lnd.xprv/contractcourt/chain_watcher.go

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package contractcourt
import (
"bytes"
"fmt"
"sync"
"sync/atomic"
"time"
"github.com/btcsuite/btcd/btcec"
"github.com/btcsuite/btcd/chaincfg"
"github.com/btcsuite/btcd/txscript"
"github.com/btcsuite/btcd/wire"
"github.com/btcsuite/btcutil"
"github.com/davecgh/go-spew/spew"
"github.com/lightningnetwork/lnd/chainntnfs"
"github.com/lightningnetwork/lnd/channeldb"
"github.com/lightningnetwork/lnd/input"
"github.com/lightningnetwork/lnd/lnwallet"
"github.com/lightningnetwork/lnd/shachain"
)
const (
// minCommitPointPollTimeout is the minimum time we'll wait before
// polling the database for a channel's commitpoint.
minCommitPointPollTimeout = 1 * time.Second
// maxCommitPointPollTimeout is the maximum time we'll wait before
// polling the database for a channel's commitpoint.
maxCommitPointPollTimeout = 10 * time.Minute
)
// LocalUnilateralCloseInfo encapsulates all the informnation we need to act
// on a local force close that gets confirmed.
type LocalUnilateralCloseInfo struct {
*chainntnfs.SpendDetail
*lnwallet.LocalForceCloseSummary
*channeldb.ChannelCloseSummary
}
// CooperativeCloseInfo encapsulates all the informnation we need to act
// on a cooperative close that gets confirmed.
type CooperativeCloseInfo struct {
*channeldb.ChannelCloseSummary
}
// ChainEventSubscription is a struct that houses a subscription to be notified
// for any on-chain events related to a channel. There are three types of
// possible on-chain events: a cooperative channel closure, a unilateral
// channel closure, and a channel breach. The fourth type: a force close is
// locally initiated, so we don't provide any event stream for said event.
type ChainEventSubscription struct {
// ChanPoint is that channel that chain events will be dispatched for.
ChanPoint wire.OutPoint
// RemoteUnilateralClosure is a channel that will be sent upon in the
// event that the remote party's commitment transaction is confirmed.
RemoteUnilateralClosure chan *lnwallet.UnilateralCloseSummary
// LocalUnilateralClosure is a channel that will be sent upon in the
// event that our commitment transaction is confirmed.
LocalUnilateralClosure chan *LocalUnilateralCloseInfo
// CooperativeClosure is a signal that will be sent upon once a
// cooperative channel closure has been detected confirmed.
CooperativeClosure chan *CooperativeCloseInfo
// ContractBreach is a channel that will be sent upon if we detect a
// contract breach. The struct sent across the channel contains all the
// material required to bring the cheating channel peer to justice.
ContractBreach chan *lnwallet.BreachRetribution
// Cancel cancels the subscription to the event stream for a particular
// channel. This method should be called once the caller no longer needs to
// be notified of any on-chain events for a particular channel.
Cancel func()
}
// chainWatcherConfig encapsulates all the necessary functions and interfaces
// needed to watch and act on on-chain events for a particular channel.
type chainWatcherConfig struct {
// chanState is a snapshot of the persistent state of the channel that
// we're watching. In the event of an on-chain event, we'll query the
// database to ensure that we act using the most up to date state.
chanState *channeldb.OpenChannel
// notifier is a reference to the channel notifier that we'll use to be
// notified of output spends and when transactions are confirmed.
notifier chainntnfs.ChainNotifier
// signer is the main signer instances that will be responsible for
// signing any HTLC and commitment transaction generated by the state
// machine.
signer input.Signer
// contractBreach is a method that will be called by the watcher if it
// detects that a contract breach transaction has been confirmed. Only
// when this method returns with a non-nil error it will be safe to mark
// the channel as pending close in the database.
contractBreach func(*lnwallet.BreachRetribution) error
// isOurAddr is a function that returns true if the passed address is
// known to us.
isOurAddr func(btcutil.Address) bool
// extractStateNumHint extracts the encoded state hint using the passed
// obfuscater. This is used by the chain watcher to identify which
// state was broadcast and confirmed on-chain.
extractStateNumHint func(*wire.MsgTx, [lnwallet.StateHintSize]byte) uint64
}
// chainWatcher is a system that's assigned to every active channel. The duty
// of this system is to watch the chain for spends of the channels chan point.
