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  1. package p2p
  2. import (
  3. "bufio"
  4. "fmt"
  5. "io"
  6. "math"
  7. "net"
  8. "runtime/debug"
  9. "sync/atomic"
  10. "time"
  11. flow "code.google.com/p/mxk/go1/flowcontrol"
  12. "github.com/tendermint/log15"
  13. "github.com/tendermint/tendermint/binary"
  14. . "github.com/tendermint/tendermint/common"
  15. )
  16. const (
  17. numBatchMsgPackets = 10
  18. minReadBufferSize = 1024
  19. minWriteBufferSize = 1024
  20. flushThrottleMS = 50
  21. idleTimeoutMinutes = 5
  22. updateStatsSeconds = 2
  23. pingTimeoutMinutes = 2
  24. defaultSendRate = 51200 // 5Kb/s
  25. defaultRecvRate = 51200 // 5Kb/s
  26. defaultSendQueueCapacity = 1
  27. defaultRecvBufferCapacity = 4096
  28. defaultSendTimeoutSeconds = 10
  29. )
  30. type receiveCbFunc func(chId byte, msgBytes []byte)
  31. type errorCbFunc func(interface{})
  32. /*
  33. Each peer has one `MConnection` (multiplex connection) instance.
  34. __multiplex__ *noun* a system or signal involving simultaneous transmission of
  35. several messages along a single channel of communication.
  36. Each `MConnection` handles message transmission on multiple abstract communication
  37. `Channel`s. Each channel has a globally unique byte id.
  38. The byte id and the relative priorities of each `Channel` are configured upon
  39. initialization of the connection.
  40. There are two methods for sending messages:
  41. func (m MConnection) Send(chId byte, msg interface{}) bool {}
  42. func (m MConnection) TrySend(chId byte, msg interface{}) bool {}
  43. `Send(chId, msg)` is a blocking call that waits until `msg` is successfully queued
  44. for the channel with the given id byte `chId`, or until the request times out.
  45. The message `msg` is serialized using the `tendermint/binary` submodule's
  46. `WriteBinary()` reflection routine.
  47. `TrySend(chId, msg)` is a nonblocking call that returns false if the channel's
  48. queue is full.
  49. Inbound message bytes are handled with an onReceive callback function.
  50. */
  51. type MConnection struct {
  52. conn net.Conn
  53. bufReader *bufio.Reader
  54. bufWriter *bufio.Writer
  55. sendMonitor *flow.Monitor
  56. recvMonitor *flow.Monitor
  57. sendRate int64
  58. recvRate int64
  59. flushTimer *ThrottleTimer // flush writes as necessary but throttled.
  60. send chan struct{}
  61. quit chan struct{}
  62. pingTimer *RepeatTimer // send pings periodically
  63. pong chan struct{}
  64. chStatsTimer *RepeatTimer // update channel stats periodically
  65. channels []*Channel
  66. channelsIdx map[byte]*Channel
  67. onReceive receiveCbFunc
  68. onError errorCbFunc
  69. started uint32
  70. stopped uint32
  71. errored uint32
  72. LocalAddress *NetAddress
  73. RemoteAddress *NetAddress
  74. }
  75. func NewMConnection(conn net.Conn, chDescs []*ChannelDescriptor, onReceive receiveCbFunc, onError errorCbFunc) *MConnection {
  76. mconn := &MConnection{
  77. conn: conn,
  78. bufReader: bufio.NewReaderSize(conn, minReadBufferSize),
  79. bufWriter: bufio.NewWriterSize(conn, minWriteBufferSize),
  80. sendMonitor: flow.New(0, 0),
  81. recvMonitor: flow.New(0, 0),
  82. sendRate: defaultSendRate,
  83. recvRate: defaultRecvRate,
  84. flushTimer: NewThrottleTimer("flush", flushThrottleMS*time.Millisecond),
  85. send: make(chan struct{}, 1),
  86. quit: make(chan struct{}),
  87. pingTimer: NewRepeatTimer("ping", pingTimeoutMinutes*time.Minute),
  88. pong: make(chan struct{}),
  89. chStatsTimer: NewRepeatTimer("chStats", updateStatsSeconds*time.Second),
  90. onReceive: onReceive,
  91. onError: onError,
  92. LocalAddress: NewNetAddress(conn.LocalAddr()),
  93. RemoteAddress: NewNetAddress(conn.RemoteAddr()),
  94. }
  95. // Create channels
  96. var channelsIdx = map[byte]*Channel{}
  97. var channels = []*Channel{}
  98. for _, desc := range chDescs {
  99. channel := newChannel(mconn, desc)
  100. channelsIdx[channel.id] = channel
  101. channels = append(channels, channel)
  102. }
  103. mconn.channels = channels
  104. mconn.channelsIdx = channelsIdx
  105. return mconn
  106. }
  107. // .Start() begins multiplexing packets to and from "channels".
