lnd/server.go
Olaoluwa Osuntokun bd89a9312d
lnd: switch to using the connmgr for listening and persistent conns
This commit revamps the way in bound and outbound connections are
handled within lnd. Instead of manually managing listening goroutines
and also outbound connections, all the duty is now assigned to the
connmgr, a new btcsuite package.

The connmgr now handles accepting inbound (brontide) connections and
communicates with the server to hand off new connections via a
callback. Additionally, any outbound connection attempt is now made
persistent by default, with the assumption that (for right now),
connections are only to be made to peers we wish to make connections
to. Finally, on start-up we now attempt to connection to all/any of our
direct channel counter parties in order to promote the availability of
our channels to the daemon itself and any RPC users.
2016-12-14 18:15:55 -08:00

675 lines
18 KiB
Go

package main
import (
"fmt"
"net"
"sync"
"sync/atomic"
"time"
"github.com/btcsuite/btcd/connmgr"
"github.com/btcsuite/fastsha256"
"github.com/lightningnetwork/lightning-onion"
"github.com/lightningnetwork/lnd/brontide"
"github.com/lightningnetwork/lnd/chainntnfs"
"github.com/lightningnetwork/lnd/channeldb"
"github.com/lightningnetwork/lnd/lnrpc"
"github.com/lightningnetwork/lnd/lnwallet"
"github.com/lightningnetwork/lnd/lnwire"
"github.com/roasbeef/btcd/btcec"
"github.com/roasbeef/btcutil"
"github.com/lightningnetwork/lnd/routing"
"github.com/lightningnetwork/lnd/routing/rt/graph"
)
// server is the main server of the Lightning Network Daemon. The server
// houses global state pertianing 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
// lightningID is the sha256 of the public key corresponding to our
// long-term identity private key.
lightningID [32]byte
peersMtx sync.RWMutex
peersByID map[int32]*peer
peersByPub map[string]*peer
rpcServer *rpcServer
chainNotifier chainntnfs.ChainNotifier
bio lnwallet.BlockChainIO
lnwallet *lnwallet.LightningWallet
fundingMgr *fundingManager
chanDB *channeldb.DB
htlcSwitch *htlcSwitch
invoices *invoiceRegistry
breachArbiter *breachArbiter
routingMgr *routing.RoutingManager
utxoNursery *utxoNursery
sphinx *sphinx.Router
connMgr *connmgr.ConnManager
pendingConnMtx sync.RWMutex
persistentConnReqs map[string]*connmgr.ConnReq
pendingConnRequests map[string]*connectPeerMsg
newPeers chan *peer
donePeers chan *peer
queries chan interface{}
wg sync.WaitGroup
quit chan struct{}
}
// newServer creates a new instance of the server which is to listen using the
// passed listener address.
func newServer(listenAddrs []string, notifier chainntnfs.ChainNotifier,
bio lnwallet.BlockChainIO, wallet *lnwallet.LightningWallet,
chanDB *channeldb.DB) (*server, error) {
privKey, err := wallet.GetIdentitykey()
if err != nil {
return nil, err
}
listeners := make([]net.Listener, len(listenAddrs))
for i, addr := range listenAddrs {
listeners[i], err = brontide.NewListener(privKey, addr)
if err != nil {
return nil, err
}
}
serializedPubKey := privKey.PubKey().SerializeCompressed()
s := &server{
lnwallet: wallet,
bio: bio,
chainNotifier: notifier,
chanDB: chanDB,
invoices: newInvoiceRegistry(chanDB),
utxoNursery: newUtxoNursery(notifier, wallet),
identityPriv: privKey,
// TODO(roasbeef): derive proper onion key based on rotation
// schedule
sphinx: sphinx.NewRouter(privKey, activeNetParams.Params),
lightningID: fastsha256.Sum256(serializedPubKey),
pendingConnRequests: make(map[string]*connectPeerMsg),
persistentConnReqs: make(map[string]*connmgr.ConnReq),
peersByID: make(map[int32]*peer),
peersByPub: make(map[string]*peer),
newPeers: make(chan *peer, 10),
donePeers: make(chan *peer, 10),
queries: make(chan interface{}),
quit: make(chan struct{}),
}
// If the debug HTLC flag is on, then we invoice a "master debug"
// invoice which all outgoing payments will be sent and all incoming
// HTLC's with the debug R-Hash immediately settled.
