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  1. package mempool
  2. import (
  3. "bytes"
  4. "fmt"
  5. "reflect"
  6. "time"
  7. abci "github.com/tendermint/abci/types"
  8. wire "github.com/tendermint/go-wire"
  9. "github.com/tendermint/tmlibs/clist"
  10. "github.com/tendermint/tmlibs/log"
  11. cfg "github.com/tendermint/tendermint/config"
  12. "github.com/tendermint/tendermint/p2p"
  13. "github.com/tendermint/tendermint/types"
  14. )
  15. const (
  16. MempoolChannel = byte(0x30)
  17. maxMempoolMessageSize = 1048576 // 1MB TODO make it configurable
  18. peerCatchupSleepIntervalMS = 100 // If peer is behind, sleep this amount
  19. )
  20. // MempoolReactor handles mempool tx broadcasting amongst peers.
  21. type MempoolReactor struct {
  22. p2p.BaseReactor
  23. config *cfg.MempoolConfig
  24. Mempool *Mempool
  25. }
  26. // NewMempoolReactor returns a new MempoolReactor with the given config and mempool.
  27. func NewMempoolReactor(config *cfg.MempoolConfig, mempool *Mempool) *MempoolReactor {
  28. memR := &MempoolReactor{
  29. config: config,
  30. Mempool: mempool,
  31. }
  32. memR.BaseReactor = *p2p.NewBaseReactor("MempoolReactor", memR)
  33. return memR
  34. }
  35. // SetLogger sets the Logger on the reactor and the underlying Mempool.
  36. func (memR *MempoolReactor) SetLogger(l log.Logger) {
  37. memR.Logger = l
  38. memR.Mempool.SetLogger(l)
  39. }
  40. // GetChannels implements Reactor.
  41. // It returns the list of channels for this reactor.
  42. func (memR *MempoolReactor) GetChannels() []*p2p.ChannelDescriptor {
  43. return []*p2p.ChannelDescriptor{
  44. &p2p.ChannelDescriptor{
  45. ID: MempoolChannel,
  46. Priority: 5,
  47. },
  48. }
  49. }
  50. // AddPeer implements Reactor.
  51. // It starts a broadcast routine ensuring all txs are forwarded to the given peer.
  52. func (memR *MempoolReactor) AddPeer(peer p2p.Peer) {
  53. go memR.broadcastTxRoutine(peer)
  54. }
  55. // RemovePeer implements Reactor.
  56. func (memR *MempoolReactor) RemovePeer(peer p2p.Peer, reason interface{}) {
  57. // broadcast routine checks if peer is gone and returns
  58. }
  59. // Receive implements Reactor.
  60. // It adds any received transactions to the mempool.
  61. func (memR *MempoolReactor) Receive(chID byte, src p2p.Peer, msgBytes []byte) {
  62. _, msg, err := DecodeMessage(msgBytes)
  63. if err != nil {
  64. memR.Logger.Error("Error decoding message", "err", err)
  65. return
  66. }
  67. memR.Logger.Debug("Receive", "src", src, "chId", chID, "msg", msg)
  68. switch msg := msg.(type) {
  69. case *TxMessage:
  70. err := memR.Mempool.CheckTx(msg.Tx, nil)
  71. if err != nil {
  72. memR.Logger.Info("Could not check tx", "tx", msg.Tx, "err", err)
  73. }
  74. // broadcasting happens from go routines per peer
  75. default:
  76. memR.Logger.Error(fmt.Sprintf("Unknown message type %v", reflect.TypeOf(msg)))
  77. }
  78. }
  79. // BroadcastTx is an alias for Mempool.CheckTx. Broadcasting itself happens in peer routines.
  80. func (memR *MempoolReactor) BroadcastTx(tx types.Tx, cb func(*abci.Response)) error {
  81. return memR.Mempool.CheckTx(tx, cb)
  82. }
  83. // PeerState describes the state of a peer.
  84. type PeerState interface {
  85. GetHeight() int
  86. }
  87. // Peer describes a peer.
  88. type Peer interface {
  89. IsRunning() bool
  90. Send(byte, interface{}) bool
  91. Get(string) interface{}
  92. }
  93. // Send new mempool txs to peer.
  94. // TODO: Handle mempool or reactor shutdown?
  95. // As is this routine may block forever if no new txs come in.
  96. func (memR *MempoolReactor) broadcastTxRoutine(peer Peer) {
  97. if !memR.config.Broadcast {
  98. return
  99. }
  100. var next *clist.CElement
  101. for {
  102. if !memR.IsRunning() || !peer.IsRunning() {
  103. return // Quit!
  104. }
  105. if next == nil {
  106. // This happens because the CElement we were looking at got
  107. // garbage collected (removed). That is, .NextWait() returned nil.
  108. // Go ahead and start from the beginning.
  109. next = memR.Mempool.TxsFrontWait() // Wait until a tx is available
  110. }
  111. memTx := next.Value.(*mempoolTx)
  112. // make sure the peer is up to date
  113. height := memTx.Height()
  114. if peerState_i := peer.Get(types.PeerStateKey); peerState_i != nil {
  115. peerState := peerState_i.(PeerState)
  116. if peerState.GetHeight() < height-1 { // Allow for a lag of 1 block
  117. time.Sleep(peerCatchupSleepIntervalMS * time.Millisecond)
  118. continue
  119. }
  120. }
  121. // send memTx
  122. msg := &TxMessage{Tx: memTx.tx}
  123. success := peer.Send(MempoolChannel, struct{ MempoolMessage }{msg})
  124. if !success {
  125. time.Sleep(peerCatchupSleepIntervalMS * time.Millisecond)
  126. continue
  127. }
  128. next = next.NextWait()
  129. continue
  130. }
  131. }
  132. //-----------------------------------------------------------------------------
  133. // Messages
  134. const (
  135. msgTypeTx = byte(0x01)
  136. )
  137. // MempoolMessage is a message sent or received by the MempoolReactor.
  138. type MempoolMessage interface{}
  139. var _ = wire.RegisterInterface(
  140. struct{ MempoolMessage }{},
  141. wire.ConcreteType{&TxMessage{}, msgTypeTx},
  142. )
  143. // DecodeMessage decodes a byte-array into a MempoolMessage.
  144. func DecodeMessage(bz []byte) (msgType byte, msg MempoolMessage, err error) {
  145. msgType = bz[0]
  146. n := new(int)
  147. r := bytes.NewReader(bz)
  148. msg = wire.ReadBinary(struct{ MempoolMessage }{}, r, maxMempoolMessageSize, n, &err).(struct{ MempoolMessage }).MempoolMessage
  149. return
  150. }
  151. //-------------------------------------
  152. // TxMessage is a MempoolMessage containing a transaction.
  153. type TxMessage struct {
  154. Tx types.Tx
  155. }
  156. // String returns a string representation of the TxMessage.
  157. func (m *TxMessage) String() string {
  158. return fmt.Sprintf("[TxMessage %v]", m.Tx)
  159. }