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tailscale/tstest/integration/nat/nat_test.go

649 lines
15 KiB
Go

// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
package nat
import (
"bytes"
"cmp"
"context"
"errors"
"flag"
"fmt"
"io"
"net"
"net/http"
"net/netip"
"os"
"os/exec"
"path/filepath"
"strings"
"sync"
"testing"
"time"
"golang.org/x/mod/modfile"
"golang.org/x/sync/errgroup"
"tailscale.com/client/tailscale"
"tailscale.com/ipn/ipnstate"
"tailscale.com/syncs"
"tailscale.com/tailcfg"
"tailscale.com/tstest/natlab/vnet"
)
var (
logTailscaled = flag.Bool("log-tailscaled", false, "log tailscaled output")
pcapFile = flag.String("pcap", "", "write pcap to file")
)
type natTest struct {
tb testing.TB
base string // base image
tempDir string // for qcow2 images
vnet *vnet.Server
kernel string // linux kernel path
gotRoute pingRoute
}
func newNatTest(tb testing.TB) *natTest {
root, err := os.Getwd()
if err != nil {
tb.Fatal(err)
}
modRoot := filepath.Join(root, "../../..")
nt := &natTest{
tb: tb,
tempDir: tb.TempDir(),
base: filepath.Join(modRoot, "gokrazy/natlabapp.qcow2"),
}
if _, err := os.Stat(nt.base); err != nil {
tb.Skipf("skipping test; base image %q not found", nt.base)
}
nt.kernel, err = findKernelPath(filepath.Join(modRoot, "gokrazy/natlabapp/builddir/github.com/tailscale/gokrazy-kernel/go.mod"))
if err != nil {
tb.Skipf("skipping test; kernel not found: %v", err)
}
tb.Logf("found kernel: %v", nt.kernel)
return nt
}
func findKernelPath(goMod string) (string, error) {
b, err := os.ReadFile(goMod)
if err != nil {
return "", err
}
mf, err := modfile.Parse("go.mod", b, nil)
if err != nil {
return "", err
}
goModB, err := exec.Command("go", "env", "GOMODCACHE").CombinedOutput()
if err != nil {
return "", err
}
for _, r := range mf.Require {
if r.Mod.Path == "github.com/tailscale/gokrazy-kernel" {
return strings.TrimSpace(string(goModB)) + "/" + r.Mod.String() + "/vmlinuz", nil
}
}
return "", fmt.Errorf("failed to find kernel in %v", goMod)
}
type addNodeFunc func(c *vnet.Config) *vnet.Node // returns nil to omit test
func v6cidr(n int) string {
return fmt.Sprintf("2000:%d::1/64", n)
}
func easy(c *vnet.Config) *vnet.Node {
n := c.NumNodes() + 1
return c.AddNode(c.AddNetwork(
fmt.Sprintf("2.%d.%d.%d", n, n, n), // public IP
fmt.Sprintf("192.168.%d.1/24", n), vnet.EasyNAT))
}
func easyAnd6(c *vnet.Config) *vnet.Node {
n := c.NumNodes() + 1
return c.AddNode(c.AddNetwork(
fmt.Sprintf("2.%d.%d.%d", n, n, n), // public IP
fmt.Sprintf("192.168.%d.1/24", n),
v6cidr(n),
vnet.EasyNAT))
}
func just6(c *vnet.Config) *vnet.Node {
n := c.NumNodes() + 1
return c.AddNode(c.AddNetwork(v6cidr(n))) // public IPv6 prefix
}
// easy + host firewall
func easyFW(c *vnet.Config) *vnet.Node {
n := c.NumNodes() + 1