  108. func (c *MConnection) Start() {
  109. if atomic.CompareAndSwapUint32(&c.started, 0, 1) {
  110. log.Debug("Starting MConnection", "connection", c)
  111. go c.sendRoutine()
  112. go c.recvRoutine()
  113. }
  114. }
  115. func (c *MConnection) Stop() {
  116. if atomic.CompareAndSwapUint32(&c.stopped, 0, 1) {
  117. log.Debug("Stopping MConnection", "connection", c)
  118. close(c.quit)
  119. c.conn.Close()
  120. c.flushTimer.Stop()
  121. c.chStatsTimer.Stop()
  122. c.pingTimer.Stop()
  123. // We can't close pong safely here because
  124. // recvRoutine may write to it after we've stopped.
  125. // Though it doesn't need to get closed at all,
  126. // we close it @ recvRoutine.
  127. // close(c.pong)
  128. }
  129. }
  130. func (c *MConnection) String() string {
  131. return fmt.Sprintf("MConn{%v}", c.conn.RemoteAddr())
  132. }
  133. func (c *MConnection) flush() {
  134. err := c.bufWriter.Flush()
  135. if err != nil {
  136. if atomic.LoadUint32(&c.stopped) != 1 {
  137. log.Warn("MConnection flush failed", "error", err)
  138. }
  139. }
  140. }
  141. // Catch panics, usually caused by remote disconnects.
  142. func (c *MConnection) _recover() {
  143. if r := recover(); r != nil {
  144. stack := debug.Stack()
  145. err := StackError{r, stack}
  146. c.stopForError(err)
  147. }
  148. }
  149. func (c *MConnection) stopForError(r interface{}) {
  150. c.Stop()
  151. if atomic.CompareAndSwapUint32(&c.errored, 0, 1) {
  152. if c.onError != nil {
  153. c.onError(r)
  154. }
  155. }
  156. }
  157. // Queues a message to be sent to channel.
  158. func (c *MConnection) Send(chId byte, msg interface{}) bool {
  159. if atomic.LoadUint32(&c.stopped) == 1 {
  160. return false
  161. }
  162. log.Debug("Send", "channel", chId, "connection", c, "msg", msg, "bytes", binary.BinaryBytes(msg))
  163. // Send message to channel.
  164. channel, ok := c.channelsIdx[chId]
  165. if !ok {
  166. log.Error(Fmt("Cannot send bytes, unknown channel %X", chId))
  167. return false
  168. }
  169. success := channel.sendBytes(binary.BinaryBytes(msg))
  170. // Wake up sendRoutine if necessary
  171. select {
  172. case c.send <- struct{}{}:
  173. default:
  174. }
  175. return success
  176. }
  177. // Queues a message to be sent to channel.
  178. // Nonblocking, returns true if successful.
  179. func (c *MConnection) TrySend(chId byte, msg interface{}) bool {
  180. if atomic.LoadUint32(&c.stopped) == 1 {
  181. return false
  182. }
  183. log.Debug("TrySend", "channel", chId, "connection", c, "msg", msg)
  184. // Send message to channel.
  185. channel, ok := c.channelsIdx[chId]
  186. if !ok {
  187. log.Error(Fmt("Cannot send bytes, unknown channel %X", chId))
  188. return false
  189. }
  190. ok = channel.trySendBytes(binary.BinaryBytes(msg))
  191. if ok {
  192. // Wake up sendRoutine if necessary
  193. select {
  194. case c.send <- struct{}{}:
  195. default:
  196. }
  197. }
  198. return ok
  199. }
  200. func (c *MConnection) CanSend(chId byte) bool {
  201. if atomic.LoadUint32(&c.stopped) == 1 {
  202. return false
  203. }
  204. channel, ok := c.channelsIdx[chId]
  205. if !ok {
  206. log.Error(Fmt("Unknown channel %X", chId))
  207. return false
  208. }
  209. return channel.canSend()
  210. }
  211. // sendRoutine polls for packets to send from channels.
