lbcd/peer/peer_test.go
Roy Lee 28a5e6fc65 [lbry] rename btcd to lbcd
Co-authored-by: Brannon King <countprimes@gmail.com>
2021-12-14 14:00:59 -08:00

991 lines
26 KiB
Go

// Copyright (c) 2015-2016 The btcsuite developers
// Copyright (c) 2016-2018 The Decred developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package peer_test
import (
"errors"
"io"
"net"
"strconv"
"testing"
"time"
"github.com/btcsuite/go-socks/socks"
"github.com/lbryio/lbcd/chaincfg"
"github.com/lbryio/lbcd/chaincfg/chainhash"
"github.com/lbryio/lbcd/peer"
"github.com/lbryio/lbcd/wire"
)
// conn mocks a network connection by implementing the net.Conn interface. It
// is used to test peer connection without actually opening a network
// connection.
type conn struct {
io.Reader
io.Writer
io.Closer
// local network, address for the connection.
lnet, laddr string
// remote network, address for the connection.
rnet, raddr string
// mocks socks proxy if true
proxy bool
}
// LocalAddr returns the local address for the connection.
func (c conn) LocalAddr() net.Addr {
return &addr{c.lnet, c.laddr}
}
// Remote returns the remote address for the connection.
func (c conn) RemoteAddr() net.Addr {
if !c.proxy {
return &addr{c.rnet, c.raddr}
}
host, strPort, _ := net.SplitHostPort(c.raddr)
port, _ := strconv.Atoi(strPort)
return &socks.ProxiedAddr{
Net: c.rnet,
Host: host,
Port: port,
}
}
// Close handles closing the connection.
func (c conn) Close() error {
if c.Closer == nil {
return nil
}
return c.Closer.Close()
}
func (c conn) SetDeadline(t time.Time) error { return nil }
func (c conn) SetReadDeadline(t time.Time) error { return nil }
func (c conn) SetWriteDeadline(t time.Time) error { return nil }
// addr mocks a network address
type addr struct {
net, address string
}
func (m addr) Network() string { return m.net }
func (m addr) String() string { return m.address }
// pipe turns two mock connections into a full-duplex connection similar to
// net.Pipe to allow pipe's with (fake) addresses.
func pipe(c1, c2 *conn) (*conn, *conn) {
r1, w1 := io.Pipe()
r2, w2 := io.Pipe()
c1.Writer = w1
c1.Closer = w1
c2.Reader = r1
c1.Reader = r2
c2.Writer = w2
c2.Closer = w2
return c1, c2
}
// peerStats holds the expected peer stats used for testing peer.
type peerStats struct {
wantUserAgent string
wantServices wire.ServiceFlag
wantProtocolVersion uint32
wantConnected bool
wantVersionKnown bool
wantVerAckReceived bool
wantLastBlock int32
wantStartingHeight int32
wantLastPingTime time.Time
wantLastPingNonce uint64
wantLastPingMicros int64
wantTimeOffset int64
wantBytesSent uint64
wantBytesReceived uint64
wantWitnessEnabled bool
}
// testPeer tests the given peer's flags and stats
func testPeer(t *testing.T, p *peer.Peer, s peerStats) {
if p.UserAgent() != s.wantUserAgent {
t.Errorf("testPeer: wrong UserAgent - got %v, want %v", p.UserAgent(), s.wantUserAgent)
return
}
if p.Services() != s.wantServices {
t.Errorf("testPeer: wrong Services - got %v, want %v", p.Services(), s.wantServices)
return
}
if !p.LastPingTime().Equal(s.wantLastPingTime) {
t.Errorf("testPeer: wrong LastPingTime - got %v, want %v", p.LastPingTime(), s.wantLastPingTime)
return
}
if p.LastPingNonce() != s.wantLastPingNonce {
t.Errorf("testPeer: wrong LastPingNonce - got %v, want %v", p.LastPingNonce(), s.wantLastPingNonce)
return
}
if p.LastPingMicros() != s.wantLastPingMicros {
t.Errorf("testPeer: wrong LastPingMicros - got %v, want %v", p.LastPingMicros(), s.wantLastPingMicros)
return
}
if p.VerAckReceived() != s.wantVerAckReceived {
t.Errorf("testPeer: wrong VerAckReceived - got %v, want %v", p.VerAckReceived(), s.wantVerAckReceived)
return
}
if p.VersionKnown() != s.wantVersionKnown {
t.Errorf("testPeer: wrong VersionKnown - got %v, want %v", p.VersionKnown(), s.wantVersionKnown)
return
}
if p.ProtocolVersion() != s.wantProtocolVersion {
t.Errorf("testPeer: wrong ProtocolVersion - got %v, want %v", p.ProtocolVersion(), s.wantProtocolVersion)
return
}
if p.LastBlock() != s.wantLastBlock {
t.Errorf("testPeer: wrong LastBlock - got %v, want %v", p.LastBlock(), s.wantLastBlock)
return
}
// Allow for a deviation of 1s, as the second may tick when the message is
// in transit and the protocol doesn't support any further precision.
