletInputTotal,
force: t.force,
inputs: make([]input.Input, len(t.inputs)),
}
copy(s.inputs, t.inputs)
return s
}
// txInputSet is an object that accumulates tx inputs and keeps running counters
// on various properties of the tx.
type txInputSet struct {
txInputSetState
// feePerKW is the fee rate used to calculate the tx fee.
feePerKW chainfee.SatPerKWeight
// dustLimit is the minimum output value of the tx.
dustLimit btcutil.Amount
@ -56,16 +81,9 @@ type txInputSet struct {
// the set.
maxInputs int
// walletInputTotal is the total value of inputs coming from the wallet.
walletInputTotal btcutil.Amount
// wallet contains wallet functionality required by the input set to
// retrieve utxos.
wallet Wallet
// force indicates that this set must be swept even if the total yield
// is negative.
force bool
}
// newTxInputSet constructs a new, empty input set.
@ -99,56 +117,57 @@ func (t *txInputSet) dustLimitReached() bool {
// add adds a new input to the set. It returns a bool indicating whether the
// input was added to the set. An input is rejected if it decreases the tx
// output value after paying fees.
func (t *txInputSet) add(input input.Input, constraints addConstraints) bool {
func (t *txInputSet) addToState(inp input.Input, constraints addConstraints) *txInputSetState {
// Stop if max inputs is reached. Do not count additional wallet inputs,
// because we don't know in advance how many we may need.
if constraints != constraintsWallet &&
len(t.inputs) >= t.maxInputs {
return false
return nil
}
// Can ignore error, because it has already been checked when
// calculating the yields.
size, isNestedP2SH, _ := input.WitnessType().SizeUpperBound()
size, isNestedP2SH, _ := inp.WitnessType().SizeUpperBound()
// Add weight of this new candidate input to a copy of the weight
// estimator.
newWeightEstimate := t.weightEstimate
// Clone the current set state.
s := t.clone()
// Add the new input.
s.inputs = append(s.inputs, inp)
// Add weight of the new input.
if isNestedP2SH {
newWeightEstimate.AddNestedP2WSHInput(size)
s.weightEstimate.AddNestedP2WSHInput(size)
} else {
newWeightEstimate.AddWitnessInput(size)
s.weightEstimate.AddWitnessInput(size)
}
value := btcutil.Amount(input.SignDesc().Output.Value)
newInputTotal := t.inputTotal + value
// Add the value of the new input.
value := btcutil.Amount(inp.SignDesc().Output.Value)
s.inputTotal += value
weight := newWeightEstimate.Weight()
// Recalculate the tx fee.
weight := s.weightEstimate.Weight()
fee := t.feePerKW.FeeForWeight(int64(weight))
// Calculate the output value if the current input would be
// added to the set.
newOutputValue := newInputTotal - fee
// Initialize new wallet total with the current wallet total. This is
// updated below if this input is a wallet input.
newWalletTotal := t.walletInputTotal
// Calculate the new output value.
s.outputValue = s.inputTotal - fee
// Calculate the yield of this input from the change in tx output value.
inputYield := newOutputValue - t.outputValue
inputYield := s.outputValue - t.outputValue
switch constraints {
// Don't sweep inputs that cost us more to sweep than they give us.
case constraintsRegular:
if inputYield <= 0 {
return false
return nil
}
// For force adds, no further constraints apply.
case constraintsForce:
t.force = true
s.force = true
// We are attaching a wallet input to raise the tx output value above
// the dust limit.
@ -156,12 +175,12 @@ func (t *txInputSet) add(input input.Input, constraints addConstraints) bool {
// Skip this wallet input if adding it would lower the output
// value.
if inputYield <= 0 {
return false
return nil
}
// Calculate the total value that we spend in this tx from the
// wallet if we'd add this wallet input.
newWalletTotal += value
s.walletInputTotal += value
// In any case, we don't want to lose money by sweeping. If we
// don't get more out of the tx then we put in ourselves, do not
@ -176,24 +195,29 @@ func (t *txInputSet) add(input input.Input, constraints addConstraints) bool {
// value of the wallet input and what we get out of this
// transaction. To prevent attaching and locking a big utxo for
// very little benefit.
if !t.force && newWalletTotal >= newOutputValue {
if !s.force && s.walletInputTotal >= s.outputValue {
log.Debugf("Rejecting wallet input of %v, because it "+
"would make a negative yielding transaction "+
"(%v)",
value, newOutputValue-newWalletTotal)
value, s.outputValue-s.walletInputTotal)
return false
return nil
}
}
// Update running values.
//
// TODO: Return new instance?
t.inputTotal = newInputTotal
t.outputValue = newOutputValue
t.inputs = append(t.inputs, input)
t.weightEstimate = newWeightEstimate
t.walletInputTotal = newWalletTotal
return &s
}
// add adds a new input to the set. It returns a bool indicating whether the
// input was added to the set. An input is rejected if it decreases the tx
// output value after paying fees.
func (t *txInputSet) add(input input.Input, constraints addConstraints) bool {
newState := t.addToState(input, constraints)
if newState == nil {
return false
}
t.txInputSetState = *newState
return true
}