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mirror of https://github.com/lightninglabs/loop synced 2024-11-16 00:12:52 +00:00
loop/liquidity/fees.go

447 lines
14 KiB
Go

package liquidity
import (
"errors"
"fmt"
"github.com/btcsuite/btcutil"
"github.com/lightninglabs/loop"
"github.com/lightningnetwork/lnd/lnwallet/chainfee"
)
const (
// defaultSwapFeePPM is the default limit we place on swap fees,
// expressed as parts per million of swap volume, 0.5%.
defaultSwapFeePPM = 5000
// defaultRoutingFeePPM is the default limit we place on routing fees
// for the swap invoice, expressed as parts per million of swap volume,
// 1%.
defaultRoutingFeePPM = 10000
// defaultRoutingFeePPM is the default limit we place on routing fees
// for the prepay invoice, expressed as parts per million of prepay
// volume, 0.5%.
defaultPrepayRoutingFeePPM = 5000
// defaultMaximumMinerFee is the default limit we place on miner fees
// per swap. We apply a multiplier to this default fee to guard against
// the case where we have broadcast the preimage, then fees spike and
// we need to sweep the preimage.
defaultMaximumMinerFee = 15000 * 100
// defaultMaximumPrepay is the default limit we place on prepay
// invoices.
defaultMaximumPrepay = 30000
// defaultSweepFeeRateLimit is the default limit we place on estimated
// sweep fees, (750 * 4 /1000 = 3 sat/vByte).
defaultSweepFeeRateLimit = chainfee.SatPerKWeight(750)
// minerMultiplier is a multiplier we use to scale our miner fee to
// ensure that we will still be able to complete our swap in the case
// of a severe fee spike.
minerMultiplier = 100
// defaultFeePPM is the default percentage of swap amount that we
// allocate to fees, 2%.
defaultFeePPM = 20000
)
var (
// ErrZeroMinerFee is returned if a zero maximum miner fee is set.
ErrZeroMinerFee = errors.New("maximum miner fee must be non-zero")
// ErrZeroSwapFeePPM is returned if a zero server fee ppm is set.
ErrZeroSwapFeePPM = errors.New("swap fee PPM must be non-zero")
// ErrZeroRoutingPPM is returned if a zero routing fee ppm is set.
ErrZeroRoutingPPM = errors.New("routing fee PPM must be non-zero")
// ErrZeroPrepayPPM is returned if a zero prepay routing fee ppm is set.
ErrZeroPrepayPPM = errors.New("prepay routing fee PPM must be non-zero")
// ErrZeroPrepay is returned if a zero maximum prepay is set.
ErrZeroPrepay = errors.New("maximum prepay must be non-zero")
// ErrInvalidPPM is returned is the parts per million for a fee rate
// are invalid.
ErrInvalidPPM = errors.New("invalid ppm")
// ErrInvalidSweepFeeRateLimit is returned if an invalid sweep fee limit
// is set.
ErrInvalidSweepFeeRateLimit = fmt.Errorf("sweep fee rate limit must "+
"be > %v sat/vByte",
satPerKwToSatPerVByte(chainfee.AbsoluteFeePerKwFloor))
)
// Compile time assertion that FeeCategoryLimit implements FeeLimit.
var _ FeeLimit = (*FeeCategoryLimit)(nil)
// FeeCategoryLimit is an implementation of the fee limit interface which sets
// a specific fee limit per fee category.
type FeeCategoryLimit struct {
// MaximumPrepay is the maximum prepay amount we are willing to pay per
// swap.
MaximumPrepay btcutil.Amount
// MaximumSwapFeePPM is the maximum server fee we are willing to pay per
// swap expressed as parts per million of the swap volume.
MaximumSwapFeePPM uint64
// MaximumRoutingFeePPM is the maximum off-chain routing fee we
// are willing to pay for off chain invoice routing fees per swap,
// expressed as parts per million of the swap amount.
MaximumRoutingFeePPM uint64
// MaximumPrepayRoutingFeePPM is the maximum off-chain routing fee we
// are willing to pay for off chain prepay routing fees per swap,
// expressed as parts per million of the prepay amount.
