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Merge pull request #567 from GeorgeTsagk/autoloop-rework

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Autoloop rework -- easy autoloop
pull/587/head
George Tsagkarelis 12 months ago committed by GitHub
parent 0a19485409 5edc39dff3
commit cb8975d605
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GPG Key ID: 4AEE18F83AFDEB23
11 changed files with 846 additions and 208 deletions
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22
cmd/loop/liquidity.go
Unescape Escape View File

@ -324,6 +324,17 @@ var setParamsCommand = cli.Command{
Usage: "the confirmation target for loop in on-chain " +
"htlcs",
},
cli.BoolFlag{
Name: "easyautoloop",
Usage: "set to true to enable easy autoloop, which " +
"will automatically dispatch swaps in order " +
"to meet the target local balance",
},
cli.Uint64Flag{
Name: "localbalancesat",
Usage: "the target size of total local balance in " +
"satoshis, used by easy autoloop",
},
},
Action: setParams,
}
@ -465,6 +476,17 @@ func setParams(ctx *cli.Context) error {
flagSet = true
}
if ctx.IsSet("easyautoloop") {
params.EasyAutoloop = ctx.Bool("easyautoloop")
flagSet = true
}
if ctx.IsSet("localbalancesat") {
params.EasyAutoloopLocalTargetSat =
ctx.Uint64("localbalancesat")
flagSet = true
}
if !flagSet {
return fmt.Errorf("at least one flag required to set params")
}

18
docs/autoloop.md
Unescape Escape View File

@ -9,6 +9,24 @@ following command:
loop setparams --autoloop=true
```
## Easy Autoloop
If you don't want to bother with setting up specific rules for each of your
channels and peers you can use easy autoloop. This mode of autoloop requires
for you to set only the overall channel balance that you don't wish to exceed
on your lightning node. For example, if you want to keep your node's total
channel balance below 1 million satoshis you can set the following
```
loop setparams --autoloop=true --easyautoloop=true --localbalancesat=1000000
```
This will automatically start dispatching loop-outs whenever you exceed total
channel balance of 1M sats. Keep in mind that on first time use this will use
the default budget parameters. If you wish to configure a custom budget you can
find more info in the [Budget](#budget) section.
## Liquidity Rules
At present, autoloop can be configured to either acquire incoming liquidity
using loop out, or acquire outgoing liquidity using loop in. It cannot support
automated swaps in both directions. To set the type of swaps you would like

222
liquidity/autoloop_test.go
Unescape Escape View File

@ -207,7 +207,7 @@ func TestAutoLoopEnabled(t *testing.T) {
Events: []*loopdb.LoopEvent{
{
SwapStateData: loopdb.SwapStateData{
State: loopdb.StateInitiated,
State: loopdb.StateSuccess,
},
},
},
@ -472,7 +472,7 @@ func TestAutoloopAddress(t *testing.T) {
Events: []*loopdb.LoopEvent{
{
SwapStateData: loopdb.SwapStateData{
State: loopdb.StateHtlcPublished,
State: loopdb.StateSuccess,
},
},
},
@ -647,7 +647,7 @@ func TestCompositeRules(t *testing.T) {
Events: []*loopdb.LoopEvent{
{
SwapStateData: loopdb.SwapStateData{
State: loopdb.StateHtlcPublished,
State: loopdb.StateSuccess,
},
},
},
@ -984,7 +984,7 @@ func TestAutoloopBothTypes(t *testing.T) {
Events: []*loopdb.LoopEvent{
{
SwapStateData: loopdb.SwapStateData{
State: loopdb.StateHtlcPublished,
State: loopdb.SwapState(loopdb.StateSuccess),
},
},
},
@ -1162,15 +1162,28 @@ func TestAutoLoopRecurringBudget(t *testing.T) {
},
},
}
singleLoopOut = &loopdb.LoopOut{
Loop: loopdb.Loop{
Events: []*loopdb.LoopEvent{
{
SwapStateData: loopdb.SwapStateData{
State: loopdb.SwapState(loopdb.StateSuccess),
},
},
},
},
}
)
// Tick our autolooper with no existing swaps, we expect a loop out
// swap to be dispatched on first channel.
