zolfa
/
tendermint


								package mempool


								import (

									"bytes"

									"fmt"

									"reflect"

									"time"


									"github.com/tendermint/go-clist"

									. "github.com/tendermint/go-common"

									"github.com/tendermint/go-p2p"

									"github.com/tendermint/go-wire"

									"github.com/tendermint/tendermint/events"

									"github.com/tendermint/tendermint/types"

								)


								const (

									MempoolChannel = byte(0x30)


									maxMempoolMessageSize      = 1048576 // 1MB TODO make it configurable

									peerCatchupSleepIntervalMS = 100     // If peer is behind, sleep this amount

								)


								// MempoolReactor handles mempool tx broadcasting amongst peers.

								type MempoolReactor struct {

									p2p.BaseReactor

									Mempool *Mempool // TODO: un-expose

									evsw    events.Fireable

								}


								func NewMempoolReactor(mempool *Mempool) *MempoolReactor {

									memR := &MempoolReactor{

										Mempool: mempool,

									}

									memR.BaseReactor = *p2p.NewBaseReactor(log, "MempoolReactor", memR)

									return memR

								}


								// Implements Reactor

								func (memR *MempoolReactor) GetChannels() []*p2p.ChannelDescriptor {

									return []*p2p.ChannelDescriptor{

										&p2p.ChannelDescriptor{

											ID:       MempoolChannel,

											Priority: 5,

										},

									}

								}


								// Implements Reactor

								func (memR *MempoolReactor) AddPeer(peer *p2p.Peer) {

									go memR.broadcastTxRoutine(peer)

								}


								// Implements Reactor

								func (memR *MempoolReactor) RemovePeer(peer *p2p.Peer, reason interface{}) {

									// broadcast routine checks if peer is gone and returns

								}


								// Implements Reactor

								func (memR *MempoolReactor) Receive(chID byte, src *p2p.Peer, msgBytes []byte) {

									_, msg, err := DecodeMessage(msgBytes)

									if err != nil {

										log.Warn("Error decoding message", "error", err)

										return

									}

									log.Notice("MempoolReactor received message", "msg", msg)


									switch msg := msg.(type) {

									case *TxMessage:

										err := memR.Mempool.AppendTx(msg.Tx)

										if err != nil {

											// Bad, seen, or conflicting tx.

											log.Info("Could not add tx", "tx", msg.Tx)

											return

										} else {

											log.Info("Added valid tx", "tx", msg.Tx)

										}

										// broadcasting happens from go routines per peer

									default:

										log.Warn(Fmt("Unknown message type %v", reflect.TypeOf(msg)))

									}

								}


								// Just an alias for AppendTx since broadcasting happens in peer routines

								func (memR *MempoolReactor) BroadcastTx(tx types.Tx) error {

									return memR.Mempool.AppendTx(tx)

								}


								type PeerState interface {

									GetHeight() int

								}


								type Peer interface {

									IsRunning() bool

									Send(byte, interface{}) bool

									Get(string) interface{}

								}


								// Send new mempool txs to peer.

								// TODO: Handle mempool or reactor shutdown?

								// As is this routine may block forever if no new txs come in.

								func (memR *MempoolReactor) broadcastTxRoutine(peer Peer) {

									var next *clist.CElement

									for {

										if !memR.IsRunning() {

											return // Quit!

										}

										if next == nil {

											// This happens because the CElement we were looking at got

											// garbage collected (removed).  That is, .NextWait() returned nil.

											// Go ahead and start from the beginning.

											next = memR.Mempool.TxsFrontWait() // Wait until a tx is available

										}

										memTx := next.Value.(*mempoolTx)

										// make sure the peer is up to date

										height := memTx.Height()

										if peerState_i := peer.Get(types.PeerStateKey); peerState_i != nil {

											peerState := peerState_i.(PeerState)

											if peerState.GetHeight() < height-1 { // Allow for a lag of 1 block

												time.Sleep(peerCatchupSleepIntervalMS * time.Millisecond)

												continue

											}

										}

										// send memTx

										msg := &TxMessage{Tx: memTx.tx}

										success := peer.Send(MempoolChannel, msg)

										if !success {

											time.Sleep(peerCatchupSleepIntervalMS * time.Millisecond)

											continue

										}


										next = next.NextWait()

										continue

									}

								}


								// implements events.Eventable

								func (memR *MempoolReactor) SetFireable(evsw events.Fireable) {

									memR.evsw = evsw

								}


								//-----------------------------------------------------------------------------

								// Messages


								const (

									msgTypeTx = byte(0x01)

								)


								type MempoolMessage interface{}


								var _ = wire.RegisterInterface(

									struct{ MempoolMessage }{},

									wire.ConcreteType{&TxMessage{}, msgTypeTx},

								)


								func DecodeMessage(bz []byte) (msgType byte, msg MempoolMessage, err error) {

									msgType = bz[0]

									n := new(int)

									r := bytes.NewReader(bz)

									msg = wire.ReadBinary(struct{ MempoolMessage }{}, r, maxMempoolMessageSize, n, &err).(struct{ MempoolMessage }).MempoolMessage

									return

								}


								//-------------------------------------


								type TxMessage struct {

									Tx types.Tx

								}


								func (m *TxMessage) String() string {

									return fmt.Sprintf("[TxMessage %v]", m.Tx)

								}