- package p2p
-
- import (
- "fmt"
- "math"
- "sync"
- "time"
-
- "github.com/tendermint/tendermint/config"
- cmn "github.com/tendermint/tendermint/libs/common"
- "github.com/tendermint/tendermint/p2p/conn"
- )
-
- const (
- // wait a random amount of time from this interval
- // before dialing peers or reconnecting to help prevent DoS
- dialRandomizerIntervalMilliseconds = 3000
-
- // repeatedly try to reconnect for a few minutes
- // ie. 5 * 20 = 100s
- reconnectAttempts = 20
- reconnectInterval = 5 * time.Second
-
- // then move into exponential backoff mode for ~1day
- // ie. 3**10 = 16hrs
- reconnectBackOffAttempts = 10
- reconnectBackOffBaseSeconds = 3
- )
-
- // MConnConfig returns an MConnConfig with fields updated
- // from the P2PConfig.
- func MConnConfig(cfg *config.P2PConfig) conn.MConnConfig {
- mConfig := conn.DefaultMConnConfig()
- mConfig.FlushThrottle = cfg.FlushThrottleTimeout
- mConfig.SendRate = cfg.SendRate
- mConfig.RecvRate = cfg.RecvRate
- mConfig.MaxPacketMsgPayloadSize = cfg.MaxPacketMsgPayloadSize
- return mConfig
- }
-
- //-----------------------------------------------------------------------------
-
- // An AddrBook represents an address book from the pex package, which is used
- // to store peer addresses.
- type AddrBook interface {
- AddAddress(addr *NetAddress, src *NetAddress) error
- AddOurAddress(*NetAddress)
- OurAddress(*NetAddress) bool
- MarkGood(*NetAddress)
- RemoveAddress(*NetAddress)
- HasAddress(*NetAddress) bool
- Save()
- }
-
- // PeerFilterFunc to be implemented by filter hooks after a new Peer has been
- // fully setup.
- type PeerFilterFunc func(IPeerSet, Peer) error
-
- //-----------------------------------------------------------------------------
-
- // Switch handles peer connections and exposes an API to receive incoming messages
- // on `Reactors`. Each `Reactor` is responsible for handling incoming messages of one
- // or more `Channels`. So while sending outgoing messages is typically performed on the peer,
- // incoming messages are received on the reactor.
- type Switch struct {
- cmn.BaseService
-
- config *config.P2PConfig
- reactors map[string]Reactor
- chDescs []*conn.ChannelDescriptor
- reactorsByCh map[byte]Reactor
- peers *PeerSet
- dialing *cmn.CMap
- reconnecting *cmn.CMap
- nodeInfo NodeInfo // our node info
- nodeKey *NodeKey // our node privkey
- addrBook AddrBook
-
- transport Transport
-
- filterTimeout time.Duration
- peerFilters []PeerFilterFunc
-
- rng *cmn.Rand // seed for randomizing dial times and orders
-
- metrics *Metrics
- }
-
- // NetAddress returns the address the switch is listening on.
- func (sw *Switch) NetAddress() *NetAddress {
- addr := sw.transport.NetAddress()
- return &addr
- }
-
- // SwitchOption sets an optional parameter on the Switch.
- type SwitchOption func(*Switch)
-
- // NewSwitch creates a new Switch with the given config.
- func NewSwitch(
- cfg *config.P2PConfig,
- transport Transport,
- options ...SwitchOption,
- ) *Switch {
- sw := &Switch{
- config: cfg,
- reactors: make(map[string]Reactor),
- chDescs: make([]*conn.ChannelDescriptor, 0),
- reactorsByCh: make(map[byte]Reactor),
- peers: NewPeerSet(),
- dialing: cmn.NewCMap(),
- reconnecting: cmn.NewCMap(),
- metrics: NopMetrics(),
- transport: transport,
- filterTimeout: defaultFilterTimeout,
- }
-
- // Ensure we have a completely undeterministic PRNG.
