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package statesync
import (
"context"
"crypto/sha256"
"fmt"
"math/rand"
"sort"
"strings"
"time"
tmsync "github.com/tendermint/tendermint/libs/sync"
"github.com/tendermint/tendermint/p2p"
)
// snapshotKey is a snapshot key used for lookups.
type snapshotKey [sha256.Size]byte
// snapshot contains data about a snapshot.
type snapshot struct {
Height uint64
Format uint32
Chunks uint32
Hash []byte
Metadata []byte
trustedAppHash []byte // populated by light client
}
// Key generates a snapshot key, used for lookups. It takes into account not only the height and
// format, but also the chunks, hash, and metadata in case peers have generated snapshots in a
// non-deterministic manner. All fields must be equal for the snapshot to be considered the same.
func (s *snapshot) Key() snapshotKey {
// Hash.Write() never returns an error.
hasher := sha256.New()
hasher.Write([]byte(fmt.Sprintf("%v:%v:%v", s.Height, s.Format, s.Chunks)))
hasher.Write(s.Hash)
hasher.Write(s.Metadata)
var key snapshotKey
copy(key[:], hasher.Sum(nil))
return key
}
// snapshotPool discovers and aggregates snapshots across peers.
type snapshotPool struct {
stateProvider StateProvider
tmsync.Mutex
snapshots map[snapshotKey]*snapshot
snapshotPeers map[snapshotKey]map[p2p.NodeID]p2p.NodeID
// indexes for fast searches
formatIndex map[uint32]map[snapshotKey]bool
heightIndex map[uint64]map[snapshotKey]bool
peerIndex map[p2p.NodeID]map[snapshotKey]bool
// blacklists for rejected items
formatBlacklist map[uint32]bool
peerBlacklist map[p2p.NodeID]bool
snapshotBlacklist map[snapshotKey]bool
}
// newSnapshotPool creates a new snapshot pool. The state source is used for
func newSnapshotPool(stateProvider StateProvider) *snapshotPool {
return &snapshotPool{
stateProvider: stateProvider,
snapshots: make(map[snapshotKey]*snapshot),
snapshotPeers: make(map[snapshotKey]map[p2p.NodeID]p2p.NodeID),
formatIndex: make(map[uint32]map[snapshotKey]bool),
heightIndex: make(map[uint64]map[snapshotKey]bool),
peerIndex: make(map[p2p.NodeID]map[snapshotKey]bool),
formatBlacklist: make(map[uint32]bool),
peerBlacklist: make(map[p2p.NodeID]bool),
snapshotBlacklist: make(map[snapshotKey]bool),
}
}
// Add adds a snapshot to the pool, unless the peer has already sent recentSnapshots
// snapshots. It returns true if this was a new, non-blacklisted snapshot. The
// snapshot height is verified using the light client, and the expected app hash
// is set for the snapshot.
func (p *snapshotPool) Add(peerID p2p.NodeID, snapshot *snapshot) (bool, error) {
ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second)
defer cancel()
appHash, err := p.stateProvider.AppHash(ctx, snapshot.Height)
if err != nil {
return false, err
}
snapshot.trustedAppHash = appHash
key := snapshot.Key()
p.Lock()
defer p.Unlock()
switch {
case p.formatBlacklist[snapshot.Format]:
return false, nil
case p.peerBlacklist[peerID]:
return false, nil
case p.snapshotBlacklist[key]:
return false, nil
case len(p.peerIndex[peerID]) >= recentSnapshots:
return false, nil
}
if p.snapshotPeers[key] == nil {
p.snapshotPeers[key] = make(map[p2p.NodeID]p2p.NodeID)
}
p.snapshotPeers[key][peerID] = peerID
if p.peerIndex[peerID] == nil {
p.peerIndex[peerID] = make(map[snapshotKey]bool)
}
p.peerIndex[peerID][key] = true
if p.snapshots[key] != nil {
return false, nil
}
p.snapshots[key] = snapshot
if p.formatIndex[snapshot.Format] == nil {
p.formatIndex[snapshot.Format] = make(map[snapshotKey]bool)
}
p.formatIndex[snapshot.Format][key] = true
if p.heightIndex[snapshot.Height] == nil {
p.heightIndex[snapshot.Height] = make(map[snapshotKey]bool)
}
p.heightIndex[snapshot.Height][key] = true
return true, nil
}
// Best returns the "best" currently known snapshot, if any.
func (p *snapshotPool) Best() *snapshot {
ranked := p.Ranked()
if len(ranked) == 0 {
return nil
}
return ranked[0]
}
// GetPeer returns a random peer for a snapshot, if any.
