// Copyright 2024 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . package discover import ( "fmt" "math" "slices" "time" "github.com/ethereum/go-ethereum/common/mclock" "github.com/ethereum/go-ethereum/p2p/enode" ) const never = mclock.AbsTime(math.MaxInt64) const slowRevalidationFactor = 3 // tableRevalidation implements the node revalidation process. // It tracks all nodes contained in Table, and schedules sending PING to them. type tableRevalidation struct { fast revalidationList slow revalidationList activeReq map[enode.ID]struct{} } type revalidationResponse struct { n *tableNode newRecord *enode.Node didRespond bool } func (tr *tableRevalidation) init(cfg *Config) { tr.activeReq = make(map[enode.ID]struct{}) tr.fast.nextTime = never tr.fast.interval = cfg.PingInterval tr.fast.name = "fast" tr.slow.nextTime = never tr.slow.interval = cfg.PingInterval * slowRevalidationFactor tr.slow.name = "slow" } // nodeAdded is called when the table receives a new node. func (tr *tableRevalidation) nodeAdded(tab *Table, n *tableNode) { tr.fast.push(n, tab.cfg.Clock.Now(), &tab.rand) } // nodeRemoved is called when a node was removed from the table. func (tr *tableRevalidation) nodeRemoved(n *tableNode) { if n.revalList == nil { panic(fmt.Errorf("removed node %v has nil revalList", n.ID())) } n.revalList.remove(n) } // nodeEndpointChanged is called when a change in IP or port is detected. func (tr *tableRevalidation) nodeEndpointChanged(tab *Table, n *tableNode) { n.isValidatedLive = false tr.moveToList(&tr.fast, n, tab.cfg.Clock.Now(), &tab.rand) } // run performs node revalidation. // It returns the next time it should be invoked, which is used in the Table main loop // to schedule a timer. However, run can be called at any time. func (tr *tableRevalidation) run(tab *Table, now mclock.AbsTime) (nextTime mclock.AbsTime) { if n := tr.fast.get(now, &tab.rand, tr.activeReq); n != nil { tr.startRequest(tab, n) tr.fast.schedule(now, &tab.rand) } if n := tr.slow.get(now, &tab.rand, tr.activeReq); n != nil { tr.startRequest(tab, n) tr.slow.schedule(now, &tab.rand) } return min(tr.fast.nextTime, tr.slow.nextTime) } // startRequest spawns a revalidation request for node n. func (tr *tableRevalidation) startRequest(tab *Table, n *tableNode) { if _, ok := tr.activeReq[n.ID()]; ok { panic(fmt.Errorf("duplicate startRequest (node %v)", n.ID())) } tr.activeReq[n.ID()] = struct{}{} resp := revalidationResponse{n: n} // Fetch the node while holding lock. tab.mutex.Lock() node := n.Node tab.mutex.Unlock() go tab.doRevalidate(resp, node) } func (tab *Table) doRevalidate(resp revalidationResponse, node *enode.Node) { // Ping the selected node and wait for a pong response. remoteSeq, err := tab.net.ping(node) resp.didRespond = err == nil // Also fetch record if the node replied and returned a higher sequence number. if remoteSeq > node.Seq() { newrec, err := tab.net.RequestENR(node) if err != nil { tab.log.Debug("ENR request failed", "id", node.ID(), "err", err) } else { resp.newRecord = newrec } } select { case tab.revalResponseCh <- resp: case <-tab.closed: } } // handleResponse processes the result of a revalidation request. func (tr *tableRevalidation) handleResponse(tab *Table, resp revalidationResponse) { var ( now = tab.cfg.Clock.Now() n = resp.n b = tab.bucket(n.ID()) ) delete(tr.activeReq, n.ID()) // If the node was removed from the table while getting checked, we need to stop // processing here to avoid re-adding it. if n.revalList == nil { return } // Store potential seeds in database. // This is done via defer to avoid holding Table lock while writing to DB. defer func() { if n.isValidatedLive && n.livenessChecks > 5 { tab.db.UpdateNode(resp.n.Node) } }() // Remaining logic needs access to Table internals. tab.mutex.Lock() defer tab.mutex.Unlock() if !resp.didRespond { n.livenessChecks /= 3 if n.livenessChecks <= 0 { tab.deleteInBucket(b, n.ID()) } else { tab.log.Debug("Node revalidation failed", "b", b.index, "id", n.ID(), "checks", n.livenessChecks, "q", n.revalList.name) tr.moveToList(&tr.fast, n, now, &tab.rand) } return } // The node responded. n.livenessChecks++ n.isValidatedLive = true tab.log.Debug("Node revalidated", "b", b.index, "id", n.ID(), "checks", n.livenessChecks, "q", n.revalList.name) var endpointChanged bool if resp.newRecord != nil { _, endpointChanged = tab.bumpInBucket(b, resp.newRecord, false) } // Node moves to slow list if it passed and hasn't changed. if !endpointChanged { tr.moveToList(&tr.slow, n, now, &tab.rand) } } // moveToList ensures n is in the 'dest' list. func (tr *tableRevalidation) moveToList(dest *revalidationList, n *tableNode, now mclock.AbsTime, rand randomSource) { if n.revalList == dest { return } if n.revalList != nil { n.revalList.remove(n) } dest.push(n, now, rand) } // revalidationList holds a list nodes and the next revalidation time. type revalidationList struct { nodes []*tableNode nextTime mclock.AbsTime interval time.Duration name string } // get returns a random node from the queue. Nodes in the 'exclude' map are not returned. func (list *revalidationList) get(now mclock.AbsTime, rand randomSource, exclude map[enode.ID]struct{}) *tableNode { if now < list.nextTime || len(list.nodes) == 0 { return nil } for i := 0; i < len(list.nodes)*3; i++ { n := list.nodes[rand.Intn(len(list.nodes))] _, excluded := exclude[n.ID()] if !excluded { return n } } return nil } func (list *revalidationList) schedule(now mclock.AbsTime, rand randomSource) { list.nextTime = now.Add(time.Duration(rand.Int63n(int64(list.interval)))) } func (list *revalidationList) push(n *tableNode, now mclock.AbsTime, rand randomSource) { list.nodes = append(list.nodes, n) if list.nextTime == never { list.schedule(now, rand) } n.revalList = list } func (list *revalidationList) remove(n *tableNode) { i := slices.Index(list.nodes, n) if i == -1 { panic(fmt.Errorf("node %v not found in list", n.ID())) } list.nodes = slices.Delete(list.nodes, i, i+1) if len(list.nodes) == 0 { list.nextTime = never } n.revalList = nil } func (list *revalidationList) contains(id enode.ID) bool { return slices.ContainsFunc(list.nodes, func(n *tableNode) bool { return n.ID() == id }) }