if cfg.DebugHTLC {
kiloCoin := btcutil.Amount(btcutil.SatoshiPerBitcoin * 1000)
s.invoices.AddDebugInvoice(kiloCoin, *debugPre)
srvrLog.Debugf("Debug HTLC invoice inserted, preimage=%x, hash=%x",
debugPre[:], debugHash[:])
}
s.utxoNursery = newUtxoNursery(notifier, wallet)
// Create a new routing manager with ourself as the sole node within
// the graph.
selfVertex := serializedPubKey
routingMgrConfig := &routing.RoutingConfig{}
routingMgrConfig.SendMessage = func(receiver [33]byte, msg lnwire.Message) error {
receiverID := graph.NewVertex(receiver[:])
if receiverID == graph.NilVertex {
peerLog.Critical("receiverID == graph.NilVertex")
return fmt.Errorf("receiverID == graph.NilVertex")
}
var targetPeer *peer
for _, peer := range s.peersByID { // TODO: threadsafe API
nodePub := peer.addr.IdentityKey.SerializeCompressed()
nodeVertex := graph.NewVertex(nodePub[:])
// We found the target
if receiverID == nodeVertex {
targetPeer = peer
break
}
}
if targetPeer != nil {
targetPeer.queueMsg(msg, nil)
} else {
srvrLog.Errorf("Can't find peer to send message %v",
receiverID)
}
return nil
}
s.routingMgr = routing.NewRoutingManager(graph.NewVertex(selfVertex), routingMgrConfig)
s.htlcSwitch = newHtlcSwitch(serializedPubKey, s.routingMgr)
s.rpcServer = newRpcServer(s)
s.breachArbiter = newBreachArbiter(wallet, chanDB, notifier, s.htlcSwitch)
s.fundingMgr = newFundingManager(wallet, s.breachArbiter)
// TODO(roasbeef): introduce closure and config system to decouple the
// initialization above ^
// 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,
GetNewAddress: nil,
Dial: noiseDial(s.identityPriv),
OnConnection: s.outboundPeerConnected,
})
if err != nil {
return nil, err
}
s.connMgr = cmgr
// In order to promote liveness of our active channels, instruct the
// connection manager to attempt to establish and maintain persistent
// connections to all our direct channel counter parties.
linkNodes, err := s.chanDB.FetchAllLinkNodes()
if err != nil && err != channeldb.ErrLinkNodesNotFound {
return nil, err
}
for _, node := range linkNodes {
// Create a wrapper address which couples the IP and the pubkey
// so the brontide authenticated connection can be established.
lnAddr := &lnwire.NetAddress{
IdentityKey: node.IdentityPub,
Address: node.Addresses[0],
}
pubStr := string(node.IdentityPub.SerializeCompressed())
srvrLog.Debugf("Attempting persistent connection to channel "+
"peer %v", lnAddr)
// Send the persistent connection request to the connection
// manager, saving the request itself so we can
// cancel/restart the process as needed.
connReq := &connmgr.ConnReq{
Addr: lnAddr,
Permanent: true,
}
s.persistentConnReqs[pubStr] = connReq
go s.connMgr.Connect(connReq)
s.pendingConnRequests[pubStr] = &connectPeerMsg{
resp: make(chan int32, 1),
err: make(chan error, 1),
}
}
return s, nil
}
// Start starts the main daemon server, all requested listeners, and any helper
// goroutines.
func (s *server) Start() error {
// Already running?
if atomic.AddInt32(&s.started, 1) != 1 {
return nil
}
// Start the notification server. This is used so channel management
// goroutines can be notified when a funding transaction reaches a
// sufficient number of confirmations, or when the input for the
// funding transaction is spent in an attempt at an uncooperative close
// by the counter party.