if p.TimeOffset() != s.wantTimeOffset && p.TimeOffset() != s.wantTimeOffset-1 {
t.Errorf("testPeer: wrong TimeOffset - got %v, want %v or %v", p.TimeOffset(),
s.wantTimeOffset, s.wantTimeOffset-1)
return
}
if p.BytesSent() != s.wantBytesSent {
t.Errorf("testPeer: wrong BytesSent - got %v, want %v", p.BytesSent(), s.wantBytesSent)
return
}
if p.BytesReceived() != s.wantBytesReceived {
t.Errorf("testPeer: wrong BytesReceived - got %v, want %v", p.BytesReceived(), s.wantBytesReceived)
return
}
if p.StartingHeight() != s.wantStartingHeight {
t.Errorf("testPeer: wrong StartingHeight - got %v, want %v", p.StartingHeight(), s.wantStartingHeight)
return
}
if p.Connected() != s.wantConnected {
t.Errorf("testPeer: wrong Connected - got %v, want %v", p.Connected(), s.wantConnected)
return
}
if p.IsWitnessEnabled() != s.wantWitnessEnabled {
t.Errorf("testPeer: wrong WitnessEnabled - got %v, want %v",
p.IsWitnessEnabled(), s.wantWitnessEnabled)
return
}
stats := p.StatsSnapshot()
if p.ID() != stats.ID {
t.Errorf("testPeer: wrong ID - got %v, want %v", p.ID(), stats.ID)
return
}
if p.Addr() != stats.Addr {
t.Errorf("testPeer: wrong Addr - got %v, want %v", p.Addr(), stats.Addr)
return
}
if p.LastSend() != stats.LastSend {
t.Errorf("testPeer: wrong LastSend - got %v, want %v", p.LastSend(), stats.LastSend)
return
}
if p.LastRecv() != stats.LastRecv {
t.Errorf("testPeer: wrong LastRecv - got %v, want %v", p.LastRecv(), stats.LastRecv)
return
}
}
// TestPeerConnection tests connection between inbound and outbound peers.
