mirror of
https://github.com/nspcc-dev/neo-go.git
synced 2024-12-25 03:56:34 +00:00
cfb5058018
This is not exactly the protocol-level batching as was tried in #1770 and proposed by neo-project/neo#2365, but it's a TCP-level change in that we now Write() a set of messages and given that Go sets up TCP sockets with TCP_NODELAY by default this is a substantial change, we have less packets generated with the same amount of data. It doesn't change anything on properly connected networks, but the ones with delays benefit from it a lot. This also improves queueing because we no longer generate 32 messages to deliver on transaction's GetData, it's just one stream of bytes with 32 messages inside. Do the same with GetBlocksByIndex, we can have a lot of messages there too. But don't forget about potential peer DoS attacks, if a peer is to request a lot of big blocks we need to flush them before we process the whole set.
490 lines
12 KiB
Go
490 lines
12 KiB
Go
package network
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import (
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"context"
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"errors"
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"fmt"
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"net"
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"strconv"
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"sync"
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"time"
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"github.com/nspcc-dev/neo-go/pkg/io"
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"github.com/nspcc-dev/neo-go/pkg/network/capability"
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"github.com/nspcc-dev/neo-go/pkg/network/payload"
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"go.uber.org/atomic"
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"go.uber.org/zap"
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)
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type handShakeStage uint8
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const (
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versionSent handShakeStage = 1 << iota
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versionReceived
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verAckSent
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verAckReceived
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requestQueueSize = 32
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p2pMsgQueueSize = 16
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hpRequestQueueSize = 4
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incomingQueueSize = 1 // Each message can be up to 32MB in size.
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)
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var (
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errGone = errors.New("the peer is gone already")
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errStateMismatch = errors.New("tried to send protocol message before handshake completed")
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errPingPong = errors.New("ping/pong timeout")
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errUnexpectedPong = errors.New("pong message wasn't expected")
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)
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// TCPPeer represents a connected remote node in the
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// network over TCP.
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type TCPPeer struct {
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// underlying TCP connection.
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conn net.Conn
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// The server this peer belongs to.
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server *Server
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// The version of the peer.
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version *payload.Version
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// Index of the last block.
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lastBlockIndex uint32
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lock sync.RWMutex
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finale sync.Once
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handShake handShakeStage
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isFullNode bool
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done chan struct{}
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sendQ chan []byte
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p2pSendQ chan []byte
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hpSendQ chan []byte
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incoming chan *Message
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// track outstanding getaddr requests.
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getAddrSent atomic.Int32
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// number of sent pings.
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pingSent int
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pingTimer *time.Timer
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}
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// NewTCPPeer returns a TCPPeer structure based on the given connection.
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func NewTCPPeer(conn net.Conn, s *Server) *TCPPeer {
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return &TCPPeer{
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conn: conn,
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server: s,
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done: make(chan struct{}),
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sendQ: make(chan []byte, requestQueueSize),
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p2pSendQ: make(chan []byte, p2pMsgQueueSize),
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hpSendQ: make(chan []byte, hpRequestQueueSize),
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incoming: make(chan *Message, incomingQueueSize),
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}
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}
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// putPacketIntoQueue puts the given message into the given queue if
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// the peer has done handshaking using the given context.
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func (p *TCPPeer) putPacketIntoQueue(ctx context.Context, queue chan<- []byte, msg []byte) error {
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if !p.Handshaked() {
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return errStateMismatch
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}
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select {
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case queue <- msg:
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case <-p.done:
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return errGone
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case <-ctx.Done():
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return ctx.Err()
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}
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return nil
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}
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// BroadcastPacket implements the Peer interface.
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func (p *TCPPeer) BroadcastPacket(ctx context.Context, msg []byte) error {
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return p.putPacketIntoQueue(ctx, p.sendQ, msg)
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}
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// BroadcastHPPacket implements the Peer interface. It the peer is not yet
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// handshaked it's a noop.
