mirror of
https://github.com/btcsuite/btcd.git
synced 2024-11-19 09:50:08 +01:00
29dfa22086
Rather than having all of the various places that print peer figure out the direction and form the string, centralize it by implementing the Stringer interface on the peer.
623 lines
17 KiB
Go
623 lines
17 KiB
Go
// Copyright (c) 2013 Conformal Systems LLC.
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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package main
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import (
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"container/list"
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"fmt"
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"github.com/conformal/btcdb"
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"github.com/conformal/btcwire"
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"net"
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"strconv"
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"sync"
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"sync/atomic"
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"time"
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)
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// supportedServices describes which services are supported by the server.
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const supportedServices = btcwire.SFNodeNetwork
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// connectionRetryInterval is the amount of time to wait in between retries
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// when connecting to persistent peers.
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const connectionRetryInterval = time.Second * 10
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// defaultMaxOutbound is the default number of max outbound peers.
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const defaultMaxOutbound = 8
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// broadcastMsg provides the ability to house a bitcoin message to be broadcast
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// to all connected peers except specified excluded peers.
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type broadcastMsg struct {
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message btcwire.Message
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excludePeers []*peer
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}
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// server provides a bitcoin server for handling communications to and from
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// bitcoin peers.
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type server struct {
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nonce uint64
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listeners []net.Listener
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btcnet btcwire.BitcoinNet
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started int32 // atomic
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shutdown int32 // atomic
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shutdownSched int32 // atomic
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addrManager *AddrManager
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rpcServer *rpcServer
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blockManager *blockManager
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newPeers chan *peer
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donePeers chan *peer
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banPeers chan *peer
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wakeup chan bool
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relayInv chan *btcwire.InvVect
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broadcast chan broadcastMsg
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wg sync.WaitGroup
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quit chan bool
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db btcdb.Db
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}
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// handleAddPeerMsg deals with adding new peers. It is invoked from the
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// peerHandler goroutine.
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func (s *server) handleAddPeerMsg(peers *list.List, banned map[string]time.Time, p *peer) bool {
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if p == nil {
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return false
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}
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// Ignore new peers if we're shutting down.
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if atomic.LoadInt32(&s.shutdown) != 0 {
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log.Infof("[SRVR] New peer %s ignored - server is shutting "+
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"down", p)
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p.Shutdown()
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return false
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}
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// Disconnect banned peers.
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host, _, err := net.SplitHostPort(p.addr)
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if err != nil {
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log.Debugf("[SRVR] can't split hostport %v", err)
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p.Shutdown()
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return false
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}
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if banEnd, ok := banned[host]; ok {
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if time.Now().Before(banEnd) {
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log.Debugf("[SRVR] Peer %s is banned for another %v - "+
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"disconnecting", host, banEnd.Sub(time.Now()))
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p.Shutdown()
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return false
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}
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log.Infof("[SRVR] Peer %s is no longer banned", host)
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delete(banned, host)
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}
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// TODO: Check for max peers from a single IP.
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// Limit max number of total peers.
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if peers.Len() >= cfg.MaxPeers {
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log.Infof("[SRVR] Max peers reached [%d] - disconnecting "+
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"peer %s", cfg.MaxPeers, p)
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p.Shutdown()
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// TODO(oga) how to handle permanent peers here?
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// they should be rescheduled.
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return false
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}
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// Add the new peer and start it.
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log.Debugf("[SRVR] New peer %s", p)
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peers.PushBack(p)
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if p.inbound {
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p.Start()
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}
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return true
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}
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// handleDonePeerMsg deals with peers that have signalled they are done. It is
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// invoked from the peerHandler goroutine.
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func (s *server) handleDonePeerMsg(peers *list.List, p *peer) bool {
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for e := peers.Front(); e != nil; e = e.Next() {
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if e.Value == p {
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// Issue an asynchronous reconnect if the peer was a
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// persistent outbound connection.
