// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause package netcheck import ( "bytes" "context" "fmt" "net" "net/http" "net/netip" "reflect" "sort" "strconv" "strings" "sync/atomic" "testing" "time" "tailscale.com/net/interfaces" "tailscale.com/net/stun" "tailscale.com/net/stun/stuntest" "tailscale.com/tailcfg" "tailscale.com/tstest" ) func TestHairpinSTUN(t *testing.T) { tx := stun.NewTxID() c := &Client{ curState: &reportState{ hairTX: tx, gotHairSTUN: make(chan netip.AddrPort, 1), }, } req := stun.Request(tx) if !stun.Is(req) { t.Fatal("expected STUN message") } if !c.handleHairSTUNLocked(req, netip.AddrPort{}) { t.Fatal("expected true") } select { case <-c.curState.gotHairSTUN: default: t.Fatal("expected value") } } func TestHairpinWait(t *testing.T) { makeClient := func(t *testing.T) (*Client, *reportState) { tx := stun.NewTxID() c := &Client{} req := stun.Request(tx) if !stun.Is(req) { t.Fatal("expected STUN message") } var err error rs := &reportState{ c: c, hairTX: tx, gotHairSTUN: make(chan netip.AddrPort, 1), hairTimeout: make(chan struct{}), report: newReport(), } rs.pc4Hair, err = net.ListenUDP("udp4", &net.UDPAddr{ IP: net.ParseIP("127.0.0.1"), Port: 0, }) if err != nil { t.Fatal(err) } c.curState = rs return c, rs } ll, err := net.ListenPacket("udp", "localhost:0") if err != nil { t.Fatal(err) } defer ll.Close() dstAddr := netip.MustParseAddrPort(ll.LocalAddr().String()) t.Run("Success", func(t *testing.T) { c, rs := makeClient(t) req := stun.Request(rs.hairTX) // Start a hairpin check to ourselves. rs.startHairCheckLocked(dstAddr) // Fake receiving the stun check from ourselves after some period of time. src := netip.MustParseAddrPort(rs.pc4Hair.LocalAddr().String()) c.handleHairSTUNLocked(req, src) rs.waitHairCheck(context.Background()) // Verify that we set HairPinning if got := rs.report.HairPinning; !got.EqualBool(true) { t.Errorf("wanted HairPinning=true, got %v", got) } }) t.Run("LateReply", func(t *testing.T) { c, rs := makeClient(t) req := stun.Request(rs.hairTX) // Start a hairpin check to ourselves. rs.startHairCheckLocked(dstAddr) // Wait until we've timed out, to mimic the race in #1795. <-rs.hairTimeout // Fake receiving the stun check from ourselves after some period of time. src := netip.MustParseAddrPort(rs.pc4Hair.LocalAddr().String()) c.handleHairSTUNLocked(req, src) // Wait for a hairpin response rs.waitHairCheck(context.Background()) // Verify that we set HairPinning if got := rs.report.HairPinning; !got.EqualBool(true) { t.Errorf("wanted HairPinning=true, got %v", got) } }) t.Run("Timeout", func(t *testing.T) { _, rs := makeClient(t) // Start a hairpin check to ourselves. rs.startHairCheckLocked(dstAddr) ctx, cancel := context.WithTimeout(context.Background(), hairpinCheckTimeout*50) defer cancel() // Wait in the background waitDone := make(chan struct{}) go func() { rs.waitHairCheck(ctx) close(waitDone) }() // If we do nothing, then we time out; confirm that we set // HairPinning to false in this case. select { case <-waitDone: if got := rs.report.HairPinning; !got.EqualBool(false) { t.Errorf("wanted HairPinning=false, got %v", got) } case <-ctx.Done(): t.Fatalf("timed out waiting for hairpin channel") } }) } func TestBasic(t *testing.T) { stunAddr, cleanup := stuntest.Serve(t) defer cleanup() c := &Client{ Logf: t.Logf, UDPBindAddr: "127.0.0.1:0", } ctx, cancel := context.WithTimeout(context.Background(), 1*time.Second) defer cancel() r, err := c.GetReport(ctx, stuntest.DERPMapOf(stunAddr.String())) if err != nil { t.Fatal(err) } if !r.UDP { t.Error("want UDP") } if len(r.RegionLatency) != 1 { t.Errorf("expected 1 key in DERPLatency; got %+v", r.RegionLatency) } if _, ok := r.RegionLatency[1]; !ok { t.Errorf("expected key 1 in DERPLatency; got %+v", r.RegionLatency) } if r.GlobalV4 == "" { t.Error("expected GlobalV4 set") } if r.PreferredDERP != 1 { t.Errorf("PreferredDERP = %v; want 1", r.PreferredDERP) } } func TestWorksWhenUDPBlocked(t *testing.T) { blackhole, err := net.ListenPacket("udp4", "127.0.0.1:0") if err != nil { t.Fatalf("failed to open blackhole STUN listener: %v", err) } defer blackhole.Close() stunAddr := blackhole.LocalAddr().String() dm := stuntest.DERPMapOf(stunAddr) dm.Regions[1].Nodes[0].STUNOnly = true c := &Client{ Logf: t.Logf, } ctx, cancel := context.WithTimeout(context.Background(), 250*time.Millisecond) defer cancel() r, err := c.GetReport(ctx, dm) if err != nil { t.Fatal(err) } r.UPnP = "" r.PMP = "" r.PCP = "" want := newReport() // The IPv4CanSend flag gets set differently across platforms. // On Windows this test detects false, while on Linux detects true. // That's not relevant to this test, so just accept what we're // given. want.IPv4CanSend = r.IPv4CanSend // OS IPv6 test is irrelevant here, accept whatever the current // machine has. want.OSHasIPv6 = r.OSHasIPv6 // Captive portal test is irrelevant; accept what the current report // has. want.CaptivePortal = r.CaptivePortal if !reflect.DeepEqual(r, want) { t.Errorf("mismatch\n got: %+v\nwant: %+v\n", r, want) } } func TestAddReportHistoryAndSetPreferredDERP(t *testing.T) { // report returns a *Report from (DERP host, time.Duration)+ pairs. report := func(a ...any) *Report { r := &Report{RegionLatency: map[int]time.Duration{}} for i := 0; i < len(a); i += 2 { s := a[i].(string) if !strings.HasPrefix(s, "d") { t.Fatalf("invalid derp server key %q", s) } regionID, err := strconv.Atoi(s[1:]) if err != nil { t.Fatalf("invalid derp server key %q", s) } switch v := a[i+1].(type) { case time.Duration: r.RegionLatency[regionID] = v case int: r.RegionLatency[regionID] = time.Second * time.Duration(v) default: panic(fmt.Sprintf("unexpected type %T", v)) } } return r } type step struct { after time.Duration r *Report } tests := []struct { name string steps []step homeParams *tailcfg.DERPHomeParams wantDERP int // want PreferredDERP on final step wantPrevLen int // wanted len(c.prev) }{ { name: "first_reading", steps: []step{ {0, report("d1", 2, "d2", 3)}, }, wantPrevLen: 1, wantDERP: 1, }, { name: "with_two", steps: []step{ {0, report("d1", 2, "d2", 3)}, {1 * time.Second, report("d1", 4, "d2", 3)}, }, wantPrevLen: 2, wantDERP: 1, // t0's d1 of 2 is still best }, { name: "but_now_d1_gone", steps: []step{ {0, report("d1", 2, "d2", 3)}, {1 * time.Second, report("d1", 4, "d2", 3)}, {2 * time.Second, report("d2", 3)}, }, wantPrevLen: 3, wantDERP: 2, // only option }, { name: "d1_is_back", steps: []step{ {0, report("d1", 