- package v2
-
- import (
- "bytes"
- "fmt"
- "math"
- "sort"
- "time"
-
- "github.com/tendermint/tendermint/p2p"
- "github.com/tendermint/tendermint/types"
- )
-
- // Events generated by the scheduler:
- // all blocks have been processed
- type scFinishedEv struct {
- priorityNormal
- reason string
- }
-
- // send a blockRequest message
- type scBlockRequest struct {
- priorityNormal
- peerID p2p.ID
- height int64
- }
-
- // a block has been received and validated by the scheduler
- type scBlockReceived struct {
- priorityNormal
- peerID p2p.ID
- block *types.Block
- }
-
- // scheduler detected a peer error
- type scPeerError struct {
- priorityHigh
- peerID p2p.ID
- reason error
- }
-
- func (e scPeerError) String() string {
- return fmt.Sprintf("scPeerError - peerID %s, err %s", e.peerID, e.reason)
- }
-
- // scheduler removed a set of peers (timed out or slow peer)
- type scPeersPruned struct {
- priorityHigh
- peers []p2p.ID
- }
-
- // XXX: make this fatal?
- // scheduler encountered a fatal error
- type scSchedulerFail struct {
- priorityHigh
- reason error
- }
-
- type blockState int
-
- const (
- blockStateUnknown blockState = iota + 1 // no known peer has this block
- blockStateNew // indicates that a peer has reported having this block
- blockStatePending // indicates that this block has been requested from a peer
- blockStateReceived // indicates that this block has been received by a peer
- blockStateProcessed // indicates that this block has been applied
- )
-
- func (e blockState) String() string {
- switch e {
- case blockStateUnknown:
- return "Unknown"
- case blockStateNew:
- return "New"
- case blockStatePending:
- return "Pending"
- case blockStateReceived:
- return "Received"
- case blockStateProcessed:
- return "Processed"
- default:
- return fmt.Sprintf("invalid blockState: %d", e)
- }
- }
-
- type peerState int
-
- const (
- peerStateNew = iota + 1
- peerStateReady
- peerStateRemoved
- )
-
- func (e peerState) String() string {
- switch e {
- case peerStateNew:
- return "New"
- case peerStateReady:
- return "Ready"
- case peerStateRemoved:
- return "Removed"
- default:
- panic(fmt.Sprintf("unknown peerState: %d", e))
- }
- }
-
- type scPeer struct {
- peerID p2p.ID
-
- // initialized as New when peer is added, updated to Ready when statusUpdate is received,
- // updated to Removed when peer is removed
- state peerState
-
- base int64 // updated when statusResponse is received
- height int64 // updated when statusResponse is received
- lastTouched time.Time
- lastRate int64 // last receive rate in bytes
- }
-
- func (p scPeer) String() string {
- return fmt.Sprintf("{state %v, base %d, height %d, lastTouched %v, lastRate %d, id %v}",
- p.state, p.base, p.height, p.lastTouched, p.lastRate, p.peerID)
- }
-
- func newScPeer(peerID p2p.ID) *scPeer {
- return &scPeer{
- peerID: peerID,
- state: peerStateNew,
- base: -1,
- height: -1,
- lastTouched: time.Time{},
- }
- }
-
- // The scheduler keep track of the state of each block and each peer. The
- // scheduler will attempt to schedule new block requests with `trySchedule`
- // events and remove slow peers with `tryPrune` events.
- type scheduler struct {
- initHeight int64
-
- // next block that needs to be processed. All blocks with smaller height are
- // in Processed state.
- height int64
-
- // lastAdvance tracks the last time a block execution happened.
- // syncTimeout is the maximum time the scheduler waits to advance in the fast sync process before finishing.
- // This covers the cases where there are no peers or all peers have a lower height.
- lastAdvance time.Time
- syncTimeout time.Duration
-
- // a map of peerID to scheduler specific peer struct `scPeer` used to keep
- // track of peer specific state
- peers map[p2p.ID]*scPeer
- peerTimeout time.Duration // maximum response time from a peer otherwise prune
- minRecvRate int64 // minimum receive rate from peer otherwise prune
-
- // the maximum number of blocks that should be New, Received or Pending at any point
- // in time. This is used to enforce a limit on the blockStates map.
- targetPending int
- // a list of blocks to be scheduled (New), Pending or Received. Its length should be
- // smaller than targetPending.
