// Copyright (c) 2020 Tailscale Inc & AUTHORS All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package tstun import ( "bytes" "fmt" "strconv" "strings" "sync/atomic" "testing" "unsafe" "github.com/tailscale/wireguard-go/tun/tuntest" "inet.af/netaddr" "tailscale.com/net/packet" "tailscale.com/types/logger" "tailscale.com/wgengine/filter" ) func udp4(src, dst string, sport, dport uint16) []byte { sip, err := netaddr.ParseIP(src) if err != nil { panic(err) } dip, err := netaddr.ParseIP(dst) if err != nil { panic(err) } header := &packet.UDP4Header{ IP4Header: packet.IP4Header{ Src: sip, Dst: dip, IPID: 0, }, SrcPort: sport, DstPort: dport, } return packet.Generate(header, []byte("udp_payload")) } func nets(nets ...string) (ret []netaddr.IPPrefix) { for _, s := range nets { if i := strings.IndexByte(s, '/'); i == -1 { ip, err := netaddr.ParseIP(s) if err != nil { panic(err) } bits := uint8(32) if ip.Is6() { bits = 128 } ret = append(ret, netaddr.IPPrefix{IP: ip, Bits: bits}) } else { pfx, err := netaddr.ParseIPPrefix(s) if err != nil { panic(err) } ret = append(ret, pfx) } } return ret } func ports(s string) filter.PortRange { if s == "*" { return filter.PortRange{First: 0, Last: 65535} } var fs, ls string i := strings.IndexByte(s, '-') if i == -1 { fs = s ls = fs } else { fs = s[:i] ls = s[i+1:] } first, err := strconv.ParseInt(fs, 10, 16) if err != nil { panic(fmt.Sprintf("invalid NetPortRange %q", s)) } last, err := strconv.ParseInt(ls, 10, 16) if err != nil { panic(fmt.Sprintf("invalid NetPortRange %q", s)) } return filter.PortRange{First: uint16(first), Last: uint16(last)} } func netports(netPorts ...string) (ret []filter.NetPortRange) { for _, s := range netPorts { i := strings.LastIndexByte(s, ':') if i == -1 { panic(fmt.Sprintf("invalid NetPortRange %q", s)) } npr := filter.NetPortRange{ Net: nets(s[:i])[0], Ports: ports(s[i+1:]), } ret = append(ret, npr) } return ret } func setfilter(logf logger.Logf, tun *TUN) { matches := []filter.Match{ {Srcs: nets("5.6.7.8"), Dsts: netports("1.2.3.4:89-90")}, {Srcs: nets("1.2.3.4"), Dsts: netports("5.6.7.8:98")}, } var sb netaddr.IPSetBuilder sb.AddPrefix(netaddr.MustParseIPPrefix("1.2.0.0/16")) tun.SetFilter(filter.New(matches, sb.IPSet(), sb.IPSet(), nil, logf)) } func newChannelTUN(logf logger.Logf, secure bool) (*tuntest.ChannelTUN, *TUN) { chtun := tuntest.NewChannelTUN() tun := WrapTUN(logf, chtun.TUN()) if secure { setfilter(logf, tun) } else { tun.disableFilter = true } return chtun, tun } func newFakeTUN(logf logger.Logf, secure bool) (*fakeTUN, *TUN) { ftun := NewFakeTUN() tun := WrapTUN(logf, ftun) if secure { setfilter(logf, tun) } else { tun.disableFilter = true } return ftun.(*fakeTUN), tun } func TestReadAndInject(t *testing.T) { chtun, tun := newChannelTUN(t.Logf, false) defer tun.Close() const size = 2 // all payloads have this size written := []string{"w0", "w1"} injected := []string{"i0", "i1"} go func() { for _, packet := range written { payload := []byte(packet) chtun.Outbound <- payload } }() for _, packet := range injected { go func(packet string) { payload := []byte(packet) err := tun.InjectOutbound(payload) if err != nil { t.Errorf("%s: error: %v", packet, err) } }(packet) } var buf [MaxPacketSize]byte var seen = make(map[string]bool) // We expect the same packets back, in no particular order. for i := 0; i < len(written)+len(injected); i++ { n, err := tun.Read(buf[:], 0) if err != nil { t.Errorf("read %d: error: %v", i, err) } if n != size { t.Errorf("read %d: got size %d; want %d", i, n, size) } got := string(buf[:n]) t.Logf("read %d: got %s", i, got) seen[got] = true } for _, packet := range written { if !seen[packet] { t.Errorf("%s not received", packet) } } for _, packet := range injected { if !seen[packet] { t.Errorf("%s