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- package blockchain
-
- import (
- "math"
- "sync"
- "time"
-
- flow "github.com/tendermint/flowcontrol"
- . "github.com/tendermint/go-common"
- "github.com/tendermint/tendermint/types"
- )
-
- const (
- requestIntervalMS = 250
- maxTotalRequesters = 300
- maxPendingRequests = maxTotalRequesters
- maxPendingRequestsPerPeer = 75
- peerTimeoutSeconds = 15
- minRecvRate = 10240 // 10Kb/s
- )
-
- /*
- Peers self report their heights when we join the block pool.
- Starting from our latest pool.height, we request blocks
- in sequence from peers that reported higher heights than ours.
- Every so often we ask peers what height they're on so we can keep going.
-
- Requests are continuously made for blocks of heigher heights until
- the limits. If most of the requests have no available peers, and we
- are not at peer limits, we can probably switch to consensus reactor
- */
-
- type BlockPool struct {
- QuitService
- startTime time.Time
-
- // block requests
- mtx sync.Mutex
- requesters map[int]*bpRequester
- height int // the lowest key in requesters.
- numPending int32 // number of requests pending assignment or block response
-
- // peers
- peersMtx sync.Mutex
- peers map[string]*bpPeer
-
- requestsCh chan<- BlockRequest
- timeoutsCh chan<- string
- }
-
- func NewBlockPool(start int, requestsCh chan<- BlockRequest, timeoutsCh chan<- string) *BlockPool {
- bp := &BlockPool{
- peers: make(map[string]*bpPeer),
-
- requesters: make(map[int]*bpRequester),
- height: start,
- numPending: 0,
-
- requestsCh: requestsCh,
- timeoutsCh: timeoutsCh,
- }
- bp.QuitService = *NewQuitService(log, "BlockPool", bp)
- return bp
- }
-
- func (pool *BlockPool) OnStart() error {
- pool.QuitService.OnStart()
- go pool.makeRequestersRoutine()
- pool.startTime = time.Now()
- return nil
- }
-
- func (pool *BlockPool) OnStop() {
- pool.QuitService.OnStop()
- }
-
- // Run spawns requesters as needed.
- func (pool *BlockPool) makeRequestersRoutine() {
- for {
- if !pool.IsRunning() {
- break
- }
- _, numPending := pool.GetStatus()
- if numPending >= maxPendingRequests {
- // sleep for a bit.
- time.Sleep(requestIntervalMS * time.Millisecond)
- // check for timed out peers
- pool.removeTimedoutPeers()
- } else if len(pool.requesters) >= maxTotalRequesters {
- // sleep for a bit.
- time.Sleep(requestIntervalMS * time.Millisecond)
- // check for timed out peers
- pool.removeTimedoutPeers()
- } else {
- // request for more blocks.
- pool.makeNextRequester()
- }
- }
- }
-
- func (pool *BlockPool) removeTimedoutPeers() {
- for _, peer := range pool.peers {
- if !peer.didTimeout && peer.numPending > 0 {
- curRate := peer.recvMonitor.Status().CurRate
- // XXX remove curRate != 0
- if curRate != 0 && curRate < minRecvRate {
- pool.sendTimeout(peer.id)
- log.Warn("SendTimeout", "peer", peer.id, "reason", "curRate too low")
- peer.didTimeout = true
- }
- }
- if peer.didTimeout {
- pool.peersMtx.Lock() // Lock
- pool.removePeer(peer.id)
- pool.peersMtx.Unlock()
- }
- }
- }
-
- func (pool *BlockPool) GetStatus() (height int, numPending int32) {
- pool.mtx.Lock() // Lock
- defer pool.mtx.Unlock()
-
- return pool.height, pool.numPending
- }
-
- // TODO: relax conditions, prevent abuse.
- func (pool *BlockPool) IsCaughtUp() bool {
- pool.mtx.Lock()
- height := pool.height
- pool.mtx.Unlock()
-
- // Need at least 1 peer to be considered caught up.
- if len(pool.peers) == 0 {
- return false
- }
-
- pool.peersMtx.Lock()
- maxPeerHeight := 0
- for _, peer := range pool.peers {
- maxPeerHeight = MaxInt(maxPeerHeight, peer.height)
- }
- pool.peersMtx.Unlock()
-
- return (height > 0 || time.Now().Sub(pool.startTime) > 5*time.Second) && (maxPeerHeight == 0 || height == maxPeerHeight)
- }
-
- // We need to see the second block's Validation to validate the first block.
- // So we peek two blocks at a time.
- func (pool *BlockPool) PeekTwoBlocks() (first *types.Block, second *types.Block) {
- pool.mtx.Lock() // Lock
- defer pool.mtx.Unlock()
-
- if r := pool.requesters[pool.height]; r != nil {
- first = r.getBlock()
- }
- if r := pool.requesters[pool.height+1]; r != nil {
- second = r.getBlock()
- }
- return
- }
-
- // Pop the first block at pool.height
- // It must have been validated by 'second'.Validation from PeekTwoBlocks().