- blockStates map[int64]blockState
-
- // a map of heights to the peer we are waiting a response from
- pendingBlocks map[int64]p2p.ID
-
- // the time at which a block was put in blockStatePending
- pendingTime map[int64]time.Time
-
- // a map of heights to the peers that put the block in blockStateReceived
- receivedBlocks map[int64]p2p.ID
- }
-
- func (sc scheduler) String() string {
- return fmt.Sprintf("ih: %d, bst: %v, peers: %v, pblks: %v, ptm %v, rblks: %v",
- sc.initHeight, sc.blockStates, sc.peers, sc.pendingBlocks, sc.pendingTime, sc.receivedBlocks)
- }
-
- func newScheduler(initHeight int64, startTime time.Time) *scheduler {
- sc := scheduler{
- initHeight: initHeight,
- lastAdvance: startTime,
- syncTimeout: 60 * time.Second,
- height: initHeight + 1,
- blockStates: make(map[int64]blockState),
- peers: make(map[p2p.ID]*scPeer),
- pendingBlocks: make(map[int64]p2p.ID),
- pendingTime: make(map[int64]time.Time),
- receivedBlocks: make(map[int64]p2p.ID),
- targetPending: 10, // TODO - pass as param
- peerTimeout: 15 * time.Second, // TODO - pass as param
- minRecvRate: 0, //int64(7680), TODO - pass as param
- }
-
- return &sc
- }
-
- func (sc *scheduler) addPeer(peerID p2p.ID) error {
- if _, ok := sc.peers[peerID]; ok {
- // In the future we should be able to add a previously removed peer
- return fmt.Errorf("cannot add duplicate peer %s", peerID)
- }
- sc.peers[peerID] = newScPeer(peerID)
- return nil
- }
-
- func (sc *scheduler) touchPeer(peerID p2p.ID, time time.Time) error {
- peer, ok := sc.peers[peerID]
- if !ok {
- return fmt.Errorf("couldn't find peer %s", peerID)
- }
-
- if peer.state != peerStateReady {
- return fmt.Errorf("tried to touch peer in state %s, must be Ready", peer.state)
- }
-
- peer.lastTouched = time
-
- return nil
- }
-
- func (sc *scheduler) removePeer(peerID p2p.ID) error {
- peer, ok := sc.peers[peerID]
- if !ok {
- return fmt.Errorf("couldn't find peer %s", peerID)
- }
-
- if peer.state == peerStateRemoved {
- return fmt.Errorf("tried to remove peer %s in peerStateRemoved", peerID)
- }
-
- for height, pendingPeerID := range sc.pendingBlocks {
- if pendingPeerID == peerID {
- sc.setStateAtHeight(height, blockStateNew)
- delete(sc.pendingTime, height)
- delete(sc.pendingBlocks, height)
- }
- }
-
- for height, rcvPeerID := range sc.receivedBlocks {
- if rcvPeerID == peerID {
- sc.setStateAtHeight(height, blockStateNew)
- delete(sc.receivedBlocks, height)
- }
- }
-
- // remove the blocks from blockStates if the peer removal causes the max peer height to be lower.
- peer.state = peerStateRemoved
- maxPeerHeight := int64(0)
- for _, otherPeer := range sc.peers {
- if otherPeer.state != peerStateReady {
- continue
- }
- if otherPeer.peerID != peer.peerID && otherPeer.height > maxPeerHeight {
- maxPeerHeight = otherPeer.height
- }
- }
- for h := range sc.blockStates {
- if h > maxPeerHeight {
- delete(sc.blockStates, h)
- }
- }
-
- return nil
- }
-
- // check if the blockPool is running low and add new blocks in New state to be requested.
- // This function is called when there is an increase in the maximum peer height or when
- // blocks are processed.