- sw.rng = cmn.NewRand()
-
- sw.BaseService = *cmn.NewBaseService(nil, "P2P Switch", sw)
-
- for _, option := range options {
- option(sw)
- }
-
- return sw
- }
-
- // SwitchFilterTimeout sets the timeout used for peer filters.
- func SwitchFilterTimeout(timeout time.Duration) SwitchOption {
- return func(sw *Switch) { sw.filterTimeout = timeout }
- }
-
- // SwitchPeerFilters sets the filters for rejection of new peers.
- func SwitchPeerFilters(filters ...PeerFilterFunc) SwitchOption {
- return func(sw *Switch) { sw.peerFilters = filters }
- }
-
- // WithMetrics sets the metrics.
- func WithMetrics(metrics *Metrics) SwitchOption {
- return func(sw *Switch) { sw.metrics = metrics }
- }
-
- //---------------------------------------------------------------------
- // Switch setup
-
- // AddReactor adds the given reactor to the switch.
- // NOTE: Not goroutine safe.
- func (sw *Switch) AddReactor(name string, reactor Reactor) Reactor {
- // Validate the reactor.
- // No two reactors can share the same channel.
- reactorChannels := reactor.GetChannels()
- for _, chDesc := range reactorChannels {
- chID := chDesc.ID
- if sw.reactorsByCh[chID] != nil {
- cmn.PanicSanity(fmt.Sprintf("Channel %X has multiple reactors %v & %v", chID, sw.reactorsByCh[chID], reactor))
- }
- sw.chDescs = append(sw.chDescs, chDesc)
- sw.reactorsByCh[chID] = reactor
- }
- sw.reactors[name] = reactor
- reactor.SetSwitch(sw)
- return reactor
- }
-
- // Reactors returns a map of reactors registered on the switch.
- // NOTE: Not goroutine safe.
- func (sw *Switch) Reactors() map[string]Reactor {
- return sw.reactors
- }
-
- // Reactor returns the reactor with the given name.
- // NOTE: Not goroutine safe.
- func (sw *Switch) Reactor(name string) Reactor {
- return sw.reactors[name]
- }
-
- // SetNodeInfo sets the switch's NodeInfo for checking compatibility and handshaking with other nodes.
- // NOTE: Not goroutine safe.
- func (sw *Switch) SetNodeInfo(nodeInfo NodeInfo) {
- sw.nodeInfo = nodeInfo
- }
-
- // NodeInfo returns the switch's NodeInfo.
- // NOTE: Not goroutine safe.
- func (sw *Switch) NodeInfo() NodeInfo {
- return sw.nodeInfo
- }
-
- // SetNodeKey sets the switch's private key for authenticated encryption.
- // NOTE: Not goroutine safe.
- func (sw *Switch) SetNodeKey(nodeKey *NodeKey) {
- sw.nodeKey = nodeKey
- }
-
- //---------------------------------------------------------------------
- // Service start/stop
-
- // OnStart implements BaseService. It starts all the reactors and peers.
- func (sw *Switch) OnStart() error {
- // Start reactors
- for _, reactor := range sw.reactors {
- err := reactor.Start()
- if err != nil {
- return cmn.ErrorWrap(err, "failed to start %v", reactor)
- }
- }
-
- // Start accepting Peers.
- go sw.acceptRoutine()
-
- return nil
- }
-
- // OnStop implements BaseService. It stops all peers and reactors.
- func (sw *Switch) OnStop() {
- // Stop peers
- for _, p := range sw.peers.List() {
- sw.transport.Cleanup(p)
- p.Stop()
- if sw.peers.Remove(p) {
- sw.metrics.Peers.Add(float64(-1))
- }
- }
-
- // Stop reactors
- sw.Logger.Debug("Switch: Stopping reactors")
- for _, reactor := range sw.reactors {
- reactor.Stop()
- }
- }
-
- //---------------------------------------------------------------------
- // Peers
-
- // Broadcast runs a go routine for each attempted send, which will block trying
- // to send for defaultSendTimeoutSeconds. Returns a channel which receives
- // success values for each attempted send (false if times out). Channel will be
- // closed once msg bytes are sent to all peers (or time out).