step := &autoloopStep{
minAmt: 1,
maxAmt: amt + 1,
quotesOut: quotes1,
expectedOut: loopOuts1,
minAmt: 1,
maxAmt: amt + 1,
quotesOut: quotes1,
expectedOut: loopOuts1,
existingOutSingle: singleLoopOut,
}
c.autoloop(step)
@ -1188,11 +1201,12 @@ func TestAutoLoopRecurringBudget(t *testing.T) {
}
step = &autoloopStep{
minAmt: 1,
maxAmt: amt + 1,
quotesOut: quotes2,
existingOut: existing,
expectedOut: nil,
minAmt: 1,
maxAmt: amt + 1,
quotesOut: quotes2,
existingOut: existing,
expectedOut: nil,
existingOutSingle: singleLoopOut,
}
// Tick again, we should expect no loop outs because our budget would be
// exceeded.
@ -1222,11 +1236,12 @@ func TestAutoLoopRecurringBudget(t *testing.T) {
c.testClock.SetTime(testTime.Add(time.Hour * 25))
step = &autoloopStep{
minAmt: 1,
maxAmt: amt + 1,
quotesOut: quotes2,
existingOut: existing2,
expectedOut: loopOuts2,
minAmt: 1,
maxAmt: amt + 1,
quotesOut: quotes2,
existingOut: existing2,
expectedOut: loopOuts2,
existingOutSingle: singleLoopOut,
}
// Tick again, we should expect a loop out to occur on the 2nd channel.
@ -1235,6 +1250,177 @@ func TestAutoLoopRecurringBudget(t *testing.T) {
c.stop()
}
// TestEasyAutoloop tests that the easy autoloop logic works as expected. This
// involves testing that channels are correctly selected and that the balance
// target is successfully met.
func TestEasyAutoloop(t *testing.T) {
defer test.Guard(t)
// We need to change the default channels we use for tests so that they
// have different local balances in order to know which one is going to
// be selected by easy autoloop.
easyChannel1 := lndclient.ChannelInfo{
Active: true,
ChannelID: chanID1.ToUint64(),
PubKeyBytes: peer1,
LocalBalance: 95000,
RemoteBalance: 0,
Capacity: 100000,
}
easyChannel2 := lndclient.ChannelInfo{
Active: true,
ChannelID: chanID1.ToUint64(),
PubKeyBytes: peer1,
LocalBalance: 75000,
RemoteBalance: 0,
Capacity: 100000,
}
var (
channels = []lndclient.ChannelInfo{
easyChannel1, easyChannel2,
}
params = Parameters{
Autoloop: true,
AutoFeeBudget: 36000,
AutoFeeRefreshPeriod: time.Hour * 3,
AutoloopBudgetLastRefresh: testBudgetStart,
MaxAutoInFlight: 2,
FailureBackOff: time.Hour,
SweepConfTarget: 10,
HtlcConfTarget: defaultHtlcConfTarget,
EasyAutoloop: true,
EasyAutoloopTarget: 75000,
FeeLimit: defaultFeePortion(),
}
)
c := newAutoloopTestCtx(t, params, channels, testRestrictions)
c.start()
var (
maxAmt = 50000
chan1Swap = &loop.OutRequest{
Amount: btcutil.Amount(maxAmt),
OutgoingChanSet: loopdb.ChannelSet{easyChannel1.ChannelID},
Label: labels.AutoloopLabel(swap.TypeOut),
Initiator: autoloopSwapInitiator,
}
quotesOut1 = []quoteRequestResp{
{
request: &loop.LoopOutQuoteRequest{
Amount: btcutil.Amount(maxAmt),
},
quote: &loop.LoopOutQuote{
SwapFee: 1,
PrepayAmount: 1,
MinerFee: 1,
},
},
}
loopOut1 = []loopOutRequestResp{
{
request: chan1Swap,
response: &loop.LoopOutSwapInfo{
SwapHash: lntypes.Hash{1},
},
},
}
)
// We expected one max size swap to be dispatched on our channel with
// the biggest local balance.
