// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause package netstack import ( "context" "fmt" "maps" "net" "net/netip" "runtime" "testing" "time" "gvisor.dev/gvisor/pkg/buffer" "gvisor.dev/gvisor/pkg/tcpip" "gvisor.dev/gvisor/pkg/tcpip/header" "gvisor.dev/gvisor/pkg/tcpip/stack" "tailscale.com/envknob" "tailscale.com/ipn" "tailscale.com/ipn/ipnlocal" "tailscale.com/ipn/store/mem" "tailscale.com/metrics" "tailscale.com/net/packet" "tailscale.com/net/tsaddr" "tailscale.com/net/tsdial" "tailscale.com/net/tstun" "tailscale.com/tsd" "tailscale.com/tstest" "tailscale.com/types/ipproto" "tailscale.com/types/logid" "tailscale.com/wgengine" "tailscale.com/wgengine/filter" ) // TestInjectInboundLeak tests that injectInbound doesn't leak memory. // See https://github.com/tailscale/tailscale/issues/3762 func TestInjectInboundLeak(t *testing.T) { tunDev := tstun.NewFake() dialer := new(tsdial.Dialer) logf := func(format string, args ...any) { if !t.Failed() { t.Logf(format, args...) } } sys := new(tsd.System) eng, err := wgengine.NewUserspaceEngine(logf, wgengine.Config{ Tun: tunDev, Dialer: dialer, SetSubsystem: sys.Set, HealthTracker: sys.HealthTracker(), }) if err != nil { t.Fatal(err) } defer eng.Close() sys.Set(eng) sys.Set(new(mem.Store)) tunWrap := sys.Tun.Get() lb, err := ipnlocal.NewLocalBackend(logf, logid.PublicID{}, sys, 0) if err != nil { t.Fatal(err) } ns, err := Create(logf, tunWrap, eng, sys.MagicSock.Get(), dialer, sys.DNSManager.Get(), sys.ProxyMapper(), nil) if err != nil { t.Fatal(err) } defer ns.Close() ns.ProcessLocalIPs = true if err := ns.Start(lb); err != nil { t.Fatalf("Start: %v", err) } ns.atomicIsLocalIPFunc.Store(func(netip.Addr) bool { return true }) pkt := &packet.Parsed{} const N = 10_000 ms0 := getMemStats() for range N { outcome, _ := ns.injectInbound(pkt, tunWrap, nil) if outcome != filter.DropSilently { t.Fatalf("got outcome %v; want DropSilently", outcome) } } ms1 := getMemStats() if grew := int64(ms1.HeapObjects) - int64(ms0.HeapObjects); grew >= N { t.Fatalf("grew by %v (which is too much and >= the %v packets we sent)", grew, N) } } func getMemStats() (ms runtime.MemStats) { runtime.GC() runtime.ReadMemStats(&ms) return } func makeNetstack(tb testing.TB, config func(*Impl)) *Impl { tunDev := tstun.NewFake() sys := &tsd.System{} sys.Set(new(mem.Store)) dialer := new(tsdial.Dialer) logf := tstest.WhileTestRunningLogger(tb) eng, err := wgengine.NewUserspaceEngine(logf, wgengine.Config{ Tun: tunDev, Dialer: dialer, SetSubsystem: sys.Set, HealthTracker: sys.HealthTracker(), }) if err != nil { tb.Fatal(err) } tb.Cleanup(func() { eng.Close() }) sys.Set(eng) ns, err := Create(logf, sys.Tun.Get(), eng, sys.MagicSock.Get(), dialer, sys.DNSManager.Get(), sys.ProxyMapper(), nil) if err != nil { tb.Fatal(err) } tb.Cleanup(func() { ns.Close() }) lb, err := ipnlocal.NewLocalBackend(logf, logid.PublicID{}, sys, 0) if err != nil { tb.Fatalf("NewLocalBackend: %v", err) } ns.atomicIsLocalIPFunc.Store(func(netip.Addr) bool { return true }) if config != nil { config(ns) } if err := ns.Start(lb); err != nil { tb.Fatalf("Start: %v", err) } return ns } func TestShouldHandlePing(t *testing.T) { srcIP := netip.AddrFrom4([4]byte{1, 2, 3, 4}) t.Run("ICMP4", func(t *testing.T) { dst := netip.MustParseAddr("5.6.7.8") icmph := packet.ICMP4Header{ IP4Header: packet.IP4Header{ IPProto: ipproto.ICMPv4, Src: srcIP, Dst: dst, }, Type: packet.ICMP4EchoRequest, Code: packet.ICMP4NoCode, } _, payload := packet.ICMPEchoPayload(nil) icmpPing := packet.Generate(icmph, payload) pkt := &packet.Parsed{} pkt.Decode(icmpPing) impl := makeNetstack(t, func(impl *Impl) { impl.ProcessSubnets = true }) pingDst, ok := impl.shouldHandlePing(pkt) if !ok { t.Errorf("expected shouldHandlePing==true") } if pingDst != dst { t.Errorf("got dst %s; want %s", pingDst, dst) } }) t.Run("ICMP6-no-via", func(t *testing.T) { dst := netip.MustParseAddr("2a09:8280:1::4169") icmph := packet.ICMP6Header{ IP6Header: packet.IP6Header{ IPProto: ipproto.ICMPv6, Src: srcIP, Dst: dst, }, Type: packet.ICMP6EchoRequest, Code: packet.ICMP6NoCode, } _, payload := packet.ICMPEchoPayload(nil) icmpPing := packet.Generate(icmph, payload) pkt := &packet.Parsed{} pkt.Decode(icmpPing) impl := makeNetstack(t, func(impl *Impl) { impl.ProcessSubnets = true }) pingDst, ok := impl.shouldHandlePing(pkt) // Expect that we handle this since it's going out onto the // network. if !ok { t.Errorf("expected shouldHandlePing==true") } if pingDst != dst { t.Errorf("got dst %s; want %s", pingDst, dst) } }) t.Run("ICMP6-tailscale-addr", func(t *testing.T) { dst := netip.MustParseAddr("fd7a:115c:a1e0:ab12::1") icmph := packet.ICMP6Header{ IP6Header: packet.IP6Header{ IPProto: ipproto.ICMPv6, Src: srcIP, Dst: dst, }, Type: packet.ICMP6EchoRequest, Code: packet.ICMP6NoCode, } _, payload := packet.ICMPEchoPayload(nil) icmpPing := packet.Generate(icmph, payload) pkt := &packet.Parsed{} pkt.Decode(icmpPing) impl := makeNetstack(t, func(impl *Impl) { impl.ProcessSubnets = true }) _, ok := impl.shouldHandlePing(pkt) // We don't handle this because it's a Tailscale IP and not 4via6 if ok { t.Errorf("expected shouldHandlePing==false") } }) // Handle pings for 4via6 addresses regardless of ProcessSubnets for _, subnets := range []bool{true, false} { t.Run("ICMP6-4via6-ProcessSubnets-"+fmt.Sprint(subnets), func(t *testing.T) { // The 4via6 route 10.1.1.0/24 siteid 7, and then the IP // 10.1.1.9 within that route. dst := netip.MustParseAddr("fd7a:115c:a1e0:b1a:0:7:a01:109") expectedPingDst := netip.MustParseAddr("10.1.1.9") icmph := packet.ICMP6Header{ IP6Header: packet.IP6Header{ IPProto: ipproto.ICMPv6, Src: srcIP, Dst: dst, }, Type: packet.ICMP6EchoRequest, Code: packet.ICMP6NoCode, } _, payload := packet.ICMPEchoPayload(nil) icmpPing := packet.Generate(icmph, payload) pkt := &packet.Parsed{} pkt.Decode(icmpPing) impl := makeNetstack(t, func(impl *Impl) { impl.ProcessSubnets = subnets }) pingDst, ok := impl.shouldHandlePing(pkt) // Handled due to being 4via6 if !ok { t.Errorf("expected shouldHandlePing==true") } else if pingDst != expectedPingDst { t.Errorf("got dst %s; want %s", pingDst, expectedPingDst) } }) } } // looksLikeATailscaleSelfAddress reports whether addr looks like // a Tailscale self address, for tests. func looksLikeATailscaleSelfAddress(addr netip.Addr) bool { return addr.Is4() && tsaddr.IsTailscaleIP(addr) || addr.Is6() && tsaddr.Tailscale4To6Range().Contains(addr) } func TestShouldProcessInbound(t *testing.T) { testCases := []struct { name string pkt *packet.Parsed afterStart func(*Impl) // optional; after Impl.Start is called beforeStart func(*Impl) // optional; before Impl.Start is called want bool runOnGOOS string }{ { name: "ipv6-via", pkt: &packet.Parsed{ IPVersion: 6, IPProto: ipproto.TCP, Src: netip.MustParseAddrPort("100.101.102.103:1234"), // $ tailscale debug via 7 