MaximumPrepayRoutingFeePPM uint64
// MaximumMinerFee is the maximum on chain fee that we cap our miner
// fee at in case where we need to claim on chain because we have
// revealed the preimage, but fees have spiked. We will not initiate a
// swap if we estimate that the sweep cost will be above our sweep
// fee limit, and we use fee estimates at time of sweep to set our fees,
// so this is just a sane cap covering the special case where we need to
// sweep during a fee spike.
MaximumMinerFee btcutil.Amount
// SweepFeeRateLimit is the limit that we place on our estimated sweep
// fee. A swap will not be suggested if estimated fee rate is above this
// value.
SweepFeeRateLimit chainfee.SatPerKWeight
}
// NewFeeCategoryLimit created a new fee limit struct which sets individual
// fee limits per category.
func NewFeeCategoryLimit(swapFeePPM, routingFeePPM, prepayFeePPM uint64,
minerFee, prepay btcutil.Amount,
sweepLimit chainfee.SatPerKWeight) *FeeCategoryLimit {
return &FeeCategoryLimit{
MaximumPrepay: prepay,
MaximumSwapFeePPM: swapFeePPM,
MaximumRoutingFeePPM: routingFeePPM,
MaximumPrepayRoutingFeePPM: prepayFeePPM,
MaximumMinerFee: minerFee,
SweepFeeRateLimit: sweepLimit,
}
}
func defaultFeeCategoryLimit() *FeeCategoryLimit {
return NewFeeCategoryLimit(defaultSwapFeePPM, defaultRoutingFeePPM,
defaultPrepayRoutingFeePPM, defaultMaximumMinerFee,
defaultMaximumPrepay, defaultSweepFeeRateLimit)
}
// String returns the string representation of our fee category limits.
func (f *FeeCategoryLimit) String() string {
return fmt.Sprintf("fee categories: maximum prepay: %v, maximum "+
"miner fee: %v, maximum swap fee ppm: %v, maximum "+
"routing fee ppm: %v, maximum prepay routing fee ppm: %v,"+
"sweep fee limit: %v", f.MaximumPrepay, f.MaximumMinerFee,
f.MaximumSwapFeePPM, f.MaximumRoutingFeePPM,
f.MaximumPrepayRoutingFeePPM, f.SweepFeeRateLimit,
)
}
func (f *FeeCategoryLimit) validate() error {
// Check that we have non-zero fee limits.
if f.MaximumSwapFeePPM == 0 {
return ErrZeroSwapFeePPM
}
if f.MaximumRoutingFeePPM == 0 {
return ErrZeroRoutingPPM
}
if f.MaximumPrepayRoutingFeePPM == 0 {
return ErrZeroPrepayPPM
}
if f.MaximumPrepay == 0 {
return ErrZeroPrepay
}
if f.MaximumMinerFee == 0 {
return ErrZeroMinerFee
}
// Check that our sweep limit is above our minimum fee rate. We use
// absolute fee floor rather than kw floor because we will allow users
// to specify fee rate is sat/vByte and want to allow 1 sat/vByte.
if f.SweepFeeRateLimit < chainfee.AbsoluteFeePerKwFloor {
return ErrInvalidSweepFeeRateLimit
}
return nil
}
// mayLoopOut checks our estimated loop out sweep fee against our sweep limit.
func (f *FeeCategoryLimit) mayLoopOut(estimate chainfee.SatPerKWeight) error {
if estimate > f.SweepFeeRateLimit {
log.Debugf("Current fee estimate to sweep: %v sat/vByte "+
"exceeds limit of: %v sat/vByte",
satPerKwToSatPerVByte(estimate),
satPerKwToSatPerVByte(f.SweepFeeRateLimit))
return newReasonError(ReasonSweepFees)
}
return nil
}
// loopOutLimits checks whether the quote provided is within our fee limits.