step := &easyAutoloopStep{
minAmt: 1,
maxAmt: 50000,
quotesOut: quotesOut1,
expectedOut: loopOut1,
}
c.easyautoloop(step, false)
c.stop()
// In order to reflect the change on the channel balances we create a
// new context and restart the autolooper.
easyChannel1.LocalBalance -= chan1Swap.Amount
channels = []lndclient.ChannelInfo{
easyChannel1, easyChannel2,
}
c = newAutoloopTestCtx(t, params, channels, testRestrictions)
c.start()
var (
amt2 = 45_000
chan2Swap = &loop.OutRequest{
Amount: btcutil.Amount(amt2),
OutgoingChanSet: loopdb.ChannelSet{easyChannel2.ChannelID},
Label: labels.AutoloopLabel(swap.TypeOut),
Initiator: autoloopSwapInitiator,
}
quotesOut2 = []quoteRequestResp{
{
request: &loop.LoopOutQuoteRequest{
Amount: btcutil.Amount(amt2),
},
quote: &loop.LoopOutQuote{
SwapFee: 1,
PrepayAmount: 1,
MinerFee: 1,
},
},
}
loopOut2 = []loopOutRequestResp{
{
request: chan2Swap,
response: &loop.LoopOutSwapInfo{
SwapHash: lntypes.Hash{1},
},
},
}
)
// We expect a swap of size 45_000 to be dispatched in order to meet the
// defined target of 75_000.
step = &easyAutoloopStep{
minAmt: 1,
maxAmt: 50000,
quotesOut: quotesOut2,
expectedOut: loopOut2,
}
c.easyautoloop(step, false)
c.stop()
// In order to reflect the change on the channel balances we create a
// new context and restart the autolooper.
easyChannel2.LocalBalance -= btcutil.Amount(amt2)
channels = []lndclient.ChannelInfo{
easyChannel1, easyChannel2,
}
c = newAutoloopTestCtx(t, params, channels, testRestrictions)
c.start()
// We have met the target of 75_000 so we don't expect any action from
// easy autoloop. That's why we set noop to true in the call below.
step = &easyAutoloopStep{
minAmt: 1,
maxAmt: 50000,
}
c.easyautoloop(step, true)
c.stop()
}
// existingSwapFromRequest is a helper function which returns the db
// representation of a loop out request with the event set provided.
func existingSwapFromRequest(request *loop.OutRequest, initTime time.Time,

58
liquidity/autoloop_testcontext_test.go
Unescape Escape View File

@ -19,6 +19,11 @@ import (
"github.com/stretchr/testify/require"
)
const (
defaultEventuallyTimeout = time.Second * 45
defaultEventuallyInterval = time.Millisecond * 100
)
type autoloopTestCtx struct {
t *testing.T
manager *Manager
@ -272,6 +277,15 @@ type autoloopStep struct {
keepDestAddr bool
}
type easyAutoloopStep struct {
minAmt btcutil.Amount
maxAmt btcutil.Amount
existingOut []*loopdb.LoopOut
existingIn []*loopdb.LoopIn
quotesOut []quoteRequestResp
expectedOut []loopOutRequestResp
}
// autoloop walks our test context through the process of triggering our
// autoloop functionality, providing mocked values as required. The set of
// quotes provided indicates that we expect swap suggestions to be made (since
@ -325,6 +339,50 @@ func (c *autoloopTestCtx) autoloop(step *autoloopStep) {
require.True(c.t, c.matchLoopOuts(step.expectedOut, step.keepDestAddr))
require.True(c.t, c.matchLoopIns(step.expectedIn))
require.Eventuallyf(c.t, func() bool {
return c.manager.numActiveStickyLoops() == 0
}, defaultEventuallyTimeout, defaultEventuallyInterval, "failed to"+
" wait for sticky loop counter")
}
// easyautoloop walks our test context through the process of triggering our
// easy autoloop functionality, providing mocked values as required. The number
// of values needed to mock easy autoloop are less than standard autoloop as the
// goal of easy autoloop is to simplify its usage.
