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  1. package p2p
  2. import (
  3. "bytes"
  4. "sync"
  5. "testing"
  6. "time"
  7. "github.com/tendermint/tendermint/binary"
  8. . "github.com/tendermint/tendermint/common"
  9. "github.com/tendermint/tendermint/types"
  10. )
  11. type PeerMessage struct {
  12. PeerKey string
  13. Bytes []byte
  14. Counter int
  15. }
  16. type TestReactor struct {
  17. mtx sync.Mutex
  18. channels []*ChannelDescriptor
  19. peersAdded []*Peer
  20. peersRemoved []*Peer
  21. logMessages bool
  22. msgsCounter int
  23. msgsReceived map[byte][]PeerMessage
  24. }
  25. func NewTestReactor(channels []*ChannelDescriptor, logMessages bool) *TestReactor {
  26. return &TestReactor{
  27. channels: channels,
  28. logMessages: logMessages,
  29. msgsReceived: make(map[byte][]PeerMessage),
  30. }
  31. }
  32. func (tr *TestReactor) Start(sw *Switch) {
  33. }
  34. func (tr *TestReactor) Stop() {
  35. }
  36. func (tr *TestReactor) GetChannels() []*ChannelDescriptor {
  37. return tr.channels
  38. }
  39. func (tr *TestReactor) AddPeer(peer *Peer) {
  40. tr.mtx.Lock()
  41. defer tr.mtx.Unlock()
  42. tr.peersAdded = append(tr.peersAdded, peer)
  43. }
  44. func (tr *TestReactor) RemovePeer(peer *Peer, reason interface{}) {
  45. tr.mtx.Lock()
  46. defer tr.mtx.Unlock()
  47. tr.peersRemoved = append(tr.peersRemoved, peer)
  48. }
  49. func (tr *TestReactor) Receive(chId byte, peer *Peer, msgBytes []byte) {
  50. if tr.logMessages {
  51. tr.mtx.Lock()
  52. defer tr.mtx.Unlock()
  53. //fmt.Printf("Received: %X, %X\n", chId, msgBytes)
  54. tr.msgsReceived[chId] = append(tr.msgsReceived[chId], PeerMessage{peer.Key, msgBytes, tr.msgsCounter})
  55. tr.msgsCounter++
  56. }
  57. }
  58. //-----------------------------------------------------------------------------
  59. // convenience method for creating two switches connected to each other.
  60. func makeSwitchPair(t testing.TB, initSwitch func(*Switch) *Switch) (*Switch, *Switch) {
  61. // Create two switches that will be interconnected.
  62. s1 := initSwitch(NewSwitch())
  63. s1.SetNodeInfo(&types.NodeInfo{
  64. Moniker: "switch1",
  65. Network: "testing",
  66. })
  67. s2 := initSwitch(NewSwitch())
  68. s2.SetNodeInfo(&types.NodeInfo{
  69. Moniker: "switch2",
  70. Network: "testing",
  71. })
  72. // Start switches
  73. s1.Start()
  74. s2.Start()
  75. // Create a listener for s1
  76. l := NewDefaultListener("tcp", ":8001", true)
  77. // Dial the listener & add the connection to s2.
  78. lAddr := l.ExternalAddress()
  79. connOut, err := lAddr.Dial()
  80. if err != nil {
  81. t.Fatalf("Could not connect to listener address %v", lAddr)
  82. } else {
  83. t.Logf("Created a connection to listener address %v", lAddr)
  84. }
  85. connIn, ok := <-l.Connections()
  86. if !ok {
  87. t.Fatalf("Could not get inbound connection from listener")
  88. }
  89. go s1.AddPeerWithConnection(connIn, false) // AddPeer is blocking, requires handshake.
  90. s2.AddPeerWithConnection(connOut, true)
  91. // Wait for things to happen, peers to get added...
  92. time.Sleep(100 * time.Millisecond)
  93. // Close the server, no longer needed.
  94. l.Stop()
  95. return s1, s2
  96. }
  97. func TestSwitches(t *testing.T) {
  98. s1, s2 := makeSwitchPair(t, func(sw *Switch) *Switch {
  99. // Make two reactors of two channels each
  100. sw.AddReactor("foo", NewTestReactor([]*ChannelDescriptor{
  101. &ChannelDescriptor{Id: byte(0x00), Priority: 10},
  102. &ChannelDescriptor{Id: byte(0x01), Priority: 10},
  103. }, true)).Start(sw) // Start the reactor
  104. sw.AddReactor("bar", NewTestReactor([]*ChannelDescriptor{
  105. &ChannelDescriptor{Id: byte(0x02), Priority: 10},
  106. &ChannelDescriptor{Id: byte(0x03), Priority: 10},
  107. }, true)).Start(sw) // Start the reactor
  108. return sw
  109. })
  110. defer s1.Stop()
  111. defer s2.Stop()
  112. // Lets send a message from s1 to s2.
