Official Go implementation of the Ethereum protocol
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go-ethereum/p2p/discover/v5_udp_test.go

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// Copyright 2020 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 discover
import (
"bytes"
"crypto/ecdsa"
"encoding/binary"
"fmt"
"math/rand"
"net"
"net/netip"
"reflect"
"slices"
"testing"
"time"
"github.com/ethereum/go-ethereum/internal/testlog"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/p2p/discover/v4wire"
"github.com/ethereum/go-ethereum/p2p/discover/v5wire"
"github.com/ethereum/go-ethereum/p2p/enode"
"github.com/ethereum/go-ethereum/p2p/enr"
"github.com/ethereum/go-ethereum/rlp"
"github.com/stretchr/testify/require"
)
// Real sockets, real crypto: this test checks end-to-end connectivity for UDPv5.
func TestUDPv5_lookupE2E(t *testing.T) {
t.Parallel()
const N = 5
var nodes []*UDPv5
for i := 0; i < N; i++ {
var cfg Config
if len(nodes) > 0 {
bn := nodes[0].Self()
cfg.Bootnodes = []*enode.Node{bn}
}
node := startLocalhostV5(t, cfg)
nodes = append(nodes, node)
defer node.Close()
}
last := nodes[N-1]
target := nodes[rand.Intn(N-2)].Self()
// It is expected that all nodes can be found.
expectedResult := make([]*enode.Node, len(nodes))
for i := range nodes {
expectedResult[i] = nodes[i].Self()
}
slices.SortFunc(expectedResult, func(a, b *enode.Node) int {
return enode.DistCmp(target.ID(), a.ID(), b.ID())
})
// Do the lookup.
results := last.Lookup(target.ID())
if err := checkNodesEqual(results, expectedResult); err != nil {
t.Fatalf("lookup returned wrong results: %v", err)
}
}
func startLocalhostV5(t *testing.T, cfg Config) *UDPv5 {
cfg.PrivateKey = newkey()
db, _ := enode.OpenDB("")
ln := enode.NewLocalNode(db, cfg.PrivateKey)
// Prefix logs with node ID.
lprefix := fmt.Sprintf("(%s)", ln.ID().TerminalString())
all: replace log15 with slog (#28187) This PR replaces Geth's logger package (a fork of [log15](https://github.com/inconshreveable/log15)) with an implementation using slog, a logging library included as part of the Go standard library as of Go1.21. Main changes are as follows: * removes any log handlers that were unused in the Geth codebase. * Json, logfmt, and terminal formatters are now slog handlers. * Verbosity level constants are changed to match slog constant values. Internal translation is done to make this opaque to the user and backwards compatible with existing `--verbosity` and `--vmodule` options. * `--log.backtraceat` and `--log.debug` are removed. The external-facing API is largely the same as the existing Geth logger. Logger method signatures remain unchanged. A small semantic difference is that a `Handler` can only be set once per `Logger` and not changed dynamically. This just means that a new logger must be instantiated every time the handler of the root logger is changed. ---- For users of the `go-ethereum/log` module. If you were using this module for your own project, you will need to change the initialization. If you previously did ```golang log.Root().SetHandler(log.LvlFilterHandler(log.LvlInfo, log.StreamHandler(os.Stderr, log.TerminalFormat(true)))) ``` You now instead need to do ```golang log.SetDefault(log.NewLogger(log.NewTerminalHandlerWithLevel(os.Stderr, log.LevelInfo, true))) ``` See more about reasoning here: https://github.com/ethereum/go-ethereum/issues/28558#issuecomment-1820606613
1 year ago
cfg.Log = testlog.Logger(t, log.LevelTrace).With("node-id", lprefix)
// Listen.
socket, err := net.ListenUDP("udp4", &net.UDPAddr{IP: net.IP{127, 0, 0, 1}})
if err != nil {
t.Fatal(err)
}
realaddr := socket.LocalAddr().(*net.UDPAddr)
ln.SetStaticIP(realaddr.IP)
ln.Set(enr.UDP(realaddr.Port))
udp, err := ListenV5(socket, ln, cfg)
if err != nil {
t.Fatal(err)
}
return udp
}
// This test checks that incoming PING calls are handled correctly.
