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plugeth/p2p/enode/localnode.go
Péter Szilágyi 6ef3a16869
p2p/enode: use unix timestamp as base ENR sequence number (#19903) 
This PR ensures that wiping all data associated with a node (apart from its nodekey)
will not generate already used sequence number for the ENRs, since all remote nodes
would reject them until they out-number the previously published largest one.

The big complication with this scheme is that every local update to the ENR can
potentially bump the sequence number by one. In order to ensure that local updates
do not outrun the clock, the sequence number is a millisecond-precision timestamp,
and updates are throttled to occur at most once per millisecond.

Co-authored-by: Felix Lange <fjl@twurst.com>
2021-09-07 12:36:48 +02:00

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// Copyright 2018 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 <http://www.gnu.org/licenses/>.
package enode
import (
"crypto/ecdsa"
"fmt"
"net"
"reflect"
"strconv"
"sync"
"sync/atomic"
"time"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/p2p/enr"
"github.com/ethereum/go-ethereum/p2p/netutil"
)
const (
// IP tracker configuration
iptrackMinStatements = 10
iptrackWindow = 5 * time.Minute
iptrackContactWindow = 10 * time.Minute
// time needed to wait between two updates to the local ENR
recordUpdateThrottle = time.Millisecond
)
// LocalNode produces the signed node record of a local node, i.e. a node run in the
// current process. Setting ENR entries via the Set method updates the record. A new version
// of the record is signed on demand when the Node method is called.
type LocalNode struct {
cur atomic.Value // holds a non-nil node pointer while the record is up-to-date
id ID
key *ecdsa.PrivateKey
db *DB
// everything below is protected by a lock
mu sync.RWMutex
seq uint64
update time.Time // timestamp when the record was last updated
entries map[string]enr.Entry
endpoint4 lnEndpoint
endpoint6 lnEndpoint
}
type lnEndpoint struct {
track *netutil.IPTracker
staticIP, fallbackIP net.IP
fallbackUDP int
}
// NewLocalNode creates a local node.
func NewLocalNode(db *DB, key *ecdsa.PrivateKey) *LocalNode {
ln := &LocalNode{
id: PubkeyToIDV4(&key.PublicKey),
db: db,
key: key,
entries: make(map[string]enr.Entry),
endpoint4: lnEndpoint{
track: netutil.NewIPTracker(iptrackWindow, iptrackContactWindow, iptrackMinStatements),
},
endpoint6: lnEndpoint{
track: netutil.NewIPTracker(iptrackWindow, iptrackContactWindow, iptrackMinStatements),
},
}
ln.seq = db.localSeq(ln.id)
ln.update = time.Now()
ln.cur.Store((*Node)(nil))
return ln
}
// Database returns the node database associated with the local node.
func (ln *LocalNode) Database() *DB {
return ln.db
}
// Node returns the current version of the local node record.
func (ln *LocalNode) Node() *Node {
// If we have a valid record, return that
n := ln.cur.Load().(*Node)
if n != nil {
return n
}
// Record was invalidated, sign a new copy.
ln.mu.Lock()
defer ln.mu.Unlock()
// Double check the current record, since multiple goroutines might be waiting
// on the write mutex.
if n = ln.cur.Load().(*Node); n != nil {
return n
}
// The initial sequence number is the current timestamp in milliseconds. To ensure
// that the initial sequence number will always be higher than any previous sequence
// number (assuming the clock is correct), we want to avoid updating the record faster
// than once per ms. So we need to sleep here until the next possible update time has
// arrived.
lastChange := time.Since(ln.update)
if lastChange < recordUpdateThrottle {
time.Sleep(recordUpdateThrottle - lastChange)
}
ln.sign()
ln.update = time.Now()
return ln.cur.Load().(*Node)
}
// Seq returns the current sequence number of the local node record.
func (ln *LocalNode) Seq() uint64 {
ln.mu.Lock()
defer ln.mu.Unlock()
return ln.seq
}
// ID returns the local node ID.
func (ln *LocalNode) ID() ID {
return ln.id
}
// Set puts the given entry into the local record, overwriting any existing value.
// Use Set*IP and SetFallbackUDP to set IP addresses and UDP port, otherwise they'll
// be overwritten by the endpoint predictor.
//
// Since node record updates are throttled to one per second, Set is asynchronous.
// Any update will be queued up and published when at least one second passes from
