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loop/client.go

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package loop
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import (
"context"
"errors"
"fmt"
"strings"
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"sync"
"sync/atomic"
"time"
"github.com/btcsuite/btcd/btcec/v2"
"github.com/btcsuite/btcd/btcec/v2/schnorr"
"github.com/btcsuite/btcd/btcutil"
"github.com/lightninglabs/aperture/l402"
"github.com/lightninglabs/lndclient"
"github.com/lightninglabs/loop/loopdb"
"github.com/lightninglabs/loop/swap"
"github.com/lightninglabs/loop/sweep"
"github.com/lightninglabs/loop/sweepbatcher"
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"github.com/lightninglabs/loop/utils"
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"github.com/lightningnetwork/lnd/lntypes"
"github.com/lightningnetwork/lnd/routing/route"
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"google.golang.org/grpc"
"google.golang.org/grpc/status"
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)
var (
// ErrSwapFeeTooHigh is returned when the swap invoice amount is too
// high.
ErrSwapFeeTooHigh = errors.New("swap fee too high")
// ErrPrepayAmountTooHigh is returned when the prepay invoice amount is
// too high.
ErrPrepayAmountTooHigh = errors.New("prepay amount too high")
// ErrSwapAmountTooLow is returned when the requested swap amount is
// less than the server minimum.
ErrSwapAmountTooLow = errors.New("swap amount too low")
// ErrSwapAmountTooHigh is returned when the requested swap amount is
// more than the server maximum.
ErrSwapAmountTooHigh = errors.New("swap amount too high")
// ErrExpiryTooFar is returned when the server proposes an expiry that
// is too soon for us.
ErrExpiryTooFar = errors.New("swap expiry too far")
// ErrInsufficientBalance indicates insufficient confirmed balance to
// publish a swap.
ErrInsufficientBalance = errors.New("insufficient confirmed balance")
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// serverRPCTimeout is the maximum time a gRPC request to the server
// should be allowed to take.
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serverRPCTimeout = 30 * time.Second
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// globalCallTimeout is the maximum time any call of the client to the
// server is allowed to take, including the time it may take to get
// and pay for an L402 token.
globalCallTimeout = serverRPCTimeout + l402.PaymentTimeout
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// probeTimeout is the maximum time until a probe is allowed to take.
probeTimeout = 3 * time.Minute
repushDelay = 1 * time.Second
// MinerFeeEstimationFailed is a magic number that is returned in a
// quote call as the miner fee if the fee estimation in lnd's wallet
// failed because of insufficient funds.
MinerFeeEstimationFailed btcutil.Amount = -1
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)
// Client performs the client side part of swaps. This interface exists to be
// able to implement a stub.
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type Client struct {
started uint32 // To be used atomically.
errChan chan error
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// abandonChans allows for accessing a swap's abandon channel by
// providing its swap hash. This map is used to look up the abandon
// channel of a swap if the client requests to abandon it.
abandonChans map[lntypes.Hash]chan struct{}
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lndServices *lndclient.LndServices
sweeper *sweep.Sweeper
executor *executor
resumeReady chan struct{}
wg sync.WaitGroup
clientConfig
}
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// ClientConfig is the exported configuration structure that is required to
// instantiate the loop client.
type ClientConfig struct {
// ServerAddress is the loop server to connect to.
ServerAddress string
// ProxyAddress is the SOCKS proxy that should be used to establish the
// connection.
ProxyAddress string
// SwapServerNoTLS skips TLS for the swap server connection when set.
SwapServerNoTLS bool
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// TLSPathServer is the path to the TLS certificate that is required to
// connect to the server.
TLSPathServer string
// Lnd is an instance of the lnd proxy.
Lnd *lndclient.LndServices
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// MaxL402Cost is the maximum price we are willing to pay to the server
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// for the token.
MaxL402Cost btcutil.Amount
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// MaxL402Fee is the maximum that we are willing to pay in routing fees
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// to obtain the token.
MaxL402Fee btcutil.Amount
// LoopOutMaxParts defines the maximum number of parts that may be used
// for a loop out swap. When greater than one, a multi-part payment may
// be attempted.
LoopOutMaxParts uint32
// TotalPaymentTimeout is the total amount of time until we time out
// off-chain payments (used in loop out).