// If a spend is detected then with chain watcher will notify all subscribers
// that the channel has been closed, and also give them the materials necessary
// to sweep the funds of the channel on chain eventually.
type chainWatcher struct {
started int32 // To be used atomically.
stopped int32 // To be used atomically.
quit chan struct{}
wg sync.WaitGroup
cfg chainWatcherConfig
// stateHintObfuscator is a 48-bit state hint that's used to obfuscate
// the current state number on the commitment transactions.
stateHintObfuscator [lnwallet.StateHintSize]byte
// All the fields below are protected by this mutex.
sync.Mutex
// clientID is an ephemeral counter used to keep track of each
// individual client subscription.
clientID uint64
// clientSubscriptions is a map that keeps track of all the active
// client subscriptions for events related to this channel.
clientSubscriptions map[uint64]*ChainEventSubscription
}
// newChainWatcher returns a new instance of a chainWatcher for a channel given
// the chan point to watch, and also a notifier instance that will allow us to
// detect on chain events.
func newChainWatcher(cfg chainWatcherConfig) (*chainWatcher, error) {
// In order to be able to detect the nature of a potential channel
// closure we'll need to reconstruct the state hint bytes used to
// obfuscate the commitment state number encoded in the lock time and
// sequence fields.
var stateHint [lnwallet.StateHintSize]byte
chanState := cfg.chanState
if chanState.IsInitiator {
stateHint = lnwallet.DeriveStateHintObfuscator(
chanState.LocalChanCfg.PaymentBasePoint.PubKey,
chanState.RemoteChanCfg.PaymentBasePoint.PubKey,
)
} else {
stateHint = lnwallet.DeriveStateHintObfuscator(
chanState.RemoteChanCfg.PaymentBasePoint.PubKey,
chanState.LocalChanCfg.PaymentBasePoint.PubKey,
)
}
return &chainWatcher{
cfg: cfg,
stateHintObfuscator: stateHint,
quit: make(chan struct{}),
clientSubscriptions: make(map[uint64]*ChainEventSubscription),
}, nil
}
// Start starts all goroutines that the chainWatcher needs to perform its
// duties.
func (c *chainWatcher) Start() error {
if !atomic.CompareAndSwapInt32(&c.started, 0, 1) {
return nil
}
chanState := c.cfg.chanState
log.Debugf("Starting chain watcher for ChannelPoint(%v)",
chanState.FundingOutpoint)
// First, we'll register for a notification to be dispatched if the
// funding output is spent.
fundingOut := &chanState.FundingOutpoint
// As a height hint, we'll try to use the opening height, but if the
// channel isn't yet open, then we'll use the height it was broadcast
// at.
heightHint := c.cfg.chanState.ShortChanID().BlockHeight
if heightHint == 0 {
heightHint = chanState.FundingBroadcastHeight
}
localKey := chanState.LocalChanCfg.MultiSigKey.PubKey.SerializeCompressed()
remoteKey := chanState.RemoteChanCfg.MultiSigKey.PubKey.SerializeCompressed()
multiSigScript, err := input.GenMultiSigScript(
localKey, remoteKey,
)
if err != nil {
return err
}
pkScript, err := input.WitnessScriptHash(multiSigScript)
if err != nil {
return err
}
spendNtfn, err := c.cfg.notifier.RegisterSpendNtfn(
fundingOut, pkScript, heightHint,
)
if err != nil {
return err
}
// With the spend notification obtained, we'll now dispatch the
// closeObserver which will properly react to any changes.
c.wg.Add(1)
go c.closeObserver(spendNtfn)
return nil
}
// Stop signals the close observer to gracefully exit.
func (c *chainWatcher) Stop() error {
if !atomic.CompareAndSwapInt32(&c.stopped, 0, 1) {
return nil
}
close(c.quit)
c.wg.Wait()
return nil
}
2018-04-18 05:02:04 +03:00
// SubscribeChannelEvents returns an active subscription to the set of channel
// events for the channel watched by this chain watcher. Once clients no longer
// require the subscription, they should call the Cancel() method to allow the
// watcher to regain those committed resources.