// the last change.
func (ln *LocalNode) Set(e enr.Entry) {
ln.mu.Lock()
defer ln.mu.Unlock()
ln.set(e)
}
func (ln *LocalNode) set(e enr.Entry) {
val, exists := ln.entries[e.ENRKey()]
if !exists || !reflect.DeepEqual(val, e) {
ln.entries[e.ENRKey()] = e
ln.invalidate()
}
}
// Delete removes the given entry from the local record.
func (ln *LocalNode) Delete(e enr.Entry) {
ln.mu.Lock()
defer ln.mu.Unlock()
ln.delete(e)
}
func (ln *LocalNode) delete(e enr.Entry) {
_, exists := ln.entries[e.ENRKey()]
if exists {
delete(ln.entries, e.ENRKey())
ln.invalidate()
}
}
func (ln *LocalNode) endpointForIP(ip net.IP) *lnEndpoint {
if ip.To4() != nil {
return &ln.endpoint4
}
return &ln.endpoint6
}
// SetStaticIP sets the local IP to the given one unconditionally.
// This disables endpoint prediction.
func (ln *LocalNode) SetStaticIP(ip net.IP) {
ln.mu.Lock()
defer ln.mu.Unlock()
ln.endpointForIP(ip).staticIP = ip
ln.updateEndpoints()
}
// SetFallbackIP sets the last-resort IP address. This address is used
// if no endpoint prediction can be made and no static IP is set.
func (ln *LocalNode) SetFallbackIP(ip net.IP) {
ln.mu.Lock()
defer ln.mu.Unlock()
ln.endpointForIP(ip).fallbackIP = ip
ln.updateEndpoints()
}
// SetFallbackUDP sets the last-resort UDP-on-IPv4 port. This port is used
// if no endpoint prediction can be made.
func (ln *LocalNode) SetFallbackUDP(port int) {
ln.mu.Lock()
defer ln.mu.Unlock()
ln.endpoint4.fallbackUDP = port
ln.endpoint6.fallbackUDP = port
ln.updateEndpoints()
}
// UDPEndpointStatement should be called whenever a statement about the local node's
// UDP endpoint is received. It feeds the local endpoint predictor.
func (ln *LocalNode) UDPEndpointStatement(fromaddr, endpoint *net.UDPAddr) {
ln.mu.Lock()
defer ln.mu.Unlock()
ln.endpointForIP(endpoint.IP).track.AddStatement(fromaddr.String(), endpoint.String())
ln.updateEndpoints()
}
// UDPContact should be called whenever the local node has announced itself to another node
// via UDP. It feeds the local endpoint predictor.
func (ln *LocalNode) UDPContact(toaddr *net.UDPAddr) {
ln.mu.Lock()
defer ln.mu.Unlock()
ln.endpointForIP(toaddr.IP).track.AddContact(toaddr.String())
ln.updateEndpoints()
}
// updateEndpoints updates the record with predicted endpoints.
func (ln *LocalNode) updateEndpoints() {
ip4, udp4 := ln.endpoint4.get()
ip6, udp6 := ln.endpoint6.get()
if ip4 != nil && !ip4.IsUnspecified() {
ln.set(enr.IPv4(ip4))
} else {
ln.delete(enr.IPv4{})
}
if ip6 != nil && !ip6.IsUnspecified() {
ln.set(enr.IPv6(ip6))
} else {
ln.delete(enr.IPv6{})
}
if udp4 != 0 {
ln.set(enr.UDP(udp4))
} else {
ln.delete(enr.UDP(0))
}
if udp6 != 0 && udp6 != udp4 {
ln.set(enr.UDP6(udp6))
} else {
ln.delete(enr.UDP6(0))
}
}
// get returns the endpoint with highest precedence.
func (e *lnEndpoint) get() (newIP net.IP, newPort int) {
newPort = e.fallbackUDP
if e.fallbackIP != nil {
newIP = e.fallbackIP
}
if e.staticIP != nil {
newIP = e.staticIP
} else if ip, port := predictAddr(e.track); ip != nil {
newIP = ip
newPort = port
}
return newIP, newPort
}
// predictAddr wraps IPTracker.PredictEndpoint, converting from its string-based
// endpoint representation to IP and port types.
func predictAddr(t *netutil.IPTracker) (net.IP, int) {
ep := t.PredictEndpoint()
if ep == "" {
return nil, 0
}
ipString, portString, _ := net.SplitHostPort(ep)
ip := net.ParseIP(ipString)
port, _ := strconv.Atoi(portString)
return ip, port
}
func (ln *LocalNode) invalidate() {
ln.cur.Store((*Node)(nil))
}
func (ln *LocalNode) sign() {
if n := ln.cur.Load().(*Node); n != nil {
return // no changes
}
var r enr.Record
for _, e := range ln.entries {
r.Set(e)
}
ln.bumpSeq()
r.SetSeq(ln.seq)
if err := SignV4(&r, ln.key); err != nil {
panic(fmt.Errorf("enode: can't sign record: %v", err))
}
n, err := New(ValidSchemes, &r)
if err != nil {
panic(fmt.Errorf("enode: can't verify local record: %v", err))
}
ln.cur.Store(n)
log.Info("New local node record", "seq", ln.seq, "id", n.ID(), "ip", n.IP(), "udp", n.UDP(), "tcp", n.TCP())
}
func (ln *LocalNode) bumpSeq() {
ln.seq++
ln.db.storeLocalSeq(ln.id, ln.seq)
}
// nowMilliseconds gives the current timestamp at millisecond precision.
func nowMilliseconds() uint64 {
ns := time.Now().UnixNano()
if ns < 0 {
return 0
}
return uint64(ns / 1000 / 1000)
}
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