TotalPaymentTimeout time.Duration
// MaxPaymentRetries is the maximum times we retry an off-chain payment
// (used in loop out).
MaxPaymentRetries int
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}
// NewClient returns a new instance to initiate swaps with.
func NewClient(dbDir string, loopDB loopdb.SwapStore,
sweeperDb sweepbatcher.BatcherStore, cfg *ClientConfig) (
*Client, func(), error) {
l402Store, err := l402.NewFileStore(dbDir)
if err != nil {
return nil, nil, err
}
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swapServerClient, err := newSwapServerClient(cfg, l402Store)
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if err != nil {
return nil, nil, err
}
config := &clientConfig{
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LndServices: cfg.Lnd,
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Server: swapServerClient,
Store: loopDB,
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Conn: swapServerClient.conn,
L402Store: l402Store,
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CreateExpiryTimer: func(d time.Duration) <-chan time.Time {
return time.NewTimer(d).C
},
LoopOutMaxParts: cfg.LoopOutMaxParts,
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}
sweeper := &sweep.Sweeper{
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Lnd: cfg.Lnd,
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}
verifySchnorrSig := func(pubKey *btcec.PublicKey, hash, sig []byte) error {
schnorrSig, err := schnorr.ParseSignature(sig)
if err != nil {
return err
}
if !schnorrSig.Verify(hash, pubKey) {
return fmt.Errorf("invalid signature")
}
return nil
}
sweepStore, err := sweepbatcher.NewSweepFetcherFromSwapStore(
loopDB, cfg.Lnd.ChainParams,
)
if err != nil {
return nil, nil, fmt.Errorf("sweepbatcher."+
"NewSweepFetcherFromSwapStore failed: %w", err)
}
batcher := sweepbatcher.NewBatcher(
cfg.Lnd.WalletKit, cfg.Lnd.ChainNotifier, cfg.Lnd.Signer,
swapServerClient.MultiMuSig2SignSweep, verifySchnorrSig,
cfg.Lnd.ChainParams, sweeperDb, sweepStore,
)
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executor := newExecutor(&executorConfig{
lnd: cfg.Lnd,
store: loopDB,
sweeper: sweeper,
batcher: batcher,
createExpiryTimer: config.CreateExpiryTimer,
loopOutMaxParts: cfg.LoopOutMaxParts,
totalPaymentTimeout: cfg.TotalPaymentTimeout,
maxPaymentRetries: cfg.MaxPaymentRetries,
cancelSwap: swapServerClient.CancelLoopOutSwap,
verifySchnorrSig: verifySchnorrSig,
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})
client := &Client{
errChan: make(chan error),
clientConfig: *config,
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lndServices: cfg.Lnd,
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sweeper: sweeper,
executor: executor,
resumeReady: make(chan struct{}),
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abandonChans: make(map[lntypes.Hash]chan struct{}),
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}
cleanup := func() {
swapServerClient.stop()
loopDB.Close()
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}
return client, cleanup, nil
}
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// GetConn returns the gRPC connection to the server.
func (s *Client) GetConn() *grpc.ClientConn {
return s.clientConfig.Conn
}
// FetchSwaps returns all loop in and out swaps currently in the database.