- //
- // NOTE: Broadcast uses goroutines, so order of broadcast may not be preserved.
- func (sw *Switch) Broadcast(chID byte, msgBytes []byte) chan bool {
- sw.Logger.Debug("Broadcast", "channel", chID, "msgBytes", fmt.Sprintf("%X", msgBytes))
-
- peers := sw.peers.List()
- var wg sync.WaitGroup
- wg.Add(len(peers))
- successChan := make(chan bool, len(peers))
-
- for _, peer := range peers {
- go func(p Peer) {
- defer wg.Done()
- success := p.Send(chID, msgBytes)
- successChan <- success
- }(peer)
- }
-
- go func() {
- wg.Wait()
- close(successChan)
- }()
-
- return successChan
- }
-
- // NumPeers returns the count of outbound/inbound and outbound-dialing peers.
- func (sw *Switch) NumPeers() (outbound, inbound, dialing int) {
- peers := sw.peers.List()
- for _, peer := range peers {
- if peer.IsOutbound() {
- outbound++
- } else {
- inbound++
- }
- }
- dialing = sw.dialing.Size()
- return
- }
-
- // MaxNumOutboundPeers returns a maximum number of outbound peers.
- func (sw *Switch) MaxNumOutboundPeers() int {
- return sw.config.MaxNumOutboundPeers
- }
-
- // Peers returns the set of peers that are connected to the switch.
- func (sw *Switch) Peers() IPeerSet {
- return sw.peers
- }
-
- // StopPeerForError disconnects from a peer due to external error.
- // If the peer is persistent, it will attempt to reconnect.
- // TODO: make record depending on reason.
- func (sw *Switch) StopPeerForError(peer Peer, reason interface{}) {
- sw.Logger.Error("Stopping peer for error", "peer", peer, "err", reason)
- sw.stopAndRemovePeer(peer, reason)
-
- if peer.IsPersistent() {
- go sw.reconnectToPeer(peer.SocketAddr())
- }
- }
-
- // StopPeerGracefully disconnects from a peer gracefully.
- // TODO: handle graceful disconnects.
- func (sw *Switch) StopPeerGracefully(peer Peer) {
- sw.Logger.Info("Stopping peer gracefully")
- sw.stopAndRemovePeer(peer, nil)
- }
-
- func (sw *Switch) stopAndRemovePeer(peer Peer, reason interface{}) {
- if sw.peers.Remove(peer) {
- sw.metrics.Peers.Add(float64(-1))
- }
- sw.transport.Cleanup(peer)
- peer.Stop()
- for _, reactor := range sw.reactors {
- reactor.RemovePeer(peer, reason)
- }
- }
-
- // reconnectToPeer tries to reconnect to the addr, first repeatedly
- // with a fixed interval, then with exponential backoff.
- // If no success after all that, it stops trying, and leaves it
- // to the PEX/Addrbook to find the peer with the addr again
- // NOTE: this will keep trying even if the handshake or auth fails.
