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server.go
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server.go
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package main
import (
"bytes"
"context"
"crypto/rand"
"encoding/hex"
"fmt"
"image/color"
"math/big"
"net"
"path/filepath"
"regexp"
"runtime"
"strconv"
"sync"
"sync/atomic"
"time"
"github.com/btcsuite/btcd/btcec"
"github.com/btcsuite/btcd/chaincfg/chainhash"
"github.com/btcsuite/btcd/connmgr"
"github.com/btcsuite/btcd/wire"
"github.com/btcsuite/btcutil"
"github.com/coreos/bbolt"
"github.com/go-errors/errors"
sphinx "github.com/lightningnetwork/lightning-onion"
"github.com/lightningnetwork/lnd/autopilot"
"github.com/lightningnetwork/lnd/brontide"
"github.com/lightningnetwork/lnd/channeldb"
"github.com/lightningnetwork/lnd/channelnotifier"
"github.com/lightningnetwork/lnd/contractcourt"
"github.com/lightningnetwork/lnd/discovery"
"github.com/lightningnetwork/lnd/htlcswitch"
"github.com/lightningnetwork/lnd/input"
"github.com/lightningnetwork/lnd/invoices"
"github.com/lightningnetwork/lnd/lncfg"
"github.com/lightningnetwork/lnd/lnpeer"
"github.com/lightningnetwork/lnd/lnrpc"
"github.com/lightningnetwork/lnd/lnwallet"
"github.com/lightningnetwork/lnd/lnwire"
"github.com/lightningnetwork/lnd/nat"
"github.com/lightningnetwork/lnd/netann"
"github.com/lightningnetwork/lnd/pool"
"github.com/lightningnetwork/lnd/routing"
"github.com/lightningnetwork/lnd/sweep"
"github.com/lightningnetwork/lnd/ticker"
"github.com/lightningnetwork/lnd/tor"
)
const (
// defaultMinPeers is the minimum number of peers nodes should always be
// connected to.
defaultMinPeers = 3
// defaultStableConnDuration is a floor under which all reconnection
// attempts will apply exponential randomized backoff. Connections
// durations exceeding this value will be eligible to have their
// backoffs reduced.
defaultStableConnDuration = 10 * time.Minute
)
var (
// ErrPeerNotConnected signals that the server has no connection to the
// given peer.
ErrPeerNotConnected = errors.New("peer is not connected")
// ErrServerShuttingDown indicates that the server is in the process of
// gracefully exiting.
ErrServerShuttingDown = errors.New("server is shutting down")
// validColorRegexp is a regexp that lets you check if a particular
// color string matches the standard hex color format #RRGGBB.
validColorRegexp = regexp.MustCompile("^#[A-Fa-f0-9]{6}$")
)
// server is the main server of the Lightning Network Daemon. The server houses
// global state pertaining to the wallet, database, and the rpcserver.
// Additionally, the server is also used as a central messaging bus to interact
// with any of its companion objects.
type server struct {
started int32 // atomic
shutdown int32 // atomic
// identityPriv is the private key used to authenticate any incoming
// connections.
identityPriv *btcec.PrivateKey
// nodeSigner is an implementation of the MessageSigner implementation
// that's backed by the identity private key of the running lnd node.
nodeSigner *netann.NodeSigner
chanStatusMgr *netann.ChanStatusManager
// listenAddrs is the list of addresses the server is currently
// listening on.
listenAddrs []net.Addr
// torController is a client that will communicate with a locally
// running Tor server. This client will handle initiating and
// authenticating the connection to the Tor server, automatically
// creating and setting up onion services, etc.
torController *tor.Controller
// natTraversal is the specific NAT traversal technique used to
// automatically set up port forwarding rules in order to advertise to
// the network that the node is accepting inbound connections.
natTraversal nat.Traversal
// lastDetectedIP is the last IP detected by the NAT traversal technique
// above. This IP will be watched periodically in a goroutine in order
// to handle dynamic IP changes.
lastDetectedIP net.IP
mu sync.RWMutex
peersByPub map[string]*peer
inboundPeers map[string]*peer
outboundPeers map[string]*peer
peerConnectedListeners map[string][]chan<- lnpeer.Peer
peerDisconnectedListeners map[string][]chan<- struct{}
persistentPeers map[string]struct{}
persistentPeersBackoff map[string]time.Duration
persistentConnReqs map[string][]*connmgr.ConnReq
persistentRetryCancels map[string]chan struct{}
// ignorePeerTermination tracks peers for which the server has initiated
// a disconnect. Adding a peer to this map causes the peer termination
// watcher to short circuit in the event that peers are purposefully
// disconnected.