10.1.1.9/24 // fd7a:115c:a1e0:b1a:0:7:a01:109/120 Dst: netip.MustParseAddrPort("[fd7a:115c:a1e0:b1a:0:7:a01:109]:5678"), TCPFlags: packet.TCPSyn, }, afterStart: func(i *Impl) { prefs := ipn.NewPrefs() prefs.AdvertiseRoutes = []netip.Prefix{ // $ tailscale debug via 7 10.1.1.0/24 // fd7a:115c:a1e0:b1a:0:7:a01:100/120 netip.MustParsePrefix("fd7a:115c:a1e0:b1a:0:7:a01:100/120"), } i.lb.Start(ipn.Options{ UpdatePrefs: prefs, }) i.atomicIsLocalIPFunc.Store(looksLikeATailscaleSelfAddress) }, beforeStart: func(i *Impl) { // This should be handled even if we're // otherwise not processing local IPs or // subnets. i.ProcessLocalIPs = false i.ProcessSubnets = false }, want: true, }, { name: "ipv6-via-not-advertised", pkt: &packet.Parsed{ IPVersion: 6, IPProto: ipproto.TCP, Src: netip.MustParseAddrPort("100.101.102.103:1234"), // $ tailscale debug via 7 10.1.1.9/24 // fd7a:115c:a1e0:b1a:0:7:a01:109/120 Dst: netip.MustParseAddrPort("[fd7a:115c:a1e0:b1a:0:7:a01:109]:5678"), TCPFlags: packet.TCPSyn, }, afterStart: func(i *Impl) { prefs := ipn.NewPrefs() prefs.AdvertiseRoutes = []netip.Prefix{ // tailscale debug via 7 10.1.2.0/24 // fd7a:115c:a1e0:b1a:0:7:a01:200/120 netip.MustParsePrefix("fd7a:115c:a1e0:b1a:0:7:a01:200/120"), } i.lb.Start(ipn.Options{ UpdatePrefs: prefs, }) }, want: false, }, { name: "tailscale-ssh-enabled", pkt: &packet.Parsed{ IPVersion: 4, IPProto: ipproto.TCP, Src: netip.MustParseAddrPort("100.101.102.103:1234"), Dst: netip.MustParseAddrPort("100.101.102.104:22"), TCPFlags: packet.TCPSyn, }, afterStart: func(i *Impl) { prefs := ipn.NewPrefs() prefs.RunSSH = true i.lb.Start(ipn.Options{ UpdatePrefs: prefs, }) i.atomicIsLocalIPFunc.Store(func(addr netip.Addr) bool { return addr.String() == "100.101.102.104" // Dst, above }) }, want: true, runOnGOOS: "linux", }, { name: "tailscale-ssh-disabled", pkt: &packet.Parsed{ IPVersion: 4, IPProto: ipproto.TCP, Src: netip.MustParseAddrPort("100.101.102.103:1234"), Dst: netip.MustParseAddrPort("100.101.102.104:22"), TCPFlags: packet.TCPSyn, }, afterStart: func(i *Impl) { prefs := ipn.NewPrefs() prefs.RunSSH = false // default, but to be explicit i.lb.Start(ipn.Options{ UpdatePrefs: prefs, }) i.atomicIsLocalIPFunc.Store(func(addr netip.Addr) bool { return addr.String() == "100.101.102.104" // Dst, above }) }, want: false, }, { name: "process-local-ips", pkt: &packet.Parsed{ IPVersion: 4, IPProto: ipproto.TCP, Src: netip.MustParseAddrPort("100.101.102.103:1234"), Dst: netip.MustParseAddrPort("100.101.102.104:4567"), TCPFlags: packet.TCPSyn, }, afterStart: func(i *Impl) { i.ProcessLocalIPs = true i.atomicIsLocalIPFunc.Store(func(addr netip.Addr) bool { return addr.String() == "100.101.102.104" // Dst, above }) }, want: true, }, { name: "process-subnets", pkt: &packet.Parsed{ IPVersion: 4, IPProto: ipproto.TCP, Src: netip.MustParseAddrPort("100.101.102.103:1234"), Dst: netip.MustParseAddrPort("10.1.2.3:4567"), TCPFlags: packet.TCPSyn, }, beforeStart: func(i *Impl) { i.ProcessSubnets = true }, afterStart: func(i *Impl) { // For testing purposes, assume all Tailscale // IPs are local; the Dst above is something // not in that range. i.atomicIsLocalIPFunc.Store(looksLikeATailscaleSelfAddress) }, want: true, }, { name: "peerapi-port-subnet-router", // see #6235 pkt: &packet.Parsed{ IPVersion: 4, IPProto: ipproto.TCP, Src: netip.MustParseAddrPort("100.101.102.103:1234"), Dst: netip.MustParseAddrPort("10.0.0.23:5555"), TCPFlags: packet.TCPSyn, }, beforeStart: func(i *Impl) { // As if we were running on Linux where netstack isn't used. i.ProcessSubnets = false i.atomicIsLocalIPFunc.Store(func(netip.Addr) bool { return false }) }, afterStart: func(i *Impl) { prefs := ipn.NewPrefs() prefs.AdvertiseRoutes = []netip.Prefix{ netip.MustParsePrefix("10.0.0.1/24"), } i.lb.Start(ipn.Options{ UpdatePrefs: prefs, }) // Set the PeerAPI port to the Dst port above. i.peerapiPort4Atomic.Store(5555) i.peerapiPort6Atomic.Store(5555) }, want: false, }, // TODO(andrew): test PeerAPI // TODO(andrew): test TCP packets without the SYN flag set } for _, tc := range testCases { t.Run(tc.name, func(t *testing.T) { if tc.runOnGOOS != "" && runtime.GOOS != tc.runOnGOOS { t.Skipf("skipping on GOOS=%v", runtime.GOOS) } impl := makeNetstack(t, tc.beforeStart) if tc.afterStart != nil { tc.afterStart(impl) } got := impl.shouldProcessInbound(tc.pkt, nil) if got != tc.want { t.Errorf("got shouldProcessInbound()=%v; want %v", got, tc.want) } else { t.Logf("OK: shouldProcessInbound() = %v", got) } }) } } func tcp4syn(tb testing.TB, src, dst netip.Addr, sport, dport uint16) []byte { ip := header.IPv4(make([]byte, header.IPv4MinimumSize+header.TCPMinimumSize)) ip.Encode(&header.IPv4Fields{ Protocol: uint8(header.TCPProtocolNumber), TotalLength: header.IPv4MinimumSize + header.TCPMinimumSize, TTL: 64, SrcAddr: tcpip.AddrFrom4Slice(src.AsSlice()), DstAddr: tcpip.AddrFrom4Slice(dst.AsSlice()), }) ip.SetChecksum(^ip.CalculateChecksum()) if !ip.IsChecksumValid() { tb.Fatal("test broken; packet has incorrect IP checksum") } tcp := header.TCP(ip[header.IPv4MinimumSize:]) tcp.Encode(&header.TCPFields{ SrcPort: sport, DstPort: dport, SeqNum: 0, DataOffset: header.TCPMinimumSize, Flags: header.TCPFlagSyn, WindowSize: 65535, Checksum: 0, }) xsum := header.PseudoHeaderChecksum( header.TCPProtocolNumber, tcpip.AddrFrom4Slice(src.AsSlice()), tcpip.AddrFrom4Slice(dst.AsSlice()), uint16(header.TCPMinimumSize), ) tcp.SetChecksum(^tcp.CalculateChecksum(xsum)) if !tcp.IsChecksumValid(tcpip.AddrFrom4Slice(src.AsSlice()), tcpip.AddrFrom4Slice(dst.AsSlice()), 0, 0) { tb.Fatal("test broken; packet has incorrect TCP checksum") } return ip } // makeHangDialer returns a dialer that notifies the returned channel when a // connection is dialed and then hangs until the test finishes. func makeHangDialer(tb testing.TB) (func(context.Context, string, string) (net.Conn, error), chan struct{}) { done := make(chan struct{}) tb.Cleanup(func() { close(done) }) gotConn := make(chan struct{}, 1) fn := func(ctx context.Context, network, address string) (net.Conn, error) { // Signal that we have a new connection tb.Logf("hangDialer: called with network=%q address=%q", network, address) select { case gotConn <- struct{}{}: default: } // Hang until the test is done. select { case <-ctx.Done(): tb.Logf("context done") case <-done: tb.Logf("function completed") } return nil, fmt.Errorf("canceled") } return fn, gotConn } // TestTCPForwardLimits verifies that the limits on the TCP forwarder work in a // success case (i.e. when we don't hit the limit). func TestTCPForwardLimits(t *testing.T) { envknob.Setenv("TS_DEBUG_NETSTACK", "true") impl := makeNetstack(t, func(impl *Impl) { impl.ProcessSubnets = true }) dialFn, gotConn := makeHangDialer(t) impl.forwardDialFunc = dialFn prefs := ipn.NewPrefs() prefs.AdvertiseRoutes = []netip.Prefix{ // This is the TEST-NET-1 IP