- // TODO: be more explicit with error types so we only retry on certain failures
- // - ie. if we're getting ErrDuplicatePeer we can stop
- // because the addrbook got us the peer back already
- func (sw *Switch) reconnectToPeer(addr *NetAddress) {
- if sw.reconnecting.Has(string(addr.ID)) {
- return
- }
- sw.reconnecting.Set(string(addr.ID), addr)
- defer sw.reconnecting.Delete(string(addr.ID))
-
- start := time.Now()
- sw.Logger.Info("Reconnecting to peer", "addr", addr)
- for i := 0; i < reconnectAttempts; i++ {
- if !sw.IsRunning() {
- return
- }
-
- err := sw.DialPeerWithAddress(addr, true)
- if err == nil {
- return // success
- } else if _, ok := err.(ErrCurrentlyDialingOrExistingAddress); ok {
- return
- }
-
- sw.Logger.Info("Error reconnecting to peer. Trying again", "tries", i, "err", err, "addr", addr)
- // sleep a set amount
- sw.randomSleep(reconnectInterval)
- continue
- }
-
- sw.Logger.Error("Failed to reconnect to peer. Beginning exponential backoff",
- "addr", addr, "elapsed", time.Since(start))
- for i := 0; i < reconnectBackOffAttempts; i++ {
- if !sw.IsRunning() {
- return
- }
-
- // sleep an exponentially increasing amount
- sleepIntervalSeconds := math.Pow(reconnectBackOffBaseSeconds, float64(i))
- sw.randomSleep(time.Duration(sleepIntervalSeconds) * time.Second)
-
- err := sw.DialPeerWithAddress(addr, true)
- if err == nil {
- return // success
- } else if _, ok := err.(ErrCurrentlyDialingOrExistingAddress); ok {
- return
- }
- sw.Logger.Info("Error reconnecting to peer. Trying again", "tries", i, "err", err, "addr", addr)
- }
- sw.Logger.Error("Failed to reconnect to peer. Giving up", "addr", addr, "elapsed", time.Since(start))
- }
-
- // SetAddrBook allows to set address book on Switch.
- func (sw *Switch) SetAddrBook(addrBook AddrBook) {
- sw.addrBook = addrBook
- }
-
- // MarkPeerAsGood marks the given peer as good when it did something useful
- // like contributed to consensus.
- func (sw *Switch) MarkPeerAsGood(peer Peer) {
- if sw.addrBook != nil {
- sw.addrBook.MarkGood(peer.SocketAddr())
- }
- }
-
- //---------------------------------------------------------------------
- // Dialing
-
- // DialPeersAsync dials a list of peers asynchronously in random order (optionally, making them persistent).
- // Used to dial peers from config on startup or from unsafe-RPC (trusted sources).
- // TODO: remove addrBook arg since it's now set on the switch
- func (sw *Switch) DialPeersAsync(addrBook AddrBook, peers []string, persistent bool) error {
- netAddrs, errs := NewNetAddressStrings(peers)
- // only log errors, dial correct addresses
- for _, err := range errs {
- sw.Logger.Error("Error in peer's address", "err", err)
- }
-
- ourAddr := sw.NetAddress()
-
- // TODO: this code feels like it's in the wrong place.
- // The integration tests depend on the addrBook being saved
- // right away but maybe we can change that. Recall that
- // the addrBook is only written to disk every 2min
- if addrBook != nil {
- // add peers to `addrBook`
- for _, netAddr := range netAddrs {
- // do not add our address or ID
- if !netAddr.Same(ourAddr) {
- if err := addrBook.AddAddress(netAddr, ourAddr); err != nil {
- sw.Logger.Error("Can't add peer's address to addrbook", "err", err)
- }
- }
- }
- // Persist some peers to disk right away.
- // NOTE: integration tests depend on this
- addrBook.Save()
- }
-
- // permute the list, dial them in random order.
- perm := sw.rng.Perm(len(netAddrs))
- for i := 0; i < len(perm); i++ {
- go func(i int) {
- j := perm[i]
- addr := netAddrs[j]
-
- if addr.Same(ourAddr) {
- sw.Logger.Debug("Ignore attempt to connect to ourselves", "addr", addr, "ourAddr", ourAddr)
- return
- }
-
- sw.randomSleep(0)
-
- err := sw.DialPeerWithAddress(addr, persistent)
- if err != nil {
- switch err.(type) {
- case ErrSwitchConnectToSelf, ErrSwitchDuplicatePeerID, ErrCurrentlyDialingOrExistingAddress:
- sw.Logger.Debug("Error dialing peer", "err", err)
- default:
- sw.Logger.Error("Error dialing peer", "err", err)
- }
- }
- }(i)
- }
- return nil
- }
-
- // DialPeerWithAddress dials the given peer and runs sw.addPeer if it connects
- // and authenticates successfully.
