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tailscale/net/netcheck/netcheck_test.go
James Tucker de8e55fda6 net/netcheck,wgengine/magicsock: reduce coupling between netcheck and magicsock 
Netcheck no longer performs I/O itself, instead it makes requests via
SendPacket and expects users to route reply traffic to
ReceiveSTUNPacket.

Netcheck gains a Standalone function that stands up sockets and
goroutines to implement I/O when used in a standalone fashion.

Magicsock now unconditionally routes STUN traffic to the netcheck.Client
that it hosts, and plumbs the send packet sink.

The CLI is updated to make use of the Standalone mode.

Fixes #8723

Signed-off-by: James Tucker <james@tailscale.com>
2023-08-11 10:08:21 -07:00

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// 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,
}
ctx, cancel := context.WithTimeout(context.Background(), 1*time.Second)
defer cancel()
if err := c.Standalone(ctx, "127.0.0.1:0"); err != nil {
t.Fatal(err)
}
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,
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()
if err := c.Standalone(ctx, "127.0.0.1:0"); err != nil {
t.Fatal(err)
}
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,
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")
})
})
}
}
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