func (s *Client) FetchSwaps(ctx context.Context) ([]*SwapInfo, error) {
loopOutSwaps, err := s.Store.FetchLoopOutSwaps(ctx)
if err != nil {
return nil, err
}
loopInSwaps, err := s.Store.FetchLoopInSwaps(ctx)
if err != nil {
return nil, err
}
swaps := make([]*SwapInfo, 0, len(loopInSwaps)+len(loopOutSwaps))
for _, swp := range loopOutSwaps {
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swp := swp
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swapInfo := &SwapInfo{
SwapType: swap.TypeOut,
SwapContract: swp.Contract.SwapContract,
SwapStateData: swp.State(),
SwapHash: swp.Hash,
LastUpdate: swp.LastUpdateTime(),
}
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htlc, err := utils.GetHtlc(
swp.Hash, &swp.Contract.SwapContract,
s.lndServices.ChainParams,
)
if err != nil {
return nil, err
}
switch htlc.OutputType {
case swap.HtlcP2WSH:
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swapInfo.HtlcAddressP2WSH = htlc.Address
case swap.HtlcP2TR:
swapInfo.HtlcAddressP2TR = htlc.Address
default:
return nil, swap.ErrInvalidOutputType
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}
swaps = append(swaps, swapInfo)
}
for _, swp := range loopInSwaps {
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swp := swp
swapInfo := &SwapInfo{
SwapType: swap.TypeIn,
SwapContract: swp.Contract.SwapContract,
SwapStateData: swp.State(),
SwapHash: swp.Hash,
LastUpdate: swp.LastUpdateTime(),
LastHop: swp.Contract.LastHop,
}
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htlc, err := utils.GetHtlc(
swp.Hash, &swp.Contract.SwapContract,
s.lndServices.ChainParams,
)
if err != nil {
return nil, err
}
switch htlc.OutputType {
case swap.HtlcP2WSH:
swapInfo.HtlcAddressP2WSH = htlc.Address
case swap.HtlcP2TR:
swapInfo.HtlcAddressP2TR = htlc.Address
default:
return nil, swap.ErrInvalidOutputType
}
swaps = append(swaps, swapInfo)
}
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return swaps, nil
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}
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// Run is a blocking call that executes all swaps. Any pending swaps are
// restored from persistent storage and resumed. Subsequent updates will be
// sent through the passed in statusChan. The function can be terminated by
// cancelling the context.
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func (s *Client) Run(ctx context.Context, statusChan chan<- SwapInfo) error {
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if !atomic.CompareAndSwapUint32(&s.started, 0, 1) {
return errors.New("swap client can only be started once")
}
// Log connected node.
log.Infof("Connected to lnd node '%v' with pubkey %s (version %s)",
s.lndServices.NodeAlias, s.lndServices.NodePubkey,
lndclient.VersionString(s.lndServices.Version))
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// Setup main context used for cancellation.
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mainCtx, mainCancel := context.WithCancel(ctx)
defer mainCancel()
// Query store before starting event loop to prevent new swaps from
// being treated as swaps that need to be resumed.
pendingLoopOutSwaps, err := s.Store.FetchLoopOutSwaps(mainCtx)
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if err != nil {
return err
}
pendingLoopInSwaps, err := s.Store.FetchLoopInSwaps(mainCtx)
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if err != nil {
return err
}
// Start goroutine to deliver all pending swaps to the main loop.
s.wg.Add(1)
go func() {
defer s.wg.Done()
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s.resumeSwaps(mainCtx, pendingLoopOutSwaps, pendingLoopInSwaps)
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// Signal that new requests can be accepted. Otherwise, the new
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// swap could already have been added to the store and read in
// this goroutine as being a swap that needs to be resumed.
// Resulting in two goroutines executing the same swap.
close(s.resumeReady)
}()
// Main event loop.
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err = s.executor.run(mainCtx, statusChan, s.abandonChans)
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// Consider canceled as happy flow.
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if errors.Is(err, context.Canceled) {
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err = nil
}
if err != nil {
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log.Errorf("Swap client terminating: %v", err)
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} else {
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log.Info("Swap client terminating")
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}
// Cancel all remaining active goroutines.
mainCancel()
// Wait for all to finish.
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log.Debug("Wait for executor to finish")
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s.executor.waitFinished()
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log.Debug("Wait for goroutines to finish")
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s.wg.Wait()
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log.Info("Swap client terminated")
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return err
}
// resumeSwaps restarts all pending swaps from the provided list.
func (s *Client) resumeSwaps(ctx context.Context,
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loopOutSwaps []*loopdb.LoopOut, loopInSwaps []*loopdb.LoopIn) {
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swapCfg := newSwapConfig(s.lndServices, s.Store, s.Server)
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for _, pend := range loopOutSwaps {
if pend.State().State.Type() != loopdb.StateTypePending {
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continue
}
swap, err := resumeLoopOutSwap(swapCfg, pend)
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if err != nil {
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log.Errorf("resuming loop out swap: %v", err)
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continue
}
s.executor.initiateSwap(ctx, swap)
}
for _, pend := range loopInSwaps {
if pend.State().State.Type() != loopdb.StateTypePending {
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continue
}
swap, err := resumeLoopInSwap(ctx, swapCfg, pend)
if err != nil {
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log.Errorf("resuming loop in swap: %v", err)
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continue
}
// Store the swap's abandon channel so that the client can
// abandon the swap by providing the swap hash.