if err := s.chainNotifier.Start(); err != nil {
return err
}
if err := s.rpcServer.Start(); err != nil {
return err
}
if err := s.fundingMgr.Start(); err != nil {
return err
}
if err := s.htlcSwitch.Start(); err != nil {
return err
}
if err := s.utxoNursery.Start(); err != nil {
return err
}
if err := s.breachArbiter.Start(); err != nil {
return err
}
s.routingMgr.Start()
s.wg.Add(1)
go s.queryHandler()
return nil
}
// Stop gracefully shutsdown the main daemon server. This function will signal
// any active goroutines, or helper objects to exit, then blocks until they've
// all successfully exited. Additionally, any/all listeners are closed.
func (s *server) Stop() error {
// Bail if we're already shutting down.
if atomic.AddInt32(&s.shutdown, 1) != 1 {
return nil
}
// Shutdown the wallet, funding manager, and the rpc server.
s.chainNotifier.Stop()
s.rpcServer.Stop()
s.fundingMgr.Stop()
s.routingMgr.Stop()
s.htlcSwitch.Stop()
s.utxoNursery.Stop()
s.breachArbiter.Stop()
s.lnwallet.Shutdown()
// Signal all the lingering goroutines to quit.
close(s.quit)
s.wg.Wait()
return nil
}
// WaitForShutdown blocks all goroutines have been stopped.
func (s *server) WaitForShutdown() {
s.wg.Wait()
}
// peerConnected is a function that handles initialization a newly connected
// peer by adding it to the server's global list of all active peers, and
// starting all the goroutines the peer needs to function properly.
func (s *server) peerConnected(conn net.Conn, connReq *connmgr.ConnReq, inbound bool) {
brontideConn := conn.(*brontide.Conn)
peerAddr := &lnwire.NetAddress{
IdentityKey: brontideConn.RemotePub(),
Address: conn.RemoteAddr().(*net.TCPAddr),
ChainNet: activeNetParams.Net,
}
// Now that we've established a connection, create a peer, and
// it to the set of currently active peers.
peer, err := newPeer(conn, s, peerAddr, false)
if err != nil {
srvrLog.Errorf("unable to create peer %v", err)
conn.Close()
return
}
if connReq != nil {
peer.connReq = connReq
}
// TODO(roasbeef): update IP address for link-node
// * also mark last-seen, do it one single transaction?
peer.Start()
s.newPeers <- peer
// If this was an RPC initiated outbound connection that was
// successfully established, then send a response back to the client so
pubStr := string(peerAddr.IdentityKey.SerializeCompressed())
s.pendingConnMtx.RLock()
msg, ok := s.pendingConnRequests[pubStr]
s.pendingConnMtx.RUnlock()
if ok {
msg.resp <- peer.id
msg.err <- nil
s.pendingConnMtx.Lock()
delete(s.pendingConnRequests, pubStr)
s.pendingConnMtx.Unlock()
}
}
// inboundPeerConnected initializes a new peer in response to a new inbound
// connection.
func (s *server) inboundPeerConnected(conn net.Conn) {
s.peersMtx.Lock()
defer s.peersMtx.Unlock()
srvrLog.Tracef("New inbound connection from %v", conn.RemoteAddr())
nodePub := conn.(*brontide.Conn).RemotePub()
// If we already have an outbound connection to this peer, simply drop
// the connection.
pubStr := string(nodePub.SerializeCompressed())
if _, ok := s.peersByPub[pubStr]; ok {
srvrLog.Errorf("Received inbound connection from peer %x, but "+
"already connected, dropping conn",
nodePub.SerializeCompressed())
conn.Close()
return
}
// However, if we receive an incoming connection from a peer we're
// attempting to maintain a persistent connection with then we need to
// cancel the ongoing connection attempts to ensure that we don't end
// up with a duplicate connecting to the same peer.
s.pendingConnMtx.RLock()
if connReq, ok := s.persistentConnReqs[pubStr]; ok {
fmt.Println("trying to cancel out attempt")
s.connMgr.Remove(connReq.ID())
}
s.pendingConnMtx.RUnlock()
s.peerConnected(conn, nil, false)
}
// outboundPeerConnected initializes a new peer in response to a new outbound
// connection.