func (c *chainWatcher) SubscribeChannelEvents() *ChainEventSubscription {
c.Lock()
clientID := c.clientID
c.clientID++
c.Unlock()
log.Debugf("New ChainEventSubscription(id=%v) for ChannelPoint(%v)",
clientID, c.cfg.chanState.FundingOutpoint)
sub := &ChainEventSubscription{
ChanPoint: c.cfg.chanState.FundingOutpoint,
RemoteUnilateralClosure: make(chan *lnwallet.UnilateralCloseSummary, 1),
LocalUnilateralClosure: make(chan *LocalUnilateralCloseInfo, 1),
CooperativeClosure: make(chan *CooperativeCloseInfo, 1),
ContractBreach: make(chan *lnwallet.BreachRetribution, 1),
Cancel: func() {
c.Lock()
delete(c.clientSubscriptions, clientID)
c.Unlock()
return
},
}
c.Lock()
c.clientSubscriptions[clientID] = sub
c.Unlock()
return sub
}
// isOurCommitment returns true if the passed commitSpend is a spend of the
// funding transaction using our commitment transaction (a local force close).
// In order to do this in a state agnostic manner, we'll make our decisions
// based off of only the set of outputs included.
func isOurCommitment(localChanCfg, remoteChanCfg channeldb.ChannelConfig,
commitSpend *chainntnfs.SpendDetail, broadcastStateNum uint64,
revocationProducer shachain.Producer) (bool, error) {
// First, we'll re-derive our commitment point for this state since
// this is what we use to randomize each of the keys for this state.
commitSecret, err := revocationProducer.AtIndex(broadcastStateNum)
if err != nil {
return false, err
}
commitPoint := input.ComputeCommitmentPoint(commitSecret[:])
// Now that we have the commit point, we'll derive the tweaked local
// and remote keys for this state. We use our point as only we can
// revoke our own commitment.
localDelayBasePoint := localChanCfg.DelayBasePoint.PubKey
localDelayKey := input.TweakPubKey(localDelayBasePoint, commitPoint)
remoteNonDelayPoint := remoteChanCfg.PaymentBasePoint.PubKey
remotePayKey := input.TweakPubKey(remoteNonDelayPoint, commitPoint)
// With the keys derived, we'll construct the remote script that'll be
// present if they have a non-dust balance on the commitment.
remotePkScript, err := input.CommitScriptUnencumbered(remotePayKey)
if err != nil {
return false, err
}
// Next, we'll derive our script that includes the revocation base for
// the remote party allowing them to claim this output before the CSV
// delay if we breach.
revocationKey := input.DeriveRevocationPubkey(
remoteChanCfg.RevocationBasePoint.PubKey, commitPoint,
)
localScript, err := input.CommitScriptToSelf(
uint32(localChanCfg.CsvDelay), localDelayKey, revocationKey,
)
if err != nil {
return false, err
}
localPkScript, err := input.WitnessScriptHash(localScript)
if err != nil {
return false, err
}
// With all our scripts assembled, we'll examine the outputs of the
// commitment transaction to determine if this is a local force close
// or not.
for _, output := range commitSpend.SpendingTx.TxOut {
pkScript := output.PkScript
switch {
case bytes.Equal(localPkScript, pkScript):
return true, nil
case bytes.Equal(remotePkScript, pkScript):
return true, nil
}
}
// If neither of these scripts are present, then it isn't a local force
// close.
return false, nil
}
// closeObserver is a dedicated goroutine that will watch for any closes of the
// channel that it's watching on chain. In the event of an on-chain event, the
// close observer will assembled the proper materials required to claim the
// funds of the channel on-chain (if required), then dispatch these as
// notifications to all subscribers.
func (c *chainWatcher) closeObserver(spendNtfn *chainntnfs.SpendEvent) {
defer c.wg.Done()
log.Infof("Close observer for ChannelPoint(%v) active",
c.cfg.chanState.FundingOutpoint)
select {
// We've detected a spend of the channel onchain! Depending on the type
// of spend, we'll act accordingly , so we'll examine the spending
// transaction to determine what we should do.