func TestUDPv5_pingHandling(t *testing.T) {
t.Parallel()
test := newUDPV5Test(t)
defer test.close()
test.packetIn(&v5wire.Ping{ReqID: []byte("foo")})
test.waitPacketOut(func(p *v5wire.Pong, addr netip.AddrPort, _ v5wire.Nonce) {
if !bytes.Equal(p.ReqID, []byte("foo")) {
t.Error("wrong request ID in response:", p.ReqID)
}
if p.ENRSeq != test.table.self().Seq() {
t.Error("wrong ENR sequence number in response:", p.ENRSeq)
}
})
}
// This test checks that incoming 'unknown' packets trigger the handshake.
func TestUDPv5_unknownPacket(t *testing.T) {
t.Parallel()
test := newUDPV5Test(t)
defer test.close()
nonce := v5wire.Nonce{1, 2, 3}
check := func(p *v5wire.Whoareyou, wantSeq uint64) {
t.Helper()
if p.Nonce != nonce {
t.Error("wrong nonce in WHOAREYOU:", p.Nonce, nonce)
}
if p.IDNonce == ([16]byte{}) {
t.Error("all zero ID nonce")
}
if p.RecordSeq != wantSeq {
t.Errorf("wrong record seq %d in WHOAREYOU, want %d", p.RecordSeq, wantSeq)
}
}
// Unknown packet from unknown node.
test.packetIn(&v5wire.Unknown{Nonce: nonce})
test.waitPacketOut(func(p *v5wire.Whoareyou, addr netip.AddrPort, _ v5wire.Nonce) {
check(p, 0)
})
// Make node known.
n := test.getNode(test.remotekey, test.remoteaddr).Node()
test.table.addFoundNode(n, false)
test.packetIn(&v5wire.Unknown{Nonce: nonce})
test.waitPacketOut(func(p *v5wire.Whoareyou, addr netip.AddrPort, _ v5wire.Nonce) {
check(p, n.Seq())
})
}
// This test checks that incoming FINDNODE calls are handled correctly.
func TestUDPv5_findnodeHandling(t *testing.T) {
t.Parallel()
test := newUDPV5Test(t)
defer test.close()
// Create test nodes and insert them into the table.
nodes253 := nodesAtDistance(test.table.self().ID(), 253, 16)
nodes249 := nodesAtDistance(test.table.self().ID(), 249, 4)
nodes248 := nodesAtDistance(test.table.self().ID(), 248, 10)
fillTable(test.table, nodes253, true)
fillTable(test.table, nodes249, true)
fillTable(test.table, nodes248, true)
// Requesting with distance zero should return the node's own record.
test.packetIn(&v5wire.Findnode{ReqID: []byte{0}, Distances: []uint{0}})
test.expectNodes([]byte{0}, 1, []*enode.Node{test.udp.Self()})
// Requesting with distance > 256 shouldn't crash.
test.packetIn(&v5wire.Findnode{ReqID: []byte{1}, Distances: []uint{4234098}})
test.expectNodes([]byte{1}, 1, nil)
// Requesting with empty distance list shouldn't crash either.
test.packetIn(&v5wire.Findnode{ReqID: []byte{2}, Distances: []uint{}})
test.expectNodes([]byte{2}, 1, nil)
// This request gets no nodes because the corresponding bucket is empty.
test.packetIn(&v5wire.Findnode{ReqID: []byte{3}, Distances: []uint{254}})
test.expectNodes([]byte{3}, 1, nil)
// This request gets all the distance-253 nodes.
test.packetIn(&v5wire.Findnode{ReqID: []byte{4}, Distances: []uint{253}})
test.expectNodes([]byte{4}, 2, nodes253)
// This request gets all the distance-249 nodes and some more at 248 because
// the bucket at 249 is not full.