func (f *FeeCategoryLimit) loopOutLimits(amount btcutil.Amount,
quote *loop.LoopOutQuote) error {
maxFee := ppmToSat(amount, f.MaximumSwapFeePPM)
if quote.SwapFee > maxFee {
log.Debugf("quoted swap fee: %v > maximum swap fee: %v",
quote.SwapFee, maxFee)
return newReasonError(ReasonSwapFee)
}
if quote.MinerFee > f.MaximumMinerFee {
log.Debugf("quoted miner fee: %v > maximum miner "+
"fee: %v", quote.MinerFee, f.MaximumMinerFee)
return newReasonError(ReasonMinerFee)
}
if quote.PrepayAmount > f.MaximumPrepay {
log.Debugf("quoted prepay: %v > maximum prepay: %v",
quote.PrepayAmount, f.MaximumPrepay)
return newReasonError(ReasonPrepay)
}
return nil
}
func (f *FeeCategoryLimit) loopInLimits(amount btcutil.Amount,
quote *loop.LoopInQuote) error {
maxServerFee := ppmToSat(amount, f.MaximumSwapFeePPM)
if quote.SwapFee > maxServerFee {
log.Debugf("quoted swap fee: %v > maximum swap fee: %v",
quote.SwapFee, maxServerFee)
return newReasonError(ReasonSwapFee)
}
if quote.MinerFee > f.MaximumMinerFee {
log.Debugf("quoted miner fee: %v > maximum miner "+
"fee: %v", quote.MinerFee, f.MaximumMinerFee)
return newReasonError(ReasonMinerFee)
}
return nil
}
// loopOutFees returns the prepay and routing and miner fees we are willing to
// pay for a loop out swap.
func (f *FeeCategoryLimit) loopOutFees(amount btcutil.Amount,
quote *loop.LoopOutQuote) (btcutil.Amount, btcutil.Amount,
btcutil.Amount) {
prepayMaxFee := ppmToSat(
quote.PrepayAmount, f.MaximumPrepayRoutingFeePPM,
)
routeMaxFee := ppmToSat(amount, f.MaximumRoutingFeePPM)
return prepayMaxFee, routeMaxFee, f.MaximumMinerFee
}
// Compile time assertion that FeePortion implements FeeLimit interface.
var _ FeeLimit = (*FeePortion)(nil)
// FeePortion is a fee limitation which limits fees to a set portion of
// the swap amount.
type FeePortion struct {
// PartsPerMillion is the total portion of the swap amount that the
// swap may consume.
PartsPerMillion uint64
}
func defaultFeePortion() *FeePortion {
return &FeePortion{
PartsPerMillion: defaultFeePPM,
}
}
// NewFeePortion creates a fee limit based on a flat percentage of swap amount.
func NewFeePortion(ppm uint64) *FeePortion {
return &FeePortion{
PartsPerMillion: ppm,
}
}
// String returns a string representation of the fee limit.
func (f *FeePortion) String() string {
return fmt.Sprintf("parts per million: %v", f.PartsPerMillion)
}
// validate returns an error if the values provided are invalid.
func (f *FeePortion) validate() error {
if f.PartsPerMillion <= 0 {
return ErrInvalidPPM
}
return nil
}
// mayLoopOut checks our estimated loop out sweep fee against our sweep limit.
// For fee percentage, we do not check anything because we need the full quote
// to determine whether we can perform a swap.
func (f *FeePortion) mayLoopOut(_ chainfee.SatPerKWeight) error {
return nil
}
// loopOutLimits checks whether the quote provided is within our fee
// limits for the swap amount.
func (f *FeePortion) loopOutLimits(swapAmt btcutil.Amount,
quote *loop.LoopOutQuote) error {
// First, check whether any of the individual fee categories provided
// by the server are more than our total limit. We do this so that we
// can provide more specific reasons for not executing swaps.
feeLimit := ppmToSat(swapAmt, f.PartsPerMillion)
minerFee := scaleMinerFee(quote.MinerFee)
if minerFee > feeLimit {
log.Debugf("miner fee: %v greater than fee limit: %v, at "+
"%v ppm", minerFee, feeLimit, f.PartsPerMillion)
return newReasonError(ReasonMinerFee)
}
if quote.SwapFee > feeLimit {
log.Debugf("swap fee: %v greater than fee limit: %v, at "+
"%v ppm", quote.SwapFee, feeLimit, f.PartsPerMillion)
return newReasonError(ReasonSwapFee)
}
if quote.PrepayAmount > feeLimit {
log.Debugf("prepay amount: %v greater than fee limit: %v, at "+
"%v ppm", quote.PrepayAmount, feeLimit, f.PartsPerMillion)
return newReasonError(ReasonPrepay)
}
// If our miner and swap fee equal our limit, we will have nothing left
// for off-chain fees, so we fail out early.