func (c *autoloopTestCtx) easyautoloop(step *easyAutoloopStep, noop bool) {
// Tick our autoloop ticker to force assessing whether we want to loop.
c.manager.cfg.AutoloopTicker.Force <- testTime
// Provide the liquidity manager with our desired existing set of swaps.
c.loopOuts <- step.existingOut
c.loopIns <- step.existingIn
// If easy autoloop is not meant to be triggered we skip sending the
// mock response for restrictions, as this is never called.
if !noop {
// Send a mocked response from the server with the swap size limits.
c.loopOutRestrictions <- NewRestrictions(step.minAmt, step.maxAmt)
}
for _, expected := range step.quotesOut {
request := <-c.quoteRequest
require.Equal(
c.t, expected.request.Amount, request.Amount,
)
c.quotes <- expected.quote
}
for _, expected := range step.expectedOut {
actual := <-c.outRequest
require.Equal(c.t, expected.request.Amount, actual.Amount)
require.Equal(
c.t, expected.request.OutgoingChanSet,
actual.OutgoingChanSet,
)
}
}
// matchLoopOuts checks that the actual loop out requests we got match the

323
liquidity/liquidity.go
Unescape Escape View File

@ -36,6 +36,7 @@ import (
"context"
"errors"
"fmt"
"math"
"sort"
"sync"
"time"
@ -201,6 +202,12 @@ type Config struct {
LoopIn func(ctx context.Context,
request *loop.LoopInRequest) (*loop.LoopInSwapInfo, error)
// LoopInTerms returns the terms for a loop in swap.
LoopInTerms func(ctx context.Context) (*loop.LoopInTerms, error)
// LoopOutTerms returns the terms for a loop out swap.
LoopOutTerms func(ctx context.Context) (*loop.LoopOutTerms, error)
// Clock allows easy mocking of time in unit tests.
Clock clock.Clock
@ -234,6 +241,15 @@ type Manager struct {
// paramsLock is a lock for our current set of parameters.
paramsLock sync.Mutex
// activeStickyLoops is a counter that helps us keep track of currently
// active sticky loops. We use this to ensure we don't dispatch more
// than the max configured loops at a time.
activeStickyLoops int
// activeStickyLock is a lock to ensure atomic access to the
// activeStickyLoops counter.
activeStickyLock sync.Mutex
}
// Run periodically checks whether we should automatically dispatch a loop out.
@ -259,15 +275,24 @@ func (m *Manager) Run(ctx context.Context) error {
for {
select {
case <-m.cfg.AutoloopTicker.Ticks():
err := m.autoloop(ctx)
switch err {
case ErrNoRules:
log.Debugf("No rules configured for autoloop")
if m.params.EasyAutoloop {
err := m.easyAutoLoop(ctx)
if err != nil {
log.Errorf("easy autoloop failed: %v",
err)
}
} else {
err := m.autoloop(ctx)
switch err {
case ErrNoRules:
log.Debugf("no rules configured for " +
"autoloop")
case nil:
case nil:
default:
log.Errorf("autoloop failed: %v", err)
default:
log.Errorf("autoloop failed: %v", err)
}
}
case <-ctx.Done():
@ -446,6 +471,29 @@ func (m *Manager) autoloop(ctx context.Context) error {
return nil
}
// easyAutoLoop is the main entry point for the easy auto loop functionality.
// This function will try to dispatch a swap in order to meet the easy autoloop
// requirements. For easyAutoloop to work there needs to be an
// EasyAutoloopTarget defined in the parameters. Easy autoloop also uses the
// configured max inflight swaps and budget rules defined in the parameters.
func (m *Manager) easyAutoLoop(ctx context.Context) error {
if !m.params.Autoloop {
return nil
}
// First check if we should refresh our budget before calculating any
// swaps for autoloop.
m.refreshAutoloopBudget(ctx)
// Dispatch the best easy autoloop swap.
err := m.dispatchBestEasyAutoloopSwap(ctx)
if err != nil {
return err
}
return nil
}
// ForceAutoLoop force-ticks our auto-out ticker.