//
// TODO(Roasbeef): need to be able to ensure this only triggers
// on confirmation, to ensure if multiple txns are broadcast, we
// act on the one that's timestamped
case commitSpend, ok := <-spendNtfn.Spend:
// If the channel was closed, then this means that the notifier
// exited, so we will as well.
if !ok {
return
}
// Otherwise, the remote party might have broadcast a prior
// revoked state...!!!
commitTxBroadcast := commitSpend.SpendingTx
localCommit, remoteCommit, err := c.cfg.chanState.LatestCommitments()
if err != nil {
log.Errorf("Unable to fetch channel state for "+
"chan_point=%v", c.cfg.chanState.FundingOutpoint)
return
}
// We'll not retrieve the latest sate of the revocation store
// so we can populate the information within the channel state
// object that we have.
//
// TODO(roasbeef): mutation is bad mkay
_, err = c.cfg.chanState.RemoteRevocationStore()
if err != nil {
log.Errorf("Unable to fetch revocation state for "+
"chan_point=%v", c.cfg.chanState.FundingOutpoint)
return
}
// Decode the state hint encoded within the commitment
// transaction to determine if this is a revoked state or not.
obfuscator := c.stateHintObfuscator
broadcastStateNum := c.cfg.extractStateNumHint(
commitTxBroadcast, obfuscator,
)
// Based on the output scripts within this commitment, we'll
// determine if this is our commitment transaction or not (a
// self force close).
isOurCommit, err := isOurCommitment(
c.cfg.chanState.LocalChanCfg,
c.cfg.chanState.RemoteChanCfg, commitSpend,
broadcastStateNum, c.cfg.chanState.RevocationProducer,
)
if err != nil {
log.Errorf("unable to determine self commit for "+
"chan_point=%v: %v",
c.cfg.chanState.FundingOutpoint, err)
return
}
// If this is our commitment transaction, then we can exit here
// as we don't have any further processing we need to do (we
// can't cheat ourselves :p).
if isOurCommit {
if err := c.dispatchLocalForceClose(
commitSpend, *localCommit,
); err != nil {
log.Errorf("unable to handle local"+
"close for chan_point=%v: %v",
c.cfg.chanState.FundingOutpoint, err)
}
return
}
// Next, we'll check to see if this is a cooperative channel
// closure or not. This is characterized by having an input
// sequence number that's finalized. This won't happen with
// regular commitment transactions due to the state hint
// encoding scheme.
if commitTxBroadcast.TxIn[0].Sequence == wire.MaxTxInSequenceNum {
// TODO(roasbeef): rare but possible, need itest case
// for
err := c.dispatchCooperativeClose(commitSpend)
if err != nil {
log.Errorf("unable to handle co op close: %v", err)
}
return
}
log.Warnf("Unprompted commitment broadcast for "+
"ChannelPoint(%v) ", c.cfg.chanState.FundingOutpoint)
// Fetch the current known commit height for the remote party,
// and their pending commitment chain tip if it exist.
remoteStateNum := remoteCommit.CommitHeight
remoteChainTip, err := c.cfg.chanState.RemoteCommitChainTip()
if err != nil && err != channeldb.ErrNoPendingCommit {
log.Errorf("unable to obtain chain tip for "+
"ChannelPoint(%v): %v",
c.cfg.chanState.FundingOutpoint, err)
return
}
// If this channel has been recovered, then we'll modify our
// behavior as it isn't possible for us to close out the
// channel off-chain ourselves. It can only be the remote party
// force closing, or a cooperative closure we signed off on
// before losing data getting confirmed in the chain.
isRecoveredChan := c.cfg.chanState.HasChanStatus(
channeldb.ChanStatusRestored,
)
switch {
// If state number spending transaction matches the current
// latest state, then they've initiated a unilateral close. So
// we'll trigger the unilateral close signal so subscribers can
// clean up the state as necessary.
case broadcastStateNum == remoteStateNum && !isRecoveredChan:
err := c.dispatchRemoteForceClose(
commitSpend, *remoteCommit,
c.cfg.chanState.RemoteCurrentRevocation,
)
if err != nil {
log.Errorf("unable to handle remote "+
"close for chan_point=%v: %v",
c.cfg.chanState.FundingOutpoint, err)
}
// We'll also handle the case of the remote party broadcasting
// their commitment transaction which is one height above ours.
