package v1 import ( "fmt" "math" "time" flow "github.com/tendermint/tendermint/libs/flowrate" "github.com/tendermint/tendermint/libs/log" "github.com/tendermint/tendermint/p2p" "github.com/tendermint/tendermint/types" ) //-------- // Peer // BpPeerParams stores the peer parameters that are used when creating a peer. type BpPeerParams struct { timeout time.Duration minRecvRate int64 sampleRate time.Duration windowSize time.Duration } // BpPeer is the datastructure associated with a fast sync peer. type BpPeer struct { logger log.Logger ID p2p.ID Base int64 // the peer reported base Height int64 // the peer reported height NumPendingBlockRequests int // number of requests still waiting for block responses blocks map[int64]*types.Block // blocks received or expected to be received from this peer blockResponseTimer *time.Timer recvMonitor *flow.Monitor params *BpPeerParams // parameters for timer and monitor onErr func(err error, peerID p2p.ID) // function to call on error } // NewBpPeer creates a new peer. func NewBpPeer(peerID p2p.ID, base int64, height int64, onErr func(err error, peerID p2p.ID), params *BpPeerParams) *BpPeer { if params == nil { params = BpPeerDefaultParams() } return &BpPeer{ ID: peerID, Base: base, Height: height, blocks: make(map[int64]*types.Block, maxRequestsPerPeer), logger: log.NewNopLogger(), onErr: onErr, params: params, } } // String returns a string representation of a peer. func (peer *BpPeer) String() string { return fmt.Sprintf("peer: %v height: %v pending: %v", peer.ID, peer.Height, peer.NumPendingBlockRequests) } // SetLogger sets the logger of the peer. func (peer *BpPeer) SetLogger(l log.Logger) { peer.logger = l } // Cleanup performs cleanup of the peer, removes blocks, requests, stops timer and monitor. func (peer *BpPeer) Cleanup() { if peer.blockResponseTimer != nil { peer.blockResponseTimer.Stop() } if peer.NumPendingBlockRequests != 0 { peer.logger.Info("peer with pending requests is being cleaned", "peer", peer.ID) } if len(peer.blocks)-peer.NumPendingBlockRequests != 0 { peer.logger.Info("peer with pending blocks is being cleaned", "peer", peer.ID) } for h := range peer.blocks { delete(peer.blocks, h) } peer.NumPendingBlockRequests = 0 peer.recvMonitor = nil } // BlockAtHeight returns the block at a given height if available and errMissingBlock otherwise. func (peer *BpPeer) BlockAtHeight(height int64) (*types.Block, error) { block, ok := peer.blocks[height] if !ok { return nil, errMissingBlock } if block == nil { return nil, errMissingBlock } return peer.blocks[height], nil } // AddBlock adds a block at peer level. Block must be non-nil and recvSize a positive integer // The peer must have a pending request for this block. func (peer *BpPeer) AddBlock(block *types.Block, recvSize int) error { if block == nil || recvSize < 0 { panic("bad parameters") } existingBlock, ok := peer.blocks[block.Height] if !ok { peer.logger.Error("unsolicited block", "blockHeight", block.Height, "peer", peer.ID) return errMissingBlock } if existingBlock != nil { peer.logger.Error("already have a block for height", "height", block.Height) return errDuplicateBlock } if peer.NumPendingBlockRequests == 0 { panic("peer does not have pending requests") } peer.blocks[block.Height] = block peer.NumPendingBlockRequests-- if peer.NumPendingBlockRequests == 0 { peer.stopMonitor() peer.stopBlockResponseTimer() } else { peer.recvMonitor.Update(recvSize) peer.resetBlockResponseTimer() } return nil } // RemoveBlock removes the block of given height func (peer *BpPeer) RemoveBlock(height int64) { delete(peer.blocks, height) } // RequestSent records that a request was sent, and starts the peer timer and monitor if needed. func (peer *BpPeer) RequestSent(height int64) { peer.blocks[height] = nil if peer.NumPendingBlockRequests == 0 { peer.startMonitor() peer.resetBlockResponseTimer() } peer.NumPendingBlockRequests++ } // CheckRate verifies that the response rate of the peer is acceptable (higher than the minimum allowed). func (peer *BpPeer) CheckRate() error { if peer.NumPendingBlockRequests == 0 { return nil } curRate := peer.recvMonitor.Status().CurRate // curRate can be 0 on start if curRate != 0 && curRate < peer.params.minRecvRate { err := errSlowPeer peer.logger.Error("SendTimeout", "peer", peer, "reason", err, "curRate", fmt.Sprintf("%d KB/s", curRate/1024), "minRate", fmt.Sprintf("%d KB/s", peer.params.minRecvRate/1024)) return err } return nil } func (peer *BpPeer) onTimeout() { peer.onErr(errNoPeerResponse, peer.ID) } func (peer *BpPeer) stopMonitor() { peer.recvMonitor.Done() peer.recvMonitor = nil } func (peer *BpPeer) startMonitor() { peer.recvMonitor = flow.New(peer.params.sampleRate, peer.params.windowSize) initialValue := float64(peer.params.minRecvRate) * math.E peer.recvMonitor.SetREMA(initialValue) } func (peer *BpPeer) resetBlockResponseTimer() { if peer.blockResponseTimer == nil { peer.blockResponseTimer = time.AfterFunc(peer.params.timeout, peer.onTimeout) } else { peer.blockResponseTimer.Reset(peer.params.timeout) } } func (peer *BpPeer) stopBlockResponseTimer() bool { if peer.blockResponseTimer == nil { return false } return peer.blockResponseTimer.Stop() } // BpPeerDefaultParams returns the default peer parameters. func BpPeerDefaultParams() *BpPeerParams { return &BpPeerParams{ // Timeout for a peer to respond to a block request. timeout: 15 * time.Second, // Minimum recv rate to ensure we're receiving blocks from a peer fast // enough. If a peer is not sending data at at least that rate, we // consider them to have timedout and we disconnect. // // Assuming a DSL connection (not a good choice) 128 Kbps (upload) ~ 15 KB/s, // sending data across atlantic ~ 7.5 KB/s. minRecvRate: int64(7680), // Monitor parameters sampleRate: time.Second, windowSize: 40 * time.Second, } }