func (m *Manager) ForceAutoLoop(ctx context.Context) error {
select {
@ -457,6 +505,135 @@ func (m *Manager) ForceAutoLoop(ctx context.Context) error {
}
}
// dispatchBestEasyAutoloopSwap tries to dispatch a swap to bring the total
// local balance back to the target.
func (m *Manager) dispatchBestEasyAutoloopSwap(ctx context.Context) error {
// Retrieve existing swaps.
loopOut, err := m.cfg.ListLoopOut()
if err != nil {
return err
}
loopIn, err := m.cfg.ListLoopIn()
if err != nil {
return err
}
// Get a summary of our existing swaps so that we can check our autoloop
// budget.
summary, err := m.checkExistingAutoLoops(ctx, loopOut, loopIn)
if err != nil {
return err
}
err = m.checkSummaryBudget(summary)
if err != nil {
return err
}
_, err = m.checkSummaryInflight(summary)
if err != nil {
return err
}
// Get all channels in order to calculate current total local balance.
channels, err := m.cfg.Lnd.Client.ListChannels(ctx, false, false)
if err != nil {
return err
}
localTotal := btcutil.Amount(0)
for _, channel := range channels {
localTotal += channel.LocalBalance
}
// Since we're only autolooping-out we need to check if we are below
// the target, meaning that we already meet the requirements.
if localTotal <= m.params.EasyAutoloopTarget {
log.Debugf("total local balance %v below target %v",
localTotal, m.params.EasyAutoloopTarget)
return nil
}
restrictions, err := m.cfg.Restrictions(ctx, swap.TypeOut)
if err != nil {
return err
}
// Calculate the amount that we want to loop out. If it exceeds the max
// allowed clamp it to max.
amount := localTotal - m.params.EasyAutoloopTarget
if amount > restrictions.Maximum {
amount = btcutil.Amount(restrictions.Maximum)
}
// If the amount we want to loop out is less than the minimum we can't
// proceed with a swap, so we return early.
if amount < restrictions.Minimum {
log.Debugf("easy autoloop: swap amount is below minimum swap "+
"size, minimum=%v, need to swap %v",
restrictions.Minimum, amount)
return nil
}
log.Debugf("easy autoloop: local_total=%v, target=%v, "+
"attempting to loop out %v", localTotal,
m.params.EasyAutoloopTarget, amount)
// Start building that swap.
builder := newLoopOutBuilder(m.cfg)
channel := m.pickEasyAutoloopChannel(
channels, restrictions, loopOut, loopIn, amount,
)
if channel == nil {
return fmt.Errorf("no eligible channel for easy autoloop")
}
log.Debugf("easy autoloop: picked channel %v with local balance %v",
channel.ChannelID, channel.LocalBalance)
swapAmt, err := btcutil.NewAmount(
math.Min(channel.LocalBalance.ToBTC(), amount.ToBTC()),
)
if err != nil {
return err
}
// Override our current parameters in order to use the const percent
// limit of easy-autoloop.
easyParams := m.params
easyParams.FeeLimit = &FeePortion{
PartsPerMillion: defaultFeePPM,
}
// Set the swap outgoing channel to the chosen channel.
outgoing := []lnwire.ShortChannelID{
lnwire.NewShortChanIDFromInt(channel.ChannelID),
}
suggestion, err := builder.buildSwap(
ctx, channel.PubKeyBytes, outgoing, swapAmt, true, easyParams,
)
if err != nil {
return err
}
swap := loop.OutRequest{}
if t, ok := suggestion.(*loopOutSwapSuggestion); ok {
swap = t.OutRequest
} else {
return fmt.Errorf("unexpected swap suggestion type: %T", t)
}
// Dispatch a sticky loop out.
go m.dispatchStickyLoopOut(
ctx, swap, defaultAmountBackoffRetry, defaultAmountBackoff,
)
return nil
}
// Suggestions provides a set of suggested swaps, and the set of channels that
// were excluded from consideration.