test.packetIn(&v5wire.Findnode{ReqID: []byte{5}, Distances: []uint{249, 248}})
var nodes []*enode.Node
nodes = append(nodes, nodes249...)
nodes = append(nodes, nodes248[:10]...)
test.expectNodes([]byte{5}, 1, nodes)
}
func (test *udpV5Test) expectNodes(wantReqID []byte, wantTotal uint8, wantNodes []*enode.Node) {
nodeSet := make(map[enode.ID]*enr.Record, len(wantNodes))
for _, n := range wantNodes {
nodeSet[n.ID()] = n.Record()
}
for {
test.waitPacketOut(func(p *v5wire.Nodes, addr netip.AddrPort, _ v5wire.Nonce) {
if !bytes.Equal(p.ReqID, wantReqID) {
test.t.Fatalf("wrong request ID %v in response, want %v", p.ReqID, wantReqID)
}
if p.RespCount != wantTotal {
test.t.Fatalf("wrong total response count %d, want %d", p.RespCount, wantTotal)
}
for _, record := range p.Nodes {
n, _ := enode.New(enode.ValidSchemesForTesting, record)
want := nodeSet[n.ID()]
if want == nil {
test.t.Fatalf("unexpected node in response: %v", n)
}
if !reflect.DeepEqual(record, want) {
test.t.Fatalf("wrong record in response: %v", n)
}
delete(nodeSet, n.ID())
}
})
if len(nodeSet) == 0 {
return
}
}
}
// This test checks that outgoing PING calls work.
func TestUDPv5_pingCall(t *testing.T) {
t.Parallel()
test := newUDPV5Test(t)
defer test.close()
remote := test.getNode(test.remotekey, test.remoteaddr).Node()
done := make(chan error, 1)
// This ping times out.
go func() {
_, err := test.udp.ping(remote)
done <- err
}()
test.waitPacketOut(func(p *v5wire.Ping, addr netip.AddrPort, _ v5wire.Nonce) {})
if err := <-done; err != errTimeout {
t.Fatalf("want errTimeout, got %q", err)
}
// This ping works.
go func() {
_, err := test.udp.ping(remote)
done <- err
}()
test.waitPacketOut(func(p *v5wire.Ping, addr netip.AddrPort, _ v5wire.Nonce) {
test.packetInFrom(test.remotekey, test.remoteaddr, &v5wire.Pong{ReqID: p.ReqID})
})
if err := <-done; err != nil {
t.Fatal(err)
}
// This ping gets a reply from the wrong endpoint.
go func() {
_, err := test.udp.ping(remote)
done <- err
}()
test.waitPacketOut(func(p *v5wire.Ping, addr netip.AddrPort, _ v5wire.Nonce) {
wrongAddr := netip.MustParseAddrPort("33.44.55.22:10101")
test.packetInFrom(test.remotekey, wrongAddr, &v5wire.Pong{ReqID: p.ReqID})
})
if err := <-done; err != errTimeout {
t.Fatalf("want errTimeout for reply from wrong IP, got %q", err)
}
}
// This test checks that outgoing FINDNODE calls work and multiple NODES
// replies are aggregated.
func TestUDPv5_findnodeCall(t *testing.T) {
t.Parallel()
test := newUDPV5Test(t)
defer test.close()
// Launch the request:
var (
distances = []uint{230}
remote = test.getNode(test.remotekey, test.remoteaddr).Node()
nodes = nodesAtDistance(remote.ID(), int(distances[0]), 8)
done = make(chan error, 1)
response []*enode.Node
)
go func() {
var err error
response, err = test.udp.findnode(remote, distances)
done <- err
}()
// Serve the responses:
test.waitPacketOut(func(p *v5wire.Findnode, addr netip.AddrPort, _ v5wire.Nonce) {
if !reflect.DeepEqual(p.Distances, distances) {
t.Fatalf("wrong distances in request: %v", p.Distances)
}
test.packetIn(&v5wire.Nodes{
ReqID: p.ReqID,
RespCount: 2,
Nodes: nodesToRecords(nodes[:4]),
})
test.packetIn(&v5wire.Nodes{
ReqID: p.ReqID,
RespCount: 2,
Nodes: nodesToRecords(nodes[4:]),
})
})
// Check results:
if err := <-done; err != nil {
t.Fatalf("unexpected error: %v", err)
}
if !reflect.DeepEqual(response, nodes) {
t.Fatalf("wrong nodes in response")
}
// TODO: check invalid IPs
// TODO: check invalid/unsigned record
}
// This test checks that pending calls are re-sent when a handshake happens.