ignorePeerTermination map[*peer]struct{}
// scheduledPeerConnection maps a pubkey string to a callback that
// should be executed in the peerTerminationWatcher the prior peer with
// the same pubkey exits. This allows the server to wait until the
// prior peer has cleaned up successfully, before adding the new peer
// intended to replace it.
scheduledPeerConnection map[string]func()
cc *chainControl
fundingMgr *fundingManager
chanDB *channeldb.DB
htlcSwitch *htlcswitch.Switch
invoices *invoices.InvoiceRegistry
channelNotifier *channelnotifier.ChannelNotifier
witnessBeacon contractcourt.WitnessBeacon
breachArbiter *breachArbiter
chanRouter *routing.ChannelRouter
authGossiper *discovery.AuthenticatedGossiper
utxoNursery *utxoNursery
sweeper *sweep.UtxoSweeper
chainArb *contractcourt.ChainArbitrator
sphinx *htlcswitch.OnionProcessor
connMgr *connmgr.ConnManager
sigPool *lnwallet.SigPool
writePool *pool.Write
readPool *pool.Read
// globalFeatures feature vector which affects HTLCs and thus are also
// advertised to other nodes.
globalFeatures *lnwire.FeatureVector
// currentNodeAnn is the node announcement that has been broadcast to
// the network upon startup, if the attributes of the node (us) has
// changed since last start.
currentNodeAnn *lnwire.NodeAnnouncement
quit chan struct{}
wg sync.WaitGroup
}
// parseAddr parses an address from its string format to a net.Addr.
func parseAddr(address string) (net.Addr, error) {
var (
host string
port int
)
// Split the address into its host and port components.
h, p, err := net.SplitHostPort(address)
if err != nil {
// If a port wasn't specified, we'll assume the address only
// contains the host so we'll use the default port.
host = address
port = defaultPeerPort
} else {
// Otherwise, we'll note both the host and ports.
host = h
portNum, err := strconv.Atoi(p)
if err != nil {
return nil, err
}
port = portNum
}
if tor.IsOnionHost(host) {
return &tor.OnionAddr{OnionService: host, Port: port}, nil
}
// If the host is part of a TCP address, we'll use the network
// specific ResolveTCPAddr function in order to resolve these
// addresses over Tor in order to prevent leaking your real IP
// address.
hostPort := net.JoinHostPort(host, strconv.Itoa(port))
return cfg.net.ResolveTCPAddr("tcp", hostPort)
}
// noiseDial is a factory function which creates a connmgr compliant dialing
// function by returning a closure which includes the server's identity key.
func noiseDial(idPriv *btcec.PrivateKey) func(net.Addr) (net.Conn, error) {
return func(a net.Addr) (net.Conn, error) {
lnAddr := a.(*lnwire.NetAddress)
return brontide.Dial(idPriv, lnAddr, cfg.net.Dial)
}
}
// newServer creates a new instance of the server which is to listen using the
// passed listener address.
func newServer(listenAddrs []net.Addr, chanDB *channeldb.DB, cc *chainControl,
privKey *btcec.PrivateKey) (*server, error) {
var err error
listeners := make([]net.Listener, len(listenAddrs))
for i, listenAddr := range listenAddrs {
// Note: though brontide.NewListener uses ResolveTCPAddr, it
// doesn't need to call the general lndResolveTCP function
// since we are resolving a local address.
listeners[i], err = brontide.NewListener(
privKey, listenAddr.String(),
)
if err != nil {
return nil, err
}
}
globalFeatures := lnwire.NewRawFeatureVector()
var serializedPubKey [33]byte
copy(serializedPubKey[:], privKey.PubKey().SerializeCompressed())
// Initialize the sphinx router, placing it's persistent replay log in
// the same directory as the channel graph database.