type Suggestions struct {
@ -563,23 +740,13 @@ func (m *Manager) SuggestSwaps(ctx context.Context, autoloop bool) (
return nil, err
}
if summary.totalFees() >= m.params.AutoFeeBudget {
log.Debugf("autoloop fee budget: %v exhausted, %v spent on "+
"completed swaps, %v reserved for ongoing swaps "+
"(upper limit)",
m.params.AutoFeeBudget, summary.spentFees,
summary.pendingFees)
err = m.checkSummaryBudget(summary)
if err != nil {
return m.singleReasonSuggestion(ReasonBudgetElapsed), nil
}
// If we have already reached our total allowed number of in flight
// swaps, we do not suggest any more at the moment.
allowedSwaps := m.params.MaxAutoInFlight - summary.inFlightCount
if allowedSwaps <= 0 {
log.Debugf("%v autoloops allowed, %v in flight",
m.params.MaxAutoInFlight, summary.inFlightCount)
allowedSwaps, err := m.checkSummaryInflight(summary)
if err != nil {
return m.singleReasonSuggestion(ReasonInFlight), nil
}
@ -1058,12 +1225,31 @@ func (m *Manager) refreshAutoloopBudget(ctx context.Context) {
func (m *Manager) dispatchStickyLoopOut(ctx context.Context,
out loop.OutRequest, retryCount uint16, amountBackoff float64) {
// Check our sticky loop counter to decide whether we should continue
// executing this loop.
m.activeStickyLock.Lock()
if m.activeStickyLoops >= m.params.MaxAutoInFlight {
m.activeStickyLock.Unlock()
return
}
m.activeStickyLoops += 1
m.activeStickyLock.Unlock()
// No matter the outcome, decrease the counter upon exiting sticky loop.
defer func() {
m.activeStickyLock.Lock()
m.activeStickyLoops -= 1
m.activeStickyLock.Unlock()
}()
for i := 0; i < int(retryCount); i++ {
// Dispatch the swap.
swap, err := m.cfg.LoopOut(ctx, &out)
if err != nil {
log.Errorf("unable to dispatch loop out, hash: %v, "+
"err: %v", swap.SwapHash, err)
log.Errorf("unable to dispatch loop out, amt: %v, "+
"err: %v", out.Amount, err)
return
}
log.Infof("loop out automatically dispatched: hash: %v, "+
@ -1190,6 +1376,97 @@ func (m *Manager) waitForSwapPayment(ctx context.Context, swapHash lntypes.Hash,
updateChan <- nil
}
// pickEasyAutoloopChannel picks a channel to be used for an easy autoloop swap.
// This function prioritizes channels with high local balance but also consults
// previous failures and ongoing swaps to avoid temporary channel failures or
// swap conflicts.
func (m *Manager) pickEasyAutoloopChannel(channels []lndclient.ChannelInfo,
restrictions *Restrictions, loopOut []*loopdb.LoopOut,
loopIn []*loopdb.LoopIn, amount btcutil.Amount) *lndclient.ChannelInfo {
traffic := m.currentSwapTraffic(loopOut, loopIn)
// Sort the candidate channels based on descending local balance. We
// want to prioritize picking a channel with the highest possible local
// balance.
sort.Slice(channels, func(i, j int) bool {
return channels[i].LocalBalance > channels[j].LocalBalance
})
// Check each channel, since channels are already sorted we return the
// first channel that passes all checks.