block for use in documentation, // and should never actually be routable. netip.MustParsePrefix("192.0.2.0/24"), } impl.lb.Start(ipn.Options{ UpdatePrefs: prefs, }) impl.atomicIsLocalIPFunc.Store(looksLikeATailscaleSelfAddress) // Inject an "outbound" packet that's going to an IP address that times // out. We need to re-parse from a byte slice so that the internal // buffer in the packet.Parsed type is filled out. client := netip.MustParseAddr("100.101.102.103") destAddr := netip.MustParseAddr("192.0.2.1") pkt := tcp4syn(t, client, destAddr, 1234, 4567) var parsed packet.Parsed parsed.Decode(pkt) // When injecting this packet, we want the outcome to be "drop // silently", which indicates that netstack is processing the // packet and not delivering it to the host system. if resp, _ := impl.injectInbound(&parsed, impl.tundev, nil); resp != filter.DropSilently { t.Errorf("got filter outcome %v, want filter.DropSilently", resp) } ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) defer cancel() // Wait until we have an in-flight outgoing connection. select { case <-ctx.Done(): t.Fatalf("timed out waiting for connection") case <-gotConn: t.Logf("got connection in progress") } // Inject another packet, which will be deduplicated and thus not // increment our counter. parsed.Decode(pkt) if resp, _ := impl.injectInbound(&parsed, impl.tundev, nil); resp != filter.DropSilently { t.Errorf("got filter outcome %v, want filter.DropSilently", resp) } // Verify that we now have a single in-flight address in our map. impl.mu.Lock() inFlight := maps.Clone(impl.connsInFlightByClient) impl.mu.Unlock() if got, ok := inFlight[client]; !ok || got != 1 { t.Errorf("expected 1 in-flight connection for %v, got: %v", client, inFlight) } // Get the expvar statistics and verify that we're exporting the // correct metric. metrics := impl.ExpVar().(*metrics.Set) const metricName = "gauge_tcp_forward_in_flight" if v := metrics.Get(metricName).String(); v != "1" { t.Errorf("got metric %q=%s, want 1", metricName, v) } } // TestTCPForwardLimits_PerClient verifies that the per-client limit for TCP // forwarding works. func TestTCPForwardLimits_PerClient(t *testing.T) { envknob.Setenv("TS_DEBUG_NETSTACK", "true") // Set our test override limits during this test. tstest.Replace(t, &maxInFlightConnectionAttemptsForTest, 2) tstest.Replace(t, &maxInFlightConnectionAttemptsPerClientForTest, 1) impl := makeNetstack(t, func(impl *Impl) { impl.ProcessSubnets = true }) dialFn, gotConn := makeHangDialer(t) impl.forwardDialFunc = dialFn prefs := ipn.NewPrefs() prefs.AdvertiseRoutes = []netip.Prefix{ // This is the TEST-NET-1 IP block for use in documentation, // and should never actually be routable. netip.MustParsePrefix("192.0.2.0/24"), } impl.lb.Start(ipn.Options{ UpdatePrefs: prefs, }) impl.atomicIsLocalIPFunc.Store(looksLikeATailscaleSelfAddress) // Inject an "outbound" packet that's going to an IP address that times // out. We need to re-parse from a byte slice so that the internal // buffer in the packet.Parsed type is filled out. client := netip.MustParseAddr("100.101.102.103") destAddr := netip.MustParseAddr("192.0.2.1") // Helpers var port uint16 = 1234 mustInjectPacket := func() { pkt := tcp4syn(t, client, destAddr, port, 4567) port++ // to avoid deduplication based on endpoint var parsed packet.Parsed parsed.Decode(pkt) // When injecting this packet, we want the outcome to be "drop // silently", which