func (s *server) outboundPeerConnected(connReq *connmgr.ConnReq, conn net.Conn) {
s.peersMtx.Lock()
defer s.peersMtx.Unlock()
srvrLog.Tracef("Established connection to: %v", conn.RemoteAddr())
nodePub := conn.(*brontide.Conn).RemotePub()
// If we already have an inbound connection from this peer, simply drop
// the connection.
pubStr := string(nodePub.SerializeCompressed())
if _, ok := s.peersByPub[pubStr]; ok {
srvrLog.Errorf("Established outbound connection to peer %x, but "+
"already connected, dropping conn",
nodePub.SerializeCompressed())
s.connMgr.Remove(connReq.ID())
return
}
s.peerConnected(conn, connReq, true)
}
// addPeer adds the passed peer to the server's global state of all active
// peers.
func (s *server) addPeer(p *peer) {
s.peersMtx.Lock()
defer s.peersMtx.Unlock()
if p == nil {
return
}
// Ignore new peers if we're shutting down.
if atomic.LoadInt32(&s.shutdown) != 0 {
p.Stop()
return
}
s.peersByID[p.id] = p
s.peersByPub[string(p.addr.IdentityKey.SerializeCompressed())] = p
}
// removePeer removes the passed peer from the server's state of all active
// peers.
func (s *server) removePeer(p *peer) {
s.peersMtx.Lock()
defer s.peersMtx.Unlock()
srvrLog.Debugf("removing peer %v", p)
if p == nil {
return
}
// Ignore deleting peers if we're shutting down.
if atomic.LoadInt32(&s.shutdown) != 0 {
p.Stop()
return
}
delete(s.peersByID, p.id)
delete(s.peersByPub, string(p.addr.IdentityKey.SerializeCompressed()))
}
// connectPeerMsg is a message requesting the server to open a connection to a
// particular peer. This message also houses an error channel which will be
// used to report success/failure.
type connectPeerMsg struct {
addr *lnwire.NetAddress
resp chan int32
err chan error
}
// listPeersMsg is a message sent to the server in order to obtain a listing
// of all currently active channels.
type listPeersMsg struct {
resp chan []*peer
}
// openChanReq is a message sent to the server in order to request the
// initiation of a channel funding workflow to the peer with either the specified
// relative peer ID, or a global lightning ID.
type openChanReq struct {
targetPeerID int32
targetPubkey *btcec.PublicKey
// TODO(roasbeef): make enums in lnwire
channelType uint8
coinType uint64
localFundingAmt btcutil.Amount
remoteFundingAmt btcutil.Amount
numConfs uint32
updates chan *lnrpc.OpenStatusUpdate
err chan error
}
// queryHandler handles any requests to modify the server's internal state of
// all active peers, or query/mutate the server's global state. Additionally,
// any queries directed at peers will be handled by this goroutine.
//
// NOTE: This MUST be run as a goroutine.
func (s *server) queryHandler() {
go s.connMgr.Start()
out:
for {
select {
// New peers.
case p := <-s.newPeers:
s.addPeer(p)
// Finished peers.
case p := <-s.donePeers:
s.removePeer(p)
case query := <-s.queries:
switch msg := query.(type) {
case *connectPeerMsg:
s.handleConnectPeer(msg)
case *listPeersMsg:
s.handleListPeers(msg)
case *openChanReq:
s.handleOpenChanReq(msg)
}
case <-s.quit:
break out
}
}
s.connMgr.Stop()
s.wg.Done()
}
// handleListPeers sends a lice of all currently active peers to the original
// caller.
func (s *server) handleListPeers(msg *listPeersMsg) {
peers := make([]*peer, 0, len(s.peersByID))
for _, peer := range s.peersByID {
peers = append(peers, peer)
}
msg.resp <- peers
}
// handleConnectPeer attempts to establish a connection to the address enclosed
// within the passed connectPeerMsg. This function is *async*, a goroutine will
// be spawned in order to finish the request, and respond to the caller.
func (s *server) handleConnectPeer(msg *connectPeerMsg) {
addr := msg.addr
targetPub := string(msg.addr.IdentityKey.SerializeCompressed())
// Ensure we're not already connected to this
// peer.
