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host.go
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host.go
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package p2p
import (
"context"
"errors"
"fmt"
"time"
lp2plog "github.com/ipfs/go-log/v2"
"github.com/libp2p/go-libp2p"
ccmgr "github.com/libp2p/go-libp2p/core/connmgr"
"github.com/libp2p/go-libp2p/core/crypto"
"github.com/libp2p/go-libp2p/core/network"
"github.com/libp2p/go-libp2p/core/peer"
"github.com/libp2p/go-libp2p/core/pnet"
"github.com/libp2p/go-libp2p/core/protocol"
"github.com/libp2p/go-libp2p/core/transport"
"github.com/libp2p/go-libp2p/p2p/host/autorelay"
"github.com/libp2p/go-libp2p/p2p/host/peerstore/pstoremem"
rcmgr "github.com/libp2p/go-libp2p/p2p/host/resource-manager"
"github.com/libp2p/go-libp2p/p2p/muxer/yamux"
"github.com/libp2p/go-libp2p/p2p/net/connmgr"
tptu "github.com/libp2p/go-libp2p/p2p/net/upgrader"
"github.com/libp2p/go-libp2p/p2p/protocol/circuitv2/relay"
"github.com/libp2p/go-libp2p/p2p/security/noise"
quic "github.com/libp2p/go-libp2p/p2p/transport/quic"
"github.com/libp2p/go-libp2p/p2p/transport/quicreuse"
"github.com/libp2p/go-libp2p/p2p/transport/tcp"
"github.com/multiformats/go-multiaddr"
"github.com/prometheus/client_golang/prometheus"
"go.uber.org/zap"
"github.com/spacemeshos/go-spacemesh/log"
"github.com/spacemeshos/go-spacemesh/p2p/handshake"
p2pmetrics "github.com/spacemeshos/go-spacemesh/p2p/metrics"
)
// DefaultConfig config.
func DefaultConfig() Config {
return Config{
Listen: MustParseAddresses("/ip4/0.0.0.0/tcp/7513"),
Flood: false,
MinPeers: 20,
LowPeers: 40,
HighPeers: 100,
AutoscalePeers: true,
GracePeersShutdown: 30 * time.Second,
MaxMessageSize: 2 << 20,
DisableResourceManager: true,
AcceptQueue: tptu.AcceptQueueLength,
EnableHolepunching: true,
InboundFraction: 0.8,
OutboundFraction: 1.1,
RelayServer: RelayServer{
TTL: 20 * time.Minute,
Reservations: 512,
ConnDurationLimit: 2 * time.Minute,
ConnDataLimit: 1 << 17, // 128K
MaxCircuits: 16,
BufferSize: 2048,
MaxReservationsPerPeer: 4,
MaxReservationsPerIP: 8,
MaxReservationsPerASN: 32,
},
IP4Blocklist: []string{
// localhost
"127.0.0.0/8",
// private networks
"10.0.0.0/8",
"100.64.0.0/10",
"172.16.0.0/12",
"192.168.0.0/16",
// link local
"169.254.0.0/16",
},
IP6Blocklist: []string{
// localhost
"::1/128",
// ULA reserved
"fc00::/7",
// link local
"fe80::/10",
},
GossipQueueSize: 50000,
GossipValidationThrottle: 50000,
GossipAtxValidationThrottle: 50000,
PingInterval: time.Second,
EnableTCPTransport: true,
EnableQUICTransport: false,
AutoNATServer: AutoNATServer{
// Defaults taken from libp2p
GlobalMax: 30,
PeerMax: 3,
ResetPeriod: time.Minute,
},
DiscoveryTimings: DiscoveryTimings{
AdvertiseDelay: time.Hour,
AdvertiseInterval: 2 * time.Hour,
AdvertiseIntervalSpread: time.Hour,
AdvertiseRetryDelay: time.Minute,
FindPeersRetryDelay: time.Minute,
},
}
}
const (
PublicReachability = "public"
PrivateReachability = "private"
)
// Config for all things related to p2p layer.