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if !p.inbound && p.persistent &&
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atomic.LoadInt32(&s.shutdown) == 0 {
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e.Value = newOutboundPeer(s, p.addr, true)
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return false
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}
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peers.Remove(e)
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log.Debugf("[SRVR] Removed peer %s", p)
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return true
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}
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}
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log.Warnf("[SRVR] Lost peer %v that we never had!", p)
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return false
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}
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// handleBanPeerMsg deals with banning peers. It is invoked from the
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// peerHandler goroutine.
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func (s *server) handleBanPeerMsg(banned map[string]time.Time, p *peer) {
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host, _, err := net.SplitHostPort(p.addr)
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if err != nil {
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log.Debugf("[SRVR] can't split ban peer %s %v", p.addr, err)
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return
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}
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direction := directionString(p.inbound)
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log.Infof("[SRVR] Banned peer %s (%s) for %v", host, direction,
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cfg.BanDuration)
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banned[host] = time.Now().Add(cfg.BanDuration)
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}
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// handleRelayInvMsg deals with relaying inventory to peers that are not already
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// known to have it. It is invoked from the peerHandler goroutine.
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func (s *server) handleRelayInvMsg(peers *list.List, iv *btcwire.InvVect) {
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// TODO(davec): Don't relay inventory during the initial block chain
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// download.
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// Loop through all connected peers and relay the inventory to those
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// which are not already known to have it.
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for e := peers.Front(); e != nil; e = e.Next() {
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p := e.Value.(*peer)
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if !p.Connected() {
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continue
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}
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// Queue the inventory to be relayed with the next batch. It
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// will be ignored if the peer is already known to have the
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// inventory.
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p.QueueInventory(iv)
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}
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}
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// handleBroadcastMsg deals with broadcasting messages to peers. It is invoked
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// from the peerHandler goroutine.
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func (s *server) handleBroadcastMsg(peers *list.List, bmsg *broadcastMsg) {
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for e := peers.Front(); e != nil; e = e.Next() {
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excluded := false
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for _, p := range bmsg.excludePeers {
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if e.Value == p {
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excluded = true
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}
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}
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p := e.Value.(*peer)
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// Don't broadcast to still connecting outbound peers .
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if !p.Connected() {
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excluded = true
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}
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if !excluded {
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p.QueueMessage(bmsg.message)
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}
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}
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}
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// listenHandler is the main listener which accepts incoming connections for the
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// server. It must be run as a goroutine.
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func (s *server) listenHandler(listener net.Listener) {
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log.Infof("[SRVR] Server listening on %s", listener.Addr())
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for atomic.LoadInt32(&s.shutdown) == 0 {
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conn, err := listener.Accept()
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if err != nil {
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// Only log the error if we're not forcibly shutting down.
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if atomic.LoadInt32(&s.shutdown) == 0 {
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log.Errorf("[SRVR] can't accept connection: %v",
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err)
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}
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continue
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}
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s.AddPeer(newInboundPeer(s, conn))
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}
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s.wg.Done()
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log.Tracef("[SRVR] Listener handler done for %s", listener.Addr())
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}
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// peerHandler is used to handle peer operations such as adding and removing
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// peers to and from the server, banning peers, and broadcasting messages to
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// peers. It must be run a a goroutine.
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func (s *server) peerHandler() {
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// Start the address manager and block manager, both of which are needed
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// by peers. This is done here since their lifecycle is closely tied
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// to this handler and rather than adding more channels to sychronize
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// things, it's easier and slightly faster to simply start and stop them
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// in this handler.
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s.addrManager.Start()
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s.blockManager.Start()
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log.Tracef("[SRVR] Starting peer handler")
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peers := list.New()
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bannedPeers := make(map[string]time.Time)
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outboundPeers := 0
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maxOutbound := defaultMaxOutbound
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if cfg.MaxPeers < maxOutbound {
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maxOutbound = cfg.MaxPeers
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}
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// Do initial DNS seeding to populate address manager.