func TestPeerConnection(t *testing.T) {
verack := make(chan struct{})
peer1Cfg := &peer.Config{
Listeners: peer.MessageListeners{
OnVerAck: func(p *peer.Peer, msg *wire.MsgVerAck) {
verack <- struct{}{}
},
OnWrite: func(p *peer.Peer, bytesWritten int, msg wire.Message,
err error) {
if _, ok := msg.(*wire.MsgVerAck); ok {
verack <- struct{}{}
}
},
},
UserAgentName: "peer",
UserAgentVersion: "1.0",
UserAgentComments: []string{"comment"},
ChainParams: &chaincfg.MainNetParams,
ProtocolVersion: wire.RejectVersion, // Configure with older version
Services: 0,
TrickleInterval: time.Second * 10,
AllowSelfConns: true,
}
peer2Cfg := &peer.Config{
Listeners: peer1Cfg.Listeners,
UserAgentName: "peer",
UserAgentVersion: "1.0",
UserAgentComments: []string{"comment"},
ChainParams: &chaincfg.MainNetParams,
Services: wire.SFNodeNetwork | wire.SFNodeWitness,
TrickleInterval: time.Second * 10,
AllowSelfConns: true,
}
wantStats1 := peerStats{
wantUserAgent: wire.DefaultUserAgent + "peer:1.0(comment)/",
wantServices: 0,
wantProtocolVersion: wire.RejectVersion,
wantConnected: true,
wantVersionKnown: true,
wantVerAckReceived: true,
wantLastPingTime: time.Time{},
wantLastPingNonce: uint64(0),
wantLastPingMicros: int64(0),
wantTimeOffset: int64(0),
wantBytesSent: 167, // 143 version + 24 verack
wantBytesReceived: 167,
wantWitnessEnabled: false,
}
wantStats2 := peerStats{
wantUserAgent: wire.DefaultUserAgent + "peer:1.0(comment)/",
wantServices: wire.SFNodeNetwork | wire.SFNodeWitness,
wantProtocolVersion: wire.RejectVersion,
wantConnected: true,
wantVersionKnown: true,
wantVerAckReceived: true,
wantLastPingTime: time.Time{},
wantLastPingNonce: uint64(0),
wantLastPingMicros: int64(0),
wantTimeOffset: int64(0),
wantBytesSent: 167, // 143 version + 24 verack
wantBytesReceived: 167,
wantWitnessEnabled: true,
}
tests := []struct {
name string
setup func() (*peer.Peer, *peer.Peer, error)
}{
{
"basic handshake",
func() (*peer.Peer, *peer.Peer, error) {
inConn, outConn := pipe(
&conn{raddr: "10.0.0.1:8333"},
&conn{raddr: "10.0.0.2:8333"},
)
inPeer := peer.NewInboundPeer(peer1Cfg)
inPeer.AssociateConnection(inConn)
outPeer, err := peer.NewOutboundPeer(peer2Cfg, "10.0.0.2:8333")
if err != nil {
return nil, nil, err
}
outPeer.AssociateConnection(outConn)
for i := 0; i < 4; i++ {
select {
case <-verack:
case <-time.After(time.Second):
return nil, nil, errors.New("verack timeout")
}
}
return inPeer, outPeer, nil
},
},
{
"socks proxy",
func() (*peer.Peer, *peer.Peer, error) {
inConn, outConn := pipe(
&conn{raddr: "10.0.0.1:8333", proxy: true},
&conn{raddr: "10.0.0.2:8333"},
)
inPeer := peer.NewInboundPeer(peer1Cfg)
inPeer.AssociateConnection(inConn)
outPeer, err := peer.NewOutboundPeer(peer2Cfg, "10.0.0.2:8333")
if err != nil {
return nil, nil, err
}
outPeer.AssociateConnection(outConn)
for i := 0; i < 4; i++ {
select {
case <-verack:
case <-time.After(time.Second):
return nil, nil, errors.New("verack timeout")
}
}
return inPeer, outPeer, nil
},
},
}
t.Logf("Running %d tests", len(tests))
for i, test := range tests {
inPeer, outPeer, err := test.setup()
if err != nil {
t.Errorf("TestPeerConnection setup #%d: unexpected err %v", i, err)
return
}
testPeer(t, inPeer, wantStats2)
testPeer(t, outPeer, wantStats1)
inPeer.Disconnect()
outPeer.Disconnect()
inPeer.WaitForDisconnect()
outPeer.WaitForDisconnect()
}
}
// TestPeerListeners tests that the peer listeners are called as expected.