s.executor.Lock()
s.abandonChans[swap.hash] = swap.abandonChan
s.executor.Unlock()
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s.executor.initiateSwap(ctx, swap)
}
}
// LoopOut initiates a loop out swap. It blocks until the swap is initiation
// with the swap server is completed (typically this takes only a short amount
// of time). From there on further status information can be acquired through
// the status channel returned from the Run call.
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//
// When the call returns, the swap has been persisted and will be resumed
// automatically after restarts.
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//
// The return value is a hash that uniquely identifies the new swap.
func (s *Client) LoopOut(globalCtx context.Context,
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request *OutRequest) (*LoopOutSwapInfo, error) {
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log.Infof("LoopOut %v to %v (channels: %v)",
request.Amount, request.DestAddr, request.OutgoingChanSet,
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)
if err := s.waitForInitialized(globalCtx); err != nil {
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return nil, err
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}
// Calculate htlc expiry height.
terms, err := s.Server.GetLoopOutTerms(globalCtx, request.Initiator)
if err != nil {
return nil, err
}
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initiationHeight := s.executor.height()
request.Expiry, err = s.getExpiry(
initiationHeight, terms, request.SweepConfTarget,
)
if err != nil {
return nil, err
}
// Create a new swap object for this swap.
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swapCfg := newSwapConfig(s.lndServices, s.Store, s.Server)
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initResult, err := newLoopOutSwap(
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globalCtx, swapCfg, initiationHeight, request,
)
if err != nil {
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return nil, err
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}
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swap := initResult.swap
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// Post swap to the main loop.
s.executor.initiateSwap(globalCtx, swap)
// Return hash so that the caller can identify this swap in the updates
// stream.
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return &LoopOutSwapInfo{
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SwapHash: swap.hash,
HtlcAddress: swap.htlc.Address,
ServerMessage: initResult.serverMessage,
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}, nil
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}
// getExpiry returns an absolute expiry height based on the sweep confirmation
// target, constrained by the server terms.
func (s *Client) getExpiry(height int32, terms *LoopOutTerms,
confTarget int32) (int32, error) {
switch {
case confTarget < terms.MinCltvDelta:
return height + terms.MinCltvDelta, nil
case confTarget > terms.MaxCltvDelta:
return 0, fmt.Errorf("confirmation target %v exceeds maximum "+
"server cltv delta of %v", confTarget,
terms.MaxCltvDelta)
}
return height + confTarget, nil
}
// LoopOutQuote takes a LoopOut amount and returns a break down of estimated
// costs for the client. Both the swap server and the on-chain fee estimator
// are queried to get to build the quote response.
func (s *Client) LoopOutQuote(ctx context.Context,
request *LoopOutQuoteRequest) (*LoopOutQuote, error) {
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terms, err := s.Server.GetLoopOutTerms(ctx, request.Initiator)
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if err != nil {
return nil, err
}
if request.Amount < terms.MinSwapAmount {
return nil, ErrSwapAmountTooLow
}
if request.Amount > terms.MaxSwapAmount {
return nil, ErrSwapAmountTooHigh
}
height := s.executor.height()
expiry, err := s.getExpiry(height, terms, request.SweepConfTarget)
if err != nil {
return nil, err
}
quote, err := s.Server.GetLoopOutQuote(
ctx, request.Amount, expiry, request.SwapPublicationDeadline,
request.Initiator,
)
if err != nil {
return nil, err
}
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log.Infof("Offchain swap destination: %x", quote.SwapPaymentDest)
minerFee, err := s.getLoopOutSweepFee(ctx, request.SweepConfTarget)
if err != nil {
return nil, err
}
return &LoopOutQuote{
SwapFee: quote.SwapFee,
MinerFee: minerFee,
PrepayAmount: quote.PrepayAmount,
SwapPaymentDest: quote.SwapPaymentDest,
}, nil
}
// getLoopOutSweepFee is a helper method to estimate the loop out htlc sweep
// fee to a p2wsh address.
