package p2p import ( "fmt" "math/rand" "net" "reflect" "runtime" "strings" "testing" "time" "github.com/tendermint/tendermint/crypto/ed25519" "github.com/tendermint/tendermint/libs/protoio" "github.com/tendermint/tendermint/p2p/conn" tmp2p "github.com/tendermint/tendermint/proto/tendermint/p2p" ) var defaultNodeName = "host_peer" func emptyNodeInfo() NodeInfo { return DefaultNodeInfo{} } // newMultiplexTransport returns a tcp connected multiplexed peer // using the default MConnConfig. It's a convenience function used // for testing. func newMultiplexTransport( nodeInfo NodeInfo, nodeKey NodeKey, ) *MultiplexTransport { return NewMultiplexTransport( nodeInfo, nodeKey, conn.DefaultMConnConfig(), ) } func TestTransportMultiplexConnFilter(t *testing.T) { mt := newMultiplexTransport( emptyNodeInfo(), NodeKey{ PrivKey: ed25519.GenPrivKey(), }, ) id := mt.nodeKey.ID() MultiplexTransportConnFilters( func(_ ConnSet, _ net.Conn, _ []net.IP) error { return nil }, func(_ ConnSet, _ net.Conn, _ []net.IP) error { return nil }, func(_ ConnSet, _ net.Conn, _ []net.IP) error { return fmt.Errorf("rejected") }, )(mt) addr, err := NewNetAddressString(IDAddressString(id, "127.0.0.1:0")) if err != nil { t.Fatal(err) } if err := mt.Listen(*addr); err != nil { t.Fatal(err) } errc := make(chan error) go func() { addr := NewNetAddress(id, mt.listener.Addr()) _, err := addr.Dial() if err != nil { errc <- err return } close(errc) }() if err := <-errc; err != nil { t.Errorf("connection failed: %v", err) } _, err = mt.Accept(peerConfig{}) if err, ok := err.(ErrRejected); ok { if !err.IsFiltered() { t.Errorf("expected peer to be filtered, got %v", err) } } else { t.Errorf("expected ErrRejected, got %v", err) } } func TestTransportMultiplexConnFilterTimeout(t *testing.T) { mt := newMultiplexTransport( emptyNodeInfo(), NodeKey{ PrivKey: ed25519.GenPrivKey(), }, ) id := mt.nodeKey.ID() MultiplexTransportFilterTimeout(5 * time.Millisecond)(mt) MultiplexTransportConnFilters( func(_ ConnSet, _ net.Conn, _ []net.IP) error { time.Sleep(1 * time.Second) return nil }, )(mt) addr, err := NewNetAddressString(IDAddressString(id, "127.0.0.1:0")) if err != nil { t.Fatal(err) } if err := mt.Listen(*addr); err != nil { t.Fatal(err) } errc := make(chan error) go func() { addr := NewNetAddress(id, mt.listener.Addr()) _, err := addr.Dial() if err != nil { errc <- err return } close(errc) }() if err := <-errc; err != nil { t.Errorf("connection failed: %v", err) } _, err = mt.Accept(peerConfig{}) if _, ok := err.(ErrFilterTimeout); !ok { t.Errorf("expected ErrFilterTimeout, got %v", err) } } func TestTransportMultiplexMaxIncomingConnections(t *testing.T) { mt := newMultiplexTransport( emptyNodeInfo(), NodeKey{ PrivKey: ed25519.GenPrivKey(), }, ) id := mt.nodeKey.ID() MultiplexTransportMaxIncomingConnections(0)(mt) addr, err := NewNetAddressString(IDAddressString(id, "127.0.0.1:0")) if err != nil { t.Fatal(err) } if err := mt.Listen(*addr); err != nil { t.Fatal(err) } errc := make(chan error) go func() { addr := NewNetAddress(id, mt.listener.Addr()) _, err := addr.Dial() if err != nil { errc <- err return } close(errc) }() if err := <-errc; err != nil { t.Errorf("connection failed: %v", err) } _, err = mt.Accept(peerConfig{}) if err == nil || !strings.Contains(err.Error(), "connection reset by peer") { t.Errorf("expected connection reset by peer error, got %v", err) } } func TestTransportMultiplexAcceptMultiple(t *testing.T) { mt := testSetupMultiplexTransport(t) laddr := NewNetAddress(mt.nodeKey.ID(), mt.listener.Addr()) var ( seed = rand.New(rand.NewSource(time.Now().UnixNano())) nDialers = seed.Intn(64) + 64 errc = make(chan error, nDialers) ) // Setup dialers. for i := 0; i < nDialers; i++ { go testDialer(*laddr, errc) } // Catch connection errors. for i := 0; i < nDialers; i++ { if err := <-errc; err != nil { t.Fatal(err) } } ps := []Peer{} // Accept all peers. for i := 0; i < cap(errc); i++ { p, err := mt.Accept(peerConfig{}) if err != nil { t.Fatal(err) } if err := p.Start(); err != nil { t.Fatal(err) } ps = append(ps, p) } if have, want := len(ps), cap(errc); have != want { t.Errorf("have %v, want %v", have, want) } // Stop all peers. for _, p := range ps { if err := p.Stop(); err != nil { t.Fatal(err) } } if err := mt.Close(); err != nil { t.Errorf("close errored: %v", err) } } func testDialer(dialAddr NetAddress, errc chan error) { var ( pv = ed25519.GenPrivKey() dialer = newMultiplexTransport( testNodeInfo(PubKeyToID(pv.PubKey()), defaultNodeName), NodeKey{ PrivKey: pv, }, ) ) _, err := dialer.Dial(dialAddr, peerConfig{}) if err != nil { errc <- err return } // Signal that the connection was established. errc <- nil } func TestTransportMultiplexAcceptNonBlocking(t *testing.T) { mt := testSetupMultiplexTransport(t) var ( fastNodePV = ed25519.GenPrivKey() fastNodeInfo = testNodeInfo(PubKeyToID(fastNodePV.PubKey()), "fastnode") errc = make(chan error) fastc = make(chan struct{}) slowc = make(chan struct{}) slowdonec = make(chan struct{}) ) // Simulate slow Peer. go func() { addr := NewNetAddress(mt.nodeKey.ID(), mt.listener.Addr()) c, err := addr.Dial() if err != nil { errc <- err return } close(slowc) defer func() { close(slowdonec) }() // Make sure we switch to fast peer goroutine. runtime.Gosched() select { case <-fastc: // Fast peer connected. case <-time.After(200 * time.Millisecond): // We error if the fast peer didn't succeed. errc <- fmt.Errorf("fast peer timed out") } sc, err := upgradeSecretConn(c, 20*time.Millisecond, ed25519.GenPrivKey()) if err != nil { errc <- err return } _, err = handshake(sc, 20*time.Millisecond, testNodeInfo( PubKeyToID(ed25519.GenPrivKey().PubKey()), "slow_peer", )) if err != nil { errc <- err } }() // Simulate fast Peer. go func() { <-slowc var ( dialer = newMultiplexTransport( fastNodeInfo, NodeKey{ PrivKey: fastNodePV, }, ) ) addr := NewNetAddress(mt.nodeKey.ID(), mt.listener.Addr()) _, err := dialer.Dial(*addr, peerConfig{}) if err != nil { errc <- err return } close(fastc) <-slowdonec close(errc) }() if err := <-errc; err != nil { t.Logf("connection failed: %v", err) } p, err := mt.Accept(peerConfig{}) if err != nil { t.Fatal(err) } if have, want := p.NodeInfo(), fastNodeInfo; !reflect.DeepEqual(have, want) { t.Errorf("have %v, want %v", have, want) } } func TestTransportMultiplexValidateNodeInfo(t *testing.T) { mt := testSetupMultiplexTransport(t) errc := make(chan error) go func() { var ( pv = ed25519.GenPrivKey() dialer = newMultiplexTransport( testNodeInfo(PubKeyToID(pv.PubKey()), ""), // Should not be empty NodeKey{ PrivKey: pv, }, ) ) addr := NewNetAddress(mt.nodeKey.ID(), mt.listener.Addr()) _, err := dialer.Dial(*addr, peerConfig{}) if err != nil { errc <- err return } close(errc) }() if err := <-errc; err != nil { t.Errorf("connection failed: %v", err) } _, err := mt.Accept(peerConfig{}) if err, ok := err.