func TestPeerListeners(t *testing.T) {
verack := make(chan struct{}, 1)
ok := make(chan wire.Message, 20)
peerCfg := &peer.Config{
Listeners: peer.MessageListeners{
OnGetAddr: func(p *peer.Peer, msg *wire.MsgGetAddr) {
ok <- msg
},
OnAddr: func(p *peer.Peer, msg *wire.MsgAddr) {
ok <- msg
},
OnPing: func(p *peer.Peer, msg *wire.MsgPing) {
ok <- msg
},
OnPong: func(p *peer.Peer, msg *wire.MsgPong) {
ok <- msg
},
OnAlert: func(p *peer.Peer, msg *wire.MsgAlert) {
ok <- msg
},
OnMemPool: func(p *peer.Peer, msg *wire.MsgMemPool) {
ok <- msg
},
OnTx: func(p *peer.Peer, msg *wire.MsgTx) {
ok <- msg
},
OnBlock: func(p *peer.Peer, msg *wire.MsgBlock, buf []byte) {
ok <- msg
},
OnInv: func(p *peer.Peer, msg *wire.MsgInv) {
ok <- msg
},
OnHeaders: func(p *peer.Peer, msg *wire.MsgHeaders) {
ok <- msg
},
OnNotFound: func(p *peer.Peer, msg *wire.MsgNotFound) {
ok <- msg
},
OnGetData: func(p *peer.Peer, msg *wire.MsgGetData) {
ok <- msg
},
OnGetBlocks: func(p *peer.Peer, msg *wire.MsgGetBlocks) {
ok <- msg
},
OnGetHeaders: func(p *peer.Peer, msg *wire.MsgGetHeaders) {
ok <- msg
},
OnGetCFilters: func(p *peer.Peer, msg *wire.MsgGetCFilters) {
ok <- msg
},
OnGetCFHeaders: func(p *peer.Peer, msg *wire.MsgGetCFHeaders) {
ok <- msg
},
OnGetCFCheckpt: func(p *peer.Peer, msg *wire.MsgGetCFCheckpt) {
ok <- msg
},
OnCFilter: func(p *peer.Peer, msg *wire.MsgCFilter) {
ok <- msg
},
OnCFHeaders: func(p *peer.Peer, msg *wire.MsgCFHeaders) {
ok <- msg
},
OnFeeFilter: func(p *peer.Peer, msg *wire.MsgFeeFilter) {
ok <- msg
},
OnFilterAdd: func(p *peer.Peer, msg *wire.MsgFilterAdd) {
ok <- msg
},
OnFilterClear: func(p *peer.Peer, msg *wire.MsgFilterClear) {
ok <- msg
},
OnFilterLoad: func(p *peer.Peer, msg *wire.MsgFilterLoad) {
ok <- msg
},
OnMerkleBlock: func(p *peer.Peer, msg *wire.MsgMerkleBlock) {
ok <- msg
},
OnVersion: func(p *peer.Peer, msg *wire.MsgVersion) *wire.MsgReject {
ok <- msg
return nil
},
OnVerAck: func(p *peer.Peer, msg *wire.MsgVerAck) {
verack <- struct{}{}
},
OnReject: func(p *peer.Peer, msg *wire.MsgReject) {
ok <- msg
},
OnSendHeaders: func(p *peer.Peer, msg *wire.MsgSendHeaders) {
ok <- msg
},
},
UserAgentName: "peer",
UserAgentVersion: "1.0",
UserAgentComments: []string{"comment"},
ChainParams: &chaincfg.MainNetParams,
Services: wire.SFNodeBloom,
TrickleInterval: time.Second * 10,
AllowSelfConns: true,
}
inConn, outConn := pipe(
&conn{raddr: "10.0.0.1:8333"},
&conn{raddr: "10.0.0.2:8333"},
)
inPeer := peer.NewInboundPeer(peerCfg)
inPeer.AssociateConnection(inConn)
peerCfg.Listeners = peer.MessageListeners{
OnVerAck: func(p *peer.Peer, msg *wire.MsgVerAck) {
verack <- struct{}{}
},
}
outPeer, err := peer.NewOutboundPeer(peerCfg, "10.0.0.1:8333")
if err != nil {
t.Errorf("NewOutboundPeer: unexpected err %v\n", err)
return
}
outPeer.AssociateConnection(outConn)
for i := 0; i < 2; i++ {
select {
case <-verack:
case <-time.After(time.Second * 1):
t.Errorf("TestPeerListeners: verack timeout\n")
return
}
}
