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package p2p
import (
"fmt"
"net"
"time"
cmn "github.com/tendermint/tendermint/libs/common"
"github.com/tendermint/tendermint/libs/log"
"github.com/tendermint/tendermint/config"
tmconn "github.com/tendermint/tendermint/p2p/conn"
)
const metricsTickerDuration = 10 * time.Second
// Peer is an interface representing a peer connected on a reactor.
type Peer interface {
cmn.Service
ID() ID // peer's cryptographic ID
RemoteIP() net.IP // remote IP of the connection
IsOutbound() bool // did we dial the peer
IsPersistent() bool // do we redial this peer when we disconnect
NodeInfo() NodeInfo // peer's info
Status() tmconn.ConnectionStatus
Send(byte, []byte) bool
TrySend(byte, []byte) bool
Set(string, interface{})
Get(string) interface{}
}
//----------------------------------------------------------
// peerConn contains the raw connection and its config.
type peerConn struct {
outbound bool
persistent bool
config *config.P2PConfig
conn net.Conn // source connection
// cached RemoteIP()
ip net.IP
}
// ID only exists for SecretConnection.
// NOTE: Will panic if conn is not *SecretConnection.
func (pc peerConn) ID() ID {
return PubKeyToID(pc.conn.(*tmconn.SecretConnection).RemotePubKey())
}
// Return the IP from the connection RemoteAddr
func (pc peerConn) RemoteIP() net.IP {
if pc.ip != nil {
return pc.ip
}
host, _, err := net.SplitHostPort(pc.conn.RemoteAddr().String())
if err != nil {
panic(err)
}
ips, err := net.LookupIP(host)
if err != nil {
panic(err)
}
pc.ip = ips[0]
return pc.ip
}
// peer implements Peer.
//
// Before using a peer, you will need to perform a handshake on connection.
type peer struct {
cmn.BaseService
// raw peerConn and the multiplex connection
peerConn
mconn *tmconn.MConnection
// peer's node info and the channel it knows about
// channels = nodeInfo.Channels
// cached to avoid copying nodeInfo in hasChannel
nodeInfo NodeInfo
channels []byte
// User data
Data *cmn.CMap
metrics *Metrics
metricsTicker *time.Ticker
}
type PeerOption func(*peer)
func newPeer(
pc peerConn,
mConfig tmconn.MConnConfig,
nodeInfo NodeInfo,
reactorsByCh map[byte]Reactor,
chDescs []*tmconn.ChannelDescriptor,
onPeerError func(Peer, interface{}),
options ...PeerOption,
) *peer {
p := &peer{
peerConn: pc,
nodeInfo: nodeInfo,
channels: nodeInfo.(DefaultNodeInfo).Channels, // TODO
Data: cmn.NewCMap(),
metricsTicker: time.NewTicker(metricsTickerDuration),
metrics: NopMetrics(),
}
p.mconn = createMConnection(
pc.conn,
p,
reactorsByCh,
chDescs,
onPeerError,
mConfig,
)
p.BaseService = *cmn.NewBaseService(nil, "Peer", p)
for _, option := range options {
option(p)
}
return p
}
// String representation.
func (p *peer) String() string {
if p.outbound {
return fmt.Sprintf("Peer{%v %v out}", p.mconn, p.ID())
}
return fmt.Sprintf("Peer{%v %v in}", p.mconn, p.ID())
}
//---------------------------------------------------
// Implements cmn.Service
// SetLogger implements BaseService.
func (p *peer) SetLogger(l log.Logger) {
p.Logger = l
p.mconn.SetLogger(l)
}
// OnStart implements BaseService.
func (p *peer) OnStart() error {
if err := p.BaseService.OnStart(); err != nil {
return err
}
if err := p.mconn.Start(); err != nil {
return err
}
go p.metricsReporter()
return nil
}
// OnStop implements BaseService.
func (p *peer) OnStop() {
p.metricsTicker.Stop()
p.BaseService.OnStop()
p.mconn.Stop() // stop everything and close the conn
}
//---------------------------------------------------
// Implements Peer
// ID returns the peer's ID - the hex encoded hash of its pubkey.
func (p *peer) ID() ID {
return p.nodeInfo.ID()
}
// IsOutbound returns true if the connection is outbound, false otherwise.