(ErrRejected); ok { if !err.IsNodeInfoInvalid() { t.Errorf("expected NodeInfo to be invalid, got %v", err) } } else { t.Errorf("expected ErrRejected, got %v", err) } } func TestTransportMultiplexRejectMissmatchID(t *testing.T) { mt := testSetupMultiplexTransport(t) errc := make(chan error) go func() { dialer := newMultiplexTransport( testNodeInfo( PubKeyToID(ed25519.GenPrivKey().PubKey()), "dialer", ), NodeKey{ PrivKey: ed25519.GenPrivKey(), }, ) addr := NewNetAddress(mt.nodeKey.ID(), mt.listener.Addr()) _, err := dialer.Dial(*addr, peerConfig{}) if err != nil { errc <- err return } close(errc) }() if err := <-errc; err != nil { t.Errorf("connection failed: %v", err) } _, err := mt.Accept(peerConfig{}) if err, ok := err.(ErrRejected); ok { if !err.IsAuthFailure() { t.Errorf("expected auth failure, got %v", err) } } else { t.Errorf("expected ErrRejected, got %v", err) } } func TestTransportMultiplexDialRejectWrongID(t *testing.T) { mt := testSetupMultiplexTransport(t) var ( pv = ed25519.GenPrivKey() dialer = newMultiplexTransport( testNodeInfo(PubKeyToID(pv.PubKey()), ""), // Should not be empty NodeKey{ PrivKey: pv, }, ) ) wrongID := PubKeyToID(ed25519.GenPrivKey().PubKey()) addr := NewNetAddress(wrongID, mt.listener.Addr()) _, err := dialer.Dial(*addr, peerConfig{}) if err != nil { t.Logf("connection failed: %v", err) if err, ok := err.(ErrRejected); ok { if !err.IsAuthFailure() { t.Errorf("expected auth failure, got %v", err) } } else { t.Errorf("expected ErrRejected, got %v", err) } } } func TestTransportMultiplexRejectIncompatible(t *testing.T) { mt := testSetupMultiplexTransport(t) errc := make(chan error) go func() { var ( pv = ed25519.GenPrivKey() dialer = newMultiplexTransport( testNodeInfoWithNetwork(PubKeyToID(pv.PubKey()), "dialer", "incompatible-network"), NodeKey{ PrivKey: pv, }, ) ) addr := NewNetAddress(mt.nodeKey.ID(), mt.listener.Addr()) _, err := dialer.Dial(*addr, peerConfig{}) if err != nil { errc <- err return } close(errc) }() _, err := mt.Accept(peerConfig{}) if err, ok := err.(ErrRejected); ok { if !err.IsIncompatible() { t.Errorf("expected to reject incompatible, got %v", err) } } else { t.Errorf("expected ErrRejected, got %v", err) } } func TestTransportMultiplexRejectSelf(t *testing.T) { mt := testSetupMultiplexTransport(t) errc := make(chan error) go func() { addr := NewNetAddress(mt.nodeKey.ID(), mt.listener.Addr()) _, err := mt.Dial(*addr, peerConfig{}) if err != nil { errc <- err return } close(errc) }() if err := <-errc; err != nil { if err, ok := err.(ErrRejected); ok { if !err.IsSelf() { t.Errorf("expected to reject self, got: %v", err) } } else { t.Errorf("expected ErrRejected, got %v", err) } } else { t.Errorf("expected connection failure") } _, err := mt.Accept(peerConfig{}) if err, ok := err.