tests := []struct {
listener string
msg wire.Message
}{
{
"OnGetAddr",
wire.NewMsgGetAddr(),
},
{
"OnAddr",
wire.NewMsgAddr(),
},
{
"OnPing",
wire.NewMsgPing(42),
},
{
"OnPong",
wire.NewMsgPong(42),
},
{
"OnAlert",
wire.NewMsgAlert([]byte("payload"), []byte("signature")),
},
{
"OnMemPool",
wire.NewMsgMemPool(),
},
{
"OnTx",
wire.NewMsgTx(wire.TxVersion),
},
{
"OnBlock",
wire.NewMsgBlock(wire.NewBlockHeader(1,
&chainhash.Hash{}, &chainhash.Hash{}, 1, 1)),
},
{
"OnInv",
wire.NewMsgInv(),
},
{
"OnHeaders",
wire.NewMsgHeaders(),
},
{
"OnNotFound",
wire.NewMsgNotFound(),
},
{
"OnGetData",
wire.NewMsgGetData(),
},
{
"OnGetBlocks",
wire.NewMsgGetBlocks(&chainhash.Hash{}),
},
{
"OnGetHeaders",
wire.NewMsgGetHeaders(),
},
{
"OnGetCFilters",
wire.NewMsgGetCFilters(wire.GCSFilterRegular, 0, &chainhash.Hash{}),
},
{
"OnGetCFHeaders",
wire.NewMsgGetCFHeaders(wire.GCSFilterRegular, 0, &chainhash.Hash{}),
},
{
"OnGetCFCheckpt",
wire.NewMsgGetCFCheckpt(wire.GCSFilterRegular, &chainhash.Hash{}),
},
{
"OnCFilter",
wire.NewMsgCFilter(wire.GCSFilterRegular, &chainhash.Hash{},
[]byte("payload")),
},
{
"OnCFHeaders",
wire.NewMsgCFHeaders(),
},
{
"OnFeeFilter",
wire.NewMsgFeeFilter(15000),
},
{
"OnFilterAdd",
wire.NewMsgFilterAdd([]byte{0x01}),
},
{
"OnFilterClear",
wire.NewMsgFilterClear(),
},
{
"OnFilterLoad",
wire.NewMsgFilterLoad([]byte{0x01}, 10, 0, wire.BloomUpdateNone),
},
{
"OnMerkleBlock",
wire.NewMsgMerkleBlock(wire.NewBlockHeader(1,
&chainhash.Hash{}, &chainhash.Hash{}, 1, 1)),
},
// only one version message is allowed
// only one verack message is allowed
{
"OnReject",
wire.NewMsgReject("block", wire.RejectDuplicate, "dupe block"),
},
{
"OnSendHeaders",
wire.NewMsgSendHeaders(),
},
}
t.Logf("Running %d tests", len(tests))
for _, test := range tests {
// Queue the test message
outPeer.QueueMessage(test.msg, nil)
select {
case <-ok:
case <-time.After(time.Second * 1):
t.Errorf("TestPeerListeners: %s timeout", test.listener)
return
}
}
inPeer.Disconnect()
outPeer.Disconnect()
}
// TestOutboundPeer tests that the outbound peer works as expected.
func TestOutboundPeer(t *testing.T) {
peerCfg := &peer.Config{
NewestBlock: func() (*chainhash.Hash, int32, error) {
return nil, 0, errors.New("newest block not found")
},
UserAgentName: "peer",
UserAgentVersion: "1.0",
UserAgentComments: []string{"comment"},
ChainParams: &chaincfg.MainNetParams,
Services: 0,
TrickleInterval: time.Second * 10,
AllowSelfConns: true,
}
r, w := io.Pipe()
c := &conn{raddr: "10.0.0.1:8333", Writer: w, Reader: r}
p, err := peer.NewOutboundPeer(peerCfg, "10.0.0.1:8333")
if err != nil {
t.Errorf("NewOutboundPeer: unexpected err - %v\n", err)
return
}
// Test trying to connect twice.
p.AssociateConnection(c)
p.AssociateConnection(c)
disconnected := make(chan struct{})
go func() {
p.WaitForDisconnect()
disconnected <- struct{}{}
}()
select {
case <-disconnected:
close(disconnected)
case <-time.After(time.Second):
t.Fatal("Peer did not automatically disconnect.")