2, "d2", 3)}, {1 * time.Second, report("d1", 4, "d2", 3)}, {2 * time.Second, report("d2", 3)}, {3 * time.Second, report("d1", 4, "d2", 3)}, // same as 2 seconds ago }, wantPrevLen: 4, wantDERP: 1, // t0's d1 of 2 is still best }, { name: "things_clean_up", steps: []step{ {0, report("d1", 1, "d2", 2)}, {1 * time.Second, report("d1", 1, "d2", 2)}, {2 * time.Second, report("d1", 1, "d2", 2)}, {3 * time.Second, report("d1", 1, "d2", 2)}, {10 * time.Minute, report("d3", 3)}, }, wantPrevLen: 1, // t=[0123]s all gone. (too old, older than 10 min) wantDERP: 3, // only option }, { name: "preferred_derp_hysteresis_no_switch", steps: []step{ {0 * time.Second, report("d1", 4, "d2", 5)}, {1 * time.Second, report("d1", 4, "d2", 3)}, }, wantPrevLen: 2, wantDERP: 1, // 2 didn't get fast enough }, { name: "preferred_derp_hysteresis_no_switch_absolute", steps: []step{ {0 * time.Second, report("d1", 4*time.Millisecond, "d2", 5*time.Millisecond)}, {1 * time.Second, report("d1", 4*time.Millisecond, "d2", 1*time.Millisecond)}, }, wantPrevLen: 2, wantDERP: 1, // 2 is 50%+ faster, but the absolute diff is <10ms }, { name: "preferred_derp_hysteresis_do_switch", steps: []step{ {0 * time.Second, report("d1", 4, "d2", 5)}, {1 * time.Second, report("d1", 4, "d2", 1)}, }, wantPrevLen: 2, wantDERP: 2, // 2 got fast enough }, { name: "derp_home_params", homeParams: &tailcfg.DERPHomeParams{ RegionScore: map[int]float64{ 1: 2.0 / 3, // 66% }, }, steps: []step{ // We only use a single step here to avoid // conflating DERP selection as a result of // weight hints with the "stickiness" check // that tries to not change the home DERP // between steps. {1 * time.Second, report("d1", 10, "d2", 8)}, }, wantPrevLen: 1, wantDERP: 1, // 2 was faster, but not by 50%+ }, { name: "derp_home_params_high_latency", homeParams: &tailcfg.DERPHomeParams{ RegionScore: map[int]float64{ 1: 2.0 / 3, // 66% }, }, steps: []step{ // See derp_home_params for why this is a single step. {1 * time.Second, report("d1", 100, "d2", 10)}, }, wantPrevLen: 1, wantDERP: 2, // 2 was faster by more than 50% }, { name: "derp_home_params_invalid", homeParams: &tailcfg.DERPHomeParams{ RegionScore: map[int]float64{ 1: 0.0, 2: -1.0, }, }, steps: []step{ {1 * time.Second, report("d1", 4, "d2", 5)}, }, wantPrevLen: 1, wantDERP: 1, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { fakeTime := time.Unix(123, 0) c := &Client{ TimeNow: func() time.Time { return fakeTime }, } dm := &tailcfg.DERPMap{HomeParams: tt.homeParams} for _, s := range tt.steps { fakeTime = fakeTime.Add(s.after) c.addReportHistoryAndSetPreferredDERP(s.r, dm.View()) } lastReport := tt.steps[len(tt.steps)-1].r if got, want := len(c.prev), tt.wantPrevLen; got != want { t.Errorf("len(prev) = %v; want %v", got, want) } if got, want := lastReport.PreferredDERP, tt.wantDERP; got != want { t.Errorf("PreferredDERP = %v; want %v", got, want) } }) } } func TestMakeProbePlan(t *testing.T) { // basicMap has 5 regions. each region has a number of nodes // equal to the region number (1 has 1a, 2 has 2a and 2b, etc.) basicMap := &tailcfg.DERPMap{ Regions: map[int]*tailcfg.DERPRegion{}, } for rid := 1; rid <= 5; rid++ { var nodes []*tailcfg.DERPNode for nid := 0; nid < rid; nid++ { nodes = append(nodes, &tailcfg.DERPNode{ Name: fmt.Sprintf("%d%c", rid, 'a'+rune(nid)), RegionID: rid, HostName: fmt.Sprintf("derp%d-%d", rid, nid), IPv4: fmt.Sprintf("%d.0.0.