indicates that netstack is processing the // packet and not delivering it to the host system. if resp, _ := impl.injectInbound(&parsed, impl.tundev, nil); resp != filter.DropSilently { t.Fatalf("got filter outcome %v, want filter.DropSilently", resp) } } ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) defer cancel() waitPacket := func() { select { case <-ctx.Done(): t.Fatalf("timed out waiting for connection") case <-gotConn: t.Logf("got connection in progress") } } // Inject the packet to start the TCP forward and wait until we have an // in-flight outgoing connection. mustInjectPacket() waitPacket() // Verify that we now have a single in-flight address in our map. impl.mu.Lock() inFlight := maps.Clone(impl.connsInFlightByClient) impl.mu.Unlock() if got, ok := inFlight[client]; !ok || got != 1 { t.Errorf("expected 1 in-flight connection for %v, got: %v", client, inFlight) } metrics := impl.ExpVar().(*metrics.Set) // One client should have reached the limit at this point. if v := metrics.Get("gauge_tcp_forward_in_flight_per_client_limit_reached").String(); v != "1" { t.Errorf("got limit reached expvar metric=%s, want 1", v) } // Inject another packet, and verify that we've incremented our // "dropped" metrics since this will have been dropped. mustInjectPacket() // expvar metric const metricName = "counter_tcp_forward_max_in_flight_per_client_drop" if v := metrics.Get(metricName).String(); v != "1" { t.Errorf("got expvar metric %q=%s, want 1", metricName, v) } // client metric if v := metricPerClientForwardLimit.Value(); v != 1 { t.Errorf("got clientmetric limit metric=%d, want 1", v) } } // TestHandleLocalPackets tests the handleLocalPackets function, ensuring that // we are properly deciding to handle packets that are destined for "local" // IPs–addresses that are either for this node, or that it is responsible for. // // See, e.g. #11304 func TestHandleLocalPackets(t *testing.T) { var ( selfIP4 = netip.MustParseAddr("100.64.1.2") selfIP6 = netip.MustParseAddr("fd7a:115c:a1e0::123") ) impl := makeNetstack(t, func(impl *Impl) { impl.ProcessSubnets = false impl.ProcessLocalIPs = false impl.atomicIsLocalIPFunc.Store(func(addr netip.Addr) bool { return addr == selfIP4 || addr == selfIP6 }) }) prefs := ipn.NewPrefs() prefs.AdvertiseRoutes = []netip.Prefix{ // $ tailscale debug via 7 10.1.1.0/24 // fd7a:115c:a1e0:b1a:0:7:a01:100/120 netip.MustParsePrefix("fd7a:115c:a1e0:b1a:0:7:a01:100/120"), } _, err := impl.lb.EditPrefs(&ipn.MaskedPrefs{ Prefs: *prefs, AdvertiseRoutesSet: true, }) if err != nil { t.Fatalf("EditPrefs: %v", err) } t.Run("ShouldHandleServiceIP", func(t *testing.T) { pkt := &packet.Parsed{ IPVersion: 4, IPProto: ipproto.TCP, Src: netip.MustParseAddrPort("127.0.0.1:9999"), Dst: netip.MustParseAddrPort("100.100.100.100:53"), TCPFlags: packet.TCPSyn, } resp := impl.handleLocalPackets(pkt, impl.tundev) if resp != filter.DropSilently { t.Errorf("got filter outcome %v, want filter.DropSilently", resp) } }) t.Run("ShouldHandle4via6", func(t *testing.T) { pkt := &packet.Parsed{ IPVersion: 6, IPProto: ipproto.TCP, Src: netip.MustParseAddrPort("[::1]:1234"), // This is an IP in the above 4via6 subnet that this node handles. // $ tailscale debug via 7 10.1.1.9/24 // fd7a:115c:a1e0:b1a:0:7:a01:109/120 Dst: netip.MustParseAddrPort("[fd7a:115c:a1e0:b1a:0:7:a01:109]:5678"), TCPFlags: packet.TCPSyn, } resp := impl.handleLocalPackets(pkt, impl.tundev) // DropSilently