- func (sc *scheduler) addNewBlocks() {
- if len(sc.blockStates) >= sc.targetPending {
- return
- }
-
- for i := sc.height; i < int64(sc.targetPending)+sc.height; i++ {
- if i > sc.maxHeight() {
- break
- }
- if sc.getStateAtHeight(i) == blockStateUnknown {
- sc.setStateAtHeight(i, blockStateNew)
- }
- }
- }
-
- func (sc *scheduler) setPeerRange(peerID p2p.ID, base int64, height int64) error {
- peer, ok := sc.peers[peerID]
- if !ok {
- return fmt.Errorf("cannot find peer %s", peerID)
- }
-
- if peer.state == peerStateRemoved {
- return fmt.Errorf("cannot set peer height for a peer in peerStateRemoved")
- }
-
- if height < peer.height {
- sc.removePeer(peerID)
- return fmt.Errorf("cannot move peer height lower. from %d to %d", peer.height, height)
- }
-
- if base > height {
- return fmt.Errorf("cannot set peer base higher than its height")
- }
-
- peer.base = base
- peer.height = height
- peer.state = peerStateReady
-
- sc.addNewBlocks()
- return nil
- }
-
- func (sc *scheduler) getStateAtHeight(height int64) blockState {
- if height < sc.height {
- return blockStateProcessed
- } else if state, ok := sc.blockStates[height]; ok {
- return state
- } else {
- return blockStateUnknown
- }
- }
-
- func (sc *scheduler) getPeersWithHeight(height int64) []p2p.ID {
- peers := make([]p2p.ID, 0)
- for _, peer := range sc.peers {
- if peer.state != peerStateReady {
- continue
- }
- if peer.base <= height && peer.height >= height {
- peers = append(peers, peer.peerID)
- }
- }
- return peers
- }
-
- func (sc *scheduler) prunablePeers(peerTimout time.Duration, minRecvRate int64, now time.Time) []p2p.ID {
- prunable := make([]p2p.ID, 0)
- for peerID, peer := range sc.peers {
- if peer.state != peerStateReady {
- continue
- }
- if now.Sub(peer.lastTouched) > peerTimout || peer.lastRate < minRecvRate {
- prunable = append(prunable, peerID)
- }
- }
- // Tests for handleTryPrunePeer() may fail without sort due to range non-determinism
- sort.Sort(PeerByID(prunable))
- return prunable
- }
-
- func (sc *scheduler) setStateAtHeight(height int64, state blockState) {
- sc.blockStates[height] = state
- }
-
- func (sc *scheduler) markReceived(peerID p2p.ID, height int64, size int64, now time.Time) error {
- peer, ok := sc.peers[peerID]
- if !ok {
- return fmt.Errorf("couldn't find peer %s", peerID)
- }
-
- if peer.state != peerStateReady {
- return fmt.Errorf("cannot receive blocks from not ready peer %s", peerID)
- }
-
- if state := sc.getStateAtHeight(height); state != blockStatePending || sc.pendingBlocks[height] != peerID {
- return fmt.Errorf("received block %d from peer %s without being requested", height, peerID)
- }
-
- pendingTime, ok := sc.pendingTime[height]
- if !ok || now.Sub(pendingTime) <= 0 {
- return fmt.Errorf("clock error: block %d received at %s but requested at %s",
- height, pendingTime, now)
- }
-
- peer.lastRate = size / now.Sub(pendingTime).Nanoseconds()
-
- sc.setStateAtHeight(height, blockStateReceived)
- delete(sc.pendingBlocks, height)
- delete(sc.pendingTime, height)
-
- sc.receivedBlocks[height] = peerID
-
- return nil
- }
-
- func (sc *scheduler) markPending(peerID p2p.ID, height int64, time time.Time) error {
- state := sc.getStateAtHeight(height)
- if state != blockStateNew {
- return fmt.Errorf("block %d should be in blockStateNew but is %s", height, state)
- }
-
- peer, ok := sc.peers[peerID]
- if !ok {
- return fmt.Errorf("cannot find peer %s", peerID)
- }
-
- if peer.state != peerStateReady {
- return fmt.Errorf("cannot schedule %d from %s in %s", height, peerID, peer.state)
- }
-
- if height > peer.height {
- return fmt.Errorf("cannot request height %d from peer %s that is at height %d",
- height, peerID, peer.height)
- }
-
- if height < peer.base {
- return fmt.Errorf("cannot request height %d for peer %s with base %d",
- height, peerID, peer.base)
- }
-
- sc.setStateAtHeight(height, blockStatePending)
- sc.pendingBlocks[height] = peerID
- sc.pendingTime[height] = time
-
- return nil
- }
-
- func (sc *scheduler) markProcessed(height int64) error {
- sc.lastAdvance = time.Now()
- state := sc.getStateAtHeight(height)
- if state != blockStateReceived {
- return fmt.Errorf("cannot mark height %d received from block state %s", height, state)
- }
-
- sc.height++
- delete(sc.receivedBlocks, height)
- delete(sc.blockStates, height)
- sc.addNewBlocks()
-
- return nil
- }
-
- func (sc *scheduler) allBlocksProcessed() bool {
- if len(sc.peers) == 0 {
- return false
- }
- return sc.height >= sc.maxHeight()
- }
-
- // returns max peer height or the last processed block, i.e. sc.height
- func (sc *scheduler) maxHeight() int64 {
- max := sc.height - 1
- for _, peer := range sc.peers {
- if peer.state != peerStateReady {
- continue
- }
- if max < peer.height {
- max = peer.height
- }
- }
- return max
- }
-
- // lowest block in sc.blockStates with state == blockStateNew or -1 if no new blocks
- func (sc *scheduler) nextHeightToSchedule() int64 {
- var min int64 = math.MaxInt64
- for height, state := range sc.blockStates {
- if state == blockStateNew && height < min {
- min = height
- }
- }
- if min == math.MaxInt64 {
- min = -1
- }
- return min
- }
-
- func (sc *scheduler) pendingFrom(peerID p2p.ID) []int64 {
- var heights []int64
- for height, pendingPeerID := range sc.pendingBlocks {
- if pendingPeerID == peerID {
- heights = append(heights, height)
- }
- }
- return heights
- }
-
- func (sc *scheduler) selectPeer(height int64) (p2p.ID, error) {
- peers := sc.getPeersWithHeight(height)
- if len(peers) == 0 {
- return "", fmt.Errorf("cannot find peer for height %d", height)
- }
-
- // create a map from number of pending requests to a list
- // of peers having that number of pending requests.