if minerFee+quote.SwapFee >= feeLimit {
log.Debugf("no budget for off-chain routing with miner fee: "+
"%v, swap fee: %v and fee limit: %v, at %v ppm",
minerFee, quote.SwapFee, feeLimit, f.PartsPerMillion)
return newReasonError(ReasonFeePPMInsufficient)
}
prepay, route, miner := f.loopOutFees(swapAmt, quote)
// Calculate the worst case fees that we could pay for this swap,
// ensuring that we are within our fee limit even if the swap fails.
fees := worstCaseOutFees(
prepay, route, quote.SwapFee, miner, quote.PrepayAmount,
)
if fees > feeLimit {
log.Debugf("total fees for swap: %v > fee limit: %v, at "+
"%v ppm", fees, feeLimit, f.PartsPerMillion)
return newReasonError(ReasonFeePPMInsufficient)
}
return nil
}
// loopOutFees return the maximum prepay and invoice routing fees for a swap
// amount and quote. Note that the fee portion implementation just returns
// the quote's miner fee, assuming that this value has already been validated.
// We also assume that the quote's minerfee + swapfee < fee limit, so that we
// have some fees left for off-chain routing.
func (f *FeePortion) loopOutFees(amount btcutil.Amount,
quote *loop.LoopOutQuote) (btcutil.Amount, btcutil.Amount,
btcutil.Amount) {
// Calculate the total amount we can spend in fees, and subtract the
// amounts provided by the quote to get the total available for
// off-chain fees.
feeLimit := ppmToSat(amount, f.PartsPerMillion)
minerFee := scaleMinerFee(quote.MinerFee)
available := feeLimit - minerFee - quote.SwapFee
prepayMaxFee, routeMaxFee := splitOffChain(
available, quote.PrepayAmount, amount,
)
return prepayMaxFee, routeMaxFee, minerFee
}
// splitOffChain takes an available fee budget and divides it among our prepay
// and swap payments proportional to their volume.
func splitOffChain(available, prepayAmt,
swapAmt btcutil.Amount) (btcutil.Amount, btcutil.Amount) {
total := swapAmt + prepayAmt
prepayMaxFee := available * prepayAmt / total
routeMaxFee := available * swapAmt / total
return prepayMaxFee, routeMaxFee
}
// scaleMinerFee scales our miner fee by our constant multiplier.
func scaleMinerFee(estimate btcutil.Amount) btcutil.Amount {
return estimate * btcutil.Amount(minerMultiplier)
}
func (f *FeePortion) loopInLimits(amount btcutil.Amount,
quote *loop.LoopInQuote) error {
// Calculate the total amount that this swap may spend in fees, as a
// portion of the swap amount.
totalFeeSpend := ppmToSat(amount, f.PartsPerMillion)
// Check individual fee components so that we can give more specific
// feedback.
if quote.MinerFee > totalFeeSpend {
log.Debugf("miner fee: %v greater than fee limit: %v, at "+
"%v ppm", quote.MinerFee, totalFeeSpend,
f.PartsPerMillion)
return newReasonError(ReasonMinerFee)
}
if quote.SwapFee > totalFeeSpend {
log.Debugf("swap fee: %v greater than fee limit: %v, at "+
"%v ppm", quote.SwapFee, totalFeeSpend,
f.PartsPerMillion)
return newReasonError(ReasonSwapFee)
}
fees := worstCaseInFees(
quote.MinerFee, quote.SwapFee, defaultLoopInSweepFee,
)
if fees > totalFeeSpend {
log.Debugf("total fees for swap: %v > fee limit: %v, at "+
"%v ppm", fees, totalFeeSpend, f.PartsPerMillion)
return newReasonError(ReasonFeePPMInsufficient)
}
return nil
}