is the outcome we expected, since we actually // handled this packet by injecting it into netstack, which // will handle creating the TCP forwarder. We drop it so we // don't process the packet outside of netstack. if resp != filter.DropSilently { t.Errorf("got filter outcome %v, want filter.DropSilently", resp) } }) t.Run("OtherNonHandled", func(t *testing.T) { pkt := &packet.Parsed{ IPVersion: 6, IPProto: ipproto.TCP, Src: netip.MustParseAddrPort("[::1]:1234"), // This IP is *not* in the above 4via6 route // $ tailscale debug via 99 10.1.1.9/24 // fd7a:115c:a1e0:b1a:0:63:a01:109/120 Dst: netip.MustParseAddrPort("[fd7a:115c:a1e0:b1a:0:63:a01:109]:5678"), TCPFlags: packet.TCPSyn, } resp := impl.handleLocalPackets(pkt, impl.tundev) // Accept means that handleLocalPackets does not handle this // packet, we "accept" it to continue further processing, // instead of dropping because it was already handled. if resp != filter.Accept { t.Errorf("got filter outcome %v, want filter.Accept", resp) } }) } func TestShouldSendToHost(t *testing.T) { var ( selfIP4 = netip.MustParseAddr("100.64.1.2") selfIP6 = netip.MustParseAddr("fd7a:115c:a1e0::123") ) makeTestNetstack := func(tb testing.TB) *Impl { impl := makeNetstack(tb, func(impl *Impl) { impl.ProcessSubnets = false impl.ProcessLocalIPs = false impl.atomicIsLocalIPFunc.Store(func(addr netip.Addr) bool { return addr == selfIP4 || addr == selfIP6 }) }) prefs := ipn.NewPrefs() prefs.AdvertiseRoutes = []netip.Prefix{ // $ tailscale debug via 7 10.1.1.0/24 // fd7a:115c:a1e0:b1a:0:7:a01:100/120 netip.MustParsePrefix("fd7a:115c:a1e0:b1a:0:7:a01:100/120"), } _, err := impl.lb.EditPrefs(&ipn.MaskedPrefs{ Prefs: *prefs, AdvertiseRoutesSet: true, }) if err != nil { tb.Fatalf("EditPrefs: %v", err) } return impl } testCases := []struct { name string src, dst netip.AddrPort want bool }{ // Reply from service IP to localhost should be sent to host, // not over WireGuard. { name: "from_service_ip_to_localhost", src: netip.AddrPortFrom(serviceIP, 53), dst: netip.MustParseAddrPort("127.0.0.1:9999"), want: true, }, { name: "from_service_ip_to_localhost_v6", src: netip.AddrPortFrom(serviceIPv6, 53), dst: netip.MustParseAddrPort("[::1]:9999"), want: true, }, // A reply from the local IP to a remote host isn't sent to the // host, but rather over WireGuard. { name: "local_ip_to_remote", src: netip.AddrPortFrom(selfIP4, 12345), dst: netip.MustParseAddrPort("100.64.99.88:7777"), want: false, }, { name: "local_ip_to_remote_v6", src: netip.AddrPortFrom(selfIP6, 12345), dst: netip.MustParseAddrPort("[fd7a:115:a1e0::99]:7777"), want: false, }, // A reply from a 4via6 address to a remote host isn't sent to // the local host, but rather over WireGuard. See: // https://github.com/tailscale/tailscale/issues/12448 { name: "4via6_to_remote", // $ tailscale debug via 7 10.1.1.99/24 // fd7a:115c:a1e0:b1a:0:7:a01:163/120 src: netip.MustParseAddrPort("[fd7a:115c:a1e0:b1a:0:7:a01:163]:12345"), dst: netip.MustParseAddrPort("[fd7a:115:a1e0::99]:7777"), want: false, }, // However, a reply from a 4via6 address to the local Tailscale // IP for this host *is* sent to the local host. See: // https://github.com/tailscale/tailscale/issues/11304 { name: "4via6_to_local", // $ tailscale debug via 7 10.1.1.99/24 // fd7a:115c:a1e0:b1a:0:7:a01:163/120 src: netip.MustParseAddrPort("[fd7a:115c:a1e0:b1a:0:7:a01:163]:12345"), dst: netip.AddrPortFrom(selfIP6, 