%d", rid, nid), IPv6: fmt.Sprintf("%d::%d", rid, nid), }) } basicMap.Regions[rid] = &tailcfg.DERPRegion{ RegionID: rid, Nodes: nodes, } } const ms = time.Millisecond p := func(name string, c rune, d ...time.Duration) probe { var proto probeProto switch c { case 4: proto = probeIPv4 case 6: proto = probeIPv6 case 'h': proto = probeHTTPS } pr := probe{node: name, proto: proto} if len(d) == 1 { pr.delay = d[0] } else if len(d) > 1 { panic("too many args") } return pr } tests := []struct { name string dm *tailcfg.DERPMap have6if bool no4 bool // no IPv4 last *Report want probePlan }{ { name: "initial_v6", dm: basicMap, have6if: true, last: nil, // initial want: probePlan{ "region-1-v4": []probe{p("1a", 4), p("1a", 4, 100*ms), p("1a", 4, 200*ms)}, // all a "region-1-v6": []probe{p("1a", 6), p("1a", 6, 100*ms), p("1a", 6, 200*ms)}, "region-2-v4": []probe{p("2a", 4), p("2b", 4, 100*ms), p("2a", 4, 200*ms)}, // a -> b -> a "region-2-v6": []probe{p("2a", 6), p("2b", 6, 100*ms), p("2a", 6, 200*ms)}, "region-3-v4": []probe{p("3a", 4), p("3b", 4, 100*ms), p("3c", 4, 200*ms)}, // a -> b -> c "region-3-v6": []probe{p("3a", 6), p("3b", 6, 100*ms), p("3c", 6, 200*ms)}, "region-4-v4": []probe{p("4a", 4), p("4b", 4, 100*ms), p("4c", 4, 200*ms)}, "region-4-v6": []probe{p("4a", 6), p("4b", 6, 100*ms), p("4c", 6, 200*ms)}, "region-5-v4": []probe{p("5a", 4), p("5b", 4, 100*ms), p("5c", 4, 200*ms)}, "region-5-v6": []probe{p("5a", 6), p("5b", 6, 100*ms), p("5c", 6, 200*ms)}, }, }, { name: "initial_no_v6", dm: basicMap, have6if: false, last: nil, // initial want: probePlan{ "region-1-v4": []probe{p("1a", 4), p("1a", 4, 100*ms), p("1a", 4, 200*ms)}, // all a "region-2-v4": []probe{p("2a", 4), p("2b", 4, 100*ms), p("2a", 4, 200*ms)}, // a -> b -> a "region-3-v4": []probe{p("3a", 4), p("3b", 4, 100*ms), p("3c", 4, 200*ms)}, // a -> b -> c "region-4-v4": []probe{p("4a", 4), p("4b", 4, 100*ms), p("4c", 4, 200*ms)}, "region-5-v4": []probe{p("5a", 4), p("5b", 4, 100*ms), p("5c", 4, 200*ms)}, }, }, { name: "second_v4_no_6if", dm: basicMap, have6if: false, last: &Report{ RegionLatency: map[int]time.Duration{ 1: 10 * time.Millisecond, 2: 20 * time.Millisecond, 3: 30 * time.Millisecond, 4: 40 * time.Millisecond, // Pretend 5 is missing }, RegionV4Latency: map[int]time.Duration{ 1: 10 * time.Millisecond, 2: 20 * time.Millisecond, 3: 30 * time.Millisecond, 4: 40 * time.Millisecond, }, }, want: probePlan{ "region-1-v4": []probe{p("1a", 4), p("1a", 4, 12*ms)}, "region-2-v4": []probe{p("2a", 4), p("2b", 4, 24*ms)}, "region-3-v4": []probe{p("3a", 4)}, }, }, { name: "second_v4_only_with_6if", dm: basicMap, have6if: true, last: &Report{ RegionLatency: map[int]time.Duration{ 1: 10 * time.Millisecond, 2: 20 * time.Millisecond, 3: 30 * time.Millisecond, 4: 40 * time.Millisecond, // Pretend 5 is missing }, RegionV4Latency: map[int]time.Duration{ 1: 10 * time.Millisecond, 2: 20 * time.Millisecond, 3: 30 * time.Millisecond, 4: 40 * time.Millisecond, }, }, want: probePlan{ "region-1-v4": []probe{p("1a", 4), p("1a", 4, 12*ms)}, "region-1-v6": []probe{p("1a", 