- func (pool *BlockPool) PopRequest() {
- pool.mtx.Lock() // Lock
- defer pool.mtx.Unlock()
-
- if r := pool.requesters[pool.height]; r != nil {
- /* The block can disappear at any time, due to removePeer().
- if r := pool.requesters[pool.height]; r == nil || r.block == nil {
- PanicSanity("PopRequest() requires a valid block")
- }
- */
- r.Stop()
- delete(pool.requesters, pool.height)
- pool.height++
- } else {
- PanicSanity(Fmt("Expected requester to pop, got nothing at height %v", pool.height))
- }
- }
-
- // Invalidates the block at pool.height,
- // Remove the peer and redo request from others.
- func (pool *BlockPool) RedoRequest(height int) {
- pool.mtx.Lock() // Lock
- defer pool.mtx.Unlock()
-
- request := pool.requesters[height]
- if request.block == nil {
- PanicSanity("Expected block to be non-nil")
- }
- // RemovePeer will redo all requesters associated with this peer.
- // TODO: record this malfeasance
- pool.RemovePeer(request.peerID) // Lock on peersMtx.
- }
-
- // TODO: ensure that blocks come in order for each peer.
- func (pool *BlockPool) AddBlock(peerID string, block *types.Block, blockSize int) {
- pool.mtx.Lock() // Lock
- defer pool.mtx.Unlock()
-
- requester := pool.requesters[block.Height]
- if requester == nil {
- return
- }
-
- if requester.setBlock(block, peerID) {
- pool.numPending--
- peer := pool.getPeer(peerID)
- peer.decrPending(blockSize)
- } else {
- // Bad peer?
- }
- }
-
- // Sets the peer's alleged blockchain height.
- func (pool *BlockPool) SetPeerHeight(peerID string, height int) {
- pool.peersMtx.Lock() // Lock
- defer pool.peersMtx.Unlock()
-
- peer := pool.peers[peerID]
- if peer != nil {
- peer.height = height
- } else {
- peer = newBPPeer(pool, peerID, height)
- pool.peers[peerID] = peer
- }
- }
-
- func (pool *BlockPool) RemovePeer(peerID string) {
- pool.peersMtx.Lock() // Lock
- defer pool.peersMtx.Unlock()
-
- pool.removePeer(peerID)
- }
-
- func (pool *BlockPool) removePeer(peerID string) {
- for _, requester := range pool.requesters {
- if requester.getPeerID() == peerID {
- pool.numPending++
- go requester.redo() // pick another peer and ...
- }
- }
- delete(pool.peers, peerID)
- }
-
- func (pool *BlockPool) getPeer(peerID string) *bpPeer {
- pool.peersMtx.Lock() // Lock
- defer pool.peersMtx.Unlock()
-
- peer := pool.peers[peerID]
- return peer
- }
-
- // Pick an available peer with at least the given minHeight.
- // If no peers are available, returns nil.
- func (pool *BlockPool) pickIncrAvailablePeer(minHeight int) *bpPeer {
- pool.peersMtx.Lock()
- defer pool.peersMtx.Unlock()
-
- for _, peer := range pool.peers {
- if peer.isBad() {
- pool.removePeer(peer.id)
- continue
- } else {
- }
- if peer.numPending >= maxPendingRequestsPerPeer {
- continue
- }
- if peer.height < minHeight {
- continue
- }
- peer.incrPending()
- return peer
- }
- return nil
- }
-
- func (pool *BlockPool) makeNextRequester() {
- pool.mtx.Lock() // Lock
- defer pool.mtx.Unlock()
-
- nextHeight := pool.height + len(pool.requesters)
- request := newBPRequester(pool, nextHeight)
-
- pool.requesters[nextHeight] = request
- pool.numPending++
-
- request.Start()
- }
-
- func (pool *BlockPool) sendRequest(height int, peerID string) {
- if !pool.IsRunning() {
- return
- }
- pool.requestsCh <- BlockRequest{height, peerID}
- }
-
- func (pool *BlockPool) sendTimeout(peerID string) {
- if !pool.IsRunning() {
- return
- }
- pool.timeoutsCh <- peerID
- }
-
- func (pool *BlockPool) debug() string {
- pool.mtx.Lock() // Lock
- defer pool.mtx.Unlock()
-
- str := ""
- for h := pool.height; h < pool.height+len(pool.requesters); h++ {
- if pool.requesters[h] == nil {
- str += Fmt("H(%v):X ", h)
- } else {
- str += Fmt("H(%v):", h)
- str += Fmt("B?(%v) ", pool.requesters[h].block != nil)
- }
- }
- return str
- }
-
- //-------------------------------------
-
- type bpPeer struct {
- pool *BlockPool
- id string
- height int
- numPending int32
- recvMonitor *flow.Monitor