7777), want: true, }, // Traffic from a 4via6 address that we're not handling to // either the local Tailscale IP or a remote host is sent // outbound. // // In most cases, we won't see this type of traffic in the // shouldSendToHost function, but let's confirm. { name: "other_4via6_to_local", // $ tailscale debug via 4444 10.1.1.88/24 // fd7a:115c:a1e0:b1a:0:7:a01:163/120 src: netip.MustParseAddrPort("[fd7a:115c:a1e0:b1a:0:115c:a01:158]:12345"), dst: netip.AddrPortFrom(selfIP6, 7777), want: false, }, { name: "other_4via6_to_remote", // $ tailscale debug via 4444 10.1.1.88/24 // fd7a:115c:a1e0:b1a:0:7:a01:163/120 src: netip.MustParseAddrPort("[fd7a:115c:a1e0:b1a:0:115c:a01:158]:12345"), dst: netip.MustParseAddrPort("[fd7a:115:a1e0::99]:7777"), want: false, }, } for _, tt := range testCases { t.Run(tt.name, func(t *testing.T) { var pkt *stack.PacketBuffer if tt.src.Addr().Is4() { pkt = makeUDP4PacketBuffer(tt.src, tt.dst) } else { pkt = makeUDP6PacketBuffer(tt.src, tt.dst) } ns := makeTestNetstack(t) if got := ns.shouldSendToHost(pkt); got != tt.want { t.Errorf("shouldSendToHost returned %v, want %v", got, tt.want) } }) } } func makeUDP4PacketBuffer(src, dst netip.AddrPort) *stack.PacketBuffer { if !src.Addr().Is4() || !dst.Addr().Is4() { panic("src and dst must be IPv4") } data := []byte("hello world\n") packetLen := header.IPv4MinimumSize + header.UDPMinimumSize pkt := stack.NewPacketBuffer(stack.PacketBufferOptions{ ReserveHeaderBytes: packetLen, Payload: buffer.MakeWithData(data), }) // Initialize the UDP header. udp := header.UDP(pkt.TransportHeader().Push(header.UDPMinimumSize)) pkt.TransportProtocolNumber = header.UDPProtocolNumber length := uint16(pkt.Size()) udp.Encode(&header.UDPFields{ SrcPort: src.Port(), DstPort: dst.Port(), Length: length, }) // Add IP header ipHdr := header.IPv4(pkt.NetworkHeader().Push(header.IPv4MinimumSize)) pkt.NetworkProtocolNumber = header.IPv4ProtocolNumber ipHdr.Encode(&header.IPv4Fields{ TotalLength: uint16(packetLen), Protocol: uint8(header.UDPProtocolNumber), SrcAddr: tcpip.AddrFrom4(src.Addr().As4()), DstAddr: tcpip.AddrFrom4(dst.Addr().As4()), Checksum: 0, }) return pkt } func makeUDP6PacketBuffer(src, dst netip.AddrPort) *stack.PacketBuffer { if !src.Addr().Is6() || !dst.Addr().Is6() { panic("src and dst must be IPv6") } data := []byte("hello world\n") packetLen := header.IPv6MinimumSize + header.UDPMinimumSize pkt := stack.NewPacketBuffer(stack.PacketBufferOptions{ ReserveHeaderBytes: packetLen, Payload: buffer.MakeWithData(data), }) srcAddr := tcpip.AddrFrom16(src.Addr().As16()) dstAddr := tcpip.AddrFrom16(dst.Addr().As16()) // Add IP header ipHdr := header.IPv6(pkt.NetworkHeader().Push(header.IPv6MinimumSize)) pkt.NetworkProtocolNumber = header.IPv6ProtocolNumber ipHdr.Encode(&header.IPv6Fields{ SrcAddr: srcAddr, DstAddr: dstAddr, PayloadLength: uint16(header.UDPMinimumSize + len(data)), TransportProtocol: header.UDPProtocolNumber, HopLimit: 64, }) // Initialize the UDP header. udp := header.UDP(pkt.TransportHeader().Push(header.UDPMinimumSize)) pkt.TransportProtocolNumber = header.UDPProtocolNumber length := uint16(pkt.Size()) udp.Encode(&header.UDPFields{ SrcPort: src.Port(), DstPort: dst.Port(), Length: length, }) // Calculate the UDP pseudo-header checksum. xsum := header.PseudoHeaderChecksum(header.UDPProtocolNumber, srcAddr, dstAddr, uint16(len(udp))) udp.SetChecksum(^udp.CalculateChecksum(xsum)) return pkt }