graphDir := chanDB.Path()
sharedSecretPath := filepath.Join(graphDir, "sphinxreplay.db")
replayLog := htlcswitch.NewDecayedLog(sharedSecretPath, cc.chainNotifier)
sphinxRouter := sphinx.NewRouter(privKey, activeNetParams.Params, replayLog)
writeBufferPool := pool.NewWriteBuffer(
pool.DefaultWriteBufferGCInterval,
pool.DefaultWriteBufferExpiryInterval,
)
writePool := pool.NewWrite(
writeBufferPool, runtime.NumCPU(), pool.DefaultWorkerTimeout,
)
readBufferPool := pool.NewReadBuffer(
pool.DefaultReadBufferGCInterval,
pool.DefaultReadBufferExpiryInterval,
)
readPool := pool.NewRead(
readBufferPool, runtime.NumCPU(), pool.DefaultWorkerTimeout,
)
s := &server{
chanDB: chanDB,
cc: cc,
sigPool: lnwallet.NewSigPool(runtime.NumCPU()*2, cc.signer),
writePool: writePool,
readPool: readPool,
invoices: invoices.NewRegistry(chanDB, activeNetParams.Params),
channelNotifier: channelnotifier.New(chanDB),
identityPriv: privKey,
nodeSigner: netann.NewNodeSigner(privKey),
listenAddrs: listenAddrs,
// TODO(roasbeef): derive proper onion key based on rotation
// schedule
sphinx: htlcswitch.NewOnionProcessor(sphinxRouter),
persistentPeers: make(map[string]struct{}),
persistentPeersBackoff: make(map[string]time.Duration),
persistentConnReqs: make(map[string][]*connmgr.ConnReq),
persistentRetryCancels: make(map[string]chan struct{}),
ignorePeerTermination: make(map[*peer]struct{}),
scheduledPeerConnection: make(map[string]func()),
peersByPub: make(map[string]*peer),
inboundPeers: make(map[string]*peer),
outboundPeers: make(map[string]*peer),
peerConnectedListeners: make(map[string][]chan<- lnpeer.Peer),
peerDisconnectedListeners: make(map[string][]chan<- struct{}),
globalFeatures: lnwire.NewFeatureVector(globalFeatures,
lnwire.GlobalFeatures),
quit: make(chan struct{}),
}
s.witnessBeacon = &preimageBeacon{
invoices: s.invoices,
wCache: chanDB.NewWitnessCache(),
subscribers: make(map[uint64]*preimageSubscriber),
}
// If the debug HTLC flag is on, then we invoice a "master debug"
// invoice which all outgoing payments will be sent and all incoming
// HTLCs with the debug R-Hash immediately settled.
if cfg.DebugHTLC {
kiloCoin := btcutil.Amount(btcutil.SatoshiPerBitcoin * 1000)
s.invoices.AddDebugInvoice(kiloCoin, invoices.DebugPre)
srvrLog.Debugf("Debug HTLC invoice inserted, preimage=%x, hash=%x",
invoices.DebugPre[:], invoices.DebugHash[:])
}
_, currentHeight, err := s.cc.chainIO.GetBestBlock()
if err != nil {
return nil, err
}
s.htlcSwitch, err = htlcswitch.New(htlcswitch.Config{
DB: chanDB,
SelfKey: s.identityPriv.PubKey(),
LocalChannelClose: func(pubKey []byte,
request *htlcswitch.ChanClose) {
peer, err := s.FindPeerByPubStr(string(pubKey))
if err != nil {
srvrLog.Errorf("unable to close channel, peer"+
" with %v id can't be found: %v",
pubKey, err,
)
return
}
select {
case peer.localCloseChanReqs <- request:
srvrLog.Infof("Local close channel request "+
"delivered to peer: %x", pubKey[:])
case <-peer.quit:
srvrLog.Errorf("Unable to deliver local close "+
"channel request to peer %x, err: %v",
pubKey[:], err)
}
},
FwdingLog: chanDB.ForwardingLog(),
SwitchPackager: channeldb.NewSwitchPackager(),
ExtractErrorEncrypter: s.sphinx.ExtractErrorEncrypter,
FetchLastChannelUpdate: s.fetchLastChanUpdate(),
Notifier: s.cc.chainNotifier,
FwdEventTicker: ticker.New(
htlcswitch.DefaultFwdEventInterval),
LogEventTicker: ticker.New(
htlcswitch.DefaultLogInterval),
NotifyActiveChannel: s.channelNotifier.NotifyActiveChannelEvent,
NotifyInactiveChannel: s.channelNotifier.NotifyInactiveChannelEvent,
}, uint32(currentHeight))
if err != nil {
return nil, err
}
chanStatusMgrCfg := &netann.ChanStatusConfig{
ChanStatusSampleInterval: cfg.ChanStatusSampleInterval,
ChanEnableTimeout: cfg.ChanEnableTimeout,
ChanDisableTimeout: cfg.ChanDisableTimeout,
OurPubKey: privKey.PubKey(),
MessageSigner: s.nodeSigner,
IsChannelActive: s.htlcSwitch.HasActiveLink,
ApplyChannelUpdate: s.applyChannelUpdate,
DB: chanDB,
Graph: chanDB.ChannelGraph(),
}
chanStatusMgr, err := netann.NewChanStatusManager(chanStatusMgrCfg)
if err != nil {
return nil, err
}
s.chanStatusMgr = chanStatusMgr
// If enabled, use either UPnP or NAT-PMP to automatically configure
// port forwarding for users behind a NAT.