- timeout *time.Timer
- didTimeout bool
- }
-
- func newBPPeer(pool *BlockPool, peerID string, height int) *bpPeer {
- peer := &bpPeer{
- pool: pool,
- id: peerID,
- height: height,
- numPending: 0,
- }
- return peer
- }
-
- func (peer *bpPeer) resetMonitor() {
- peer.recvMonitor = flow.New(time.Second, time.Second*40)
- var initialValue = float64(minRecvRate) * math.E
- peer.recvMonitor.SetREMA(initialValue)
- }
-
- func (peer *bpPeer) resetTimeout() {
- if peer.timeout == nil {
- peer.timeout = time.AfterFunc(time.Second*peerTimeoutSeconds, peer.onTimeout)
- } else {
- peer.timeout.Reset(time.Second * peerTimeoutSeconds)
- }
- }
-
- func (peer *bpPeer) incrPending() {
- if peer.numPending == 0 {
- peer.resetMonitor()
- peer.resetTimeout()
- }
- peer.numPending++
- }
-
- func (peer *bpPeer) decrPending(recvSize int) {
- peer.numPending--
- if peer.numPending == 0 {
- peer.timeout.Stop()
- } else {
- peer.recvMonitor.Update(recvSize)
- peer.resetTimeout()
- }
- }
-
- func (peer *bpPeer) onTimeout() {
- peer.pool.sendTimeout(peer.id)
- log.Warn("SendTimeout", "peer", peer.id, "reason", "onTimeout")
- peer.didTimeout = true
- }
-
- func (peer *bpPeer) isBad() bool {
- return peer.didTimeout
- }
-
- //-------------------------------------
-
- type bpRequester struct {
- QuitService
- pool *BlockPool
- height int
- gotBlockCh chan struct{}
- redoCh chan struct{}
-
- mtx sync.Mutex
- peerID string
- block *types.Block
- }
-
- func newBPRequester(pool *BlockPool, height int) *bpRequester {
- bpr := &bpRequester{
- pool: pool,
- height: height,
- gotBlockCh: make(chan struct{}),
- redoCh: make(chan struct{}),
-
- peerID: "",
- block: nil,
- }
- bpr.QuitService = *NewQuitService(nil, "bpRequester", bpr)
- return bpr
- }
-
- func (bpr *bpRequester) OnStart() error {
- bpr.QuitService.OnStart()
- go bpr.requestRoutine()
- return nil
- }
-
- // Returns true if the peer matches
- func (bpr *bpRequester) setBlock(block *types.Block, peerID string) bool {
- bpr.mtx.Lock()
- if bpr.block != nil || bpr.peerID != peerID {
- bpr.mtx.Unlock()
- return false
- }
- bpr.block = block
- bpr.mtx.Unlock()
-
- bpr.gotBlockCh <- struct{}{}
- return true
- }
-
- func (bpr *bpRequester) getBlock() *types.Block {
- bpr.mtx.Lock()
- defer bpr.mtx.Unlock()
- return bpr.block
- }
-
- func (bpr *bpRequester) getPeerID() string {
- bpr.mtx.Lock()
- defer bpr.mtx.Unlock()
- return bpr.peerID
- }
-
- func (bpr *bpRequester) reset() {
- bpr.mtx.Lock()
- bpr.peerID = ""
- bpr.block = nil
- bpr.mtx.Unlock()
- }
-
- // Tells bpRequester to pick another peer and try again.
- // NOTE: blocking
- func (bpr *bpRequester) redo() {
- bpr.redoCh <- struct{}{}
- }
-
- // Responsible for making more requests as necessary
- // Returns only when a block is found (e.g. AddBlock() is called)
- func (bpr *bpRequester) requestRoutine() {
- OUTER_LOOP:
- for {
- // Pick a peer to send request to.
- var peer *bpPeer = nil
- PICK_PEER_LOOP:
- for {
- if !bpr.IsRunning() || !bpr.pool.IsRunning() {
- return
- }
- peer = bpr.pool.pickIncrAvailablePeer(bpr.height)
- if peer == nil {
- //log.Info("No peers available", "height", height)
- time.Sleep(requestIntervalMS * time.Millisecond)
- continue PICK_PEER_LOOP
- }
- break PICK_PEER_LOOP
- }
- bpr.mtx.Lock()
- bpr.peerID = peer.id
- bpr.mtx.Unlock()
-
- // Send request and wait.
- bpr.pool.sendRequest(bpr.height, peer.id)
- select {
- case <-bpr.pool.Quit:
- bpr.Stop()
- return
- case <-bpr.Quit:
- return
- case <-bpr.redoCh:
- bpr.reset()
- continue OUTER_LOOP // When peer is removed
- case <-bpr.gotBlockCh:
- // We got the block, now see if it's good.
- select {
- case <-bpr.pool.Quit:
- bpr.Stop()
- return
- case <-bpr.Quit:
- return
- case <-bpr.redoCh:
- bpr.reset()
- continue OUTER_LOOP
- }
- }
- }
- }
-
- //-------------------------------------
-
- type BlockRequest struct {
- Height int
- PeerID string
- }
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