func TestUDPv5_callResend(t *testing.T) {
t.Parallel()
test := newUDPV5Test(t)
defer test.close()
remote := test.getNode(test.remotekey, test.remoteaddr).Node()
done := make(chan error, 2)
go func() {
_, err := test.udp.ping(remote)
done <- err
}()
go func() {
_, err := test.udp.ping(remote)
done <- err
}()
// Ping answered by WHOAREYOU.
test.waitPacketOut(func(p *v5wire.Ping, addr netip.AddrPort, nonce v5wire.Nonce) {
test.packetIn(&v5wire.Whoareyou{Nonce: nonce})
})
// Ping should be re-sent.
test.waitPacketOut(func(p *v5wire.Ping, addr netip.AddrPort, _ v5wire.Nonce) {
test.packetIn(&v5wire.Pong{ReqID: p.ReqID})
})
// Answer the other ping.
test.waitPacketOut(func(p *v5wire.Ping, addr netip.AddrPort, _ v5wire.Nonce) {
test.packetIn(&v5wire.Pong{ReqID: p.ReqID})
})
if err := <-done; err != nil {
t.Fatalf("unexpected ping error: %v", err)
}
if err := <-done; err != nil {
t.Fatalf("unexpected ping error: %v", err)
}
}
// This test ensures we don't allow multiple rounds of WHOAREYOU for a single call.
func TestUDPv5_multipleHandshakeRounds(t *testing.T) {
t.Parallel()
test := newUDPV5Test(t)
defer test.close()
remote := test.getNode(test.remotekey, test.remoteaddr).Node()
done := make(chan error, 1)
go func() {
_, err := test.udp.ping(remote)
done <- err
}()
// Ping answered by WHOAREYOU.
test.waitPacketOut(func(p *v5wire.Ping, addr netip.AddrPort, nonce v5wire.Nonce) {
test.packetIn(&v5wire.Whoareyou{Nonce: nonce})
})
// Ping answered by WHOAREYOU again.
test.waitPacketOut(func(p *v5wire.Ping, addr netip.AddrPort, nonce v5wire.Nonce) {
test.packetIn(&v5wire.Whoareyou{Nonce: nonce})
})
if err := <-done; err != errTimeout {
t.Fatalf("unexpected ping error: %q", err)
}
}
// This test checks that calls with n replies may take up to n * respTimeout.
func TestUDPv5_callTimeoutReset(t *testing.T) {
t.Parallel()
test := newUDPV5Test(t)
defer test.close()
// Launch the request:
var (
distance = uint(230)
remote = test.getNode(test.remotekey, test.remoteaddr).Node()
nodes = nodesAtDistance(remote.ID(), int(distance), 8)
done = make(chan error, 1)
)
go func() {
_, err := test.udp.findnode(remote, []uint{distance})
done <- err
}()
// Serve two responses, slowly.
test.waitPacketOut(func(p *v5wire.Findnode, addr netip.AddrPort, _ v5wire.Nonce) {
time.Sleep(respTimeout - 50*time.Millisecond)
test.packetIn(&v5wire.Nodes{
ReqID: p.ReqID,
RespCount: 2,
Nodes: nodesToRecords(nodes[:4]),
})
time.Sleep(respTimeout - 50*time.Millisecond)
test.packetIn(&v5wire.Nodes{
ReqID: p.ReqID,
RespCount: 2,
Nodes: nodesToRecords(nodes[4:]),
})
})
if err := <-done; err != nil {
t.Fatalf("unexpected error: %q", err)
}
}
// This test checks that TALKREQ calls the registered handler function.