if cfg.NAT {
srvrLog.Info("Scanning local network for a UPnP enabled device")
discoveryTimeout := time.Duration(10 * time.Second)
ctx, cancel := context.WithTimeout(
context.Background(), discoveryTimeout,
)
defer cancel()
upnp, err := nat.DiscoverUPnP(ctx)
if err == nil {
s.natTraversal = upnp
} else {
// If we were not able to discover a UPnP enabled device
// on the local network, we'll fall back to attempting
// to discover a NAT-PMP enabled device.
srvrLog.Errorf("Unable to discover a UPnP enabled "+
"device on the local network: %v", err)
srvrLog.Info("Scanning local network for a NAT-PMP " +
"enabled device")
pmp, err := nat.DiscoverPMP(discoveryTimeout)
if err != nil {
err := fmt.Errorf("Unable to discover a "+
"NAT-PMP enabled device on the local "+
"network: %v", err)
srvrLog.Error(err)
return nil, err
}
s.natTraversal = pmp
}
}
// If we were requested to automatically configure port forwarding,
// we'll use the ports that the server will be listening on.
externalIPStrings := make([]string, len(cfg.ExternalIPs))
for idx, ip := range cfg.ExternalIPs {
externalIPStrings[idx] = ip.String()
}
if s.natTraversal != nil {
listenPorts := make([]uint16, 0, len(listenAddrs))
for _, listenAddr := range listenAddrs {
// At this point, the listen addresses should have
// already been normalized, so it's safe to ignore the
// errors.
_, portStr, _ := net.SplitHostPort(listenAddr.String())
port, _ := strconv.Atoi(portStr)
listenPorts = append(listenPorts, uint16(port))
}
ips, err := s.configurePortForwarding(listenPorts...)
if err != nil {
srvrLog.Errorf("Unable to automatically set up port "+
"forwarding using %s: %v",
s.natTraversal.Name(), err)
} else {
srvrLog.Infof("Automatically set up port forwarding "+
"using %s to advertise external IP",
s.natTraversal.Name())
externalIPStrings = append(externalIPStrings, ips...)
}
}
// If external IP addresses have been specified, add those to the list
// of this server's addresses.
externalIPs, err := lncfg.NormalizeAddresses(
externalIPStrings, strconv.Itoa(defaultPeerPort),
cfg.net.ResolveTCPAddr,
)
if err != nil {
return nil, err
}
selfAddrs := make([]net.Addr, 0, len(externalIPs))
for _, ip := range externalIPs {
selfAddrs = append(selfAddrs, ip)
}
// If we were requested to route connections through Tor and to
// automatically create an onion service, we'll initiate our Tor
// controller and establish a connection to the Tor server.
if cfg.Tor.Active && (cfg.Tor.V2 || cfg.Tor.V3) {
s.torController = tor.NewController(cfg.Tor.Control)
}
chanGraph := chanDB.ChannelGraph()
// We'll now reconstruct a node announcement based on our current
// configuration so we can send it out as a sort of heart beat within
// the network.