// This case can arise when we initiate a state transition, but
// the remote party has a fail crash _after_ accepting the new
// state, but _before_ sending their signature to us.
case broadcastStateNum == remoteStateNum+1 &&
remoteChainTip != nil && !isRecoveredChan:
err := c.dispatchRemoteForceClose(
commitSpend, remoteChainTip.Commitment,
c.cfg.chanState.RemoteNextRevocation,
)
if err != nil {
log.Errorf("unable to handle remote "+
"close for chan_point=%v: %v",
c.cfg.chanState.FundingOutpoint, err)
}
// If the remote party has broadcasted a state beyond our best
// known state for them, and they don't have a pending
// commitment (we write them to disk before sending out), then
// this means that we've lost data. In this case, we'll enter
// the DLP protocol. Otherwise, if we've recovered our channel
// state from scratch, then we don't know what the precise
// current state is, so we assume either the remote party
// forced closed or we've been breached. In the latter case,
// our tower will take care of us.
case broadcastStateNum > remoteStateNum || isRecoveredChan:
log.Warnf("Remote node broadcast state #%v, "+
"which is more than 1 beyond best known "+
"state #%v!!! Attempting recovery...",
broadcastStateNum, remoteStateNum)
// If we are lucky, the remote peer sent us the correct
// commitment point during channel sync, such that we
// can sweep our funds. If we cannot find the commit
// point, there's not much we can do other than wait
// for us to retrieve it. We will attempt to retrieve
// it from the peer each time we connect to it.
//
// TODO(halseth): actively initiate re-connection to
// the peer?
var commitPoint *btcec.PublicKey
backoff := minCommitPointPollTimeout
for {
commitPoint, err = c.cfg.chanState.DataLossCommitPoint()
if err == nil {
break
}
log.Errorf("Unable to retrieve commitment "+
"point for channel(%v) with lost "+
"state: %v. Retrying in %v.",
c.cfg.chanState.FundingOutpoint,
err, backoff)
select {
// Wait before retrying, with an exponential
// backoff.
case <-time.After(backoff):
backoff = 2 * backoff
if backoff > maxCommitPointPollTimeout {
backoff = maxCommitPointPollTimeout
}
case <-c.quit:
return
}
}
log.Infof("Recovered commit point(%x) for "+
"channel(%v)! Now attempting to use it to "+
"sweep our funds...",
commitPoint.SerializeCompressed(),
c.cfg.chanState.FundingOutpoint)
// Since we don't have the commitment stored for this
// state, we'll just pass an empty commitment. Note
// that this means we won't be able to recover any HTLC
// funds.
//
// TODO(halseth): can we try to recover some HTLCs?
err = c.dispatchRemoteForceClose(
commitSpend, channeldb.ChannelCommitment{},
commitPoint,
)
if err != nil {
log.Errorf("unable to handle remote "+
"close for chan_point=%v: %v",
c.cfg.chanState.FundingOutpoint, err)
}
// If the state number broadcast is lower than the remote
// node's current un-revoked height, then THEY'RE ATTEMPTING TO
// VIOLATE THE CONTRACT LAID OUT WITHIN THE PAYMENT CHANNEL.
// Therefore we close the signal indicating a revoked broadcast
// to allow subscribers to swiftly dispatch justice!!!
case broadcastStateNum < remoteStateNum:
err := c.dispatchContractBreach(
commitSpend, remoteCommit,
broadcastStateNum,
)
if err != nil {
log.Errorf("unable to handle channel "+
"breach for chan_point=%v: %v",
c.cfg.chanState.FundingOutpoint, err)
}
}
// Now that a spend has been detected, we've done our job, so
// we'll exit immediately.
return
// The chainWatcher has been signalled to exit, so we'll do so now.
case <-c.quit:
return
}
}
// toSelfAmount takes a transaction and returns the sum of all outputs that pay
// to a script that the wallet controls. If no outputs pay to us, then we
// return zero. This is possible as our output may have been trimmed due to
// being dust.
func (c *chainWatcher) toSelfAmount(tx *wire.MsgTx) btcutil.Amount {
var selfAmt btcutil.Amount
for _, txOut := range tx.TxOut {
_, addrs, _, err := txscript.ExtractPkScriptAddrs(
// Doesn't matter what net we actually pass in.
txOut.PkScript, &chaincfg.TestNet3Params,
)
if err != nil {
continue
}
for _, addr := range addrs {
if c.cfg.isOurAddr(addr) {
selfAmt += btcutil.Amount(txOut.Value)
}
}
}
return selfAmt
}
// dispatchCooperativeClose processed a detect cooperative channel closure.
