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package p2p
import (
"errors"
"sync/atomic"
"time"
. "github.com/tendermint/tendermint/common"
)
/*
All communication amongst peers are multiplexed by "channels".
(Not the same as Go "channels")
To send a message, encapsulate it into a "Packet" and send it to each peer.
You can find all connected and active peers by iterating over ".Peers().List()".
".Broadcast()" is provided for convenience, but by iterating over
the peers manually the caller can decide which subset receives a message.
Inbound messages are received by calling ".Receive()".
*/
type Switch struct {
channels []ChannelDescriptor
pktRecvQueues map[string]chan *InboundPacket
peers *PeerSet
dialing *CMap
listeners *CMap // name -> chan interface{}
quit chan struct{}
started uint32
stopped uint32
}
var (
ErrSwitchStopped = errors.New("Switch already stopped")
ErrSwitchDuplicatePeer = errors.New("Duplicate peer")
)
const (
peerDialTimeoutSeconds = 30
)
func NewSwitch(channels []ChannelDescriptor) *Switch {
// make pktRecvQueues...
pktRecvQueues := make(map[string]chan *InboundPacket)
for _, chDesc := range channels {
pktRecvQueues[chDesc.Name] = make(chan *InboundPacket)
}
s := &Switch{
channels: channels,
pktRecvQueues: pktRecvQueues,
peers: NewPeerSet(),
dialing: NewCMap(),
listeners: NewCMap(),
quit: make(chan struct{}),
stopped: 0,
}
return s
}
func (s *Switch) Start() {
if atomic.CompareAndSwapUint32(&s.started, 0, 1) {
log.Info("Starting switch")
}
}
func (s *Switch) Stop() {
if atomic.CompareAndSwapUint32(&s.stopped, 0, 1) {
log.Info("Stopping switch")
close(s.quit)
// stop each peer.
for _, peer := range s.peers.List() {
peer.stop()
}
// empty tree.
s.peers = NewPeerSet()
}
}
func (s *Switch) AddPeerWithConnection(conn *Connection, outbound bool) (*Peer, error) {
if atomic.LoadUint32(&s.stopped) == 1 {
return nil, ErrSwitchStopped
}
log.Info("Adding peer with connection: %v, outbound: %v", conn, outbound)
// Create channels for peer
channels := map[string]*Channel{}
for _, chDesc := range s.channels {
channels[chDesc.Name] = newChannel(chDesc)
}
peer := newPeer(conn, channels)
peer.outbound = outbound
// Add the peer to .peers
if s.peers.Add(peer) {
log.Debug("Adding: %v", peer)
} else {
log.Info("Ignoring duplicate: %v", peer)
return nil, ErrSwitchDuplicatePeer
}
// Start the peer
go peer.start(s.pktRecvQueues, s.StopPeerForError)
// Notify listeners.
s.emit(SwitchEventNewPeer{Peer: peer})
return peer, nil
}
func (s *Switch) DialPeerWithAddress(addr *NetAddress) (*Peer, error) {
if atomic.LoadUint32(&s.stopped) == 1 {
return nil, ErrSwitchStopped
}
log.Info("Dialing peer @ %v", addr)
s.dialing.Set(addr.String(), addr)
conn, err := addr.DialTimeout(peerDialTimeoutSeconds * time.Second)
s.dialing.Delete(addr.String())
if err != nil {
return nil, err
}
peer, err := s.AddPeerWithConnection(conn, true)
if err != nil {
return nil, err
}
return peer, nil
}
func (s *Switch) IsDialing(addr *NetAddress) bool {
return s.dialing.Has(addr.String())
}
func (s *Switch) Broadcast(pkt Packet) (numSuccess, numFailure int) {
if atomic.LoadUint32(&s.stopped) == 1 {
return
}
log.Debug("Broadcast on [%v] len: %v", pkt.Channel, len(pkt.Bytes))
for _, peer := range s.peers.List() {
success := peer.TrySend(pkt)
log.Debug("Broadcast for peer %v success: %v", peer, success)
if success {
numSuccess += 1
} else {
numFailure += 1
}
}
return
}
// The events are of type SwitchEvent* defined below.
// Switch does not close these listeners.
func (s *Switch) AddEventListener(name string, listener chan<- interface{}) {
s.listeners.Set(name, listener)
}
func (s *Switch) RemoveEventListener(name string) {
s.listeners.Delete(name)
}
/*
Receive blocks on a channel until a message is found.
*/
func (s *Switch) Receive(chName string) *InboundPacket {
if atomic.LoadUint32(&s.stopped) == 1 {
return nil
}
q := s.pktRecvQueues[chName]
if q == nil {
Panicf("Expected pktRecvQueues[%f], found none", chName)
}
select {
case <-s.quit:
return nil
case inPacket := <-q:
log.Debug("Received packet on [%v]", chName)
return inPacket
}
}
// Returns the count of outbound/inbound and outbound-dialing peers.
func (s *Switch) NumPeers() (outbound, inbound, dialing int) {
peers := s.peers.List()
for _, peer := range peers {
if peer.outbound {
outbound++
} else {
inbound++
}
}
dialing = s.dialing.Size()
return
}
func (s *Switch) Peers() IPeerSet {
return s.peers
}
// Disconnect from a peer due to external error.
// TODO: make record depending on reason.
func (s *Switch) StopPeerForError(peer *Peer, reason interface{}) {
log.Info("%v errored: %v", peer, reason)
s.peers.Remove(peer)
peer.stop()
// Notify listeners
s.emit(SwitchEventDonePeer{Peer: peer, Error: reason})
}
// Disconnect from a peer gracefully.
// TODO: handle graceful disconnects.
func (s *Switch) StopPeerGracefully(peer *Peer) {
s.peers.Remove(peer)
peer.stop()
// Notify listeners
s.emit(SwitchEventDonePeer{Peer: peer})
}
func (s *Switch) emit(event interface{}) {
for _, ch_i := range s.listeners.Values() {
ch := ch_i.(chan<- interface{})
ch <- event
}
}
//-----------------------------------------------------------------------------
type SwitchEventNewPeer struct {
Peer *Peer
}
type SwitchEventDonePeer struct {
Peer *Peer
Error interface{}
}