  113. if s1.Peers().Size() != 1 {
  114. t.Errorf("Expected exactly 1 peer in s1, got %v", s1.Peers().Size())
  115. }
  116. if s2.Peers().Size() != 1 {
  117. t.Errorf("Expected exactly 1 peer in s2, got %v", s2.Peers().Size())
  118. }
  119. ch0Msg := "channel zero"
  120. ch1Msg := "channel foo"
  121. ch2Msg := "channel bar"
  122. s1.Broadcast(byte(0x00), ch0Msg)
  123. s1.Broadcast(byte(0x01), ch1Msg)
  124. s1.Broadcast(byte(0x02), ch2Msg)
  125. // Wait for things to settle...
  126. time.Sleep(5000 * time.Millisecond)
  127. // Check message on ch0
  128. ch0Msgs := s2.Reactor("foo").(*TestReactor).msgsReceived[byte(0x00)]
  129. if len(ch0Msgs) != 1 {
  130. t.Errorf("Expected to have received 1 message in ch0")
  131. }
  132. if !bytes.Equal(ch0Msgs[0].Bytes, binary.BinaryBytes(ch0Msg)) {
  133. t.Errorf("Unexpected message bytes. Wanted: %X, Got: %X", binary.BinaryBytes(ch0Msg), ch0Msgs[0].Bytes)
  134. }
  135. // Check message on ch1
  136. ch1Msgs := s2.Reactor("foo").(*TestReactor).msgsReceived[byte(0x01)]
  137. if len(ch1Msgs) != 1 {
  138. t.Errorf("Expected to have received 1 message in ch1")
  139. }
  140. if !bytes.Equal(ch1Msgs[0].Bytes, binary.BinaryBytes(ch1Msg)) {
  141. t.Errorf("Unexpected message bytes. Wanted: %X, Got: %X", binary.BinaryBytes(ch1Msg), ch1Msgs[0].Bytes)
  142. }
  143. // Check message on ch2
  144. ch2Msgs := s2.Reactor("bar").(*TestReactor).msgsReceived[byte(0x02)]
  145. if len(ch2Msgs) != 1 {
  146. t.Errorf("Expected to have received 1 message in ch2")
  147. }
  148. if !bytes.Equal(ch2Msgs[0].Bytes, binary.BinaryBytes(ch2Msg)) {
  149. t.Errorf("Unexpected message bytes. Wanted: %X, Got: %X", binary.BinaryBytes(ch2Msg), ch2Msgs[0].Bytes)
  150. }
  151. }
  152. func BenchmarkSwitches(b *testing.B) {
  153. b.StopTimer()
  154. s1, s2 := makeSwitchPair(b, func(sw *Switch) *Switch {
  155. // Make bar reactors of bar channels each
  156. sw.AddReactor("foo", NewTestReactor([]*ChannelDescriptor{
  157. &ChannelDescriptor{Id: byte(0x00), Priority: 10},
  158. &ChannelDescriptor{Id: byte(0x01), Priority: 10},
  159. }, false))
  160. sw.AddReactor("bar", NewTestReactor([]*ChannelDescriptor{
  161. &ChannelDescriptor{Id: byte(0x02), Priority: 10},
  162. &ChannelDescriptor{Id: byte(0x03), Priority: 10},
  163. }, false))
  164. return sw
  165. })
  166. defer s1.Stop()
  167. defer s2.Stop()
  168. // Allow time for goroutines to boot up
  169. time.Sleep(1000 * time.Millisecond)
  170. b.StartTimer()
  171. numSuccess, numFailure := 0, 0
  172. // Send random message from foo channel to another
  173. for i := 0; i < b.N; i++ {
  174. chId := byte(i % 4)
  175. successChan := s1.Broadcast(chId, "test data")
  176. for s := range successChan {
  177. if s {
  178. numSuccess += 1
  179. } else {
  180. numFailure += 1
  181. }
  182. }
  183. }
  184. log.Warn(Fmt("success: %v, failure: %v", numSuccess, numFailure))
  185. // Allow everything to flush before stopping switches & closing connections.
  186. b.StopTimer()
  187. time.Sleep(1000 * time.Millisecond)
  188. }