type Config struct {
DataDir string
LogLevel log.Level
GracePeersShutdown time.Duration `mapstructure:"gracepeersshutdown"`
MaxMessageSize int `mapstructure:"maxmessagesize"`
// see https://lwn.net/Articles/542629/ for reuseport explanation
DisableReusePort bool `mapstructure:"disable-reuseport"`
DisableNatPort bool `mapstructure:"disable-natport"`
DisableConnectionManager bool `mapstructure:"disable-connection-manager"`
DisableResourceManager bool `mapstructure:"disable-resource-manager"`
DisableDHT bool `mapstructure:"disable-dht"`
DisablePubSub bool `mapstructure:"disable-pubsub"`
Flood bool `mapstructure:"flood"`
Listen AddressList `mapstructure:"listen"`
Bootnodes []string `mapstructure:"bootnodes"`
Direct []string `mapstructure:"direct"`
MinPeers int `mapstructure:"min-peers"`
LowPeers int `mapstructure:"low-peers"`
HighPeers int `mapstructure:"high-peers"`
InboundFraction float64 `mapstructure:"inbound-fraction"`
OutboundFraction float64 `mapstructure:"outbound-fraction"`
AutoscalePeers bool `mapstructure:"autoscale-peers"`
AdvertiseAddress AddressList `mapstructure:"advertise-address"`
AcceptQueue int `mapstructure:"p2p-accept-queue"`
Metrics bool `mapstructure:"p2p-metrics"`
Bootnode bool `mapstructure:"p2p-bootnode"`
ForceReachability string `mapstructure:"p2p-reachability"`
ForceDHTServer bool `mapstructure:"force-dht-server"`
EnableHolepunching bool `mapstructure:"p2p-holepunching"`
PrivateNetwork bool `mapstructure:"p2p-private-network"`
RelayServer RelayServer `mapstructure:"relay-server"`
IP4Blocklist []string `mapstructure:"ip4-blocklist"`
IP6Blocklist []string `mapstructure:"ip6-blocklist"`
GossipQueueSize int `mapstructure:"gossip-queue-size"`
GossipPeerOutboundQueueSize int `mapstructure:"gossip-peer-outbound-queue-size"`
GossipValidationThrottle int `mapstructure:"gossip-validation-throttle"`
GossipAtxValidationThrottle int `mapstructure:"gossip-atx-validation-throttle"`
PingPeers []string `mapstructure:"ping-peers"`
PingInterval time.Duration `mapstructure:"ping-interval"`
Relay bool `mapstructure:"relay"`
StaticRelays []string `mapstructure:"static-relays"`
EnableTCPTransport bool `mapstructure:"enable-tcp-transport"`
EnableQUICTransport bool `mapstructure:"enable-quic-transport"`
EnableRoutingDiscovery bool `mapstructure:"enable-routing-discovery"`
RoutingDiscoveryAdvertise bool `mapstructure:"routing-discovery-advertise"`
DiscoveryTimings DiscoveryTimings `mapstructure:"discovery-timings"`
AutoNATServer AutoNATServer `mapstructure:"auto-nat-server"`
}
type DiscoveryTimings struct {
AdvertiseDelay time.Duration `mapstructure:"advertise-delay"`
AdvertiseInterval time.Duration `mapstructure:"advertise-interval"`
AdvertiseIntervalSpread time.Duration `mapstructure:"advertise-interval-spread"`
AdvertiseRetryDelay time.Duration `mapstructure:"advertise-retry-delay"`
FindPeersRetryDelay time.Duration `mapstructure:"find-peers-retry-delay"`
}
type AutoNATServer struct {
GlobalMax int `mapstructure:"global-max"`
PeerMax int `mapstructure:"peer-max"`
ResetPeriod time.Duration `mapstructure:"reset-period"`
}
type RelayServer struct {
Enable bool `mapstructure:"enable"`
Reservations int `mapstructure:"reservations"`