func (s *Client) getLoopOutSweepFee(ctx context.Context, confTarget int32) (
btcutil.Amount, error) {
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// Generate dummy p2wsh address for fee estimation. The p2wsh address
// type is chosen because it adds the most weight of all output types
// and we want the quote to return a worst case value.
wsh := [32]byte{}
p2wshAddress, err := btcutil.NewAddressWitnessScriptHash(
wsh[:], s.lndServices.ChainParams,
)
if err != nil {
return 0, err
}
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scriptVersion := utils.GetHtlcScriptVersion(
loopdb.CurrentProtocolVersion(),
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)
htlc := swap.QuoteHtlcP2TR
if scriptVersion != swap.HtlcV3 {
htlc = swap.QuoteHtlcP2WSH
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}
return s.sweeper.GetSweepFee(
ctx, htlc.AddSuccessToEstimator, p2wshAddress, confTarget,
)
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}
// LoopOutTerms returns the terms on which the server executes swaps.
func (s *Client) LoopOutTerms(ctx context.Context, initiator string) (
*LoopOutTerms, error) {
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return s.Server.GetLoopOutTerms(ctx, initiator)
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}
// waitForInitialized for swaps to be resumed and executor ready.
func (s *Client) waitForInitialized(ctx context.Context) error {
select {
case <-s.executor.ready:
case <-ctx.Done():
return ctx.Err()
}
select {
case <-s.resumeReady:
case <-ctx.Done():
return ctx.Err()
}
return nil
}
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// LoopIn initiates a loop in swap.
func (s *Client) LoopIn(globalCtx context.Context,
request *LoopInRequest) (*LoopInSwapInfo, error) {
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log.Infof("Loop in %v (last hop: %v)",
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request.Amount,
request.LastHop,
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)
if err := s.waitForInitialized(globalCtx); err != nil {
return nil, err
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}
// Create a new swap object for this swap.
initiationHeight := s.executor.height()
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swapCfg := newSwapConfig(s.lndServices, s.Store, s.Server)
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initResult, err := newLoopInSwap(
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globalCtx, swapCfg, initiationHeight, request,
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)
if err != nil {
return nil, err
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}
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swap := initResult.swap
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s.executor.Lock()
s.abandonChans[swap.hash] = swap.abandonChan
s.executor.Unlock()
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// Post swap to the main loop.
s.executor.initiateSwap(globalCtx, swap)
// Return hash so that the caller can identify this swap in the updates
// stream.
swapInfo := &LoopInSwapInfo{
SwapHash: swap.hash,
ServerMessage: initResult.serverMessage,
}
if loopdb.CurrentProtocolVersion() < loopdb.ProtocolVersionHtlcV3 {
swapInfo.HtlcAddressP2WSH = swap.htlcP2WSH.Address
} else {
swapInfo.HtlcAddressP2TR = swap.htlcP2TR.Address
}
return swapInfo, nil
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}
// LoopInQuote takes an amount and returns a break down of estimated
// costs for the client. Both the swap server and the on-chain fee estimator are
// queried to get to build the quote response.
func (s *Client) LoopInQuote(ctx context.Context,
request *LoopInQuoteRequest) (*LoopInQuote, error) {
// Retrieve current server terms to calculate swap fee.
terms, err := s.Server.GetLoopInTerms(ctx, request.Initiator)
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if err != nil {
return nil, err
}
// Check amount limits.
if request.Amount < terms.MinSwapAmount {
return nil, ErrSwapAmountTooLow
}
if request.Amount > terms.MaxSwapAmount {
return nil, ErrSwapAmountTooHigh
}
// Private and routehints are mutually exclusive as setting private
// means we retrieve our own routehints from the connected node.