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if !cfg.DisableDNSSeed {
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proxy := ""
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if cfg.Proxy != "" && cfg.UseTor {
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proxy = cfg.Proxy
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}
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for _, seeder := range activeNetParams.dnsSeeds {
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seedpeers := dnsDiscover(seeder, proxy)
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if len(seedpeers) == 0 {
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continue
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}
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addresses := make([]*btcwire.NetAddress, len(seedpeers))
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// if this errors then we have *real* problems
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intPort, _ := strconv.Atoi(activeNetParams.peerPort)
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for i, peer := range seedpeers {
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addresses[i] = new(btcwire.NetAddress)
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addresses[i].SetAddress(peer, uint16(intPort))
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// bitcoind seeds with addresses from
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// a time randomly selected between 3
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// and 7 days ago.
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addresses[i].Timestamp = time.Now().Add(-1 *
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time.Second * time.Duration(secondsIn3Days+
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s.addrManager.rand.Int31n(secondsIn4Days)))
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}
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// Bitcoind uses a lookup of the dns seeder here. This
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// is rather strange since the values looked up by the
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// DNS seed lookups will vary quite a lot.
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// to replicate this behaviour we put all addresses as
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// having come from the first one.
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s.addrManager.AddAddresses(addresses, addresses[0])
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}
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// XXX if this is empty do we want to use hardcoded
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// XXX peers like bitcoind does?
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}
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// Start up persistent peers.
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permanentPeers := cfg.ConnectPeers
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if len(permanentPeers) == 0 {
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permanentPeers = cfg.AddPeers
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}
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for _, addr := range permanentPeers {
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if s.handleAddPeerMsg(peers, bannedPeers,
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newOutboundPeer(s, addr, true)) {
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outboundPeers++
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}
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}
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// if nothing else happens, wake us up soon.
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time.AfterFunc(10*time.Second, func() { s.wakeup <- true })
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out:
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for {
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select {
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// New peers connected to the server.
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case p := <-s.newPeers:
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if s.handleAddPeerMsg(peers, bannedPeers, p) &&
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!p.inbound {
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outboundPeers++
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}
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// Disconnected peers.
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case p := <-s.donePeers:
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// handleDonePeerMsg return true if it removed a peer
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if s.handleDonePeerMsg(peers, p) {
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outboundPeers--
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}
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// Peer to ban.
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case p := <-s.banPeers:
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s.handleBanPeerMsg(bannedPeers, p)
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// New inventory to potentially be relayed to other peers.
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case invMsg := <-s.relayInv:
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s.handleRelayInvMsg(peers, invMsg)
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// Message to broadcast to all connected peers except those
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// which are excluded by the message.
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case bmsg := <-s.broadcast:
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s.handleBroadcastMsg(peers, &bmsg)
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// Used by timers below to wake us back up.
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case <-s.wakeup:
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// this page left intentionally blank
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// Shutdown the peer handler.
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case <-s.quit:
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// Shutdown peers.
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for e := peers.Front(); e != nil; e = e.Next() {
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p := e.Value.(*peer)
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p.Shutdown()
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}
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break out
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}
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// Only try connect to more peers if we actually need more
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if outboundPeers >= maxOutbound || len(cfg.ConnectPeers) > 0 ||
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atomic.LoadInt32(&s.shutdown) != 0 {
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continue
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}
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groups := make(map[string]int)
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for e := peers.Front(); e != nil; e = e.Next() {
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peer := e.Value.(*peer)
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if !peer.inbound {
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groups[GroupKey(peer.na)]++
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}
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}
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tries := 0
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for outboundPeers < maxOutbound &&
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peers.Len() < cfg.MaxPeers &&
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atomic.LoadInt32(&s.shutdown) == 0 {
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// We bias like bitcoind does, 10 for no outgoing
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// up to 90 (8) for the selection of new vs tried
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//addresses.
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nPeers := outboundPeers
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if nPeers > 8 {
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nPeers = 8
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}
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addr := s.addrManager.GetAddress("any", 10+nPeers*10)
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if addr == nil {
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break
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}
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key := GroupKey(addr.na)
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// Address will not be invalid, local or unroutable
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// because addrmanager rejects those on addition.