func TestUDPv5_talkHandling(t *testing.T) {
t.Parallel()
test := newUDPV5Test(t)
defer test.close()
var recvMessage []byte
test.udp.RegisterTalkHandler("test", func(id enode.ID, addr *net.UDPAddr, message []byte) []byte {
recvMessage = message
return []byte("test response")
})
// Successful case:
test.packetIn(&v5wire.TalkRequest{
ReqID: []byte("foo"),
Protocol: "test",
Message: []byte("test request"),
})
test.waitPacketOut(func(p *v5wire.TalkResponse, addr netip.AddrPort, _ v5wire.Nonce) {
if !bytes.Equal(p.ReqID, []byte("foo")) {
t.Error("wrong request ID in response:", p.ReqID)
}
if string(p.Message) != "test response" {
t.Errorf("wrong talk response message: %q", p.Message)
}
if string(recvMessage) != "test request" {
t.Errorf("wrong message received in handler: %q", recvMessage)
}
})
// Check that empty response is returned for unregistered protocols.
recvMessage = nil
test.packetIn(&v5wire.TalkRequest{
ReqID: []byte("2"),
Protocol: "wrong",
Message: []byte("test request"),
})
test.waitPacketOut(func(p *v5wire.TalkResponse, addr netip.AddrPort, _ v5wire.Nonce) {
if !bytes.Equal(p.ReqID, []byte("2")) {
t.Error("wrong request ID in response:", p.ReqID)
}
if string(p.Message) != "" {
t.Errorf("wrong talk response message: %q", p.Message)
}
if recvMessage != nil {
t.Errorf("handler was called for wrong protocol: %q", recvMessage)
}
})
}
// This test checks that outgoing TALKREQ calls work.
func TestUDPv5_talkRequest(t *testing.T) {
t.Parallel()
test := newUDPV5Test(t)
defer test.close()
remote := test.getNode(test.remotekey, test.remoteaddr).Node()
done := make(chan error, 1)
// This request times out.
go func() {
_, err := test.udp.TalkRequest(remote, "test", []byte("test request"))
done <- err
}()
test.waitPacketOut(func(p *v5wire.TalkRequest, addr netip.AddrPort, _ v5wire.Nonce) {})
if err := <-done; err != errTimeout {
t.Fatalf("want errTimeout, got %q", err)
}
// This request works.
go func() {
_, err := test.udp.TalkRequest(remote, "test", []byte("test request"))
done <- err
}()
test.waitPacketOut(func(p *v5wire.TalkRequest, addr netip.AddrPort, _ v5wire.Nonce) {
if p.Protocol != "test" {
t.Errorf("wrong protocol ID in talk request: %q", p.Protocol)
}
if string(p.Message) != "test request" {
t.Errorf("wrong message talk request: %q", p.Message)
}
test.packetInFrom(test.remotekey, test.remoteaddr, &v5wire.TalkResponse{
ReqID: p.ReqID,
Message: []byte("test response"),
})
})
if err := <-done; err != nil {
t.Fatal(err)
}
// Also check requesting without ENR.
go func() {
_, err := test.udp.TalkRequestToID(remote.ID(), test.remoteaddr, "test", []byte("test request 2"))
done <- err
}()
test.waitPacketOut(func(p *v5wire.TalkRequest, addr netip.AddrPort, _ v5wire.Nonce) {
if p.Protocol != "test" {
t.Errorf("wrong protocol ID in talk request: %q", p.Protocol)
}
if string(p.Message) != "test request 2" {
t.Errorf("wrong message talk request: %q", p.Message)
}
test.packetInFrom(test.remotekey, test.remoteaddr, &v5wire.TalkResponse{
ReqID: p.ReqID,
Message: []byte("test response 2"),
})
})
if err := <-done; err != nil {
t.Fatal(err)
}
}
// This test checks that lookupDistances works.
