package statesync
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import (
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"context"
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"errors"
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"fmt"
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"sort"
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"time"
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abci "github.com/tendermint/tendermint/abci/types"
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"github.com/tendermint/tendermint/libs/log"
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"github.com/tendermint/tendermint/libs/service"
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tmsync "github.com/tendermint/tendermint/libs/sync"
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"github.com/tendermint/tendermint/p2p"
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ssproto "github.com/tendermint/tendermint/proto/tendermint/statesync"
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"github.com/tendermint/tendermint/proxy"
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sm "github.com/tendermint/tendermint/state"
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"github.com/tendermint/tendermint/types"
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)
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var (
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_ service.Service = (*Reactor)(nil)
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_ p2p.Wrapper = (*ssproto.Message)(nil)
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// ChannelShims contains a map of ChannelDescriptorShim objects, where each
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// object wraps a reference to a legacy p2p ChannelDescriptor and the corresponding
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// p2p proto.Message the new p2p Channel is responsible for handling.
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//
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//
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// TODO: Remove once p2p refactor is complete.
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// ref: https://github.com/tendermint/tendermint/issues/5670
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ChannelShims = map[p2p.ChannelID]*p2p.ChannelDescriptorShim{
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SnapshotChannel: {
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MsgType: new(ssproto.Message),
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Descriptor: &p2p.ChannelDescriptor{
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ID: byte(SnapshotChannel),
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Priority: 5,
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SendQueueCapacity: 10,
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RecvMessageCapacity: snapshotMsgSize,
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MaxSendBytes: 400,
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},
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},
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ChunkChannel: {
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MsgType: new(ssproto.Message),
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Descriptor: &p2p.ChannelDescriptor{
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ID: byte(ChunkChannel),
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Priority: 1,
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SendQueueCapacity: 4,
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RecvMessageCapacity: chunkMsgSize,
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MaxSendBytes: 400,
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},
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},
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}
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)
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const (
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// SnapshotChannel exchanges snapshot metadata
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SnapshotChannel = p2p.ChannelID(0x60)
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// ChunkChannel exchanges chunk contents
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ChunkChannel = p2p.ChannelID(0x61)
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// recentSnapshots is the number of recent snapshots to send and receive per peer.
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recentSnapshots = 10
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// snapshotMsgSize is the maximum size of a snapshotResponseMessage
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snapshotMsgSize = int(4e6)
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// chunkMsgSize is the maximum size of a chunkResponseMessage
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chunkMsgSize = int(16e6)
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)
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// Reactor handles state sync, both restoring snapshots for the local node and
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// serving snapshots for other nodes.
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type Reactor struct {
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service.BaseService
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conn proxy.AppConnSnapshot
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connQuery proxy.AppConnQuery
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tempDir string
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snapshotCh *p2p.Channel
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chunkCh *p2p.Channel
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peerUpdates *p2p.PeerUpdates
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closeCh chan struct{}
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// This will only be set when a state sync is in progress. It is used to feed
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// received snapshots and chunks into the sync.
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mtx tmsync.RWMutex
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syncer *syncer
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}
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// NewReactor returns a reference to a new state sync reactor, which implements
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// the service.Service interface. It accepts a logger, connections for snapshots
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// and querying, references to p2p Channels and a channel to listen for peer
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// updates on. Note, the reactor will close all p2p Channels when stopping.
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func NewReactor(
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logger log.Logger,
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conn proxy.AppConnSnapshot,
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connQuery proxy.AppConnQuery,
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snapshotCh, chunkCh *p2p.Channel,
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peerUpdates *p2p.PeerUpdates,
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tempDir string,
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) *Reactor {
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r := &Reactor{
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conn: conn,
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connQuery: connQuery,
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snapshotCh: snapshotCh,
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chunkCh: chunkCh,
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peerUpdates: peerUpdates,
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closeCh: make(chan struct{}),
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tempDir: tempDir,
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}
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r.BaseService = *service.NewBaseService(logger, "StateSync", r)
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return r
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}
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// OnStart starts separate go routines for each p2p Channel and listens for
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// envelopes on each. In addition, it also listens for peer updates and handles
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// messages on that p2p channel accordingly. The caller must be sure to execute
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// OnStop to ensure the outbound p2p Channels are closed. No error is returned.