func (p *snapshotPool) GetPeer(snapshot *snapshot) p2p.NodeID {
peers := p.GetPeers(snapshot)
if len(peers) == 0 {
return ""
}
return peers[rand.Intn(len(peers))] // nolint:gosec // G404: Use of weak random number generator
}
// GetPeers returns the peers for a snapshot.
func (p *snapshotPool) GetPeers(snapshot *snapshot) []p2p.NodeID {
key := snapshot.Key()
p.Lock()
defer p.Unlock()
peers := make([]p2p.NodeID, 0, len(p.snapshotPeers[key]))
for _, peer := range p.snapshotPeers[key] {
peers = append(peers, peer)
}
// sort results, for testability (otherwise order is random, so tests randomly fail)
sort.Slice(peers, func(a int, b int) bool {
return strings.Compare(string(peers[a]), string(peers[b])) < 0
})
return peers
}
// Ranked returns a list of snapshots ranked by preference. The current heuristic is very naïve,
// preferring the snapshot with the greatest height, then greatest format, then greatest number of
// peers. This can be improved quite a lot.
func (p *snapshotPool) Ranked() []*snapshot {
p.Lock()
defer p.Unlock()
if len(p.snapshots) == 0 {
return []*snapshot{}
}
numPeers := make([]int, 0, len(p.snapshots))
for key := range p.snapshots {
numPeers = append(numPeers, len(p.snapshotPeers[key]))
}
sort.Ints(numPeers)
median := len(numPeers) / 2
if len(numPeers)%2 == 0 {
median = (numPeers[median-1] + numPeers[median]) / 2
} else {
median = numPeers[median]
}
commonCandidates := make([]*snapshot, 0, len(p.snapshots)/2)
uncommonCandidates := make([]*snapshot, 0, len(p.snapshots)/2)
for key := range p.snapshots {
if len(p.snapshotPeers[key]) > median {
commonCandidates = append(commonCandidates, p.snapshots[key])
continue
}
uncommonCandidates = append(uncommonCandidates, p.snapshots[key])
}
sort.Slice(commonCandidates, p.sorterFactory(commonCandidates))
sort.Slice(uncommonCandidates, p.sorterFactory(uncommonCandidates))
return append(commonCandidates, uncommonCandidates...)
}
func (p *snapshotPool) sorterFactory(candidates []*snapshot) func(int, int) bool {
return func(i, j int) bool {
a := candidates[i]
b := candidates[j]
switch {
case a.Height > b.Height:
return true
case a.Height < b.Height:
return false
case len(p.snapshotPeers[a.Key()]) > len(p.snapshotPeers[b.Key()]):
return true
case a.Format > b.Format:
return true
case a.Format < b.Format:
return false
default:
return false
}
}
}
// Reject rejects a snapshot. Rejected snapshots will never be used again.
func (p *snapshotPool) Reject(snapshot *snapshot) {
key := snapshot.Key()
p.Lock()
defer p.Unlock()
p.snapshotBlacklist[key] = true
p.removeSnapshot(key)
}
// RejectFormat rejects a snapshot format. It will never be used again.
func (p *snapshotPool) RejectFormat(format uint32) {
p.Lock()
defer p.Unlock()
p.formatBlacklist[format] = true
for key := range p.formatIndex[format] {
p.removeSnapshot(key)
}
}
// RejectPeer rejects a peer. It will never be used again.
func (p *snapshotPool) RejectPeer(peerID p2p.NodeID) {
if len(peerID) == 0 {
return
}
p.Lock()
defer p.Unlock()
p.removePeer(peerID)
p.peerBlacklist[peerID] = true
}
// RemovePeer removes a peer from the pool, and any snapshots that no longer have peers.
func (p *snapshotPool) RemovePeer(peerID p2p.NodeID) {
p.Lock()
defer p.Unlock()
p.removePeer(peerID)
}
// removePeer removes a peer. The caller must hold the mutex lock.
func (p *snapshotPool) removePeer(peerID p2p.NodeID) {
for key := range p.peerIndex[peerID] {
delete(p.snapshotPeers[key], peerID)
if len(p.snapshotPeers[key]) == 0 {
p.removeSnapshot(key)
}
}
delete(p.peerIndex, peerID)
}
// removeSnapshot removes a snapshot. The caller must hold the mutex lock.
func (p *snapshotPool) removeSnapshot(key snapshotKey) {
snapshot := p.snapshots[key]
if snapshot == nil {
return
}
delete(p.snapshots, key)
delete(p.formatIndex[snapshot.Format], key)
delete(p.heightIndex[snapshot.Height], key)
for peerID := range p.snapshotPeers[key] {
delete(p.peerIndex[peerID], key)
}
delete(p.snapshotPeers, key)
}