6)}, "region-2-v4": []probe{p("2a", 4), p("2b", 4, 24*ms)}, "region-2-v6": []probe{p("2a", 6)}, "region-3-v4": []probe{p("3a", 4)}, }, }, { name: "second_mixed", dm: basicMap, have6if: true, last: &Report{ RegionLatency: map[int]time.Duration{ 1: 10 * time.Millisecond, 2: 20 * time.Millisecond, 3: 30 * time.Millisecond, 4: 40 * time.Millisecond, // Pretend 5 is missing }, RegionV4Latency: map[int]time.Duration{ 1: 10 * time.Millisecond, 2: 20 * time.Millisecond, }, RegionV6Latency: map[int]time.Duration{ 3: 30 * time.Millisecond, 4: 40 * time.Millisecond, }, }, want: probePlan{ "region-1-v4": []probe{p("1a", 4), p("1a", 4, 12*ms)}, "region-1-v6": []probe{p("1a", 6), p("1a", 6, 12*ms)}, "region-2-v4": []probe{p("2a", 4), p("2b", 4, 24*ms)}, "region-2-v6": []probe{p("2a", 6), p("2b", 6, 24*ms)}, "region-3-v4": []probe{p("3a", 4)}, }, }, { name: "only_v6_initial", have6if: true, no4: true, dm: basicMap, want: probePlan{ "region-1-v6": []probe{p("1a", 6), p("1a", 6, 100*ms), p("1a", 6, 200*ms)}, "region-2-v6": []probe{p("2a", 6), p("2b", 6, 100*ms), p("2a", 6, 200*ms)}, "region-3-v6": []probe{p("3a", 6), p("3b", 6, 100*ms), p("3c", 6, 200*ms)}, "region-4-v6": []probe{p("4a", 6), p("4b", 6, 100*ms), p("4c", 6, 200*ms)}, "region-5-v6": []probe{p("5a", 6), p("5b", 6, 100*ms), p("5c", 6, 200*ms)}, }, }, { name: "try_harder_for_preferred_derp", dm: basicMap, have6if: true, last: &Report{ RegionLatency: map[int]time.Duration{ 1: 10 * time.Millisecond, 2: 20 * time.Millisecond, 3: 30 * time.Millisecond, 4: 40 * time.Millisecond, }, RegionV4Latency: map[int]time.Duration{ 1: 10 * time.Millisecond, 2: 20 * time.Millisecond, }, RegionV6Latency: map[int]time.Duration{ 3: 30 * time.Millisecond, 4: 40 * time.Millisecond, }, PreferredDERP: 1, }, want: probePlan{ "region-1-v4": []probe{p("1a", 4), p("1a", 4, 12*ms), p("1a", 4, 124*ms), p("1a", 4, 186*ms)}, "region-1-v6": []probe{p("1a", 6), p("1a", 6, 12*ms), p("1a", 6, 124*ms), p("1a", 6, 186*ms)}, "region-2-v4": []probe{p("2a", 4), p("2b", 4, 24*ms)}, "region-2-v6": []probe{p("2a", 6), p("2b", 6, 24*ms)}, "region-3-v4": []probe{p("3a", 4)}, }, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { ifState := &interfaces.State{ HaveV6: tt.have6if, HaveV4: !tt.no4, } got := makeProbePlan(tt.dm, ifState, tt.last) if !reflect.DeepEqual(got, tt.want) { t.Errorf("unexpected plan; got:\n%v\nwant:\n%v\n", got, tt.want) } }) } } func (plan probePlan) String() string { var sb strings.Builder keys := []string{} for k := range plan { keys = append(keys, k) } sort.Strings(keys) for _, key := range keys { fmt.Fprintf(&sb, "[%s]", key) pv := plan[key] for _, p := range pv { fmt.Fprintf(&sb, " %v", p) } sb.WriteByte('\n') } return sb.String() } func (p probe) String() string { wait := "" if p.wait > 0 { wait = "+" + p.wait.String() } delay := "" if p.delay > 0 { delay = "@" + p.delay.String() } return fmt.Sprintf("%s-%s%s%s", p.node, p.proto, delay, wait) } func (p probeProto) String() string { switch p { case probeIPv4: return "v4" case probeIPv6: return "v4" case probeHTTPS: return "https" } return "?" } func TestLogConciseReport(t *testing.T) { dm := &tailcfg.DERPMap{ Regions: map[int]*tailcfg.DERPRegion{ 1: nil, 2: nil, 3: nil, }, } const