if len(request.RouteHints) != 0 && request.Private {
return nil, fmt.Errorf("private and route_hints both set")
}
if request.Private {
// If last_hop is set, we'll only add channels with peers
// set to the last_hop parameter
includeNodes := make(map[route.Vertex]struct{})
if request.LastHop != nil {
includeNodes[*request.LastHop] = struct{}{}
}
// Because the Private flag is set, we'll generate our own
// set of hop hints and use that
request.RouteHints, err = SelectHopHints(
ctx, s.lndServices.Client, request.Amount,
DefaultMaxHopHints, includeNodes,
)
if err != nil {
return nil, err
}
}
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quote, err := s.Server.GetLoopInQuote(
ctx, request.Amount, s.lndServices.NodePubkey, request.LastHop,
request.RouteHints, request.Initiator,
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)
if err != nil {
return nil, err
}
swapFee := quote.SwapFee
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// We don't calculate the on-chain fee if the HTLC is going to be
// published externally.
if request.ExternalHtlc {
return &LoopInQuote{
SwapFee: swapFee,
MinerFee: 0,
}, nil
}
// Get estimate for miner fee. If estimating the miner fee for the
// requested amount is not possible because lnd's wallet cannot
// construct a sample TX, we just return zero instead of failing the
// quote. The user interface should inform the user that fee estimation
// was not possible.
//
// TODO(guggero): Thread through error code from lnd to avoid string
// matching.
minerFee, err := s.estimateFee(
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ctx, request.Amount, request.HtlcConfTarget,
)
if err != nil && strings.Contains(err.Error(), "insufficient funds") {
return &LoopInQuote{
SwapFee: swapFee,
MinerFee: MinerFeeEstimationFailed,
CltvDelta: quote.CltvDelta,
}, nil
}
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if err != nil {
return nil, err
}
return &LoopInQuote{
SwapFee: swapFee,
MinerFee: minerFee,
CltvDelta: quote.CltvDelta,
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}, nil
}
// estimateFee is a helper method to estimate the total fee for paying the
// passed amount with the given conf target. It'll assume taproot destination
// if the protocol version indicates that we're using taproot htlcs.
func (s *Client) estimateFee(ctx context.Context, amt btcutil.Amount,
confTarget int32) (btcutil.Amount, error) {
var (
address btcutil.Address
err error
)
// Generate a dummy address for fee estimation.
witnessProg := [32]byte{}
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scriptVersion := utils.GetHtlcScriptVersion(
loopdb.CurrentProtocolVersion(),
)
if scriptVersion != swap.HtlcV3 {
address, err = btcutil.NewAddressWitnessScriptHash(
witnessProg[:], s.lndServices.ChainParams,
)
} else {
address, err = btcutil.NewAddressTaproot(
witnessProg[:], s.lndServices.ChainParams,
)
}
if err != nil {
return 0, err
}
return s.lndServices.Client.EstimateFee(ctx, address, amt, confTarget)
}
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// LoopInTerms returns the terms on which the server executes swaps.
func (s *Client) LoopInTerms(ctx context.Context, initiator string) (
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*LoopInTerms, error) {
return s.Server.GetLoopInTerms(ctx, initiator)
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}
// wrapGrpcError wraps the non-nil error provided with a message providing
// additional context, preserving the grpc code returned with the original
// error. If the original error has no grpc code, then codes.Unknown is used.
func wrapGrpcError(message string, err error) error {
// Since our error is non-nil, we don't need to worry about a nil
// grpcStatus, we'll just get an unknown one if no code was passed back.
grpcStatus, _ := status.FromError(err)
return status.Error(
grpcStatus.Code(), fmt.Sprintf("%v: %v", message,
grpcStatus.Message()),
)
}
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// Probe asks the server to probe a route to us given a requested amount and
// last hop. The server is free to discard frequent request to avoid abuse or if
// there's been a recent probe to us for the same amount.
func (s *Client) Probe(ctx context.Context, req *ProbeRequest) error {
return s.Server.Probe(
ctx, req.Amount, s.lndServices.NodePubkey, req.LastHop,
req.RouteHints,
)
}
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// AbandonSwap sends a signal on the abandon channel of the swap identified by
// the passed swap hash. This will cause the swap to abandon itself.
func (s *Client) AbandonSwap(ctx context.Context,
req *AbandonSwapRequest) error {
if req == nil {
return errors.New("no request provided")
}
s.executor.Lock()
defer s.executor.Unlock()
select {
case s.abandonChans[req.SwapHash] <- struct{}{}:
case <-ctx.Done():
return ctx.Err()
default:
// This is to avoid writing to a full channel.
}
return nil
}