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func (p *TCPPeer) BroadcastHPPacket(ctx context.Context, msg []byte) error {
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return p.putPacketIntoQueue(ctx, p.hpSendQ, msg)
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}
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// putMessageIntoQueue serializes the given Message and puts it into given queue if
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// the peer has done handshaking.
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func (p *TCPPeer) putMsgIntoQueue(queue chan<- []byte, msg *Message) error {
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b, err := msg.Bytes()
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if err != nil {
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return err
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}
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return p.putPacketIntoQueue(context.Background(), queue, b)
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}
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// EnqueueP2PMessage implements the Peer interface.
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func (p *TCPPeer) EnqueueP2PMessage(msg *Message) error {
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return p.putMsgIntoQueue(p.p2pSendQ, msg)
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}
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// EnqueueHPMessage implements the Peer interface.
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func (p *TCPPeer) EnqueueHPMessage(msg *Message) error {
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return p.putMsgIntoQueue(p.hpSendQ, msg)
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}
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// EnqueueP2PPacket implements the Peer interface.
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func (p *TCPPeer) EnqueueP2PPacket(b []byte) error {
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return p.putPacketIntoQueue(context.Background(), p.p2pSendQ, b)
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}
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// EnqueueHPPacket implements the Peer interface.
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func (p *TCPPeer) EnqueueHPPacket(b []byte) error {
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return p.putPacketIntoQueue(context.Background(), p.hpSendQ, b)
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}
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func (p *TCPPeer) writeMsg(msg *Message) error {
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b, err := msg.Bytes()
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if err != nil {
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return err
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}
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_, err = p.conn.Write(b)
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return err
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}
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// handleConn handles the read side of the connection, it should be started as
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// a goroutine right after a new peer setup.
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func (p *TCPPeer) handleConn() {
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var err error
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p.server.register <- p
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go p.handleQueues()
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go p.handleIncoming()
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// When a new peer is connected, we send out our version immediately.
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err = p.SendVersion()
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if err == nil {
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r := io.NewBinReaderFromIO(p.conn)
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for {
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msg := &Message{StateRootInHeader: p.server.config.StateRootInHeader}
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err = msg.Decode(r)
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if errors.Is(err, payload.ErrTooManyHeaders) {
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p.server.log.Warn("not all headers were processed")
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r.Err = nil
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} else if err != nil {
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break
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}
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p.incoming <- msg
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}
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}
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p.Disconnect(err)
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close(p.incoming)
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}
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func (p *TCPPeer) handleIncoming() {
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var err error
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for msg := range p.incoming {
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err = p.server.handleMessage(p, msg)
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if err != nil {
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if p.Handshaked() {
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err = fmt.Errorf("handling %s message: %w", msg.Command.String(), err)
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}
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break
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}
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}
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p.Disconnect(err)
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}
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// handleQueues is a goroutine that is started automatically to handle
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// send queues.
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func (p *TCPPeer) handleQueues() {
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var err error
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// p2psend queue shares its time with send queue in around
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// ((p2pSkipDivisor - 1) * 2 + 1)/1 ratio, ratio because the third
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// select can still choose p2psend over send.
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var p2pSkipCounter uint32
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const p2pSkipDivisor = 4
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var writeTimeout = time.Duration(p.server.config.SecondsPerBlock) * time.Second
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for {
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var msg []byte
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// This one is to give priority to the hp queue
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select {
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case <-p.done:
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return
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case msg = <-p.hpSendQ:
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default:
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}
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// Skip this select every p2pSkipDivisor iteration.
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if msg == nil && p2pSkipCounter%p2pSkipDivisor != 0 {
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// Then look at the p2p queue.
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select {
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case <-p.done:
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return
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case msg = <-p.hpSendQ:
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case msg = <-p.p2pSendQ:
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default:
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}
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}
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// If there is no message in HP or P2P queues, block until one
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// appears in any of the queues.