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func (r *Reactor) OnStart() error {
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// Listen for envelopes on the snapshot p2p Channel in a separate go-routine
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// as to not block or cause IO contention with the chunk p2p Channel. Note,
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// we do not launch a go-routine to handle individual envelopes as to not
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// have to deal with bounding workers or pools.
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go r.processSnapshotCh()
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// Listen for envelopes on the chunk p2p Channel in a separate go-routine
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// as to not block or cause IO contention with the snapshot p2p Channel. Note,
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// we do not launch a go-routine to handle individual envelopes as to not
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// have to deal with bounding workers or pools.
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go r.processChunkCh()
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go r.processPeerUpdates()
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return nil
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}
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// OnStop stops the reactor by signaling to all spawned goroutines to exit and
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// blocking until they all exit.
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func (r *Reactor) OnStop() {
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// Close closeCh to signal to all spawned goroutines to gracefully exit. All
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// p2p Channels should execute Close().
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close(r.closeCh)
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// Wait for all p2p Channels to be closed before returning. This ensures we
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// can easily reason about synchronization of all p2p Channels and ensure no
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// panics will occur.
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<-r.snapshotCh.Done()
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<-r.chunkCh.Done()
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<-r.peerUpdates.Done()
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}
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// handleSnapshotMessage handles envelopes sent from peers on the
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// SnapshotChannel. It returns an error only if the Envelope.Message is unknown
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// for this channel. This should never be called outside of handleMessage.
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func (r *Reactor) handleSnapshotMessage(envelope p2p.Envelope) error {
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logger := r.Logger.With("peer", envelope.From)
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switch msg := envelope.Message.(type) {
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case *ssproto.SnapshotsRequest:
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snapshots, err := r.recentSnapshots(recentSnapshots)
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if err != nil {
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logger.Error("failed to fetch snapshots", "err", err)
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return nil
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}
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for _, snapshot := range snapshots {
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logger.Debug(
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"advertising snapshot",
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"height", snapshot.Height,
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"format", snapshot.Format,
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)
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r.snapshotCh.Out <- p2p.Envelope{
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To: envelope.From,
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Message: &ssproto.SnapshotsResponse{
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Height: snapshot.Height,
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Format: snapshot.Format,
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Chunks: snapshot.Chunks,
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Hash: snapshot.Hash,
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Metadata: snapshot.Metadata,
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},
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}
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}
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case *ssproto.SnapshotsResponse:
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r.mtx.RLock()
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defer r.mtx.RUnlock()
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if r.syncer == nil {
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logger.Debug("received unexpected snapshot; no state sync in progress")
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return nil
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}
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logger.Debug("received snapshot", "height", msg.Height, "format", msg.Format)
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_, err := r.syncer.AddSnapshot(envelope.From, &snapshot{
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Height: msg.Height,
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Format: msg.Format,
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Chunks: msg.Chunks,
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Hash: msg.Hash,
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Metadata: msg.Metadata,
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})
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if err != nil {
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logger.Error(
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"failed to add snapshot",
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"height", msg.Height,
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"format", msg.Format,
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"err", err,
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"channel", r.snapshotCh.ID,
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)
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return nil
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}
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default:
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return fmt.Errorf("received unknown message: %T", msg)
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}
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return nil
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}
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// handleChunkMessage handles envelopes sent from peers on the ChunkChannel.
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// It returns an error only if the Envelope.Message is unknown for this channel.
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// This should never be called outside of handleMessage.