}
if p.Connected() {
t.Fatalf("Should not be connected as NewestBlock produces error.")
}
// Test Queue Inv
fakeBlockHash := &chainhash.Hash{0: 0x00, 1: 0x01}
fakeInv := wire.NewInvVect(wire.InvTypeBlock, fakeBlockHash)
// Should be noops as the peer could not connect.
p.QueueInventory(fakeInv)
p.AddKnownInventory(fakeInv)
p.QueueInventory(fakeInv)
fakeMsg := wire.NewMsgVerAck()
p.QueueMessage(fakeMsg, nil)
done := make(chan struct{})
p.QueueMessage(fakeMsg, done)
<-done
p.Disconnect()
// Test NewestBlock
var newestBlock = func() (*chainhash.Hash, int32, error) {
hashStr := "14a0810ac680a3eb3f82edc878cea25ec41d6b790744e5daeef"
hash, err := chainhash.NewHashFromStr(hashStr)
if err != nil {
return nil, 0, err
}
return hash, 234439, nil
}
peerCfg.NewestBlock = newestBlock
r1, w1 := io.Pipe()
c1 := &conn{raddr: "10.0.0.1:8333", Writer: w1, Reader: r1}
p1, err := peer.NewOutboundPeer(peerCfg, "10.0.0.1:8333")
if err != nil {
t.Errorf("NewOutboundPeer: unexpected err - %v\n", err)
return
}
p1.AssociateConnection(c1)
// Test update latest block
latestBlockHash, err := chainhash.NewHashFromStr("1a63f9cdff1752e6375c8c76e543a71d239e1a2e5c6db1aa679")
if err != nil {
t.Errorf("NewHashFromStr: unexpected err %v\n", err)
return
}
p1.UpdateLastAnnouncedBlock(latestBlockHash)
p1.UpdateLastBlockHeight(234440)
if p1.LastAnnouncedBlock() != latestBlockHash {
t.Errorf("LastAnnouncedBlock: wrong block - got %v, want %v",
p1.LastAnnouncedBlock(), latestBlockHash)
return
}
// Test Queue Inv after connection
p1.QueueInventory(fakeInv)
p1.Disconnect()
// Test regression
peerCfg.ChainParams = &chaincfg.RegressionNetParams
peerCfg.Services = wire.SFNodeBloom
r2, w2 := io.Pipe()
c2 := &conn{raddr: "10.0.0.1:8333", Writer: w2, Reader: r2}
p2, err := peer.NewOutboundPeer(peerCfg, "10.0.0.1:8333")
if err != nil {
t.Errorf("NewOutboundPeer: unexpected err - %v\n", err)
return
}
p2.AssociateConnection(c2)
// Test PushXXX
var addrs []*wire.NetAddress
for i := 0; i < 5; i++ {
na := wire.NetAddress{}
addrs = append(addrs, &na)
}
if _, err := p2.PushAddrMsg(addrs); err != nil {
t.Errorf("PushAddrMsg: unexpected err %v\n", err)
return
}
if err := p2.PushGetBlocksMsg(nil, &chainhash.Hash{}); err != nil {
t.Errorf("PushGetBlocksMsg: unexpected err %v\n", err)
return
}
if err := p2.PushGetHeadersMsg(nil, &chainhash.Hash{}); err != nil {
t.Errorf("PushGetHeadersMsg: unexpected err %v\n", err)
return
}
p2.PushRejectMsg("block", wire.RejectMalformed, "malformed", nil, false)
p2.PushRejectMsg("block", wire.RejectInvalid, "invalid", nil, false)
// Test Queue Messages
p2.QueueMessage(wire.NewMsgGetAddr(), nil)
p2.QueueMessage(wire.NewMsgPing(1), nil)
p2.QueueMessage(wire.NewMsgMemPool(), nil)
p2.QueueMessage(wire.NewMsgGetData(), nil)
p2.QueueMessage(wire.NewMsgGetHeaders(), nil)
p2.QueueMessage(wire.NewMsgFeeFilter(20000), nil)
p2.Disconnect()
}
// Tests that the node disconnects from peers with an unsupported protocol
// version.
