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loop/liquidity/threshold_rule.go
2021-12-15 09:01:22 +02:00

186 lines
5.6 KiB
Go

package liquidity
import (
"errors"
"fmt"
"github.com/btcsuite/btcutil"
"github.com/lightninglabs/loop/swap"
)
var (
// errInvalidLiquidityThreshold is returned when a liquidity threshold
// has an invalid value.
errInvalidLiquidityThreshold = errors.New("liquidity threshold must " +
"be in [0:100)")
// errInvalidThresholdSum is returned when the sum of the percentages
// provided for a threshold rule is >= 100.
errInvalidThresholdSum = errors.New("sum of incoming and outgoing " +
"percentages must be < 100")
)
// SwapRule is a liquidity rule with a specific swap type.
type SwapRule struct {
*ThresholdRule
swap.Type
}
// ThresholdRule is a liquidity rule that implements minimum incoming and
// outgoing liquidity threshold.
type ThresholdRule struct {
// MinimumIncoming is the percentage of incoming liquidity that we do
// not want to drop below.
MinimumIncoming int
// MinimumOutgoing is the percentage of outgoing liquidity that we do
// not want to drop below.
MinimumOutgoing int
}
// NewThresholdRule returns a new threshold rule.
func NewThresholdRule(minIncoming, minOutgoing int) *ThresholdRule {
return &ThresholdRule{
MinimumIncoming: minIncoming,
MinimumOutgoing: minOutgoing,
}
}
// String returns a string representation of a rule.
func (r *ThresholdRule) String() string {
return fmt.Sprintf("threshold rule: minimum incoming: %v%%, minimum "+
"outgoing: %v%%", r.MinimumIncoming, r.MinimumOutgoing)
}
// validate validates the parameters that a rule was created with.
func (r *ThresholdRule) validate() error {
if r.MinimumIncoming < 0 || r.MinimumIncoming > 100 {
return errInvalidLiquidityThreshold
}
if r.MinimumOutgoing < 0 || r.MinimumOutgoing > 100 {
return errInvalidLiquidityThreshold
}
if r.MinimumIncoming+r.MinimumOutgoing >= 100 {
return errInvalidThresholdSum
}
return nil
}
// swapAmount suggests a swap based on the liquidity thresholds configured,
// returning zero if no swap is recommended.
func (r *ThresholdRule) swapAmount(channel *balances,
restrictions *Restrictions, swapType swap.Type) btcutil.Amount {
var (
// For loop out swaps, we want to adjust our incoming liquidity
// so the channel's incoming balance is our target.
targetBalance = channel.incoming
// For loop out swaps, we target a minimum amount of incoming
// liquidity, so the minimum incoming threshold is our target
// percentage.
targetPercentage = uint64(r.MinimumIncoming)
// For loop out swaps, we may want to preserve some of our
// outgoing balance, so the channel's outgoing balance is our
// reserve.
reserveBalance = channel.outgoing
// For loop out swaps, we may want to preserve some percentage
// of our outgoing balance, so the minimum outgoing threshold
// is our reserve percentage.
reservePercentage = uint64(r.MinimumOutgoing)
)
// For loop in swaps, we reverse our target and reserve values.
if swapType == swap.TypeIn {
targetBalance = channel.outgoing
targetPercentage = uint64(r.MinimumOutgoing)
reserveBalance = channel.incoming
reservePercentage = uint64(r.MinimumIncoming)
}
// Examine our total balance and required ratios to decide whether we
// need to swap.
amount := calculateSwapAmount(
targetBalance, reserveBalance, channel.capacity,
targetPercentage, reservePercentage,
)
// Limit our swap amount by the minimum/maximum thresholds set.
switch {
case amount < restrictions.Minimum:
return 0
case amount > restrictions.Maximum:
return restrictions.Maximum
default:
return amount
}
}
// calculateSwapAmount calculates amount for a swap based on thresholds.
// This function can be used for loop out or loop in, but the concept is the
// same - we want liquidity in one (target) direction, while preserving some
// minimum in the other (reserve) direction.
// * target: this is the side of the channel(s) where we want to acquire some
// liquidity. We aim for this liquidity to reach the threshold amount set.
// * reserve: this is the side of the channel(s) that we will move liquidity
// away from. This may not drop below a certain reserve threshold.
func calculateSwapAmount(targetAmount, reserveAmount,
capacity btcutil.Amount, targetThresholdPercentage,
reserveThresholdPercentage uint64) btcutil.Amount {
targetGoal := btcutil.Amount(
uint64(capacity) * targetThresholdPercentage / 100,
)
reserveMinimum := btcutil.Amount(
uint64(capacity) * reserveThresholdPercentage / 100,
)
switch {
// If we have sufficient target capacity, we do not need to swap.
case targetAmount >= targetGoal:
return 0
// If we are already below the threshold set for reserve capacity, we
// cannot take any further action.
case reserveAmount <= reserveMinimum:
return 0
}
// Express our minimum reserve amount as a maximum target amount.
// We will use this value to limit the amount that we swap, so that we
// do not dip below our reserve threshold.
maximumTarget := capacity - reserveMinimum
// Calculate the midpoint between our minimum and maximum target values.
// We will aim to swap this amount so that we do not tip our reserve
// balance beneath the desired level.
midpoint := (targetGoal + maximumTarget) / 2
// Calculate the amount of target balance we need to shift to reach
// this desired midpoint.
required := midpoint - targetAmount
// Since we can have pending htlcs on our channel, we check the amount
// of reserve capacity that we can shift before we fall below our
// threshold.
available := reserveAmount - reserveMinimum
// If we do not have enough balance available to reach our midpoint, we
// take no action. This is the case when we have a large portion of
// pending htlcs.
if available < required {
return 0
}
return required
}