TTL time.Duration `mapstructure:"ttl"`
ConnDurationLimit time.Duration `mapstructure:"conn-duration-limit"`
ConnDataLimit int64 `mapstructure:"conn-data-limit"`
MaxCircuits int `mapstructure:"max-circuits"`
BufferSize int `mapstructure:"buffer-size"`
MaxReservationsPerPeer int `mapstructure:"max-reservations-per-peer"`
MaxReservationsPerIP int `mapstructure:"max-reservations-per-ip"`
MaxReservationsPerASN int `mapstructure:"max-reservations-per-asn"`
}
func (cfg *Config) Validate() error {
if !cfg.EnableTCPTransport && !cfg.EnableQUICTransport {
return errors.New("no transports enabled")
}
if !cfg.Relay {
if cfg.RelayServer.Enable {
return errors.New("cannot enable relay server without enabling relay")
}
if len(cfg.StaticRelays) != 0 {
return errors.New("cannot specify static-relays without enabling relay")
}
}
if len(cfg.ForceReachability) > 0 {
if cfg.ForceReachability != PublicReachability &&
cfg.ForceReachability != PrivateReachability {
return fmt.Errorf("p2p-reachability flag is invalid. should be one of %s, %s. got %s",
PublicReachability, PrivateReachability, cfg.ForceReachability,
)
}
}
if cfg.DiscoveryTimings.AdvertiseIntervalSpread > cfg.DiscoveryTimings.AdvertiseInterval {
return errors.New("advertise-interval-spread cannot be greater than advertise-interval")
}
return nil
}
// New initializes libp2p host configured for spacemesh.
func New(
_ context.Context,
logger log.Log,
cfg Config,
prologue []byte,
quicNetCookie handshake.NetworkCookie,
opts ...Opt,
) (*Host, error) {
if err := cfg.Validate(); err != nil {
return nil, err
}
logger.Zap().Info("starting libp2p host", zap.Any("config", &cfg))
key, err := EnsureIdentity(cfg.DataDir)
if err != nil {
return nil, err
}
lp2plog.SetPrimaryCore(logger.Core())
lp2plog.SetAllLoggers(lp2plog.LogLevel(cfg.LogLevel))
streamer := *yamux.DefaultTransport
streamer.Config().ConnectionWriteTimeout = 25 * time.Second // should be NOT exposed in the config
ps, err := pstoremem.NewPeerstore()
if err != nil {
return nil, fmt.Errorf("can't create peer store: %w", err)
}
bootnodesMap := make(map[peer.ID]struct{})
bootnodes, err := parseIntoAddr(cfg.Bootnodes)
if err != nil {
return nil, err
}
for _, pid := range bootnodes {
bootnodesMap[pid.ID] = struct{}{}
}
// leaves a small room for outbound connections in order to
// reduce risk of network isolation
g, err := newGater(cfg)
if err != nil {
return nil, fmt.Errorf("can't set up connection gater: %w", err)
}
lopts := []libp2p.Option{
libp2p.Identity(key),
libp2p.UserAgent("go-spacemesh"),
libp2p.Muxer("/yamux/1.0.0", &streamer),
libp2p.Peerstore(ps),
libp2p.BandwidthReporter(p2pmetrics.NewBandwidthCollector()),
libp2p.EnableNATService(),
libp2p.AutoNATServiceRateLimit(
cfg.AutoNATServer.GlobalMax,
cfg.AutoNATServer.PeerMax,
cfg.AutoNATServer.ResetPeriod),
libp2p.ConnectionGater(g),
}
if cfg.EnableTCPTransport {
lopts = append(lopts,
libp2p.Transport(
func(upgrader transport.Upgrader, rcmgr network.ResourceManager) (transport.Transport, error) {
opts := []tcp.Option{}
if cfg.DisableReusePort {
opts = append(opts, tcp.DisableReuseport())
}
if cfg.Metrics {
opts = append(opts, tcp.WithMetrics())
}
return tcp.NewTCPTransport(upgrader, rcmgr, opts...)