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if msg == nil {
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select {
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case <-p.done:
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return
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case msg = <-p.hpSendQ:
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case msg = <-p.p2pSendQ:
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case msg = <-p.sendQ:
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}
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}
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err = p.conn.SetWriteDeadline(time.Now().Add(writeTimeout))
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if err != nil {
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break
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}
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_, err = p.conn.Write(msg)
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if err != nil {
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break
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}
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p2pSkipCounter++
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}
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p.Disconnect(err)
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}
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// StartProtocol starts a long running background loop that interacts
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// every ProtoTickInterval with the peer. It's only good to run after the
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// handshake.
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func (p *TCPPeer) StartProtocol() {
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var err error
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p.server.log.Info("started protocol",
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zap.Stringer("addr", p.RemoteAddr()),
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zap.ByteString("userAgent", p.Version().UserAgent),
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zap.Uint32("startHeight", p.lastBlockIndex),
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zap.Uint32("id", p.Version().Nonce))
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p.server.discovery.RegisterGoodAddr(p.PeerAddr().String(), p.version.Capabilities)
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err = p.server.requestBlocksOrHeaders(p)
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if err != nil {
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p.Disconnect(err)
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return
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}
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timer := time.NewTimer(p.server.ProtoTickInterval)
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for {
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select {
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case <-p.done:
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return
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case <-timer.C:
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// Try to sync in headers and block with the peer if his block height is higher than ours.
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err = p.server.requestBlocksOrHeaders(p)
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if err == nil {
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timer.Reset(p.server.ProtoTickInterval)
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}
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}
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if err != nil {
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timer.Stop()
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p.Disconnect(err)
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return
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}
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}
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}
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// Handshaked returns status of the handshake, whether it's completed or not.
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func (p *TCPPeer) Handshaked() bool {
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p.lock.RLock()
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defer p.lock.RUnlock()
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return p.handshaked()
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}
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// handshaked is internal unlocked version of Handshaked().
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func (p *TCPPeer) handshaked() bool {
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return p.handShake == (verAckReceived | verAckSent | versionReceived | versionSent)
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}
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// IsFullNode returns whether the node has full capability or TCP/WS only.
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func (p *TCPPeer) IsFullNode() bool {
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p.lock.RLock()
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defer p.lock.RUnlock()
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return p.handshaked() && p.isFullNode
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}
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// SendVersion checks for the handshake state and sends a message to the peer.
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func (p *TCPPeer) SendVersion() error {
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msg, err := p.server.getVersionMsg()
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if err != nil {
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return err
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}
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p.lock.Lock()
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defer p.lock.Unlock()
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if p.handShake&versionSent != 0 {
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return errors.New("invalid handshake: already sent Version")
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}
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err = p.writeMsg(msg)
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if err == nil {
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p.handShake |= versionSent
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}
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return err
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}
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// HandleVersion checks for the handshake state and version message contents.
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func (p *TCPPeer) HandleVersion(version *payload.Version) error {
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p.lock.Lock()
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defer p.lock.Unlock()
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if p.handShake&versionReceived != 0 {
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return errors.New("invalid handshake: already received Version")
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}
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p.version = version
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for _, cap := range version.Capabilities {
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if cap.Type == capability.FullNode {
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p.isFullNode = true
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p.lastBlockIndex = cap.Data.(*capability.Node).StartHeight
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break
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}
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}
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p.handShake |= versionReceived
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return nil
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}
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// SendVersionAck checks for the handshake state and sends a message to the peer.
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func (p *TCPPeer) SendVersionAck(msg *Message) error {
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p.lock.Lock()
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defer p.lock.Unlock()
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if p.handShake&versionReceived == 0 {
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return errors.New("invalid handshake: tried to send VersionAck, but no version received yet")
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}
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if p.handShake&versionSent == 0 {
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return errors.New("invalid handshake: tried to send VersionAck, but didn't send Version yet")
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}
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if p.handShake&verAckSent != 0 {
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return errors.New("invalid handshake: already sent VersionAck")
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}
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err := p.writeMsg(msg)
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if err == nil {
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p.handShake |= verAckSent
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}
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return err
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}
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// HandleVersionAck checks handshake sequence correctness when VerAck message
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// is received.