  212. func (c *MConnection) sendRoutine() {
  213. defer c._recover()
  214. FOR_LOOP:
  215. for {
  216. var n int64
  217. var err error
  218. select {
  219. case <-c.flushTimer.Ch:
  220. // NOTE: flushTimer.Set() must be called every time
  221. // something is written to .bufWriter.
  222. c.flush()
  223. case <-c.chStatsTimer.Ch:
  224. for _, channel := range c.channels {
  225. channel.updateStats()
  226. }
  227. case <-c.pingTimer.Ch:
  228. log.Debug("Send Ping")
  229. binary.WriteByte(packetTypePing, c.bufWriter, &n, &err)
  230. c.sendMonitor.Update(int(n))
  231. c.flush()
  232. case <-c.pong:
  233. log.Debug("Send Pong")
  234. binary.WriteByte(packetTypePong, c.bufWriter, &n, &err)
  235. c.sendMonitor.Update(int(n))
  236. c.flush()
  237. case <-c.quit:
  238. break FOR_LOOP
  239. case <-c.send:
  240. // Send some msgPackets
  241. eof := c.sendSomeMsgPackets()
  242. if !eof {
  243. // Keep sendRoutine awake.
  244. select {
  245. case c.send <- struct{}{}:
  246. default:
  247. }
  248. }
  249. }
  250. if atomic.LoadUint32(&c.stopped) == 1 {
  251. break FOR_LOOP
  252. }
  253. if err != nil {
  254. log.Warn("Connection failed @ sendRoutine", "connection", c, "error", err)
  255. c.stopForError(err)
  256. break FOR_LOOP
  257. }
  258. }
  259. // Cleanup
  260. }
  261. // Returns true if messages from channels were exhausted.
  262. // Blocks in accordance to .sendMonitor throttling.
  263. func (c *MConnection) sendSomeMsgPackets() bool {
  264. // Block until .sendMonitor says we can write.
  265. // Once we're ready we send more than we asked for,
  266. // but amortized it should even out.
  267. c.sendMonitor.Limit(maxMsgPacketSize, atomic.LoadInt64(&c.sendRate), true)
  268. // Now send some msgPackets.
  269. for i := 0; i < numBatchMsgPackets; i++ {
  270. if c.sendMsgPacket() {
  271. return true
  272. }
  273. }
  274. return false
  275. }
  276. // Returns true if messages from channels were exhausted.
  277. func (c *MConnection) sendMsgPacket() bool {
  278. // Choose a channel to create a msgPacket from.
  279. // The chosen channel will be the one whose recentlySent/priority is the least.
  280. var leastRatio float32 = math.MaxFloat32
  281. var leastChannel *Channel
  282. for _, channel := range c.channels {
  283. // If nothing to send, skip this channel
  284. if !channel.isSendPending() {
  285. continue
  286. }
  287. // Get ratio, and keep track of lowest ratio.
  288. ratio := float32(channel.recentlySent) / float32(channel.priority)
  289. if ratio < leastRatio {
  290. leastRatio = ratio
  291. leastChannel = channel
  292. }
  293. }
  294. // Nothing to send?
  295. if leastChannel == nil {
  296. return true
  297. } else {
  298. // log.Debug("Found a msgPacket to send")
  299. }
  300. // Make & send a msgPacket from this channel
  301. n, err := leastChannel.writeMsgPacketTo(c.bufWriter)
  302. if err != nil {
  303. log.Warn("Failed to write msgPacket", "error", err)
  304. c.stopForError(err)
  305. return true
  306. }
  307. c.sendMonitor.Update(int(n))
  308. c.flushTimer.Set()
  309. return false
  310. }
  311. // recvRoutine reads msgPackets and reconstructs the message using the channels' "recving" buffer.
  312. // After a whole message has been assembled, it's pushed to onReceive().
  313. // Blocks depending on how the connection is throttled.
  314. func (c *MConnection) recvRoutine() {
  315. defer c._recover()
  316. FOR_LOOP:
  317. for {
  318. // Block until .recvMonitor says we can read.