//
// We'll start by parsing the node color from configuration.
color, err := parseHexColor(cfg.Color)
if err != nil {
srvrLog.Errorf("unable to parse color: %v\n", err)
return nil, err
}
// If no alias is provided, default to first 10 characters of public
// key.
alias := cfg.Alias
if alias == "" {
alias = hex.EncodeToString(serializedPubKey[:10])
}
nodeAlias, err := lnwire.NewNodeAlias(alias)
if err != nil {
return nil, err
}
selfNode := &channeldb.LightningNode{
HaveNodeAnnouncement: true,
LastUpdate: time.Now(),
Addresses: selfAddrs,
Alias: nodeAlias.String(),
Features: s.globalFeatures,
Color: color,
}
copy(selfNode.PubKeyBytes[:], privKey.PubKey().SerializeCompressed())
// Based on the disk representation of the node announcement generated
// above, we'll generate a node announcement that can go out on the
// network so we can properly sign it.
nodeAnn, err := selfNode.NodeAnnouncement(false)
if err != nil {
return nil, fmt.Errorf("unable to gen self node ann: %v", err)
}
// With the announcement generated, we'll sign it to properly
// authenticate the message on the network.
authSig, err := discovery.SignAnnouncement(
s.nodeSigner, s.identityPriv.PubKey(), nodeAnn,
)
if err != nil {
return nil, fmt.Errorf("unable to generate signature for "+
"self node announcement: %v", err)
}
selfNode.AuthSigBytes = authSig.Serialize()
nodeAnn.Signature, err = lnwire.NewSigFromRawSignature(
selfNode.AuthSigBytes,
)
if err != nil {
return nil, err
}
// Finally, we'll update the representation on disk, and update our
// cached in-memory version as well.
if err := chanGraph.SetSourceNode(selfNode); err != nil {
return nil, fmt.Errorf("can't set self node: %v", err)
}
s.currentNodeAnn = nodeAnn
s.chanRouter, err = routing.New(routing.Config{
Graph: chanGraph,
Chain: cc.chainIO,
ChainView: cc.chainView,
SendToSwitch: func(firstHop lnwire.ShortChannelID,
htlcAdd *lnwire.UpdateAddHTLC,
circuit *sphinx.Circuit) ([32]byte, error) {
// Using the created circuit, initialize the error
// decrypter so we can parse+decode any failures
// incurred by this payment within the switch.
errorDecryptor := &htlcswitch.SphinxErrorDecrypter{
OnionErrorDecrypter: sphinx.NewOnionErrorDecrypter(circuit),
}
return s.htlcSwitch.SendHTLC(
firstHop, htlcAdd, errorDecryptor,
)
},
ChannelPruneExpiry: time.Duration(time.Hour * 24 * 14),
GraphPruneInterval: time.Duration(time.Hour),
QueryBandwidth: func(edge *channeldb.ChannelEdgeInfo) lnwire.MilliSatoshi {
// If we aren't on either side of this edge, then we'll
// just thread through the capacity of the edge as we
// know it.
if !bytes.Equal(edge.NodeKey1Bytes[:], selfNode.PubKeyBytes[:]) &&
!bytes.Equal(edge.NodeKey2Bytes[:], selfNode.PubKeyBytes[:]) {
return lnwire.NewMSatFromSatoshis(edge.Capacity)
}
cid := lnwire.NewChanIDFromOutPoint(&edge.ChannelPoint)
link, err := s.htlcSwitch.GetLink(cid)
if err != nil {
// If the link isn't online, then we'll report
// that it has zero bandwidth to the router.
return 0
}
// If the link is found within the switch, but it isn't
// yet eligible to forward any HTLCs, then we'll treat
// it as if it isn't online in the first place.
if !link.EligibleToForward() {
return 0
}
// Otherwise, we'll return the current best estimate
// for the available bandwidth for the link.