- // If `persistent == true`, the switch will always try to reconnect to this
- // peer if the connection ever fails.
- // If we're currently dialing this address or it belongs to an existing peer,
- // ErrCurrentlyDialingOrExistingAddress is returned.
- func (sw *Switch) DialPeerWithAddress(addr *NetAddress, persistent bool) error {
- if sw.IsDialingOrExistingAddress(addr) {
- return ErrCurrentlyDialingOrExistingAddress{addr.String()}
- }
-
- sw.dialing.Set(string(addr.ID), addr)
- defer sw.dialing.Delete(string(addr.ID))
-
- return sw.addOutboundPeerWithConfig(addr, sw.config, persistent)
- }
-
- // sleep for interval plus some random amount of ms on [0, dialRandomizerIntervalMilliseconds]
- func (sw *Switch) randomSleep(interval time.Duration) {
- r := time.Duration(sw.rng.Int63n(dialRandomizerIntervalMilliseconds)) * time.Millisecond
- time.Sleep(r + interval)
- }
-
- // IsDialingOrExistingAddress returns true if switch has a peer with the given
- // address or dialing it at the moment.
- func (sw *Switch) IsDialingOrExistingAddress(addr *NetAddress) bool {
- return sw.dialing.Has(string(addr.ID)) ||
- sw.peers.Has(addr.ID) ||
- (!sw.config.AllowDuplicateIP && sw.peers.HasIP(addr.IP))
- }
-
- func (sw *Switch) acceptRoutine() {
- for {
- p, err := sw.transport.Accept(peerConfig{
- chDescs: sw.chDescs,
- onPeerError: sw.StopPeerForError,
- reactorsByCh: sw.reactorsByCh,
- metrics: sw.metrics,
- })
- if err != nil {
- switch err := err.(type) {
- case ErrRejected:
- if err.IsSelf() {
- // Remove the given address from the address book and add to our addresses
- // to avoid dialing in the future.
- addr := err.Addr()
- sw.addrBook.RemoveAddress(&addr)
- sw.addrBook.AddOurAddress(&addr)
- }
-
- sw.Logger.Info(
- "Inbound Peer rejected",
- "err", err,
- "numPeers", sw.peers.Size(),
- )
-
- continue
- case ErrFilterTimeout:
- sw.Logger.Error(
- "Peer filter timed out",
- "err", err,
- )
-
- continue
- case ErrTransportClosed:
- sw.Logger.Error(
- "Stopped accept routine, as transport is closed",
- "numPeers", sw.peers.Size(),
- )
- default:
- sw.Logger.Error(
- "Accept on transport errored",
- "err", err,
- "numPeers", sw.peers.Size(),
- )
- // We could instead have a retry loop around the acceptRoutine,
- // but that would need to stop and let the node shutdown eventually.
- // So might as well panic and let process managers restart the node.
- // There's no point in letting the node run without the acceptRoutine,
- // since it won't be able to accept new connections.
- panic(fmt.Errorf("accept routine exited: %v", err))
- }
-
- break
- }
-
- // Ignore connection if we already have enough peers.
- _, in, _ := sw.NumPeers()
- if in >= sw.config.MaxNumInboundPeers {
- sw.Logger.Info(
- "Ignoring inbound connection: already have enough inbound peers",
- "address", p.SocketAddr(),
- "have", in,
- "max", sw.config.MaxNumInboundPeers,
- )
-
- sw.transport.Cleanup(p)
-
- continue
- }
-
- if err := sw.addPeer(p); err != nil {
- sw.transport.Cleanup(p)
- if p.IsRunning() {
- _ = p.Stop()
- }
- sw.Logger.Info(
- "Ignoring inbound connection: error while adding peer",
- "err", err,
- "id", p.ID(),
- )
- }
- }
- }
-
- // dial the peer; make secret connection; authenticate against the dialed ID;
- // add the peer.