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func (r *Reactor) handleChunkMessage(envelope p2p.Envelope) error {
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switch msg := envelope.Message.(type) {
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case *ssproto.ChunkRequest:
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r.Logger.Debug(
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"received chunk request",
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"height", msg.Height,
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"format", msg.Format,
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"chunk", msg.Index,
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"peer", envelope.From,
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)
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resp, err := r.conn.LoadSnapshotChunkSync(context.Background(), abci.RequestLoadSnapshotChunk{
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Height: msg.Height,
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Format: msg.Format,
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Chunk: msg.Index,
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})
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if err != nil {
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r.Logger.Error(
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"failed to load chunk",
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"height", msg.Height,
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"format", msg.Format,
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"chunk", msg.Index,
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"err", err,
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"peer", envelope.From,
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)
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return nil
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}
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r.Logger.Debug(
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"sending chunk",
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"height", msg.Height,
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"format", msg.Format,
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"chunk", msg.Index,
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"peer", envelope.From,
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)
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r.chunkCh.Out <- p2p.Envelope{
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To: envelope.From,
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Message: &ssproto.ChunkResponse{
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Height: msg.Height,
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Format: msg.Format,
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Index: msg.Index,
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Chunk: resp.Chunk,
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Missing: resp.Chunk == nil,
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},
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}
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case *ssproto.ChunkResponse:
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r.mtx.RLock()
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defer r.mtx.RUnlock()
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if r.syncer == nil {
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r.Logger.Debug("received unexpected chunk; no state sync in progress", "peer", envelope.From)
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return nil
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}
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r.Logger.Debug(
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"received chunk; adding to sync",
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"height", msg.Height,
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"format", msg.Format,
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"chunk", msg.Index,
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"peer", envelope.From,
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)
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_, err := r.syncer.AddChunk(&chunk{
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Height: msg.Height,
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Format: msg.Format,
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Index: msg.Index,
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Chunk: msg.Chunk,
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Sender: envelope.From,
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})
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if err != nil {
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r.Logger.Error(
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"failed to add chunk",
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"height", msg.Height,
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"format", msg.Format,
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"chunk", msg.Index,
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"err", err,
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"peer", envelope.From,
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)
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return nil
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}
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default:
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return fmt.Errorf("received unknown message: %T", msg)
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}
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return nil
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}
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// handleMessage handles an Envelope sent from a peer on a specific p2p Channel.
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// It will handle errors and any possible panics gracefully. A caller can handle
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// any error returned by sending a PeerError on the respective channel.
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func (r *Reactor) handleMessage(chID p2p.ChannelID, envelope p2p.Envelope) (err error) {
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defer func() {
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if e := recover(); e != nil {
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err = fmt.Errorf("panic in processing message: %v", e)
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}
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}()
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r.Logger.Debug("received message", "message", envelope.Message, "peer", envelope.From)
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switch chID {
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case SnapshotChannel:
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err = r.handleSnapshotMessage(envelope)
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case ChunkChannel:
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err = r.handleChunkMessage(envelope)
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default:
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err = fmt.Errorf("unknown channel ID (%d) for envelope (%v)", chID, envelope)
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}
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return err
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}
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// processSnapshotCh initiates a blocking process where we listen for and handle
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// envelopes on the SnapshotChannel. Any error encountered during message
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// execution will result in a PeerError being sent on the SnapshotChannel. When
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// the reactor is stopped, we will catch the signal and close the p2p Channel
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// gracefully.
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func (r *Reactor) processSnapshotCh() {
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defer r.snapshotCh.Close()
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for {
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select {
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case envelope := <-r.snapshotCh.In:
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if err := r.handleMessage(r.snapshotCh.ID, envelope); err != nil {
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r.Logger.Error("failed to process message", "ch_id", r.snapshotCh.ID, "envelope", envelope, "err", err)
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r.snapshotCh.Error <- p2p.PeerError{
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NodeID: envelope.From,
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Err: err,
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}
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}
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case <-r.closeCh:
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r.Logger.Debug("stopped listening on snapshot channel; closing...")
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return
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}
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}
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}
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// processChunkCh initiates a blocking process where we listen for and handle
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// envelopes on the ChunkChannel. Any error encountered during message
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// execution will result in a PeerError being sent on the ChunkChannel. When
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// the reactor is stopped, we will catch the signal and close the p2p Channel
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// gracefully.