return link.Bandwidth()
},
AssumeChannelValid: cfg.Routing.UseAssumeChannelValid(),
})
if err != nil {
return nil, fmt.Errorf("can't create router: %v", err)
}
chanSeries := discovery.NewChanSeries(
s.chanDB.ChannelGraph(),
)
gossipMessageStore, err := discovery.NewMessageStore(s.chanDB)
if err != nil {
return nil, err
}
waitingProofStore, err := channeldb.NewWaitingProofStore(s.chanDB)
if err != nil {
return nil, err
}
s.authGossiper = discovery.New(discovery.Config{
Router: s.chanRouter,
Notifier: s.cc.chainNotifier,
ChainHash: *activeNetParams.GenesisHash,
Broadcast: s.BroadcastMessage,
ChanSeries: chanSeries,
NotifyWhenOnline: s.NotifyWhenOnline,
NotifyWhenOffline: s.NotifyWhenOffline,
ProofMatureDelta: 0,
TrickleDelay: time.Millisecond * time.Duration(cfg.TrickleDelay),
RetransmitDelay: time.Minute * 30,
WaitingProofStore: waitingProofStore,
MessageStore: gossipMessageStore,
AnnSigner: s.nodeSigner,
},
s.identityPriv.PubKey(),
)
utxnStore, err := newNurseryStore(activeNetParams.GenesisHash, chanDB)
if err != nil {
srvrLog.Errorf("unable to create nursery store: %v", err)
return nil, err
}
srvrLog.Tracef("Sweeper batch window duration: %v",
sweep.DefaultBatchWindowDuration)
sweeperStore, err := sweep.NewSweeperStore(
chanDB, activeNetParams.GenesisHash,
)
if err != nil {
srvrLog.Errorf("unable to create sweeper store: %v", err)
return nil, err
}
s.sweeper = sweep.New(&sweep.UtxoSweeperConfig{
FeeEstimator: cc.feeEstimator,
GenSweepScript: func() ([]byte, error) {
return newSweepPkScript(cc.wallet)
},
Signer: cc.wallet.Cfg.Signer,
PublishTransaction: cc.wallet.PublishTransaction,
NewBatchTimer: func() <-chan time.Time {
return time.NewTimer(sweep.DefaultBatchWindowDuration).C
},
SweepTxConfTarget: 6,
Notifier: cc.chainNotifier,
ChainIO: cc.chainIO,
Store: sweeperStore,
MaxInputsPerTx: sweep.DefaultMaxInputsPerTx,
MaxSweepAttempts: sweep.DefaultMaxSweepAttempts,
NextAttemptDeltaFunc: sweep.DefaultNextAttemptDeltaFunc,
})
s.utxoNursery = newUtxoNursery(&NurseryConfig{
ChainIO: cc.chainIO,
ConfDepth: 1,
FetchClosedChannels: chanDB.FetchClosedChannels,
FetchClosedChannel: chanDB.FetchClosedChannel,
Notifier: cc.chainNotifier,
PublishTransaction: cc.wallet.PublishTransaction,
Store: utxnStore,
SweepInput: s.sweeper.SweepInput,
})
// Construct a closure that wraps the htlcswitch's CloseLink method.
closeLink := func(chanPoint *wire.OutPoint,
closureType htlcswitch.ChannelCloseType) {
// TODO(conner): Properly respect the update and error channels
// returned by CloseLink.
s.htlcSwitch.CloseLink(chanPoint, closureType, 0)
}
// We will use the following channel to reliably hand off contract
// breach events from the ChannelArbitrator to the breachArbiter,
contractBreaches := make(chan *ContractBreachEvent, 1)
s.chainArb = contractcourt.NewChainArbitrator(contractcourt.ChainArbitratorConfig{
ChainHash: *activeNetParams.GenesisHash,
// TODO(roasbeef): properly configure
// * needs to be << or specified final hop time delta
BroadcastDelta: defaultBroadcastDelta,
NewSweepAddr: func() ([]byte, error) {
return newSweepPkScript(cc.wallet)
},
PublishTx: cc.wallet.PublishTransaction,
DeliverResolutionMsg: func(msgs ...contractcourt.ResolutionMsg) error {
for _, msg := range msgs {
err := s.htlcSwitch.ProcessContractResolution(msg)
if err != nil {
return err
}
}
return nil
},
IncubateOutputs: func(chanPoint wire.OutPoint,
commitRes *lnwallet.CommitOutputResolution,
outHtlcRes *lnwallet.OutgoingHtlcResolution,
inHtlcRes *lnwallet.IncomingHtlcResolution,
broadcastHeight uint32) error {
var (
inRes []lnwallet.IncomingHtlcResolution
outRes []lnwallet.OutgoingHtlcResolution
)
if inHtlcRes != nil {
inRes = append(inRes, *inHtlcRes)
}
if outHtlcRes != nil {
outRes = append(outRes, *outHtlcRes)
}
return s.utxoNursery.IncubateOutputs(
chanPoint, commitRes, outRes, inRes,
broadcastHeight,
)
},
PreimageDB: s.witnessBeacon,
Notifier: cc.chainNotifier,
Signer: cc.wallet.Cfg.Signer,
FeeEstimator: cc.feeEstimator,
ChainIO: cc.chainIO,
MarkLinkInactive: func(chanPoint wire.OutPoint) error {
chanID := lnwire.NewChanIDFromOutPoint(&chanPoint)
s.htlcSwitch.RemoveLink(chanID)
return nil
},
IsOurAddress: cc.wallet.IsOurAddress,
ContractBreach: func(chanPoint wire.OutPoint,
breachRet *lnwallet.BreachRetribution) error {
event := &ContractBreachEvent{
ChanPoint: chanPoint,
ProcessACK: make(chan error, 1),
BreachRetribution: breachRet,
}
// Send the contract breach event to the breachArbiter.