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// Just check that we don't already have an address
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// in the same group so that we are not connecting
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// to the same network segment at the expense of
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// others. bitcoind breaks out of the loop here, but
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// we continue to try other addresses.
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if groups[key] != 0 {
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continue
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}
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tries++
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// After 100 bad tries exit the loop and we'll try again
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// later.
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if tries > 100 {
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break
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}
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// XXX if we have limited that address skip
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// only allow recent nodes (10mins) after we failed 30
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// times
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if time.Now().After(addr.lastattempt.Add(10*time.Minute)) &&
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tries < 30 {
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continue
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}
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// allow nondefault ports after 50 failed tries.
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if fmt.Sprintf("%d", addr.na.Port) !=
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activeNetParams.peerPort && tries < 50 {
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continue
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}
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addrStr := NetAddressKey(addr.na)
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tries = 0
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// any failure will be due to banned peers etc. we have
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// already checked that we have room for more peers.
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if s.handleAddPeerMsg(peers, bannedPeers,
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newOutboundPeer(s, addrStr, false)) {
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outboundPeers++
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groups[key]++
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}
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}
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// We we need more peers, wake up in ten seconds and try again.
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if outboundPeers < maxOutbound && peers.Len() < cfg.MaxPeers {
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time.AfterFunc(10*time.Second, func() {
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s.wakeup <- true
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})
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}
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}
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s.blockManager.Stop()
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s.addrManager.Stop()
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s.wg.Done()
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log.Tracef("[SRVR] Peer handler done")
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}
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// AddPeer adds a new peer that has already been connected to the server.
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func (s *server) AddPeer(p *peer) {
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s.newPeers <- p
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}
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// BanPeer bans a peer that has already been connected to the server by ip.
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func (s *server) BanPeer(p *peer) {
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s.banPeers <- p
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}
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// RelayInventory relays the passed inventory to all connected peers that are
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// not already known to have it.
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func (s *server) RelayInventory(invVect *btcwire.InvVect) {
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s.relayInv <- invVect
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}
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// BroadcastMessage sends msg to all peers currently connected to the server
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// except those in the passed peers to exclude.
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func (s *server) BroadcastMessage(msg btcwire.Message, exclPeers ...*peer) {
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// XXX: Need to determine if this is an alert that has already been
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// broadcast and refrain from broadcasting again.
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bmsg := broadcastMsg{message: msg, excludePeers: exclPeers}
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s.broadcast <- bmsg
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}
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// Start begins accepting connections from peers.
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func (s *server) Start() {
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// Already started?
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if atomic.AddInt32(&s.started, 1) != 1 {
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return
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}
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log.Trace("[SRVR] Starting server")
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// Start all the listeners. There will not be any if listening is
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// disabled.
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for _, listener := range s.listeners {
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s.wg.Add(1)
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go s.listenHandler(listener)
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}
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// Start the peer handler which in turn starts the address and block
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// managers.
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s.wg.Add(1)
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go s.peerHandler()
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// Start the RPC server if it's not disabled.
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if !cfg.DisableRPC {
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s.rpcServer.Start()
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}
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}
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// Stop gracefully shuts down the server by stopping and disconnecting all
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// peers and the main listener.
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func (s *server) Stop() error {
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// Make sure this only happens once.
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if atomic.AddInt32(&s.shutdown, 1) != 1 {
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log.Infof("[SRVR] Server is already in the process of shutting down")
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return nil
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}
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log.Warnf("[SRVR] Server shutting down")
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|
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// Stop all the listeners. There will not be any listeners if
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// listening is disabled.
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for _, listener := range s.listeners {
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err := listener.Close()
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if err != nil {
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return err
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}
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}
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// Shutdown the RPC server if it's not disabled.
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if !cfg.DisableRPC {
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s.rpcServer.Stop()
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}
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// Signal the remaining goroutines to quit.
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close(s.quit)
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return nil
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}
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|
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// WaitForShutdown blocks until the main listener and peer handlers are stopped.