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func (p *TCPPeer) HandleVersionAck() error {
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p.lock.Lock()
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defer p.lock.Unlock()
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if p.handShake&versionSent == 0 {
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return errors.New("invalid handshake: received VersionAck, but no version sent yet")
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}
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if p.handShake&versionReceived == 0 {
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return errors.New("invalid handshake: received VersionAck, but no version received yet")
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}
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if p.handShake&verAckReceived != 0 {
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return errors.New("invalid handshake: already received VersionAck")
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}
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p.handShake |= verAckReceived
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return nil
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}
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// RemoteAddr implements the Peer interface.
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func (p *TCPPeer) RemoteAddr() net.Addr {
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return p.conn.RemoteAddr()
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}
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// PeerAddr implements the Peer interface.
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func (p *TCPPeer) PeerAddr() net.Addr {
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remote := p.conn.RemoteAddr()
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// The network can be non-tcp in unit tests.
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if p.version == nil || remote.Network() != "tcp" {
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return p.RemoteAddr()
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}
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host, _, err := net.SplitHostPort(remote.String())
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if err != nil {
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return p.RemoteAddr()
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}
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var port uint16
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for _, cap := range p.version.Capabilities {
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if cap.Type == capability.TCPServer {
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port = cap.Data.(*capability.Server).Port
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}
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}
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if port == 0 {
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return p.RemoteAddr()
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}
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addrString := net.JoinHostPort(host, strconv.Itoa(int(port)))
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tcpAddr, err := net.ResolveTCPAddr("tcp", addrString)
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if err != nil {
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return p.RemoteAddr()
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}
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return tcpAddr
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}
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// Disconnect will fill the peer's done channel with the given error.
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func (p *TCPPeer) Disconnect(err error) {
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p.finale.Do(func() {
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close(p.done)
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p.conn.Close()
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p.server.unregister <- peerDrop{p, err}
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})
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}
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// Version implements the Peer interface.
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func (p *TCPPeer) Version() *payload.Version {
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return p.version
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}
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// LastBlockIndex returns the last block index.
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func (p *TCPPeer) LastBlockIndex() uint32 {
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p.lock.RLock()
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defer p.lock.RUnlock()
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return p.lastBlockIndex
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}
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// SetPingTimer adds an outgoing ping to the counter and sets a PingTimeout timer
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// that will shut the connection down in case of no response.
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func (p *TCPPeer) SetPingTimer() {
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p.lock.Lock()
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p.pingSent++
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if p.pingTimer == nil {
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p.pingTimer = time.AfterFunc(p.server.PingTimeout, func() {
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p.Disconnect(errPingPong)
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})
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}
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p.lock.Unlock()
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}
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// HandlePing handles a ping message received from the peer.
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func (p *TCPPeer) HandlePing(ping *payload.Ping) error {
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p.lock.Lock()
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defer p.lock.Unlock()
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p.lastBlockIndex = ping.LastBlockIndex
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return nil
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}
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// HandlePong handles a pong message received from the peer and does an appropriate
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// accounting of outstanding pings and timeouts.
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func (p *TCPPeer) HandlePong(pong *payload.Ping) error {
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p.lock.Lock()
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defer p.lock.Unlock()
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if p.pingTimer != nil && !p.pingTimer.Stop() {
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return errPingPong
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}
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p.pingTimer = nil
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p.pingSent--
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if p.pingSent < 0 {
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return errUnexpectedPong
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}
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p.lastBlockIndex = pong.LastBlockIndex
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return nil
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}
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// AddGetAddrSent increments internal outstanding getaddr requests counter. Then,
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// the peer can only send one addr reply per getaddr request.
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func (p *TCPPeer) AddGetAddrSent() {
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p.getAddrSent.Inc()
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}
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// CanProcessAddr decrements internal outstanding getaddr requests counter and
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// answers whether the addr command from the peer can be safely processed.
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func (p *TCPPeer) CanProcessAddr() bool {
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v := p.getAddrSent.Dec()
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return v >= 0
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}
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