select {
case contractBreaches <- event:
case <-s.quit:
return ErrServerShuttingDown
}
// Wait for the breachArbiter to ACK the event.
select {
case err := <-event.ProcessACK:
return err
case <-s.quit:
return ErrServerShuttingDown
}
},
DisableChannel: s.chanStatusMgr.RequestDisable,
Sweeper: s.sweeper,
SettleInvoice: s.invoices.SettleInvoice,
NotifyClosedChannel: s.channelNotifier.NotifyClosedChannelEvent,
}, chanDB)
s.breachArbiter = newBreachArbiter(&BreachConfig{
CloseLink: closeLink,
DB: chanDB,
Estimator: s.cc.feeEstimator,
GenSweepScript: func() ([]byte, error) {
return newSweepPkScript(cc.wallet)
},
Notifier: cc.chainNotifier,
PublishTransaction: cc.wallet.PublishTransaction,
ContractBreaches: contractBreaches,
Signer: cc.wallet.Cfg.Signer,
Store: newRetributionStore(chanDB),
})
// Select the configuration and furnding parameters for Bitcoin or
// Litecoin, depending on the primary registered chain.
primaryChain := registeredChains.PrimaryChain()
chainCfg := cfg.Bitcoin
minRemoteDelay := minBtcRemoteDelay
maxRemoteDelay := maxBtcRemoteDelay
if primaryChain == litecoinChain {
chainCfg = cfg.Litecoin
minRemoteDelay = minLtcRemoteDelay
maxRemoteDelay = maxLtcRemoteDelay
}
var chanIDSeed [32]byte
if _, err := rand.Read(chanIDSeed[:]); err != nil {
return nil, err
}
s.fundingMgr, err = newFundingManager(fundingConfig{
IDKey: privKey.PubKey(),
Wallet: cc.wallet,
PublishTransaction: cc.wallet.PublishTransaction,
Notifier: cc.chainNotifier,
FeeEstimator: cc.feeEstimator,
SignMessage: func(pubKey *btcec.PublicKey,
msg []byte) (*btcec.Signature, error) {
if pubKey.IsEqual(privKey.PubKey()) {
return s.nodeSigner.SignMessage(pubKey, msg)
}
return cc.msgSigner.SignMessage(pubKey, msg)
},
CurrentNodeAnnouncement: func() (lnwire.NodeAnnouncement, error) {
return s.genNodeAnnouncement(true)
},
SendAnnouncement: func(msg lnwire.Message) chan error {
return s.authGossiper.ProcessLocalAnnouncement(
msg, privKey.PubKey(),
)
},
NotifyWhenOnline: s.NotifyWhenOnline,
TempChanIDSeed: chanIDSeed,
FindChannel: func(chanID lnwire.ChannelID) (
*channeldb.OpenChannel, error) {
dbChannels, err := chanDB.FetchAllChannels()
if err != nil {
return nil, err
}
for _, channel := range dbChannels {
if chanID.IsChanPoint(&channel.FundingOutpoint) {
return channel, nil
}
}
return nil, fmt.Errorf("unable to find channel")
},
DefaultRoutingPolicy: cc.routingPolicy,
NumRequiredConfs: func(chanAmt btcutil.Amount,
pushAmt lnwire.MilliSatoshi) uint16 {
// For large channels we increase the number
// of confirmations we require for the
// channel to be considered open. As it is
// always the responder that gets to choose
// value, the pushAmt is value being pushed
// to us. This means we have more to lose
// in the case this gets re-orged out, and
// we will require more confirmations before
// we consider it open.
// TODO(halseth): Use Litecoin params in case
// of LTC channels.