s.peersMtx.RLock()
peer, ok := s.peersByPub[targetPub]
if ok {
s.peersMtx.RUnlock()
msg.err <- fmt.Errorf("already connected to peer: %v", peer)
msg.resp <- -1
return
}
s.peersMtx.RUnlock()
// If there's already a pending connection request for this pubkey,
// then we ignore this request to ensure we don't create a redundant
// connection.
s.pendingConnMtx.RLock()
if _, ok := s.pendingConnRequests[targetPub]; ok {
s.pendingConnMtx.RUnlock()
msg.err <- fmt.Errorf("connection attempt to %v is pending",
addr)
msg.resp <- -1
return
}
if _, ok := s.persistentConnReqs[targetPub]; ok {
s.pendingConnMtx.RUnlock()
msg.err <- fmt.Errorf("connection attempt to %v is pending",
addr)
msg.resp <- -1
return
}
s.pendingConnMtx.RUnlock()
// If there's not already a pending or active connection to this node,
// then instruct the connection manager to attempt to establish a
// persistent connection to the peer.
srvrLog.Debugf("connecting to %v", addr)
go s.connMgr.Connect(&connmgr.ConnReq{
Addr: addr,
Permanent: true,
})
// Finally, we store the original request keyed by the public key so we
// can dispatch the response to the RPC client once a connection has
// been initiated.
s.pendingConnMtx.Lock()
s.pendingConnRequests[targetPub] = msg
s.pendingConnMtx.Unlock()
}
// handleOpenChanReq first locates the target peer, and if found hands off the
// request to the funding manager allowing it to initiate the channel funding
// workflow.
func (s *server) handleOpenChanReq(req *openChanReq) {
var targetPeer *peer
pubStr := string(req.targetPubkey.SerializeCompressed())
// First attempt to locate the target peer to open a channel with, if
// we're unable to locate the peer then this request will fail.
s.peersMtx.RLock()
if peer, ok := s.peersByID[req.targetPeerID]; ok {
targetPeer = peer
} else if peer, ok := s.peersByPub[pubStr]; ok {
targetPeer = peer
}
s.peersMtx.RUnlock()
if targetPeer == nil {
req.err <- fmt.Errorf("unable to find peer nodeID(%x), "+
"peerID(%v)", req.targetPubkey.SerializeCompressed(),
req.targetPeerID)
return
}
// Spawn a goroutine to send the funding workflow request to the funding
// manager. This allows the server to continue handling queries instead
// of blocking on this request which is exported as a synchronous
// request to the outside world.
// TODO(roasbeef): server semaphore to restrict num goroutines
go s.fundingMgr.initFundingWorkflow(targetPeer, req)
}
// ConnectToPeer requests that the server connect to a Lightning Network peer
// at the specified address. This function will *block* until either a
// connection is established, or the initial handshake process fails.
func (s *server) ConnectToPeer(addr *lnwire.NetAddress) (int32, error) {
reply := make(chan int32, 1)
errChan := make(chan error, 1)
s.queries <- &connectPeerMsg{addr, reply, errChan}
return <-reply, <-errChan
}
// OpenChannel sends a request to the server to open a channel to the specified
// peer identified by ID with the passed channel funding paramters.
func (s *server) OpenChannel(peerID int32, nodeKey *btcec.PublicKey,
localAmt, remoteAmt btcutil.Amount,
numConfs uint32) (chan *lnrpc.OpenStatusUpdate, chan error) {
errChan := make(chan error, 1)
updateChan := make(chan *lnrpc.OpenStatusUpdate, 1)
req := &openChanReq{
targetPeerID: peerID,
targetPubkey: nodeKey,
localFundingAmt: localAmt,
remoteFundingAmt: remoteAmt,
numConfs: numConfs,
updates: updateChan,
err: errChan,
}
s.queries <- req
return updateChan, errChan
}
// Peers returns a slice of all active peers.
func (s *server) Peers() []*peer {
resp := make(chan []*peer)
s.queries <- &listPeersMsg{resp}
return <-resp
}