func TestUDPv5_lookupDistances(t *testing.T) {
test := newUDPV5Test(t)
lnID := test.table.self().ID()
t.Run("target distance of 1", func(t *testing.T) {
node := nodeAtDistance(lnID, 1, intIP(0))
dists := lookupDistances(lnID, node.ID())
require.Equal(t, []uint{1, 2, 3}, dists)
})
t.Run("target distance of 2", func(t *testing.T) {
node := nodeAtDistance(lnID, 2, intIP(0))
dists := lookupDistances(lnID, node.ID())
require.Equal(t, []uint{2, 3, 1}, dists)
})
t.Run("target distance of 128", func(t *testing.T) {
node := nodeAtDistance(lnID, 128, intIP(0))
dists := lookupDistances(lnID, node.ID())
require.Equal(t, []uint{128, 129, 127}, dists)
})
t.Run("target distance of 255", func(t *testing.T) {
node := nodeAtDistance(lnID, 255, intIP(0))
dists := lookupDistances(lnID, node.ID())
require.Equal(t, []uint{255, 256, 254}, dists)
})
t.Run("target distance of 256", func(t *testing.T) {
node := nodeAtDistance(lnID, 256, intIP(0))
dists := lookupDistances(lnID, node.ID())
require.Equal(t, []uint{256, 255, 254}, dists)
})
}
// This test checks that lookup works.
func TestUDPv5_lookup(t *testing.T) {
t.Parallel()
test := newUDPV5Test(t)
// Lookup on empty table returns no nodes.
if results := test.udp.Lookup(lookupTestnet.target.ID()); len(results) > 0 {
t.Fatalf("lookup on empty table returned %d results: %#v", len(results), results)
}
// Ensure the tester knows all nodes in lookupTestnet by IP.
for d, nn := range lookupTestnet.dists {
for i, key := range nn {
n := lookupTestnet.node(d, i)
addr, _ := n.UDPEndpoint()
test.getNode(key, addr)
}
}
// Seed table with initial node.
initialNode := lookupTestnet.node(256, 0)
fillTable(test.table, []*enode.Node{initialNode}, true)
// Start the lookup.
resultC := make(chan []*enode.Node, 1)
go func() {
resultC <- test.udp.Lookup(lookupTestnet.target.ID())
test.close()
}()
// Answer lookup packets.
asked := make(map[enode.ID]bool)
for done := false; !done; {
done = test.waitPacketOut(func(p v5wire.Packet, to netip.AddrPort, _ v5wire.Nonce) {
recipient, key := lookupTestnet.nodeByAddr(to)
switch p := p.(type) {
case *v5wire.Ping:
test.packetInFrom(key, to, &v5wire.Pong{ReqID: p.ReqID})
case *v5wire.Findnode:
if asked[recipient.ID()] {
t.Error("Asked node", recipient.ID(), "twice")
}
asked[recipient.ID()] = true
nodes := lookupTestnet.neighborsAtDistances(recipient, p.Distances, 16)
t.Logf("Got FINDNODE for %v, returning %d nodes", p.Distances, len(nodes))
for _, resp := range packNodes(p.ReqID, nodes) {
test.packetInFrom(key, to, resp)
}
}
})
}
// Verify result nodes.
results := <-resultC
checkLookupResults(t, lookupTestnet, results)
}
// This test checks the local node can be utilised to set key-values.
func TestUDPv5_LocalNode(t *testing.T) {
t.Parallel()
var cfg Config
node := startLocalhostV5(t, cfg)
defer node.Close()
localNd := node.LocalNode()
// set value in node's local record
testVal := [4]byte{'A', 'B', 'C', 'D'}
localNd.Set(enr.WithEntry("testing", &testVal))
// retrieve the value from self to make sure it matches.