// In case the user has explicitly specified
// a default value for the number of
// confirmations, we use it.
defaultConf := uint16(chainCfg.DefaultNumChanConfs)
if defaultConf != 0 {
return defaultConf
}
// If not we return a value scaled linearly
// between 3 and 6, depending on channel size.
// TODO(halseth): Use 1 as minimum?
minConf := uint64(3)
maxConf := uint64(6)
maxChannelSize := uint64(
lnwire.NewMSatFromSatoshis(maxFundingAmount))
stake := lnwire.NewMSatFromSatoshis(chanAmt) + pushAmt
conf := maxConf * uint64(stake) / maxChannelSize
if conf < minConf {
conf = minConf
}
if conf > maxConf {
conf = maxConf
}
return uint16(conf)
},
RequiredRemoteDelay: func(chanAmt btcutil.Amount) uint16 {
// We scale the remote CSV delay (the time the
// remote have to claim funds in case of a unilateral
// close) linearly from minRemoteDelay blocks
// for small channels, to maxRemoteDelay blocks
// for channels of size maxFundingAmount.
// TODO(halseth): Litecoin parameter for LTC.
// In case the user has explicitly specified
// a default value for the remote delay, we
// use it.
defaultDelay := uint16(chainCfg.DefaultRemoteDelay)
if defaultDelay > 0 {
return defaultDelay
}
// If not we scale according to channel size.
delay := uint16(btcutil.Amount(maxRemoteDelay) *
chanAmt / maxFundingAmount)
if delay < minRemoteDelay {
delay = minRemoteDelay
}
if delay > maxRemoteDelay {
delay = maxRemoteDelay
}
return delay
},
WatchNewChannel: func(channel *channeldb.OpenChannel,
peerKey *btcec.PublicKey) error {
// First, we'll mark this new peer as a persistent peer
// for re-connection purposes.
s.mu.Lock()
pubStr := string(peerKey.SerializeCompressed())
s.persistentPeers[pubStr] = struct{}{}
s.mu.Unlock()
// With that taken care of, we'll send this channel to
// the chain arb so it can react to on-chain events.
return s.chainArb.WatchNewChannel(channel)
},
ReportShortChanID: func(chanPoint wire.OutPoint) error {
cid := lnwire.NewChanIDFromOutPoint(&chanPoint)
return s.htlcSwitch.UpdateShortChanID(cid)
},
RequiredRemoteChanReserve: func(chanAmt,
dustLimit btcutil.Amount) btcutil.Amount {
// By default, we'll require the remote peer to maintain
// at least 1% of the total channel capacity at all
// times. If this value ends up dipping below the dust
// limit, then we'll use the dust limit itself as the
// reserve as required by BOLT #2.
reserve := chanAmt / 100
if reserve < dustLimit {
reserve = dustLimit
}
return reserve
},
RequiredRemoteMaxValue: func(chanAmt btcutil.Amount) lnwire.MilliSatoshi {
// By default, we'll allow the remote peer to fully
// utilize the full bandwidth of the channel, minus our
// required reserve.
reserve := lnwire.NewMSatFromSatoshis(chanAmt / 100)
return lnwire.NewMSatFromSatoshis(chanAmt) - reserve
},
RequiredRemoteMaxHTLCs: func(chanAmt btcutil.Amount) uint16 {
// By default, we'll permit them to utilize the full
// channel bandwidth.
return uint16(input.MaxHTLCNumber / 2)
},
ZombieSweeperInterval: 1 * time.Minute,
ReservationTimeout: 10 * time.Minute,
MinChanSize: btcutil.Amount(cfg.MinChanSize),
NotifyOpenChannelEvent: s.channelNotifier.NotifyOpenChannelEvent,
})
if err != nil {
return nil, err
}
// Create the connection manager which will be responsible for
// maintaining persistent outbound connections and also accepting new
// incoming connections
cmgr, err := connmgr.New(&connmgr.Config{
Listeners: listeners,
OnAccept: s.InboundPeerConnected,
RetryDuration: time.Second * 5,
TargetOutbound: 100,
Dial: noiseDial(s.identityPriv),
OnConnection: s.OutboundPeerConnected,
})
if err != nil {
return nil, err
}
s.connMgr = cmgr
return s, nil
}
// Started returns true if the server has been started, and false otherwise.
// NOTE: This function is safe for concurrent access.
func (s *server) Started() bool {
return atomic.LoadInt32(&s.started) != 0
}