ms = time.Millisecond tests := []struct { name string r *Report want string }{ { name: "no_udp", r: &Report{}, want: "udp=false v4=false icmpv4=false v6=false mapvarydest= hair= portmap=? derp=0", }, { name: "no_udp_icmp", r: &Report{ICMPv4: true, IPv4: true}, want: "udp=false icmpv4=true v6=false mapvarydest= hair= portmap=? derp=0", }, { name: "ipv4_one_region", r: &Report{ UDP: true, IPv4: true, PreferredDERP: 1, RegionLatency: map[int]time.Duration{ 1: 10 * ms, }, RegionV4Latency: map[int]time.Duration{ 1: 10 * ms, }, }, want: "udp=true v6=false mapvarydest= hair= portmap=? derp=1 derpdist=1v4:10ms", }, { name: "ipv4_all_region", r: &Report{ UDP: true, IPv4: true, PreferredDERP: 1, RegionLatency: map[int]time.Duration{ 1: 10 * ms, 2: 20 * ms, 3: 30 * ms, }, RegionV4Latency: map[int]time.Duration{ 1: 10 * ms, 2: 20 * ms, 3: 30 * ms, }, }, want: "udp=true v6=false mapvarydest= hair= portmap=? derp=1 derpdist=1v4:10ms,2v4:20ms,3v4:30ms", }, { name: "ipboth_all_region", r: &Report{ UDP: true, IPv4: true, IPv6: true, PreferredDERP: 1, RegionLatency: map[int]time.Duration{ 1: 10 * ms, 2: 20 * ms, 3: 30 * ms, }, RegionV4Latency: map[int]time.Duration{ 1: 10 * ms, 2: 20 * ms, 3: 30 * ms, }, RegionV6Latency: map[int]time.Duration{ 1: 10 * ms, 2: 20 * ms, 3: 30 * ms, }, }, want: "udp=true v6=true mapvarydest= hair= portmap=? derp=1 derpdist=1v4:10ms,1v6:10ms,2v4:20ms,2v6:20ms,3v4:30ms,3v6:30ms", }, { name: "portmap_all", r: &Report{ UDP: true, UPnP: "true", PMP: "true", PCP: "true", }, want: "udp=true v4=false v6=false mapvarydest= hair= portmap=UMC derp=0", }, { name: "portmap_some", r: &Report{ UDP: true, UPnP: "true", PMP: "false", PCP: "true", }, want: "udp=true v4=false v6=false mapvarydest= hair= portmap=UC derp=0", }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { var buf bytes.Buffer c := &Client{Logf: func(f string, a ...any) { fmt.Fprintf(&buf, f, a...) }} c.logConciseReport(tt.r, dm) if got, ok := strings.CutPrefix(buf.String(), "[v1] report: "); !ok { t.Errorf("unexpected result.\n got: %#q\nwant: %#q\n", got, tt.want) } }) } } func TestSortRegions(t *testing.T) { unsortedMap := &tailcfg.DERPMap{ Regions: map[int]*tailcfg.DERPRegion{}, } for rid := 1; rid <= 5; rid++ { var nodes []*tailcfg.DERPNode nodes = append(nodes, &tailcfg.DERPNode{ Name: fmt.Sprintf("%da", rid), RegionID: rid, HostName: fmt.Sprintf("derp%d-1", rid), IPv4: fmt.Sprintf("%d.0.0.1", rid), IPv6: fmt.Sprintf("%d::1", rid), }) unsortedMap.Regions[rid] = &tailcfg.DERPRegion{ RegionID: rid, Nodes: nodes, } } report := newReport() report.RegionLatency[1] = time.Second * time.Duration(5) report.RegionLatency[2] = time.Second * time.Duration(3) report.RegionLatency[3] = time.Second * time.Duration(6) report.RegionLatency[4] = time.Second * time.Duration(0) report.RegionLatency[5] = time.Second * time.Duration(2) sortedMap := sortRegions(unsortedMap, report) // Sorting by latency this should result in rid: 5, 2, 1, 3 // rid 4 with latency 0 should be at the end want := []int{5, 2, 1, 3, 4} got := make([]int, len(sortedMap)) for i, r := range sortedMap { got[i] = r.RegionID } if !reflect.DeepEqual(got, want) { t.Errorf("got %v; want %v", got, want) } } func TestNoCaptivePortalWhenUDP(t *testing.T) { // Override noRedirectClient to handle the /generate_204 endpoint var generate204Called atomic.Bool tr := RoundTripFunc(func(req *http.Request) *http.Response { if !strings.HasSuffix(req.URL.String(), "/generate_204") { panic("bad URL: " + req.URL.String()) } generate204Called.Store(true) return &http.Response{ StatusCode: http.StatusNoContent, Header: make(http.Header), } }) tstest.Replace(t, &noRedirectClient.Transport, http.RoundTripper(tr)) stunAddr, cleanup := stuntest.Serve(t) defer cleanup() c := &Client{ Logf: t.Logf, UDPBindAddr: "127.0.0.1:0", testEnoughRegions: 1, // Set the delay long enough that we have time to cancel it // when our STUN probe succeeds. testCaptivePortalDelay: 10 * time.Second, } ctx, cancel := context.WithTimeout(context.Background(), 1*time.Second) defer cancel() r, err := c.GetReport(ctx, stuntest.DERPMapOf(stunAddr.String())) if err != nil { t.Fatal(err) } // Should not have called our captive portal function. if generate204Called.Load() { t.Errorf("captive portal check called; expected no call") } if r.CaptivePortal != "" { t.Errorf("got CaptivePortal=%q, want empty", r.CaptivePortal) } } type RoundTripFunc func(req *http.Request) *http.Response func (f RoundTripFunc) RoundTrip(req *http.Request) (*http.Response, error) { return f(req), nil } func TestNodeAddrResolve(t *testing.T) { c := &Client{ Logf: t.Logf, UDPBindAddr: "127.0.0.1:0", UseDNSCache: true, } dn := &tailcfg.DERPNode{ Name: "derptest1a", RegionID: 901, HostName: "tailscale.com", // No IPv4 or IPv6 addrs } dnV4Only := &tailcfg.DERPNode{ Name: "derptest1b", RegionID: 901, HostName: "ipv4.google.com", // No IPv4 or IPv6 addrs } // Checks whether IPv6 and IPv6 DNS resolution works on this platform. ipv6Works := func(t *testing.T) bool { // Verify that we can create an IPv6 socket. ln, err := net.ListenPacket("udp6", "[::1]:0") if err != nil { t.Logf("IPv6 may not work on this machine: %v", err) return false } ln.Close() // Resolve a hostname that we know has an IPv6 address. addrs, err := net.DefaultResolver.LookupNetIP(context.Background(), "ip6", "google.com") if err != nil { t.Logf("IPv6 DNS resolution error: %v", err) return false } if len(addrs) == 0 { t.Logf("IPv6 DNS resolution returned no addresses") return false } return true } ctx := context.Background() for _, tt := range []bool{true, false} { t.Run(fmt.Sprintf("UseDNSCache=%v", tt), func(t *testing.T) { c.resolver = nil c.UseDNSCache = tt t.Run("IPv4", func(t *testing.T) { ap := c.nodeAddr(ctx, dn, probeIPv4) if !ap.IsValid() { t.Fatal("expected valid AddrPort") } if !ap.Addr().Is4() { t.Fatalf("expected IPv4 addr, got: %v", ap.Addr()) } t.Logf("got IPv4 addr: %v", ap) }) t.Run("IPv6", func(t *testing.T) { // Skip if IPv6 doesn't work on this machine. if !ipv6Works(t) { t.Skipf("IPv6 may not work on this machine") } ap := c.nodeAddr(ctx, dn, probeIPv6) if !ap.IsValid() { t.Fatal("expected valid AddrPort") } if !ap.Addr().Is6() { t.Fatalf("expected IPv6 addr, got: %v", ap.Addr()) } t.Logf("got IPv6 addr: %v", ap) }) t.Run("IPv6 Failure", func(t *testing.T) { ap := c.nodeAddr(ctx, dnV4Only, probeIPv6) if ap.IsValid() { t.Fatalf("expected no addr but got: %v", ap) } t.Logf("correctly got invalid addr") }) }) } }