- pendingFrom := make(map[int][]p2p.ID)
- for _, peerID := range peers {
- numPending := len(sc.pendingFrom(peerID))
- pendingFrom[numPending] = append(pendingFrom[numPending], peerID)
- }
-
- // find the set of peers with minimum number of pending requests.
- var minPending int64 = math.MaxInt64
- for mp := range pendingFrom {
- if int64(mp) < minPending {
- minPending = int64(mp)
- }
- }
-
- sort.Sort(PeerByID(pendingFrom[int(minPending)]))
- return pendingFrom[int(minPending)][0], nil
- }
-
- // PeerByID is a list of peers sorted by peerID.
- type PeerByID []p2p.ID
-
- func (peers PeerByID) Len() int {
- return len(peers)
- }
- func (peers PeerByID) Less(i, j int) bool {
- return bytes.Compare([]byte(peers[i]), []byte(peers[j])) == -1
- }
-
- func (peers PeerByID) Swap(i, j int) {
- it := peers[i]
- peers[i] = peers[j]
- peers[j] = it
- }
-
- // Handlers
-
- // This handler gets the block, performs some validation and then passes it on to the processor.
- func (sc *scheduler) handleBlockResponse(event bcBlockResponse) (Event, error) {
- err := sc.touchPeer(event.peerID, event.time)
- if err != nil {
- return scPeerError{peerID: event.peerID, reason: err}, nil
- }
-
- err = sc.markReceived(event.peerID, event.block.Height, event.size, event.time)
- if err != nil {
- _ = sc.removePeer(event.peerID)
- return scPeerError{peerID: event.peerID, reason: err}, nil
- }
-
- return scBlockReceived{peerID: event.peerID, block: event.block}, nil
- }
-
- func (sc *scheduler) handleNoBlockResponse(event bcNoBlockResponse) (Event, error) {
- if len(sc.peers) == 0 {
- return noOp, nil
- }
-
- peer, ok := sc.peers[event.peerID]
- if !ok || peer.state == peerStateRemoved {
- return noOp, nil
- }
- // The peer may have been just removed due to errors, low speed or timeouts.
- _ = sc.removePeer(event.peerID)
-
- return scPeerError{peerID: event.peerID,
- reason: fmt.Errorf("peer %v with base %d height %d claims no block for %d",
- event.peerID, peer.base, peer.height, event.height)}, nil
- }
-
- func (sc *scheduler) handleBlockProcessed(event pcBlockProcessed) (Event, error) {
- if event.height != sc.height {
- panic(fmt.Sprintf("processed height %d but expected height %d", event.height, sc.height))
- }
- err := sc.markProcessed(event.height)
- if err != nil {
- // It is possible that a peer error or timeout is handled after the processor
- // has processed the block but before the scheduler received this event,
- // so when pcBlockProcessed event is received the block had been requested again.
- return scSchedulerFail{reason: err}, nil
- }
-
- if sc.allBlocksProcessed() {
- return scFinishedEv{reason: "processed all blocks"}, nil
- }
-
- return noOp, nil
- }
-
- // Handles an error from the processor. The processor had already cleaned the blocks from
- // the peers included in this event. Just attempt to remove the peers.
- func (sc *scheduler) handleBlockProcessError(event pcBlockVerificationFailure) (Event, error) {
- if len(sc.peers) == 0 {
- return noOp, nil
- }
- // The peers may have been just removed due to errors, low speed or timeouts.