not received", packet) } } } func TestWriteAndInject(t *testing.T) { chtun, tun := newChannelTUN(t.Logf, false) defer tun.Close() const size = 2 // all payloads have this size written := []string{"w0", "w1"} injected := []string{"i0", "i1"} go func() { for _, packet := range written { payload := []byte(packet) n, err := tun.Write(payload, 0) if err != nil { t.Errorf("%s: error: %v", packet, err) } if n != size { t.Errorf("%s: got size %d; want %d", packet, n, size) } } }() for _, packet := range injected { go func(packet string) { payload := []byte(packet) err := tun.InjectInboundCopy(payload) if err != nil { t.Errorf("%s: error: %v", packet, err) } }(packet) } seen := make(map[string]bool) // We expect the same packets back, in no particular order. for i := 0; i < len(written)+len(injected); i++ { packet := <-chtun.Inbound got := string(packet) t.Logf("read %d: got %s", i, got) seen[got] = true } for _, packet := range written { if !seen[packet] { t.Errorf("%s not received", packet) } } for _, packet := range injected { if !seen[packet] { t.Errorf("%s not received", packet) } } } func TestFilter(t *testing.T) { chtun, tun := newChannelTUN(t.Logf, true) defer tun.Close() type direction int const ( in direction = iota out ) tests := []struct { name string dir direction drop bool data []byte }{ {"junk_in", in, true, []byte("\x45not a valid IPv4 packet")}, {"junk_out", out, true, []byte("\x45not a valid IPv4 packet")}, {"bad_port_in", in, true, udp4("5.6.7.8", "1.2.3.4", 22, 22)}, {"bad_port_out", out, false, udp4("1.2.3.4", "5.6.7.8", 22, 22)}, {"bad_ip_in", in, true, udp4("8.1.1.1", "1.2.3.4", 89, 89)}, {"bad_ip_out", out, false, udp4("1.2.3.4", "8.1.1.1", 98, 98)}, {"good_packet_in", in, false, udp4("5.6.7.8", "1.2.3.4", 89, 89)}, {"good_packet_out", out, false, udp4("1.2.3.4", "5.6.7.8", 98, 98)}, } // A reader on the other end of the TUN. go func() { var recvbuf []byte for { select { case <-tun.closed: return case recvbuf = <-chtun.Inbound: // continue } for _, tt := range tests { if tt.drop && bytes.Equal(recvbuf, tt.data) { t.Errorf("did not drop %s", tt.name) } } } }() var buf [MaxPacketSize]byte for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { var n int var err error var filtered bool if tt.dir == in { _, err = tun.Write(tt.data, 0) if err == ErrFiltered { filtered = true err = nil } } else { chtun.Outbound <- tt.data n, err = tun.Read(buf[:], 0) // In the read direction, errors are fatal, so we return n = 0 instead. filtered = (n == 0) } if err != nil { t.Errorf("got err %v; want nil", err) } if filtered { if !tt.drop { t.Errorf("got drop; want accept") } } else { if tt.drop { t.Errorf("got accept; want drop") } } }) } } func TestAllocs(t *testing.T) { ftun, tun := newFakeTUN(t.Logf, false) defer tun.Close() buf := []byte{0x00} allocs := testing.AllocsPerRun(100, func() { _, err := ftun.Write(buf, 0) if err != nil { t.Errorf("write: error: %v", err) return } }) if allocs > 0 { t.Errorf("read allocs = %v; want 0", allocs) } } func TestClose(t *testing.T) { ftun, tun := newFakeTUN(t.Logf, false) data := udp4("1.2.3.4", "5.6.7.8", 98, 98) _, err := ftun.Write(data, 0) if err != nil { t.Error(err) } tun.Close() _, err = ftun.Write(data, 0) if err == nil { t.Error("Expected error from ftun.Write() after Close()") } } func BenchmarkWrite(b *testing.B) { ftun, tun := newFakeTUN(b.Logf, true) defer tun.Close() packet := udp4("5.6.7.8", "1.2.3.4", 89, 89) for i := 0; i < b.N; i++ { _, err := ftun.Write(packet, 0) if err != nil { b.Errorf("err = %v; want nil", err) } } } func TestAtomic64Alignment(t *testing.T) { off := unsafe.Offsetof(TUN{}.lastActivityAtomic) if off%8 != 0 { t.Errorf("offset %v not 8-byte aligned", off) } c := new(TUN) atomic.StoreInt64(&c.lastActivityAtomic, 123) }