  319. c.recvMonitor.Limit(maxMsgPacketSize, atomic.LoadInt64(&c.recvRate), true)
  320. // Peek into bufReader for debugging
  321. if numBytes := c.bufReader.Buffered(); numBytes > 0 {
  322. log.Debug("Peek connection buffer", "numBytes", numBytes, "bytes", log15.Lazy{func() []byte {
  323. bytes, err := c.bufReader.Peek(MinInt(numBytes, 100))
  324. if err == nil {
  325. return bytes
  326. } else {
  327. log.Warn("Error peeking connection buffer", "error", err)
  328. return nil
  329. }
  330. }})
  331. }
  332. // Read packet type
  333. var n int64
  334. var err error
  335. pktType := binary.ReadByte(c.bufReader, &n, &err)
  336. c.recvMonitor.Update(int(n))
  337. if err != nil {
  338. if atomic.LoadUint32(&c.stopped) != 1 {
  339. log.Warn("Connection failed @ recvRoutine", "connection", c, "error", err)
  340. c.stopForError(err)
  341. }
  342. break FOR_LOOP
  343. }
  344. // Read more depending on packet type.
  345. switch pktType {
  346. case packetTypePing:
  347. // TODO: prevent abuse, as they cause flush()'s.
  348. log.Debug("Receive Ping")
  349. c.pong <- struct{}{}
  350. case packetTypePong:
  351. // do nothing
  352. log.Debug("Receive Pong")
  353. case packetTypeMsg:
  354. pkt, n, err := msgPacket{}, new(int64), new(error)
  355. binary.ReadBinary(&pkt, c.bufReader, n, err)
  356. c.recvMonitor.Update(int(*n))
  357. if *err != nil {
  358. if atomic.LoadUint32(&c.stopped) != 1 {
  359. log.Warn("Connection failed @ recvRoutine", "connection", c, "error", *err)
  360. c.stopForError(*err)
  361. }
  362. break FOR_LOOP
  363. }
  364. channel, ok := c.channelsIdx[pkt.ChannelId]
  365. if !ok || channel == nil {
  366. panic(Fmt("Unknown channel %X", pkt.ChannelId))
  367. }
  368. msgBytes := channel.recvMsgPacket(pkt)
  369. if msgBytes != nil {
  370. c.onReceive(pkt.ChannelId, msgBytes)
  371. }
  372. default:
  373. panic(Fmt("Unknown message type %X", pktType))
  374. }
  375. // TODO: shouldn't this go in the sendRoutine?
  376. // Better to send a ping packet when *we* haven't sent anything for a while.
  377. c.pingTimer.Reset()
  378. }
  379. // Cleanup
  380. close(c.pong)
  381. for _ = range c.pong {
  382. // Drain
  383. }
  384. }
  385. //-----------------------------------------------------------------------------
  386. type ChannelDescriptor struct {
  387. Id byte
  388. Priority uint
  389. SendQueueCapacity uint
  390. RecvBufferCapacity uint
  391. }
  392. func (chDesc *ChannelDescriptor) FillDefaults() {
  393. if chDesc.SendQueueCapacity == 0 {
  394. chDesc.SendQueueCapacity = defaultSendQueueCapacity
  395. }
  396. if chDesc.RecvBufferCapacity == 0 {
  397. chDesc.RecvBufferCapacity = defaultRecvBufferCapacity
  398. }
  399. }
  400. // TODO: lowercase.
  401. // NOTE: not goroutine-safe.
  402. type Channel struct {
  403. conn *MConnection
  404. desc *ChannelDescriptor
  405. id byte
  406. sendQueue chan []byte
  407. sendQueueSize uint32 // atomic.
  408. recving []byte
  409. sending []byte
  410. priority uint
  411. recentlySent int64 // exponential moving average
  412. }
  413. func newChannel(conn *MConnection, desc *ChannelDescriptor) *Channel {
  414. desc.FillDefaults()
  415. if desc.Priority <= 0 {
  416. panic("Channel default priority must be a postive integer")
  417. }
  418. return &Channel{
  419. conn: conn,
  420. desc: desc,
  421. id: desc.Id,
  422. sendQueue: make(chan []byte, desc.SendQueueCapacity),
  423. recving: make([]byte, 0, desc.RecvBufferCapacity),
  424. priority: desc.Priority,
  425. }
  426. }
  427. // Queues message to send to this channel.
  428. // Goroutine-safe
  429. // Times out (and returns false) after defaultSendTimeoutSeconds
  430. func (ch *Channel) sendBytes(bytes []byte) bool {
  431. sendTicker := time.NewTicker(defaultSendTimeoutSeconds * time.Second)
  432. select {
  433. case <-sendTicker.C:
  434. // timeout
  435. return false
  436. case ch.sendQueue <- bytes:
  437. atomic.AddUint32(&ch.sendQueueSize, 1)
  438. return true
  439. }
  440. }
  441. // Queues message to send to this channel.