outputVal := [4]byte{}
if err := node.Self().Load(enr.WithEntry("testing", &outputVal)); err != nil {
t.Errorf("Could not load value from record: %v", err)
}
if testVal != outputVal {
t.Errorf("Wanted %#x to be retrieved from the record but instead got %#x", testVal, outputVal)
}
}
func TestUDPv5_PingWithIPV4MappedAddress(t *testing.T) {
t.Parallel()
test := newUDPV5Test(t)
defer test.close()
rawIP := netip.AddrFrom4([4]byte{0xFF, 0x12, 0x33, 0xE5})
test.remoteaddr = netip.AddrPortFrom(netip.AddrFrom16(rawIP.As16()), 0)
remote := test.getNode(test.remotekey, test.remoteaddr).Node()
done := make(chan struct{}, 1)
// This handler will truncate the ipv4-mapped in ipv6 address.
go func() {
test.udp.handlePing(&v5wire.Ping{ENRSeq: 1}, remote.ID(), test.remoteaddr)
done <- struct{}{}
}()
test.waitPacketOut(func(p *v5wire.Pong, addr netip.AddrPort, _ v5wire.Nonce) {
if len(p.ToIP) == net.IPv6len {
t.Error("Received untruncated ip address")
}
if len(p.ToIP) != net.IPv4len {
t.Errorf("Received ip address with incorrect length: %d", len(p.ToIP))
}
if !p.ToIP.Equal(rawIP.AsSlice()) {
t.Errorf("Received incorrect ip address: wanted %s but received %s", rawIP.String(), p.ToIP.String())
}
})
<-done
}
// udpV5Test is the framework for all tests above.
// It runs the UDPv5 transport on a virtual socket and allows testing outgoing packets.
type udpV5Test struct {
t *testing.T
pipe *dgramPipe
table *Table
db *enode.DB
udp *UDPv5
localkey, remotekey *ecdsa.PrivateKey
remoteaddr netip.AddrPort
nodesByID map[enode.ID]*enode.LocalNode
nodesByIP map[netip.Addr]*enode.LocalNode
}
// testCodec is the packet encoding used by protocol tests. This codec does not perform encryption.
type testCodec struct {
test *udpV5Test
id enode.ID
ctr uint64
}
type testCodecFrame struct {
NodeID enode.ID
AuthTag v5wire.Nonce
Ptype byte
Packet rlp.RawValue
}
func (c *testCodec) Encode(toID enode.ID, addr string, p v5wire.Packet, _ *v5wire.Whoareyou) ([]byte, v5wire.Nonce, error) {
c.ctr++
var authTag v5wire.Nonce
binary.BigEndian.PutUint64(authTag[:], c.ctr)
penc, _ := rlp.EncodeToBytes(p)
frame, err := rlp.EncodeToBytes(testCodecFrame{c.id, authTag, p.Kind(), penc})
return frame, authTag, err
}
func (c *testCodec) Decode(input []byte, addr string) (enode.ID, *enode.Node, v5wire.Packet, error) {
frame, p, err := c.decodeFrame(input)
if err != nil {
return enode.ID{}, nil, nil, err
}
return frame.NodeID, nil, p, nil
}
func (c *testCodec) decodeFrame(input []byte) (frame testCodecFrame, p v5wire.Packet, err error) {
if err = rlp.DecodeBytes(input, &frame); err != nil {
return frame, nil, fmt.Errorf("invalid frame: %v", err)
}
switch frame.Ptype {
case v5wire.UnknownPacket:
dec := new(v5wire.Unknown)
err = rlp.DecodeBytes(frame.Packet, &dec)
p = dec
case v5wire.WhoareyouPacket:
dec := new(v5wire.Whoareyou)
err = rlp.DecodeBytes(frame.Packet, &dec)
p = dec
default:
p, err = v5wire.DecodeMessage(frame.Ptype, frame.Packet)
}
return frame, p, err
}
func newUDPV5Test(t *testing.T) *udpV5Test {
test := &udpV5Test{
t: t,
pipe: newpipe(),
localkey: newkey(),
remotekey: newkey(),
remoteaddr: netip.MustParseAddrPort("10.0.1.99:30303"),
nodesByID: make(map[enode.ID]*enode.LocalNode),
nodesByIP: make(map[netip.Addr]*enode.LocalNode),
}
test.db, _ = enode.OpenDB("")
ln := enode.NewLocalNode(test.db, test.localkey)
ln.SetStaticIP(net.IP{10, 0, 0, 1})
ln.Set(enr.UDP(30303))
test.udp, _ = ListenV5(test.pipe, ln, Config{
PrivateKey: test.localkey,
Log: testlog.Logger(t, log.LvlTrace),
ValidSchemes: enode.ValidSchemesForTesting,
})
test.udp.codec = &testCodec{test: test, id: ln.ID()}
test.table = test.udp.tab
test.nodesByID[ln.ID()] = ln
// Wait for initial refresh so the table doesn't send unexpected findnode.