- _ = sc.removePeer(event.firstPeerID)
- if event.firstPeerID != event.secondPeerID {
- _ = sc.removePeer(event.secondPeerID)
- }
-
- if sc.allBlocksProcessed() {
- return scFinishedEv{reason: "error on last block"}, nil
- }
-
- return noOp, nil
- }
-
- func (sc *scheduler) handleAddNewPeer(event bcAddNewPeer) (Event, error) {
- err := sc.addPeer(event.peerID)
- if err != nil {
- return scSchedulerFail{reason: err}, nil
- }
- return noOp, nil
- }
-
- func (sc *scheduler) handleRemovePeer(event bcRemovePeer) (Event, error) {
- err := sc.removePeer(event.peerID)
- if err != nil {
- // XXX - It is possible that the removePeer fails here for legitimate reasons
- // for example if a peer timeout or error was handled just before this.
- return scSchedulerFail{reason: err}, nil
- }
- if sc.allBlocksProcessed() {
- return scFinishedEv{reason: "removed peer"}, nil
- }
- return noOp, nil
- }
-
- func (sc *scheduler) handleTryPrunePeer(event rTryPrunePeer) (Event, error) {
-
- // Check behavior of peer responsible to deliver block at sc.height.
- timeHeightAsked, ok := sc.pendingTime[sc.height]
- if ok && time.Since(timeHeightAsked) > sc.peerTimeout {
- // A request was sent to a peer for block at sc.height but a response was not received
- // from that peer within sc.peerTimeout. Remove the peer. This is to ensure that a peer
- // will be timed out even if it sends blocks at higher heights but prevents progress by
- // not sending the block at current height.
- sc.removePeer(sc.pendingBlocks[sc.height])
- }
-
- prunablePeers := sc.prunablePeers(sc.peerTimeout, sc.minRecvRate, event.time)
- if len(prunablePeers) == 0 {
- return noOp, nil
- }
- for _, peerID := range prunablePeers {
- err := sc.removePeer(peerID)
- if err != nil {
- // Should never happen as prunablePeers() returns only existing peers in Ready state.
- panic("scheduler data corruption")
- }
- }
-
- // If all blocks are processed we should finish.
- if sc.allBlocksProcessed() {
- return scFinishedEv{reason: "after try prune"}, nil
- }
-
- return scPeersPruned{peers: prunablePeers}, nil
-
- }
-
- func (sc *scheduler) handleTrySchedule(event rTrySchedule) (Event, error) {
- if time.Since(sc.lastAdvance) > sc.syncTimeout {
- return scFinishedEv{reason: "timeout, no advance"}, nil
- }
-
- nextHeight := sc.nextHeightToSchedule()
- if nextHeight == -1 {
- return noOp, nil
- }
-
- bestPeerID, err := sc.selectPeer(nextHeight)
- if err != nil {
- return scSchedulerFail{reason: err}, nil
- }
- if err := sc.markPending(bestPeerID, nextHeight, event.time); err != nil {
- return scSchedulerFail{reason: err}, nil // XXX: peerError might be more appropriate
- }
- return scBlockRequest{peerID: bestPeerID, height: nextHeight}, nil
-
- }
-
- func (sc *scheduler) handleStatusResponse(event bcStatusResponse) (Event, error) {
- err := sc.setPeerRange(event.peerID, event.base, event.height)
- if err != nil {
- return scPeerError{peerID: event.peerID, reason: err}, nil
- }
- return noOp, nil
- }
-
- func (sc *scheduler) handle(event Event) (Event, error) {
- switch event := event.(type) {
- case bcStatusResponse:
- nextEvent, err := sc.handleStatusResponse(event)
- return nextEvent, err
- case bcBlockResponse:
- nextEvent, err := sc.handleBlockResponse(event)
- return nextEvent, err
- case bcNoBlockResponse:
- nextEvent, err := sc.handleNoBlockResponse(event)
- return nextEvent, err
- case rTrySchedule:
- nextEvent, err := sc.handleTrySchedule(event)
- return nextEvent, err
- case bcAddNewPeer:
- nextEvent, err := sc.handleAddNewPeer(event)
- return nextEvent, err
- case bcRemovePeer:
- nextEvent, err := sc.handleRemovePeer(event)
- return nextEvent, err
- case rTryPrunePeer:
- nextEvent, err := sc.handleTryPrunePeer(event)
- return nextEvent, err
- case pcBlockProcessed:
- nextEvent, err := sc.handleBlockProcessed(event)
- return nextEvent, err
- case pcBlockVerificationFailure:
- nextEvent, err := sc.handleBlockProcessError(event)
- return nextEvent, err
- default:
- return scSchedulerFail{reason: fmt.Errorf("unknown event %v", event)}, nil
- }
- }
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