return c.AddNode(vnet.HostFirewall, c.AddNetwork(
fmt.Sprintf("2.%d.%d.%d", n, n, n), // public IP
fmt.Sprintf("192.168.%d.1/24", n), vnet.EasyNAT))
}
func easyAF(c *vnet.Config) *vnet.Node {
n := c.NumNodes() + 1
return c.AddNode(c.AddNetwork(
fmt.Sprintf("2.%d.%d.%d", n, n, n), // public IP
fmt.Sprintf("192.168.%d.1/24", n), vnet.EasyAFNAT))
}
func sameLAN(c *vnet.Config) *vnet.Node {
nw := c.FirstNetwork()
if nw == nil {
return nil
}
if !nw.CanTakeMoreNodes() {
return nil
}
return c.AddNode(nw)
}
func one2one(c *vnet.Config) *vnet.Node {
n := c.NumNodes() + 1
return c.AddNode(c.AddNetwork(
fmt.Sprintf("2.%d.%d.%d", n, n, n), // public IP
fmt.Sprintf("172.16.%d.1/24", n), vnet.One2OneNAT))
}
func easyPMP(c *vnet.Config) *vnet.Node {
n := c.NumNodes() + 1
return c.AddNode(c.AddNetwork(
fmt.Sprintf("2.%d.%d.%d", n, n, n), // public IP
fmt.Sprintf("192.168.%d.1/24", n), vnet.EasyNAT, vnet.NATPMP))
}
// easy + port mapping + host firewall
func easyPMPFW(c *vnet.Config) *vnet.Node {
n := c.NumNodes() + 1
return c.AddNode(
vnet.HostFirewall,
vnet.TailscaledEnv{
Key: "TS_DEBUG_RAW_DISCO",
Value: "1",
},
vnet.TailscaledEnv{
Key: "TS_DEBUG_DISCO",
Value: "1",
},
vnet.TailscaledEnv{
Key: "TS_LOG_VERBOSITY",
Value: "2",
},
c.AddNetwork(
fmt.Sprintf("2.%d.%d.%d", n, n, n), // public IP
fmt.Sprintf("192.168.%d.1/24", n), vnet.EasyNAT, vnet.NATPMP))
}
// easy + port mapping + host firewall - BPF
func easyPMPFWNoBPF(c *vnet.Config) *vnet.Node {
n := c.NumNodes() + 1
return c.AddNode(
vnet.HostFirewall,
vnet.TailscaledEnv{
Key: "TS_DEBUG_DISABLE_RAW_DISCO",
Value: "1",
},
c.AddNetwork(
fmt.Sprintf("2.%d.%d.%d", n, n, n), // public IP
fmt.Sprintf("192.168.%d.1/24", n), vnet.EasyNAT, vnet.NATPMP))
}
func hard(c *vnet.Config) *vnet.Node {
n := c.NumNodes() + 1
return c.AddNode(c.AddNetwork(
fmt.Sprintf("2.%d.%d.%d", n, n, n), // public IP
fmt.Sprintf("10.0.%d.1/24", n), vnet.HardNAT))
}
func hardPMP(c *vnet.Config) *vnet.Node {
n := c.NumNodes() + 1
return c.AddNode(c.AddNetwork(
fmt.Sprintf("2.%d.%d.%d", n, n, n), // public IP
fmt.Sprintf("10.7.%d.1/24", n), vnet.HardNAT, vnet.NATPMP))
}
func (nt *natTest) runTest(addNode ...addNodeFunc) pingRoute {
if len(addNode) < 1 || len(addNode) > 2 {
nt.tb.Fatalf("runTest: invalid number of nodes %v; want 1 or 2", len(addNode))
}
t := nt.tb
var c vnet.Config
c.SetPCAPFile(*pcapFile)
nodes := []*vnet.Node{}
for _, fn := range addNode {
node := fn(&c)
if node == nil {
t.Skip("skipping test; not applicable combination")
}
nodes = append(nodes, node)
if *logTailscaled {
node.SetVerboseSyslog(true)
}
}
var err error
nt.vnet, err = vnet.New(&c)
if err != nil {
t.Fatalf("newServer: %v", err)
}
nt.tb.Cleanup(func() {
nt.vnet.Close()
})
var wg sync.WaitGroup // waiting for srv.Accept goroutine