<-test.table.initDone
return test
}
// handles a packet as if it had been sent to the transport.
func (test *udpV5Test) packetIn(packet v5wire.Packet) {
test.t.Helper()
test.packetInFrom(test.remotekey, test.remoteaddr, packet)
}
// packetInFrom handles a packet as if it had been sent to the transport by the key/endpoint.
func (test *udpV5Test) packetInFrom(key *ecdsa.PrivateKey, addr netip.AddrPort, packet v5wire.Packet) {
test.t.Helper()
ln := test.getNode(key, addr)
codec := &testCodec{test: test, id: ln.ID()}
enc, _, err := codec.Encode(test.udp.Self().ID(), addr.String(), packet, nil)
if err != nil {
test.t.Errorf("%s encode error: %v", packet.Name(), err)
}
if test.udp.dispatchReadPacket(addr, enc) {
<-test.udp.readNextCh // unblock UDPv5.dispatch
}
}
// getNode ensures the test knows about a node at the given endpoint.
func (test *udpV5Test) getNode(key *ecdsa.PrivateKey, addr netip.AddrPort) *enode.LocalNode {
id := v4wire.EncodePubkey(&key.PublicKey).ID()
ln := test.nodesByID[id]
if ln == nil {
db, _ := enode.OpenDB("")
ln = enode.NewLocalNode(db, key)
ln.SetStaticIP(addr.Addr().AsSlice())
ln.Set(enr.UDP(addr.Port()))
test.nodesByID[id] = ln
}
test.nodesByIP[addr.Addr()] = ln
return ln
}
// waitPacketOut waits for the next output packet and handles it using the given 'validate'
// function. The function must be of type func (X, netip.AddrPort, v5wire.Nonce) where X is
// assignable to packetV5.
func (test *udpV5Test) waitPacketOut(validate interface{}) (closed bool) {
test.t.Helper()
fn := reflect.ValueOf(validate)
exptype := fn.Type().In(0)
dgram, err := test.pipe.receive()
if err == errClosed {
return true
}
if err == errTimeout {
test.t.Fatalf("timed out waiting for %v", exptype)
return false
}
ln := test.nodesByIP[dgram.to.Addr()]
if ln == nil {
test.t.Fatalf("attempt to send to non-existing node %v", &dgram.to)
return false
}
codec := &testCodec{test: test, id: ln.ID()}
frame, p, err := codec.decodeFrame(dgram.data)
if err != nil {
test.t.Errorf("sent packet decode error: %v", err)
return false
}
if !reflect.TypeOf(p).AssignableTo(exptype) {
test.t.Errorf("sent packet type mismatch, got: %v, want: %v", reflect.TypeOf(p), exptype)
return false
}
fn.Call([]reflect.Value{reflect.ValueOf(p), reflect.ValueOf(dgram.to), reflect.ValueOf(frame.AuthTag)})
return false
}
func (test *udpV5Test) close() {
test.t.Helper()
test.udp.Close()
test.db.Close()
for id, n := range test.nodesByID {
if id != test.udp.Self().ID() {
n.Database().Close()
}
}
if len(test.pipe.queue) != 0 {
test.t.Fatalf("%d unmatched UDP packets in queue", len(test.pipe.queue))
}
}