prysm-pulse/beacon-chain/sync/rate_limiter.go

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package sync
import (
"reflect"
"sync"
"github.com/kevinms/leakybucket-go"
"github.com/libp2p/go-libp2p-core/network"
"github.com/pkg/errors"
"github.com/prysmaticlabs/prysm/beacon-chain/p2p"
p2ptypes "github.com/prysmaticlabs/prysm/beacon-chain/p2p/types"
"github.com/prysmaticlabs/prysm/cmd/beacon-chain/flags"
"github.com/sirupsen/logrus"
"github.com/trailofbits/go-mutexasserts"
)
const defaultBurstLimit = 5
// Dummy topic to validate all incoming rpc requests.
const rpcLimiterTopic = "rpc-limiter-topic"
type limiter struct {
limiterMap map[string]*leakybucket.Collector
p2p p2p.P2P
sync.RWMutex
}
// Instantiates a multi-rpc protocol rate limiter, providing
// separate collectors for each topic.
func newRateLimiter(p2pProvider p2p.P2P) *limiter {
// add encoding suffix
addEncoding := func(topic string) string {
return topic + p2pProvider.Encoding().ProtocolSuffix()
}
// Initialize block limits.
allowedBlocksPerSecond := float64(flags.Get().BlockBatchLimit)
allowedBlocksBurst := int64(flags.Get().BlockBatchLimitBurstFactor * flags.Get().BlockBatchLimit)
// Set topic map for all rpc topics.
topicMap := make(map[string]*leakybucket.Collector, len(p2p.RPCTopicMappings))
// Goodbye Message
topicMap[addEncoding(p2p.RPCGoodByeTopicV1)] = leakybucket.NewCollector(1, 1, false /* deleteEmptyBuckets */)
// MetadataV0 Message
topicMap[addEncoding(p2p.RPCMetaDataTopicV1)] = leakybucket.NewCollector(1, defaultBurstLimit, false /* deleteEmptyBuckets */)
// Ping Message
topicMap[addEncoding(p2p.RPCPingTopicV1)] = leakybucket.NewCollector(1, defaultBurstLimit, false /* deleteEmptyBuckets */)
// Status Message
topicMap[addEncoding(p2p.RPCStatusTopicV1)] = leakybucket.NewCollector(1, defaultBurstLimit, false /* deleteEmptyBuckets */)
// Use a single collector for block requests
blockCollector := leakybucket.NewCollector(allowedBlocksPerSecond, allowedBlocksBurst, false /* deleteEmptyBuckets */)
// BlocksByRoots requests
topicMap[addEncoding(p2p.RPCBlocksByRootTopicV1)] = blockCollector
// BlockByRange requests
topicMap[addEncoding(p2p.RPCBlocksByRangeTopicV1)] = blockCollector
// General topic for all rpc requests.
topicMap[rpcLimiterTopic] = leakybucket.NewCollector(5, defaultBurstLimit*2, false /* deleteEmptyBuckets */)
return &limiter{limiterMap: topicMap, p2p: p2pProvider}
}
// Returns the current topic collector for the provided topic.
func (l *limiter) topicCollector(topic string) (*leakybucket.Collector, error) {
l.RLock()
defer l.RUnlock()
return l.retrieveCollector(topic)
}
// validates a request with the accompanying cost.
func (l *limiter) validateRequest(stream network.Stream, amt uint64) error {
l.RLock()
defer l.RUnlock()
topic := string(stream.Protocol())
collector, err := l.retrieveCollector(topic)
if err != nil {
return err
}
key := stream.Conn().RemotePeer().String()
remaining := collector.Remaining(key)
// Treat each request as a minimum of 1.
if amt == 0 {
amt = 1
}
if amt > uint64(remaining) {
l.p2p.Peers().Scorers().BadResponsesScorer().Increment(stream.Conn().RemotePeer())
writeErrorResponseToStream(responseCodeInvalidRequest, p2ptypes.ErrRateLimited.Error(), stream, l.p2p)
return p2ptypes.ErrRateLimited
}
return nil
}
// This is used to validate all incoming rpc streams from external peers.
func (l *limiter) validateRawRpcRequest(stream network.Stream) error {
l.RLock()
defer l.RUnlock()
topic := rpcLimiterTopic
collector, err := l.retrieveCollector(topic)
if err != nil {
return err
}
key := stream.Conn().RemotePeer().String()
remaining := collector.Remaining(key)
// Treat each request as a minimum of 1.
amt := int64(1)
if amt > remaining {
l.p2p.Peers().Scorers().BadResponsesScorer().Increment(stream.Conn().RemotePeer())
writeErrorResponseToStream(responseCodeInvalidRequest, p2ptypes.ErrRateLimited.Error(), stream, l.p2p)
return p2ptypes.ErrRateLimited
}
return nil
}
// adds the cost to our leaky bucket for the topic.
func (l *limiter) add(stream network.Stream, amt int64) {
l.Lock()
defer l.Unlock()
topic := string(stream.Protocol())
log := l.topicLogger(topic)
collector, err := l.retrieveCollector(topic)
if err != nil {
log.Errorf("collector with topic '%s' does not exist", topic)
return
}
key := stream.Conn().RemotePeer().String()
collector.Add(key, amt)
}
// adds the cost to our leaky bucket for the peer.
func (l *limiter) addRawStream(stream network.Stream) {
l.Lock()
defer l.Unlock()
topic := rpcLimiterTopic
log := l.topicLogger(topic)
collector, err := l.retrieveCollector(topic)
if err != nil {
log.Errorf("collector with topic '%s' does not exist", topic)
return
}
key := stream.Conn().RemotePeer().String()
collector.Add(key, 1)
}
// frees all the collectors and removes them.
func (l *limiter) free() {
l.Lock()
defer l.Unlock()
tempMap := map[uintptr]bool{}
for t, collector := range l.limiterMap {
// Check if collector has already been cleared off
// as all collectors are not distinct from each other.
ptr := reflect.ValueOf(collector).Pointer()
if tempMap[ptr] {
// Remove from map
delete(l.limiterMap, t)
continue
}
collector.Free()
// Remove from map
delete(l.limiterMap, t)
tempMap[ptr] = true
}
}
// not to be used outside the rate limiter file as it is unsafe for concurrent usage
// and is protected by a lock on all of its usages here.
func (l *limiter) retrieveCollector(topic string) (*leakybucket.Collector, error) {
if !mutexasserts.RWMutexLocked(&l.RWMutex) && !mutexasserts.RWMutexRLocked(&l.RWMutex) {
return nil, errors.New("limiter.retrieveCollector: caller must hold read/write lock")
}
collector, ok := l.limiterMap[topic]
if !ok {
return nil, errors.Errorf("collector does not exist for topic %s", topic)
}
return collector, nil
}
func (l *limiter) topicLogger(topic string) *logrus.Entry {
return log.WithField("rate limiter", topic)
}