// We'll use the spending transaction to locate our output within the
// transaction, then clean up the database state. We'll also dispatch a
// notification to all subscribers that the channel has been closed in this
// manner.
func (c *chainWatcher) dispatchCooperativeClose(commitSpend *chainntnfs.SpendDetail) error {
broadcastTx := commitSpend.SpendingTx
log.Infof("Cooperative closure for ChannelPoint(%v): %v",
c.cfg.chanState.FundingOutpoint, spew.Sdump(broadcastTx))
// If the input *is* final, then we'll check to see which output is
// ours.
localAmt := c.toSelfAmount(broadcastTx)
// Once this is known, we'll mark the state as fully closed in the
// database. We can do this as a cooperatively closed channel has all
// its outputs resolved after only one confirmation.
closeSummary := &channeldb.ChannelCloseSummary{
ChanPoint: c.cfg.chanState.FundingOutpoint,
ChainHash: c.cfg.chanState.ChainHash,
ClosingTXID: *commitSpend.SpenderTxHash,
RemotePub: c.cfg.chanState.IdentityPub,
Capacity: c.cfg.chanState.Capacity,
CloseHeight: uint32(commitSpend.SpendingHeight),
SettledBalance: localAmt,
CloseType: channeldb.CooperativeClose,
ShortChanID: c.cfg.chanState.ShortChanID(),
IsPending: true,
RemoteCurrentRevocation: c.cfg.chanState.RemoteCurrentRevocation,
RemoteNextRevocation: c.cfg.chanState.RemoteNextRevocation,
LocalChanConfig: c.cfg.chanState.LocalChanCfg,
}
// Attempt to add a channel sync message to the close summary.
chanSync, err := lnwallet.ChanSyncMsg(
c.cfg.chanState,
c.cfg.chanState.HasChanStatus(channeldb.ChanStatusRestored),
)
if err != nil {
log.Errorf("ChannelPoint(%v): unable to create channel sync "+
"message: %v", c.cfg.chanState.FundingOutpoint, err)
} else {
closeSummary.LastChanSyncMsg = chanSync
}
// Create a summary of all the information needed to handle the
// cooperative closure.
closeInfo := &CooperativeCloseInfo{
ChannelCloseSummary: closeSummary,
}
// With the event processed, we'll now notify all subscribers of the
// event.
c.Lock()
for _, sub := range c.clientSubscriptions {
select {
case sub.CooperativeClosure <- closeInfo:
case <-c.quit:
c.Unlock()
return fmt.Errorf("exiting")
}
}
c.Unlock()
return nil
}
// dispatchLocalForceClose processes a unilateral close by us being confirmed.
func (c *chainWatcher) dispatchLocalForceClose(
commitSpend *chainntnfs.SpendDetail,
localCommit channeldb.ChannelCommitment) error {
log.Infof("Local unilateral close of ChannelPoint(%v) "+
"detected", c.cfg.chanState.FundingOutpoint)
forceClose, err := lnwallet.NewLocalForceCloseSummary(
c.cfg.chanState, c.cfg.signer,
commitSpend.SpendingTx, localCommit,
)
if err != nil {
return err
}
// As we've detected that the channel has been closed, immediately
// creating a close summary for future usage by related sub-systems.
chanSnapshot := forceClose.ChanSnapshot
closeSummary := &channeldb.ChannelCloseSummary{
ChanPoint: chanSnapshot.ChannelPoint,
ChainHash: chanSnapshot.ChainHash,
ClosingTXID: forceClose.CloseTx.TxHash(),
RemotePub: &chanSnapshot.RemoteIdentity,
Capacity: chanSnapshot.Capacity,
CloseType: channeldb.LocalForceClose,
IsPending: true,
ShortChanID: c.cfg.chanState.ShortChanID(),
CloseHeight: uint32(commitSpend.SpendingHeight),
RemoteCurrentRevocation: c.cfg.chanState.RemoteCurrentRevocation,
RemoteNextRevocation: c.cfg.chanState.RemoteNextRevocation,
LocalChanConfig: c.cfg.chanState.LocalChanCfg,
}
// If our commitment output isn't dust or we have active HTLC's on the
// commitment transaction, then we'll populate the balances on the
// close channel summary.