for _, channel := range channels {
shortChanID := lnwire.NewShortChanIDFromInt(channel.ChannelID)
if !channel.Active {
log.Debugf("Channel %v cannot be used for easy "+
"autoloop: inactive", channel.ChannelID)
continue
}
lastFail, recentFail := traffic.failedLoopOut[shortChanID]
if recentFail {
log.Debugf("Channel %v cannot be used for easy "+
"autoloop: last failed swap was at %v",
channel.ChannelID, lastFail)
continue
}
if traffic.ongoingLoopOut[shortChanID] {
log.Debugf("Channel %v cannot be used for easy "+
"autoloop: ongoing swap", channel.ChannelID)
continue
}
if channel.LocalBalance < restrictions.Minimum {
log.Debugf("Channel %v cannot be used for easy "+
"autoloop: insufficient local balance %v,"+
"minimum is %v, skipping remaining channels",
channel.ChannelID, channel.LocalBalance,
restrictions.Minimum)
return nil
}
return &channel
}
return nil
}
func (m *Manager) numActiveStickyLoops() int {
m.activeStickyLock.Lock()
defer m.activeStickyLock.Unlock()
return m.activeStickyLoops
}
func (m *Manager) checkSummaryBudget(summary *existingAutoLoopSummary) error {
if summary.totalFees() >= m.params.AutoFeeBudget {
return fmt.Errorf("autoloop fee budget: %v exhausted, %v spent on "+
"completed swaps, %v reserved for ongoing swaps "+
"(upper limit)",
m.params.AutoFeeBudget, summary.spentFees,
summary.pendingFees)
}
return nil
}
func (m *Manager) checkSummaryInflight(
summary *existingAutoLoopSummary) (int, error) {
// If we have already reached our total allowed number of in flight
// swaps we return early.
allowedSwaps := m.params.MaxAutoInFlight - summary.inFlightCount
if allowedSwaps <= 0 {
return 0, fmt.Errorf("%v autoloops allowed, %v in flight",
m.params.MaxAutoInFlight, summary.inFlightCount)
}
return allowedSwaps, nil
}
// swapTraffic contains a summary of our current and previously failed swaps.
type swapTraffic struct {
ongoingLoopOut map[lnwire.ShortChannelID]bool

24
liquidity/parameters.go
Unescape Escape View File

@ -98,6 +98,14 @@ type Parameters struct {
// CustomPaymentCheckInterval is an optional custom interval to use when
// checking an autoloop loop out payments' payment status.
CustomPaymentCheckInterval time.Duration
// EasyAutoloop is a boolean that indicates whether we should use the
// easy autoloop feature.
EasyAutoloop bool
// EasyAutoloopTarget is the target amount of liquidity that we want to
// maintain in our channels.
EasyAutoloopTarget btcutil.Amount
}
// String returns the string representation of our parameters.
@ -397,7 +405,9 @@ func RpcToParameters(req *clientrpc.LiquidityParameters) (*Parameters,
Minimum: btcutil.Amount(req.MinSwapAmount),
Maximum: btcutil.Amount(req.MaxSwapAmount),
},
HtlcConfTarget: req.HtlcConfTarget,
HtlcConfTarget: req.HtlcConfTarget,
EasyAutoloop: req.EasyAutoloop,
EasyAutoloopTarget: btcutil.Amount(req.EasyAutoloopLocalTargetSat),
}
if req.AutoloopBudgetRefreshPeriodSec != 0 {
@ -493,9 +503,15 @@ func ParametersToRpc(cfg Parameters) (*clientrpc.LiquidityParameters,
Rules: make(
[]*clientrpc.LiquidityRule, 0, totalRules,
),
MinSwapAmount: uint64(cfg.ClientRestrictions.Minimum),
MaxSwapAmount: uint64(cfg.ClientRestrictions.Maximum),
HtlcConfTarget: cfg.HtlcConfTarget,
MinSwapAmount: uint64(
cfg.ClientRestrictions.Minimum,
),
MaxSwapAmount: uint64(
cfg.ClientRestrictions.Maximum,
),
HtlcConfTarget: cfg.HtlcConfTarget,
EasyAutoloop: cfg.EasyAutoloop,
EasyAutoloopLocalTargetSat: uint64(cfg.EasyAutoloopTarget),
}
switch f := cfg.FeeLimit.(type) {

2
loopd/utils.go
Unescape Escape View File

@ -72,6 +72,8 @@ func getLiquidityManager(client *loop.Client) *liquidity.Manager {
ListLoopOut: client.Store.FetchLoopOutSwaps,
GetLoopOut: client.Store.FetchLoopOutSwap,
ListLoopIn: client.Store.FetchLoopInSwaps,
LoopInTerms: client.LoopInTerms,
LoopOutTerms: client.LoopOutTerms,
MinimumConfirmations: minConfTarget,
PutLiquidityParams: client.Store.PutLiquidityParams,
FetchLiquidityParams: client.Store.FetchLiquidityParams,

358
looprpc/client.pb.go
Unescape Escape View File

@ -2209,6 +2209,17 @@ type LiquidityParameters struct {
//The time at which the autoloop budget was last refreshed, expressed as a
//UNIX timestamp in seconds.