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func (r *Reactor) processChunkCh() {
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defer r.chunkCh.Close()
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for {
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select {
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case envelope := <-r.chunkCh.In:
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if err := r.handleMessage(r.chunkCh.ID, envelope); err != nil {
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r.Logger.Error("failed to process message", "ch_id", r.chunkCh.ID, "envelope", envelope, "err", err)
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r.chunkCh.Error <- p2p.PeerError{
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NodeID: envelope.From,
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Err: err,
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}
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}
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case <-r.closeCh:
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r.Logger.Debug("stopped listening on chunk channel; closing...")
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return
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}
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}
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}
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// processPeerUpdate processes a PeerUpdate, returning an error upon failing to
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// handle the PeerUpdate or if a panic is recovered.
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func (r *Reactor) processPeerUpdate(peerUpdate p2p.PeerUpdate) {
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r.Logger.Debug("received peer update", "peer", peerUpdate.NodeID, "status", peerUpdate.Status)
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r.mtx.RLock()
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defer r.mtx.RUnlock()
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if r.syncer != nil {
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switch peerUpdate.Status {
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case p2p.PeerStatusUp:
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r.syncer.AddPeer(peerUpdate.NodeID)
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case p2p.PeerStatusDown:
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r.syncer.RemovePeer(peerUpdate.NodeID)
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}
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}
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}
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// processPeerUpdates initiates a blocking process where we listen for and handle
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// PeerUpdate messages. When the reactor is stopped, we will catch the signal and
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// close the p2p PeerUpdatesCh gracefully.
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func (r *Reactor) processPeerUpdates() {
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defer r.peerUpdates.Close()
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for {
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select {
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case peerUpdate := <-r.peerUpdates.Updates():
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r.processPeerUpdate(peerUpdate)
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case <-r.closeCh:
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r.Logger.Debug("stopped listening on peer updates channel; closing...")
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return
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}
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}
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}
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// recentSnapshots fetches the n most recent snapshots from the app
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func (r *Reactor) recentSnapshots(n uint32) ([]*snapshot, error) {
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resp, err := r.conn.ListSnapshotsSync(context.Background(), abci.RequestListSnapshots{})
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if err != nil {
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return nil, err
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}
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sort.Slice(resp.Snapshots, func(i, j int) bool {
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a := resp.Snapshots[i]
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b := resp.Snapshots[j]
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switch {
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case a.Height > b.Height:
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return true
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case a.Height == b.Height && a.Format > b.Format:
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return true
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default:
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return false
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}
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})
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snapshots := make([]*snapshot, 0, n)
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for i, s := range resp.Snapshots {
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if i >= recentSnapshots {
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break
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}
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snapshots = append(snapshots, &snapshot{
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Height: s.Height,
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Format: s.Format,
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Chunks: s.Chunks,
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Hash: s.Hash,
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Metadata: s.Metadata,
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})
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}
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return snapshots, nil
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}
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|
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// Sync runs a state sync, returning the new state and last commit at the snapshot height.
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// The caller must store the state and commit in the state database and block store.
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func (r *Reactor) Sync(stateProvider StateProvider, discoveryTime time.Duration) (sm.State, *types.Commit, error) {
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r.mtx.Lock()
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if r.syncer != nil {
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r.mtx.Unlock()
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return sm.State{}, nil, errors.New("a state sync is already in progress")
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}
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r.syncer = newSyncer(r.Logger, r.conn, r.connQuery, stateProvider, r.snapshotCh.Out, r.chunkCh.Out, r.tempDir)
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r.mtx.Unlock()
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|
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// request snapshots from all currently connected peers
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r.Logger.Debug("requesting snapshots from known peers")
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r.snapshotCh.Out <- p2p.Envelope{
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Broadcast: true,
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Message: &ssproto.SnapshotsRequest{},
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}
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state, commit, err := r.syncer.SyncAny(discoveryTime)
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r.mtx.Lock()
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r.syncer = nil
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r.mtx.Unlock()
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return state, commit, err
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|
}
|