- // if dialing fails, start the reconnect loop. If handhsake fails, its over.
- // If peer is started succesffuly, reconnectLoop will start when
- // StopPeerForError is called
- func (sw *Switch) addOutboundPeerWithConfig(
- addr *NetAddress,
- cfg *config.P2PConfig,
- persistent bool,
- ) error {
- sw.Logger.Info("Dialing peer", "address", addr)
-
- // XXX(xla): Remove the leakage of test concerns in implementation.
- if cfg.TestDialFail {
- go sw.reconnectToPeer(addr)
- return fmt.Errorf("dial err (peerConfig.DialFail == true)")
- }
-
- p, err := sw.transport.Dial(*addr, peerConfig{
- chDescs: sw.chDescs,
- onPeerError: sw.StopPeerForError,
- persistent: persistent,
- reactorsByCh: sw.reactorsByCh,
- metrics: sw.metrics,
- })
- if err != nil {
- switch e := err.(type) {
- case ErrRejected:
- if e.IsSelf() {
- // Remove the given address from the address book and add to our addresses
- // to avoid dialing in the future.
- sw.addrBook.RemoveAddress(addr)
- sw.addrBook.AddOurAddress(addr)
-
- return err
- }
- }
-
- // retry persistent peers after
- // any dial error besides IsSelf()
- if persistent {
- go sw.reconnectToPeer(addr)
- }
-
- return err
- }
-
- if err := sw.addPeer(p); err != nil {
- sw.transport.Cleanup(p)
- if p.IsRunning() {
- _ = p.Stop()
- }
- return err
- }
-
- return nil
- }
-
- func (sw *Switch) filterPeer(p Peer) error {
- // Avoid duplicate
- if sw.peers.Has(p.ID()) {
- return ErrRejected{id: p.ID(), isDuplicate: true}
- }
-
- errc := make(chan error, len(sw.peerFilters))
-
- for _, f := range sw.peerFilters {
- go func(f PeerFilterFunc, p Peer, errc chan<- error) {
- errc <- f(sw.peers, p)
- }(f, p, errc)
- }
-
- for i := 0; i < cap(errc); i++ {
- select {
- case err := <-errc:
- if err != nil {
- return ErrRejected{id: p.ID(), err: err, isFiltered: true}
- }
- case <-time.After(sw.filterTimeout):
- return ErrFilterTimeout{}
- }
- }
-
- return nil
- }
-
- // addPeer starts up the Peer and adds it to the Switch. Error is returned if
- // the peer is filtered out or failed to start or can't be added.
- func (sw *Switch) addPeer(p Peer) error {
- if err := sw.filterPeer(p); err != nil {
- return err
- }
-
- p.SetLogger(sw.Logger.With("peer", p.SocketAddr()))
-
- // Handle the shut down case where the switch has stopped but we're
- // concurrently trying to add a peer.
- if !sw.IsRunning() {
- // XXX should this return an error or just log and terminate?
- sw.Logger.Error("Won't start a peer - switch is not running", "peer", p)
- return nil
- }
-
- // Start the peer's send/recv routines.
- // Must start it before adding it to the peer set
- // to prevent Start and Stop from being called concurrently.
- err := p.Start()
- if err != nil {
- // Should never happen
- sw.Logger.Error("Error starting peer", "err", err, "peer", p)
- return err
- }
-
- // Add the peer to PeerSet. Do this before starting the reactors
- // so that if Receive errors, we will find the peer and remove it.
- // Add should not err since we already checked peers.Has().
- if err := sw.peers.Add(p); err != nil {
- return err
- }
- sw.metrics.Peers.Add(float64(1))
-
- // Start all the reactor protocols on the peer.
- for _, reactor := range sw.reactors {
- reactor.AddPeer(p)
- }
-
- sw.Logger.Info("Added peer", "peer", p)
-
- return nil
- }
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