package blossomsub import ( "math/rand" "sync" "time" "github.com/libp2p/go-libp2p/core/peer" "github.com/libp2p/go-libp2p/core/protocol" ) // gossipTracer is an internal tracer that tracks IWANT requests in order to penalize // peers who don't follow up on IWANT requests after an IHAVE advertisement. // The tracking of promises is probabilistic to avoid using too much memory. type gossipTracer struct { sync.Mutex idGen *msgIDGenerator followUpTime time.Duration // promises for messages by message ID; for each message tracked, we track the promise // expiration time for each peer. promises map[string]map[peer.ID]time.Time // promises for each peer; for each peer, we track the promised message IDs. // this index allows us to quickly void promises when a peer is throttled. peerPromises map[peer.ID]map[string]struct{} } func newGossipTracer() *gossipTracer { return &gossipTracer{ idGen: newMsgIdGenerator(), promises: make(map[string]map[peer.ID]time.Time), peerPromises: make(map[peer.ID]map[string]struct{}), } } func (gt *gossipTracer) Start(bs *BlossomSubRouter) { if gt == nil { return } gt.idGen = bs.p.idGen gt.followUpTime = bs.params.IWantFollowupTime } // track a promise to deliver a message from a list of msgIDs we are requesting func (gt *gossipTracer) AddPromise(p peer.ID, msgIDs [][]byte) { if gt == nil { return } idx := rand.Intn(len(msgIDs)) mid := msgIDs[idx] gt.Lock() defer gt.Unlock() promises, ok := gt.promises[string(mid)] if !ok { promises = make(map[peer.ID]time.Time) gt.promises[string(mid)] = promises } _, ok = promises[p] if !ok { promises[p] = time.Now().Add(gt.followUpTime) peerPromises, ok := gt.peerPromises[p] if !ok { peerPromises = make(map[string]struct{}) gt.peerPromises[p] = peerPromises } peerPromises[string(mid)] = struct{}{} } } // returns the number of broken promises for each peer who didn't follow up // on an IWANT request. func (gt *gossipTracer) GetBrokenPromises() map[peer.ID]int { if gt == nil { return nil } gt.Lock() defer gt.Unlock() var res map[peer.ID]int now := time.Now() // find broken promises from peers for mid, promises := range gt.promises { for p, expire := range promises { if expire.Before(now) { if res == nil { res = make(map[peer.ID]int) } res[p]++ delete(promises, p) peerPromises := gt.peerPromises[p] delete(peerPromises, mid) if len(peerPromises) == 0 { delete(gt.peerPromises, p) } } } if len(promises) == 0 { delete(gt.promises, mid) } } return res } var _ RawTracer = (*gossipTracer)(nil) func (gt *gossipTracer) fulfillPromise(msg *Message) { mid := gt.idGen.ID(msg) gt.Lock() defer gt.Unlock() promises, ok := gt.promises[string(mid)] if !ok { return } delete(gt.promises, string(mid)) // delete the promise for all peers that promised it, as they have no way to fulfill it. for p := range promises { peerPromises, ok := gt.peerPromises[p] if ok { delete(peerPromises, string(mid)) if len(peerPromises) == 0 { delete(gt.peerPromises, p) } } } } func (gt *gossipTracer) DeliverMessage(msg *Message) { // someone delivered a message, fulfill promises for it gt.fulfillPromise(msg) } func (gt *gossipTracer) RejectMessage(msg *Message, reason string) { // A message got rejected, so we can fulfill promises and let the score penalty apply // from invalid message delivery. // We do take exception and apply promise penalty regardless in the following cases, where // the peer delivered an obviously invalid message. switch reason { case RejectMissingSignature: return case RejectInvalidSignature: return } gt.fulfillPromise(msg) } func (gt *gossipTracer) ValidateMessage(msg *Message) { // we consider the promise fulfilled as soon as the message begins validation // if it was a case of signature issue it would have been rejected immediately // without triggering the Validate trace gt.fulfillPromise(msg) } func (gt *gossipTracer) AddPeer(p peer.ID, proto protocol.ID) {} func (gt *gossipTracer) RemovePeer(p peer.ID) {} func (gt *gossipTracer) Join(bitmask []byte) {} func (gt *gossipTracer) Leave(bitmask []byte) {} func (gt *gossipTracer) Graft(p peer.ID, bitmask []byte) {} func (gt *gossipTracer) Prune(p peer.ID, bitmask []byte) {} func (gt *gossipTracer) DuplicateMessage(msg *Message) {} func (gt *gossipTracer) RecvRPC(rpc *RPC) {} func (gt *gossipTracer) SendRPC(rpc *RPC, p peer.ID) {} func (gt *gossipTracer) DropRPC(rpc *RPC, p peer.ID) {} func (gt *gossipTracer) UndeliverableMessage(msg *Message) {} func (gt *gossipTracer) ThrottlePeer(p peer.ID) { gt.Lock() defer gt.Unlock() peerPromises, ok := gt.peerPromises[p] if !ok { return } for mid := range peerPromises { promises := gt.promises[mid] delete(promises, p) if len(promises) == 0 { delete(gt.promises, mid) } } delete(gt.peerPromises, p) }