func TestUnsupportedVersionPeer(t *testing.T) {
peerCfg := &peer.Config{
UserAgentName: "peer",
UserAgentVersion: "1.0",
UserAgentComments: []string{"comment"},
ChainParams: &chaincfg.MainNetParams,
Services: 0,
TrickleInterval: time.Second * 10,
AllowSelfConns: true,
}
localNA := wire.NewNetAddressIPPort(
net.ParseIP("10.0.0.1"),
uint16(8333),
wire.SFNodeNetwork,
)
remoteNA := wire.NewNetAddressIPPort(
net.ParseIP("10.0.0.2"),
uint16(8333),
wire.SFNodeNetwork,
)
localConn, remoteConn := pipe(
&conn{laddr: "10.0.0.1:8333", raddr: "10.0.0.2:8333"},
&conn{laddr: "10.0.0.2:8333", raddr: "10.0.0.1:8333"},
)
p, err := peer.NewOutboundPeer(peerCfg, "10.0.0.1:8333")
if err != nil {
t.Fatalf("NewOutboundPeer: unexpected err - %v\n", err)
}
p.AssociateConnection(localConn)
// Read outbound messages to peer into a channel
outboundMessages := make(chan wire.Message)
go func() {
for {
_, msg, _, err := wire.ReadMessageN(
remoteConn,
p.ProtocolVersion(),
peerCfg.ChainParams.Net,
)
if err == io.EOF {
close(outboundMessages)
return
}
if err != nil {
t.Errorf("Error reading message from local node: %v\n", err)
return
}
outboundMessages <- msg
}
}()
// Read version message sent to remote peer
select {
case msg := <-outboundMessages:
if _, ok := msg.(*wire.MsgVersion); !ok {
t.Fatalf("Expected version message, got [%s]", msg.Command())
}
case <-time.After(time.Second):
t.Fatal("Peer did not send version message")
}
// Remote peer writes version message advertising invalid protocol version 1
invalidVersionMsg := wire.NewMsgVersion(remoteNA, localNA, 0, 0)
invalidVersionMsg.ProtocolVersion = 1
_, err = wire.WriteMessageN(
remoteConn.Writer,
invalidVersionMsg,
uint32(invalidVersionMsg.ProtocolVersion),
peerCfg.ChainParams.Net,
)
if err != nil {
t.Fatalf("wire.WriteMessageN: unexpected err - %v\n", err)
}
// Expect peer to disconnect automatically
disconnected := make(chan struct{})
go func() {
p.WaitForDisconnect()
disconnected <- struct{}{}
}()
select {
case <-disconnected:
close(disconnected)
case <-time.After(time.Second):
t.Fatal("Peer did not automatically disconnect")
}
// Expect no further outbound messages from peer
select {
case msg, chanOpen := <-outboundMessages:
if chanOpen {
t.Fatalf("Expected no further messages, received [%s]", msg.Command())
}
case <-time.After(time.Second):
t.Fatal("Timeout waiting for remote reader to close")
}
}
// TestDuplicateVersionMsg ensures that receiving a version message after one
// has already been received results in the peer being disconnected.
func TestDuplicateVersionMsg(t *testing.T) {
// Create a pair of peers that are connected to each other using a fake
// connection.