func (p *peer) IsOutbound() bool {
return p.peerConn.outbound
}
// IsPersistent returns true if the peer is persitent, false otherwise.
func (p *peer) IsPersistent() bool {
return p.peerConn.persistent
}
// NodeInfo returns a copy of the peer's NodeInfo.
func (p *peer) NodeInfo() NodeInfo {
return p.nodeInfo
}
// Status returns the peer's ConnectionStatus.
func (p *peer) Status() tmconn.ConnectionStatus {
return p.mconn.Status()
}
// Send msg bytes to the channel identified by chID byte. Returns false if the
// send queue is full after timeout, specified by MConnection.
func (p *peer) Send(chID byte, msgBytes []byte) bool {
if !p.IsRunning() {
// see Switch#Broadcast, where we fetch the list of peers and loop over
// them - while we're looping, one peer may be removed and stopped.
return false
} else if !p.hasChannel(chID) {
return false
}
res := p.mconn.Send(chID, msgBytes)
if res {
p.metrics.PeerSendBytesTotal.With("peer-id", string(p.ID())).Add(float64(len(msgBytes)))
}
return res
}
// TrySend msg bytes to the channel identified by chID byte. Immediately returns
// false if the send queue is full.
func (p *peer) TrySend(chID byte, msgBytes []byte) bool {
if !p.IsRunning() {
return false
} else if !p.hasChannel(chID) {
return false
}
res := p.mconn.TrySend(chID, msgBytes)
if res {
p.metrics.PeerSendBytesTotal.With("peer-id", string(p.ID())).Add(float64(len(msgBytes)))
}
return res
}
// Get the data for a given key.
func (p *peer) Get(key string) interface{} {
return p.Data.Get(key)
}
// Set sets the data for the given key.
func (p *peer) Set(key string, data interface{}) {
p.Data.Set(key, data)
}
// hasChannel returns true if the peer reported
// knowing about the given chID.
func (p *peer) hasChannel(chID byte) bool {
for _, ch := range p.channels {
if ch == chID {
return true
}
}
// NOTE: probably will want to remove this
// but could be helpful while the feature is new
p.Logger.Debug(
"Unknown channel for peer",
"channel",
chID,
"channels",
p.channels,
)
return false
}
//---------------------------------------------------
// methods only used for testing
// TODO: can we remove these?
// CloseConn closes the underlying connection
func (pc *peerConn) CloseConn() {
pc.conn.Close() // nolint: errcheck
}
// Addr returns peer's remote network address.
func (p *peer) Addr() net.Addr {
return p.peerConn.conn.RemoteAddr()
}
// CanSend returns true if the send queue is not full, false otherwise.
func (p *peer) CanSend(chID byte) bool {
if !p.IsRunning() {
return false
}
return p.mconn.CanSend(chID)
}
//---------------------------------------------------
func PeerMetrics(metrics *Metrics) PeerOption {
return func(p *peer) {
p.metrics = metrics
}
}
func (p *peer) metricsReporter() {
for {
select {
case <-p.metricsTicker.C:
status := p.mconn.Status()
var sendQueueSize float64
for _, chStatus := range status.Channels {
sendQueueSize += float64(chStatus.SendQueueSize)
}
p.metrics.PeerPendingSendBytes.With("peer-id", string(p.ID())).Set(sendQueueSize)
case <-p.Quit():
return
}
}
}
//------------------------------------------------------------------
// helper funcs
func createMConnection(
conn net.Conn,
p *peer,
reactorsByCh map[byte]Reactor,
chDescs []*tmconn.ChannelDescriptor,
onPeerError func(Peer, interface{}),
config tmconn.MConnConfig,
) *tmconn.MConnection {
onReceive := func(chID byte, msgBytes []byte) {
reactor := reactorsByCh[chID]
if reactor == nil {
// Note that its ok to panic here as it's caught in the conn._recover,
// which does onPeerError.
panic(fmt.Sprintf("Unknown channel %X", chID))
}
p.metrics.PeerReceiveBytesTotal.With("peer_id", string(p.ID())).Add(float64(len(msgBytes)))
reactor.Receive(chID, p, msgBytes)
}
onError := func(r interface{}) {
onPeerError(p, r)
}
return tmconn.NewMConnectionWithConfig(
conn,
chDescs,
onReceive,
onError,
config,
)
}