if forceClose.CommitResolution != nil {
closeSummary.SettledBalance = chanSnapshot.LocalBalance.ToSatoshis()
closeSummary.TimeLockedBalance = chanSnapshot.LocalBalance.ToSatoshis()
}
for _, htlc := range forceClose.HtlcResolutions.OutgoingHTLCs {
htlcValue := btcutil.Amount(htlc.SweepSignDesc.Output.Value)
closeSummary.TimeLockedBalance += htlcValue
}
// Attempt to add a channel sync message to the close summary.
chanSync, err := lnwallet.ChanSyncMsg(
c.cfg.chanState,
c.cfg.chanState.HasChanStatus(channeldb.ChanStatusRestored),
)
if err != nil {
log.Errorf("ChannelPoint(%v): unable to create channel sync "+
"message: %v", c.cfg.chanState.FundingOutpoint, err)
} else {
closeSummary.LastChanSyncMsg = chanSync
}
// With the event processed, we'll now notify all subscribers of the
// event.
closeInfo := &LocalUnilateralCloseInfo{
commitSpend, forceClose, closeSummary,
}
c.Lock()
for _, sub := range c.clientSubscriptions {
select {
case sub.LocalUnilateralClosure <- closeInfo:
case <-c.quit:
c.Unlock()
return fmt.Errorf("exiting")
}
}
c.Unlock()
return nil
}
// dispatchRemoteForceClose processes a detected unilateral channel closure by
// the remote party. This function will prepare a UnilateralCloseSummary which
// will then be sent to any subscribers allowing them to resolve all our funds
// in the channel on chain. Once this close summary is prepared, all registered
// subscribers will receive a notification of this event. The commitPoint
// argument should be set to the per_commitment_point corresponding to the
// spending commitment.
//
// NOTE: The remoteCommit argument should be set to the stored commitment for
// this particular state. If we don't have the commitment stored (should only
// happen in case we have lost state) it should be set to an empty struct, in
// which case we will attempt to sweep the non-HTLC output using the passed
// commitPoint.
func (c *chainWatcher) dispatchRemoteForceClose(
commitSpend *chainntnfs.SpendDetail,
remoteCommit channeldb.ChannelCommitment,
commitPoint *btcec.PublicKey) error {
log.Infof("Unilateral close of ChannelPoint(%v) "+
"detected", c.cfg.chanState.FundingOutpoint)
// First, we'll create a closure summary that contains all the
// materials required to let each subscriber sweep the funds in the
// channel on-chain.
uniClose, err := lnwallet.NewUnilateralCloseSummary(
c.cfg.chanState, c.cfg.signer, commitSpend,
remoteCommit, commitPoint,
)
if err != nil {
return err
}
// With the event processed, we'll now notify all subscribers of the
// event.
c.Lock()
for _, sub := range c.clientSubscriptions {
select {
case sub.RemoteUnilateralClosure <- uniClose:
case <-c.quit:
c.Unlock()
return fmt.Errorf("exiting")
}
}
c.Unlock()
return nil
}
// dispatchContractBreach processes a detected contract breached by the remote
// party. This method is to be called once we detect that the remote party has
// broadcast a prior revoked commitment state. This method well prepare all the
// materials required to bring the cheater to justice, then notify all
// registered subscribers of this event.
func (c *chainWatcher) dispatchContractBreach(spendEvent *chainntnfs.SpendDetail,
remoteCommit *channeldb.ChannelCommitment,
broadcastStateNum uint64) error {
log.Warnf("Remote peer has breached the channel contract for "+
"ChannelPoint(%v). Revoked state #%v was broadcast!!!",
c.cfg.chanState.FundingOutpoint, broadcastStateNum)
if err := c.cfg.chanState.MarkBorked(); err != nil {
return fmt.Errorf("unable to mark channel as borked: %v", err)
}
spendHeight := uint32(spendEvent.SpendingHeight)
// Create a new reach retribution struct which contains all the data
// needed to swiftly bring the cheating peer to justice.