(ErrRejected); ok { if !err.IsSelf() { t.Errorf("expected to reject self, got: %v", err) } } else { t.Errorf("expected ErrRejected, got %v", nil) } } func TestTransportConnDuplicateIPFilter(t *testing.T) { filter := ConnDuplicateIPFilter() if err := filter(nil, &testTransportConn{}, nil); err != nil { t.Fatal(err) } var ( c = &testTransportConn{} cs = NewConnSet() ) cs.Set(c, []net.IP{ {10, 0, 10, 1}, {10, 0, 10, 2}, {10, 0, 10, 3}, }) if err := filter(cs, c, []net.IP{ {10, 0, 10, 2}, }); err == nil { t.Errorf("expected Peer to be rejected as duplicate") } } func TestTransportHandshake(t *testing.T) { ln, err := net.Listen("tcp", "127.0.0.1:0") if err != nil { t.Fatal(err) } var ( peerPV = ed25519.GenPrivKey() peerNodeInfo = testNodeInfo(PubKeyToID(peerPV.PubKey()), defaultNodeName) ) go func() { c, err := net.Dial(ln.Addr().Network(), ln.Addr().String()) if err != nil { t.Error(err) return } go func(c net.Conn) { _, err := protoio.NewDelimitedWriter(c).WriteMsg(peerNodeInfo.(DefaultNodeInfo).ToProto()) if err != nil { t.Error(err) } }(c) go func(c net.Conn) { var ( // ni DefaultNodeInfo pbni tmp2p.DefaultNodeInfo ) protoReader := protoio.NewDelimitedReader(c, MaxNodeInfoSize()) err := protoReader.ReadMsg(&pbni) if err != nil { t.Error(err) } _, err = DefaultNodeInfoFromToProto(&pbni) if err != nil { t.Error(err) } }(c) }() c, err := ln.Accept() if err != nil { t.Fatal(err) } ni, err := handshake(c, 20*time.Millisecond, emptyNodeInfo()) if err != nil { t.Fatal(err) } if have, want := ni, peerNodeInfo; !reflect.DeepEqual(have, want) { t.Errorf("have %v, want %v", have, want) } } // create listener func testSetupMultiplexTransport(t *testing.T) *MultiplexTransport { var ( pv = ed25519.GenPrivKey() id = PubKeyToID(pv.PubKey()) mt = newMultiplexTransport( testNodeInfo( id, "transport", ), NodeKey{ PrivKey: pv, }, ) ) addr, err := NewNetAddressString(IDAddressString(id, "127.0.0.1:0")) if err != nil { t.Fatal(err) } if err := mt.Listen(*addr); err != nil { t.Fatal(err) } // give the listener some time to get ready time.Sleep(20 * time.Millisecond) return mt } type testTransportAddr struct{} func (a *testTransportAddr) Network() string { return "tcp" } func (a *testTransportAddr) String() string { return "test.local:1234" } type testTransportConn struct{} func (c *testTransportConn) Close() error { return fmt.Errorf("close() not implemented") } func (c *testTransportConn) LocalAddr() net.Addr { return &testTransportAddr{} } func (c *testTransportConn) RemoteAddr() net.Addr { return &testTransportAddr{} } func (c *testTransportConn) Read(_ []byte) (int, error) { return -1, fmt.Errorf("read() not implemented") } func (c *testTransportConn) SetDeadline(_ time.Time) error { return fmt.Errorf("setDeadline() not implemented") } func (c *testTransportConn) SetReadDeadline(_ time.Time) error { return fmt.Errorf("setReadDeadline() not implemented") } func (c *testTransportConn) SetWriteDeadline(_ time.Time) error { return fmt.Errorf("setWriteDeadline() not implemented") } func (c *testTransportConn) Write(_ []byte) (int, error) { return -1, fmt.Errorf("write() not implemented") }