},
),
libp2p.Security(
noise.ID,
func(id protocol.ID, privkey crypto.PrivKey, muxers []tptu.StreamMuxer,
) (*noise.SessionTransport, error) {
tp, err := noise.New(id, privkey, muxers)
if err != nil {
return nil, err
}
return tp.WithSessionOptions(noise.Prologue(prologue))
},
),
)
}
if cfg.EnableQUICTransport {
lopts = append(lopts,
libp2p.Transport(
func(key crypto.PrivKey, connManager *quicreuse.ConnManager, psk pnet.PSK,
gater ccmgr.ConnectionGater,
rcmgr network.ResourceManager,
) (transport.Transport, error) {
tr, err := quic.NewTransport(key, connManager, psk, gater, rcmgr)
if err != nil {
return nil, err
}
return handshake.MaybeWrapTransport(tr, quicNetCookie,
handshake.WithLog(logger)), nil
}),
)
}
if !cfg.DisableConnectionManager {
cm, err := connmgr.NewConnManager(
cfg.LowPeers,
cfg.HighPeers,
connmgr.WithGracePeriod(cfg.GracePeersShutdown),
)
if err != nil {
return nil, fmt.Errorf("p2p create conn mgr: %w", err)
}
lopts = append(lopts, libp2p.ConnectionManager(cm))
} else {
lopts = append(lopts, libp2p.ConnectionManager(&ccmgr.NullConnMgr{}))
}
if len(cfg.AdvertiseAddress) > 0 {
lopts = append(
lopts,
libp2p.AddrsFactory(func([]multiaddr.Multiaddr) []multiaddr.Multiaddr {
return cfg.AdvertiseAddress
}),
)
}
if cfg.EnableHolepunching {
lopts = append(lopts, libp2p.EnableHolePunching())
}
if cfg.Relay {
if cfg.RelayServer.Enable {
resources := relay.DefaultResources()
resources.Limit.Duration = cfg.RelayServer.ConnDurationLimit
resources.Limit.Data = cfg.RelayServer.ConnDataLimit
resources.ReservationTTL = cfg.RelayServer.TTL
resources.MaxReservations = cfg.RelayServer.Reservations
resources.MaxCircuits = cfg.RelayServer.MaxCircuits
resources.BufferSize = cfg.RelayServer.BufferSize
resources.MaxReservationsPerPeer = cfg.RelayServer.MaxReservationsPerPeer
resources.MaxReservationsPerIP = cfg.RelayServer.MaxReservationsPerIP
resources.MaxReservationsPerASN = cfg.RelayServer.MaxReservationsPerASN
lopts = append(lopts, libp2p.EnableRelayService(relay.WithResources(resources)))
}
lopts = append(lopts, libp2p.EnableRelay())
if len(cfg.StaticRelays) != 0 {
relays, err := parseIntoAddr(cfg.StaticRelays)
if err != nil {
return nil, err
}
lopts = append(lopts, libp2p.EnableAutoRelayWithStaticRelays(relays))
} else if cfg.EnableRoutingDiscovery {
peerSrc, relayCh := relayPeerSource(logger)
lopts = append(lopts, libp2p.EnableAutoRelayWithPeerSource(peerSrc))
opts = append(opts, WithRelayCandidateChannel(relayCh))
} else {
lopts = append(lopts, libp2p.EnableAutoRelayWithStaticRelays(bootnodes))
}
} else {
lopts = append(lopts, libp2p.DisableRelay())
}
if cfg.ForceReachability == PublicReachability {
lopts = append(lopts, libp2p.ForceReachabilityPublic())
} else if cfg.ForceReachability == PrivateReachability {
lopts = append(lopts, libp2p.ForceReachabilityPrivate())
}
lopts = append(lopts, setupResourcesManager(cfg))
if !cfg.DisableNatPort {
lopts = append(lopts, libp2p.NATPortMap())
}
if cfg.AcceptQueue != 0 {
tptu.AcceptQueueLength = cfg.AcceptQueue
}
h, err := libp2p.New(lopts...)
if err != nil {
return nil, fmt.Errorf("failed to initialize libp2p host: %w", err)
}
g.updateHost(h)
h.Network().Notify(p2pmetrics.NewConnectionsMeeter())
logger.Zap().Info("local node identity", zap.Stringer("identity", h.ID()))
// TODO(dshulyak) this is small mess. refactor to avoid this patching
// both New and Upgrade should use options.
opts = append(
opts,
WithConfig(cfg),
WithLog(logger),
WithBootnodes(bootnodesMap),
WithDirectNodes(g.direct),
)
return Upgrade(h, opts...)