AutoloopBudgetLastRefresh uint64 `protobuf:"varint,20,opt,name=autoloop_budget_last_refresh,json=autoloopBudgetLastRefresh,proto3" json:"autoloop_budget_last_refresh,omitempty"`
//
//Set to true to enable easy autoloop. If set, all channel/peer rules will be
//overridden and the client will automatically dispatch swaps in order to meet
//the configured local balance target size. Currently only loop out is
//supported, meaning that easy autoloop can only reduce the funds that are
//held as balance in channels.
EasyAutoloop bool `protobuf:"varint,21,opt,name=easy_autoloop,json=easyAutoloop,proto3" json:"easy_autoloop,omitempty"`
//
//The local balance target size, expressed in satoshis. This is used by easy
//autoloop to determine how much liquidity should be maintained in channels.
EasyAutoloopLocalTargetSat uint64 `protobuf:"varint,22,opt,name=easy_autoloop_local_target_sat,json=easyAutoloopLocalTargetSat,proto3" json:"easy_autoloop_local_target_sat,omitempty"`
}
func (x *LiquidityParameters) Reset() {
@ -2384,6 +2395,20 @@ func (x *LiquidityParameters) GetAutoloopBudgetLastRefresh() uint64 {
return 0
}
func (x *LiquidityParameters) GetEasyAutoloop() bool {
if x != nil {
return x.EasyAutoloop
}
return false
}
func (x *LiquidityParameters) GetEasyAutoloopLocalTargetSat() uint64 {
if x != nil {
return x.EasyAutoloopLocalTargetSat
}
return 0
}
type LiquidityRule struct {
state protoimpl.MessageState
sizeCache protoimpl.SizeCache
@ -2983,7 +3008,7 @@ var file_client_proto_rawDesc = []byte{
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@ -3044,169 +3069,176 @@ var file_client_proto_rawDesc = []byte{
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}
var (

15
looprpc/client.proto
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@ -873,6 +873,21 @@ message LiquidityParameters {
UNIX timestamp in seconds.
*/
uint64 autoloop_budget_last_refresh = 20;
/*
Set to true to enable easy autoloop. If set, all channel/peer rules will be
overridden and the client will automatically dispatch swaps in order to meet
the configured local balance target size. Currently only loop out is
supported, meaning that easy autoloop can only reduce the funds that are
held as balance in channels.
*/
bool easy_autoloop = 21;
/*
The local balance target size, expressed in satoshis. This is used by easy
autoloop to determine how much liquidity should be maintained in channels.
*/
uint64 easy_autoloop_local_target_sat = 22;
}
enum LiquidityRuleType {

9
looprpc/client.swagger.json
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@ -694,6 +694,15 @@
"type": "string",
"format": "uint64",
"description": "The time at which the autoloop budget was last refreshed, expressed as a\nUNIX timestamp in seconds."
},
"easy_autoloop": {
"type": "boolean",
"description": "Set to true to enable easy autoloop. If set, all channel/peer rules will be\noverridden and the client will automatically dispatch swaps in order to meet\nthe configured local balance target size. Currently only loop out is\nsupported, meaning that easy autoloop can only reduce the funds that are\nheld as balance in channels."
},
"easy_autoloop_local_target_sat": {
"type": "string",
"format": "uint64",
"description": "The local balance target size, expressed in satoshis. This is used by easy\nautoloop to determine how much liquidity should be maintained in channels."
}
}
},

3
release_notes.md
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@ -15,6 +15,9 @@ This file tracks release notes for the loop client.
## Next release
#### New Features
- Easy Autoloop: a new mode for autoloop which requires the user to only set a
single target balance. Autoloop will start dispatching loop outs
whenever the total channel balance of the node exceeds that target.
#### Breaking Changes

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