  442. // Nonblocking, returns true if successful.
  443. // Goroutine-safe
  444. func (ch *Channel) trySendBytes(bytes []byte) bool {
  445. select {
  446. case ch.sendQueue <- bytes:
  447. atomic.AddUint32(&ch.sendQueueSize, 1)
  448. return true
  449. default:
  450. return false
  451. }
  452. }
  453. // Goroutine-safe
  454. func (ch *Channel) loadSendQueueSize() (size int) {
  455. return int(atomic.LoadUint32(&ch.sendQueueSize))
  456. }
  457. // Goroutine-safe
  458. // Use only as a heuristic.
  459. func (ch *Channel) canSend() bool {
  460. return ch.loadSendQueueSize() < defaultSendQueueCapacity
  461. }
  462. // Returns true if any msgPackets are pending to be sent.
  463. // Call before calling nextMsgPacket()
  464. // Goroutine-safe
  465. func (ch *Channel) isSendPending() bool {
  466. if len(ch.sending) == 0 {
  467. if len(ch.sendQueue) == 0 {
  468. return false
  469. }
  470. ch.sending = <-ch.sendQueue
  471. }
  472. return true
  473. }
  474. // Creates a new msgPacket to send.
  475. // Not goroutine-safe
  476. func (ch *Channel) nextMsgPacket() msgPacket {
  477. packet := msgPacket{}
  478. packet.ChannelId = byte(ch.id)
  479. packet.Bytes = ch.sending[:MinInt(maxMsgPacketSize, len(ch.sending))]
  480. if len(ch.sending) <= maxMsgPacketSize {
  481. packet.EOF = byte(0x01)
  482. ch.sending = nil
  483. atomic.AddUint32(&ch.sendQueueSize, ^uint32(0)) // decrement sendQueueSize
  484. } else {
  485. packet.EOF = byte(0x00)
  486. ch.sending = ch.sending[MinInt(maxMsgPacketSize, len(ch.sending)):]
  487. }
  488. return packet
  489. }
  490. // Writes next msgPacket to w.
  491. // Not goroutine-safe
  492. func (ch *Channel) writeMsgPacketTo(w io.Writer) (n int64, err error) {
  493. packet := ch.nextMsgPacket()
  494. binary.WriteByte(packetTypeMsg, w, &n, &err)
  495. binary.WriteBinary(packet, w, &n, &err)
  496. if err != nil {
  497. ch.recentlySent += n
  498. }
  499. return
  500. }
  501. // Handles incoming msgPackets. Returns a msg bytes if msg is complete.
  502. // Not goroutine-safe
  503. func (ch *Channel) recvMsgPacket(pkt msgPacket) []byte {
  504. ch.recving = append(ch.recving, pkt.Bytes...)
  505. if pkt.EOF == byte(0x01) {
  506. msgBytes := ch.recving
  507. ch.recving = make([]byte, 0, defaultRecvBufferCapacity)
  508. return msgBytes
  509. }
  510. return nil
  511. }
  512. // Call this periodically to update stats for throttling purposes.
  513. // Not goroutine-safe
  514. func (ch *Channel) updateStats() {
  515. // Exponential decay of stats.
  516. // TODO: optimize.
  517. ch.recentlySent = int64(float64(ch.recentlySent) * 0.5)
  518. }
  519. //-----------------------------------------------------------------------------
  520. const (
  521. maxMsgPacketSize = 1024
  522. packetTypePing = byte(0x00)
  523. packetTypePong = byte(0x01)
  524. packetTypeMsg = byte(0x10)
  525. )
  526. // Messages in channels are chopped into smaller msgPackets for multiplexing.
  527. type msgPacket struct {
  528. ChannelId byte
  529. EOF byte // 1 means message ends here.
  530. Bytes []byte
  531. }
  532. func (p msgPacket) String() string {
  533. return fmt.Sprintf("MsgPacket{%X:%X}", p.ChannelId, p.Bytes)
  534. }
  535. //-----------------------------------------------------------------------------
  536. // Convenience struct for writing typed messages.
  537. // Reading requires a custom decoder that switches on the first type byte of a byteslice.
  538. type TypedMessage struct {
  539. Type byte
  540. Msg interface{}
  541. }
  542. func (tm TypedMessage) String() string {
  543. return fmt.Sprintf("TMsg{%X:%v}", tm.Type, tm.Msg)
  544. }