//
// TODO(roasbeef): move to same package
retribution, err := lnwallet.NewBreachRetribution(
c.cfg.chanState, broadcastStateNum, spendHeight,
)
if err != nil {
return fmt.Errorf("unable to create breach retribution: %v", err)
}
// Nil the curve before printing.
if retribution.RemoteOutputSignDesc != nil &&
retribution.RemoteOutputSignDesc.DoubleTweak != nil {
retribution.RemoteOutputSignDesc.DoubleTweak.Curve = nil
}
if retribution.RemoteOutputSignDesc != nil &&
retribution.RemoteOutputSignDesc.KeyDesc.PubKey != nil {
retribution.RemoteOutputSignDesc.KeyDesc.PubKey.Curve = nil
}
if retribution.LocalOutputSignDesc != nil &&
retribution.LocalOutputSignDesc.DoubleTweak != nil {
retribution.LocalOutputSignDesc.DoubleTweak.Curve = nil
}
if retribution.LocalOutputSignDesc != nil &&
retribution.LocalOutputSignDesc.KeyDesc.PubKey != nil {
retribution.LocalOutputSignDesc.KeyDesc.PubKey.Curve = nil
}
log.Debugf("Punishment breach retribution created: %v",
newLogClosure(func() string {
retribution.KeyRing.CommitPoint.Curve = nil
retribution.KeyRing.LocalHtlcKey = nil
retribution.KeyRing.RemoteHtlcKey = nil
retribution.KeyRing.DelayKey = nil
retribution.KeyRing.NoDelayKey = nil
retribution.KeyRing.RevocationKey = nil
return spew.Sdump(retribution)
}))
// Hand the retribution info over to the breach arbiter.
if err := c.cfg.contractBreach(retribution); err != nil {
log.Errorf("unable to hand breached contract off to "+
"breachArbiter: %v", err)
return err
}
// With the event processed, we'll now notify all subscribers of the
// event.
c.Lock()
for _, sub := range c.clientSubscriptions {
select {
case sub.ContractBreach <- retribution:
case <-c.quit:
c.Unlock()
return fmt.Errorf("quitting")
}
}
c.Unlock()
// At this point, we've successfully received an ack for the breach
// close. We now construct and persist the close summary, marking the
// channel as pending force closed.
//
// TODO(roasbeef): instead mark we got all the monies?
// TODO(halseth): move responsibility to breach arbiter?
settledBalance := remoteCommit.LocalBalance.ToSatoshis()
closeSummary := channeldb.ChannelCloseSummary{
ChanPoint: c.cfg.chanState.FundingOutpoint,
ChainHash: c.cfg.chanState.ChainHash,
ClosingTXID: *spendEvent.SpenderTxHash,
CloseHeight: spendHeight,
RemotePub: c.cfg.chanState.IdentityPub,
Capacity: c.cfg.chanState.Capacity,
SettledBalance: settledBalance,
CloseType: channeldb.BreachClose,
IsPending: true,
ShortChanID: c.cfg.chanState.ShortChanID(),
RemoteCurrentRevocation: c.cfg.chanState.RemoteCurrentRevocation,
RemoteNextRevocation: c.cfg.chanState.RemoteNextRevocation,
LocalChanConfig: c.cfg.chanState.LocalChanCfg,
}
// Attempt to add a channel sync message to the close summary.
chanSync, err := lnwallet.ChanSyncMsg(
c.cfg.chanState,
c.cfg.chanState.HasChanStatus(channeldb.ChanStatusRestored),
)
if err != nil {
log.Errorf("ChannelPoint(%v): unable to create channel sync "+
"message: %v", c.cfg.chanState.FundingOutpoint, err)
} else {
closeSummary.LastChanSyncMsg = chanSync
}
if err := c.cfg.chanState.CloseChannel(&closeSummary); err != nil {
return err
}
log.Infof("Breached channel=%v marked pending-closed",
c.cfg.chanState.FundingOutpoint)
return nil
}