}
// AutoStart initializes a new host and starts it.
func AutoStart(ctx context.Context,
logger log.Log,
cfg Config,
prologue []byte,
quicNetCookie handshake.NetworkCookie,
opts ...Opt,
) (*Host, error) {
host, err := New(ctx, logger, cfg, prologue, quicNetCookie, opts...)
if err != nil {
return nil, err
}
if err := host.Start(); err != nil {
return nil, err
}
return host, nil
}
func setupResourcesManager(hostcfg Config) func(cfg *libp2p.Config) error {
return func(cfg *libp2p.Config) error {
rcmgr.MustRegisterWith(prometheus.DefaultRegisterer)
str, err := rcmgr.NewStatsTraceReporter()
if err != nil {
return err
}
highPeers := hostcfg.HighPeers
limits := rcmgr.DefaultLimits
limits.ConnBaseLimit.ConnsInbound = highPeers
limits.ConnBaseLimit.ConnsOutbound = highPeers
limits.ConnBaseLimit.Conns = 2 * highPeers
limits.SystemBaseLimit.ConnsInbound = highPeers
limits.SystemBaseLimit.ConnsOutbound = highPeers
limits.SystemBaseLimit.Conns = 2 * highPeers
limits.SystemBaseLimit.FD = 2 * highPeers
limits.SystemBaseLimit.StreamsInbound = 8 * highPeers
limits.SystemBaseLimit.StreamsOutbound = 8 * highPeers
limits.SystemBaseLimit.Streams = 16 * highPeers
limits.ServiceBaseLimit.StreamsInbound = 8 * highPeers
limits.ServiceBaseLimit.StreamsOutbound = 8 * highPeers
limits.ServiceBaseLimit.Streams = 16 * highPeers
limits.StreamBaseLimit.StreamsInbound = 8 * highPeers
limits.StreamBaseLimit.StreamsOutbound = 8 * highPeers
limits.StreamBaseLimit.Streams = 16 * highPeers
limits.ProtocolBaseLimit.StreamsInbound = 8 * highPeers
limits.ProtocolBaseLimit.StreamsOutbound = 8 * highPeers
limits.ProtocolBaseLimit.Streams = 16 * highPeers
libp2p.SetDefaultServiceLimits(&limits)
concrete := limits.AutoScale()
if !hostcfg.AutoscalePeers {
concrete = limits.Scale(0, 0)
}
if hostcfg.DisableResourceManager {
concrete = rcmgr.InfiniteLimits
}
mgr, err := rcmgr.NewResourceManager(
rcmgr.NewFixedLimiter(concrete),
rcmgr.WithTraceReporter(str),
)
if err != nil {
return err
}
cfg.Apply(libp2p.ResourceManager(mgr))
return nil
}
}
func parseIntoAddr(nodes []string) ([]peer.AddrInfo, error) {
var addrs []peer.AddrInfo
for _, boot := range nodes {
addr, err := peer.AddrInfoFromString(boot)
if err != nil {
return nil, fmt.Errorf("can't parse bootnode %s: %w", boot, err)
}
addrs = append(addrs, *addr)
}
return addrs, nil
}
func relayPeerSource(logger log.Logger) (autorelay.PeerSource, chan<- peer.AddrInfo) {
relayCandidateCh := make(chan peer.AddrInfo)
return func(ctx context.Context, num int) <-chan peer.AddrInfo {
r := make(chan peer.AddrInfo)
go func() {
defer close(r)
for ; num != 0; num-- {
select {
case addrInfo, ok := <-relayCandidateCh:
if !ok {
return
}
select {
case r <- addrInfo:
logger.With().Debug("discovered relay candidate",
log.Stringer("addrInfo", addrInfo))
case <-ctx.Done():
return
}
case <-ctx.Done():
return
}
}
}()
return r
}, relayCandidateCh
}