verack := make(chan struct{})
peerCfg := &peer.Config{
Listeners: peer.MessageListeners{
OnVerAck: func(p *peer.Peer, msg *wire.MsgVerAck) {
verack <- struct{}{}
},
},
UserAgentName: "peer",
UserAgentVersion: "1.0",
ChainParams: &chaincfg.MainNetParams,
Services: 0,
AllowSelfConns: true,
}
inConn, outConn := pipe(
&conn{laddr: "10.0.0.1:9108", raddr: "10.0.0.2:9108"},
&conn{laddr: "10.0.0.2:9108", raddr: "10.0.0.1:9108"},
)
outPeer, err := peer.NewOutboundPeer(peerCfg, inConn.laddr)
if err != nil {
t.Fatalf("NewOutboundPeer: unexpected err: %v\n", err)
}
outPeer.AssociateConnection(outConn)
inPeer := peer.NewInboundPeer(peerCfg)
inPeer.AssociateConnection(inConn)
// Wait for the veracks from the initial protocol version negotiation.
for i := 0; i < 2; i++ {
select {
case <-verack:
case <-time.After(time.Second):
t.Fatal("verack timeout")
}
}
// Queue a duplicate version message from the outbound peer and wait until
// it is sent.
done := make(chan struct{})
outPeer.QueueMessage(&wire.MsgVersion{}, done)
select {
case <-done:
case <-time.After(time.Second):
t.Fatal("send duplicate version timeout")
}
// Ensure the peer that is the recipient of the duplicate version closes the
// connection.
disconnected := make(chan struct{}, 1)
go func() {
inPeer.WaitForDisconnect()
disconnected <- struct{}{}
}()
select {
case <-disconnected:
case <-time.After(time.Second):
t.Fatal("peer did not disconnect")
}
}
// TestUpdateLastBlockHeight ensures the last block height is set properly
// during the initial version negotiation and is only allowed to advance to
// higher values via the associated update function.
func TestUpdateLastBlockHeight(t *testing.T) {
// Create a pair of peers that are connected to each other using a fake
// connection and the remote peer starting at height 100.
const remotePeerHeight = 100
verack := make(chan struct{})
peerCfg := peer.Config{
Listeners: peer.MessageListeners{
OnVerAck: func(p *peer.Peer, msg *wire.MsgVerAck) {
verack <- struct{}{}
},
},
UserAgentName: "peer",
UserAgentVersion: "1.0",
ChainParams: &chaincfg.MainNetParams,
Services: 0,
AllowSelfConns: true,
}
remotePeerCfg := peerCfg
remotePeerCfg.NewestBlock = func() (*chainhash.Hash, int32, error) {
return &chainhash.Hash{}, remotePeerHeight, nil
}
inConn, outConn := pipe(
&conn{laddr: "10.0.0.1:9108", raddr: "10.0.0.2:9108"},
&conn{laddr: "10.0.0.2:9108", raddr: "10.0.0.1:9108"},
)
localPeer, err := peer.NewOutboundPeer(&peerCfg, inConn.laddr)
if err != nil {
t.Fatalf("NewOutboundPeer: unexpected err: %v\n", err)
}
localPeer.AssociateConnection(outConn)
inPeer := peer.NewInboundPeer(&remotePeerCfg)
inPeer.AssociateConnection(inConn)
// Wait for the veracks from the initial protocol version negotiation.
for i := 0; i < 2; i++ {
select {
case <-verack:
case <-time.After(time.Second):
t.Fatal("verack timeout")
}
}
// Ensure the latest block height starts at the value reported by the remote
// peer via its version message.
if height := localPeer.LastBlock(); height != remotePeerHeight {
t.Fatalf("wrong starting height - got %d, want %d", height,
remotePeerHeight)
}
// Ensure the latest block height is not allowed to go backwards.
localPeer.UpdateLastBlockHeight(remotePeerHeight - 1)
if height := localPeer.LastBlock(); height != remotePeerHeight {
t.Fatalf("height allowed to go backwards - got %d, want %d", height,
remotePeerHeight)
}
// Ensure the latest block height is allowed to advance.
localPeer.UpdateLastBlockHeight(remotePeerHeight + 1)
if height := localPeer.LastBlock(); height != remotePeerHeight+1 {
t.Fatalf("height not allowed to advance - got %d, want %d", height,
remotePeerHeight+1)
}
}