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func (s *server) WaitForShutdown() {
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s.wg.Wait()
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log.Infof("[SRVR] Server shutdown complete")
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}
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// ScheduleShutdown schedules a server shutdown after the specified duration.
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// It also dynamically adjusts how often to warn the server is going down based
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// on remaining duration.
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func (s *server) ScheduleShutdown(duration time.Duration) {
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// Don't schedule shutdown more than once.
|
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if atomic.AddInt32(&s.shutdownSched, 1) != 1 {
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return
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}
|
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log.Warnf("[SRVR] Server shutdown in %v", duration)
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go func() {
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remaining := duration
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tickDuration := dynamicTickDuration(remaining)
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done := time.After(remaining)
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ticker := time.NewTicker(tickDuration)
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out:
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for {
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select {
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case <-done:
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ticker.Stop()
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s.Stop()
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break out
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case <-ticker.C:
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remaining = remaining - tickDuration
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if remaining < time.Second {
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continue
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}
|
|
|
|
// Change tick duration dynamically based on remaining time.
|
|
newDuration := dynamicTickDuration(remaining)
|
|
if tickDuration != newDuration {
|
|
tickDuration = newDuration
|
|
ticker.Stop()
|
|
ticker = time.NewTicker(tickDuration)
|
|
}
|
|
log.Warnf("[SRVR] Server shutdown in %v", remaining)
|
|
}
|
|
}
|
|
}()
|
|
}
|
|
|
|
// newServer returns a new btcd server configured to listen on addr for the
|
|
// bitcoin network type specified in btcnet. Use start to begin accepting
|
|
// connections from peers.
|
|
func newServer(addr string, db btcdb.Db, btcnet btcwire.BitcoinNet) (*server, error) {
|
|
nonce, err := btcwire.RandomUint64()
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
var listeners []net.Listener
|
|
if !cfg.DisableListen {
|
|
// IPv4 listener.
|
|
listener4, err := net.Listen("tcp4", addr)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
listeners = append(listeners, listener4)
|
|
|
|
// IPv6 listener.
|
|
listener6, err := net.Listen("tcp6", addr)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
listeners = append(listeners, listener6)
|
|
}
|
|
|
|
s := server{
|
|
nonce: nonce,
|
|
listeners: listeners,
|
|
btcnet: btcnet,
|
|
addrManager: NewAddrManager(),
|
|
newPeers: make(chan *peer, cfg.MaxPeers),
|
|
donePeers: make(chan *peer, cfg.MaxPeers),
|
|
banPeers: make(chan *peer, cfg.MaxPeers),
|
|
wakeup: make(chan bool),
|
|
relayInv: make(chan *btcwire.InvVect, cfg.MaxPeers),
|
|
broadcast: make(chan broadcastMsg, cfg.MaxPeers),
|
|
quit: make(chan bool),
|
|
db: db,
|
|
}
|
|
bm, err := newBlockManager(&s)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
s.blockManager = bm
|
|
|
|
if !cfg.DisableRPC {
|
|
s.rpcServer, err = newRPCServer(&s)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
}
|
|
return &s, nil
|
|
}
|
|
|
|
// dynamicTickDuration is a convenience function used to dynamically choose a
|
|
// tick duration based on remaining time. It is primarily used during
|
|
// server shutdown to make shutdown warnings more frequent as the shutdown time
|
|
// approaches.
|
|
func dynamicTickDuration(remaining time.Duration) time.Duration {
|
|
switch {
|
|
case remaining <= time.Second*5:
|
|
return time.Second
|
|
case remaining <= time.Second*15:
|
|
return time.Second * 5
|
|
case remaining <= time.Minute:
|
|
return time.Second * 15
|
|
case remaining <= time.Minute*5:
|
|
return time.Minute
|
|
case remaining <= time.Minute*15:
|
|
return time.Minute * 5
|
|
case remaining <= time.Hour:
|
|
return time.Minute * 15
|
|
}
|
|
return time.Hour
|
|
}
|