defer wg.Wait()
sockAddr := filepath.Join(nt.tempDir, "qemu.sock")
srv, err := net.Listen("unix", sockAddr)
if err != nil {
t.Fatalf("Listen: %v", err)
}
defer srv.Close()
wg.Add(1)
go func() {
defer wg.Done()
for {
c, err := srv.Accept()
if err != nil {
return
}
go nt.vnet.ServeUnixConn(c.(*net.UnixConn), vnet.ProtocolQEMU)
}
}()
for i, node := range nodes {
disk := fmt.Sprintf("%s/node-%d.qcow2", nt.tempDir, i)
out, err := exec.Command("qemu-img", "create",
"-f", "qcow2",
"-F", "qcow2",
"-b", nt.base,
disk).CombinedOutput()
if err != nil {
t.Fatalf("qemu-img create: %v, %s", err, out)
}
var envBuf bytes.Buffer
for _, e := range node.Env() {
fmt.Fprintf(&envBuf, " tailscaled.env=%s=%s", e.Key, e.Value)
}
sysLogAddr := net.JoinHostPort(vnet.FakeSyslogIPv4().String(), "995")
if node.IsV6Only() {
fmt.Fprintf(&envBuf, " tta.nameserver=%s", vnet.FakeDNSIPv6())
sysLogAddr = net.JoinHostPort(vnet.FakeSyslogIPv6().String(), "995")
}
envStr := envBuf.String()
cmd := exec.Command("qemu-system-x86_64",
"-M", "microvm,isa-serial=off",
"-m", "384M",
"-nodefaults", "-no-user-config", "-nographic",
"-kernel", nt.kernel,
"-append", "console=hvc0 root=PARTUUID=60c24cc1-f3f9-427a-8199-76baa2d60001/PARTNROFF=1 ro init=/gokrazy/init panic=10 oops=panic pci=off nousb tsc=unstable clocksource=hpet gokrazy.remote_syslog.target="+sysLogAddr+" tailscale-tta=1"+envStr,
"-drive", "id=blk0,file="+disk+",format=qcow2",
"-device", "virtio-blk-device,drive=blk0",
"-netdev", "stream,id=net0,addr.type=unix,addr.path="+sockAddr,
"-device", "virtio-serial-device",
"-device", "virtio-rng-device",
"-device", "virtio-net-device,netdev=net0,mac="+node.MAC().String(),
"-chardev", "stdio,id=virtiocon0,mux=on",
"-device", "virtconsole,chardev=virtiocon0",
"-mon", "chardev=virtiocon0,mode=readline",
)
cmd.Stdout = os.Stdout
cmd.Stderr = os.Stderr
if err := cmd.Start(); err != nil {
t.Fatalf("qemu: %v", err)
}
nt.tb.Cleanup(func() {
cmd.Process.Kill()
cmd.Wait()
})
}
ctx, cancel := context.WithTimeout(context.Background(), 60*time.Second)
defer cancel()
var clients []*vnet.NodeAgentClient
for _, n := range nodes {
clients = append(clients, nt.vnet.NodeAgentClient(n))
}
sts := make([]*ipnstate.Status, len(nodes))
var eg errgroup.Group
for i, c := range clients {
i, c := i, c
eg.Go(func() error {
node := nodes[i]
t.Logf("%v calling Status...", node)
st, err := c.Status(ctx)
if err != nil {
return fmt.Errorf("%v status: %w", node, err)
}
t.Logf("%v status: %v", node, st.BackendState)
if node.HostFirewall() {
if err := c.EnableHostFirewall(ctx); err != nil {
return fmt.Errorf("%v firewall: %w", node, err)
}
t.Logf("%v firewalled", node)
}
if err := up(ctx, c); err != nil {
return fmt.Errorf("%v up: %w", node, err)
}
t.Logf("%v up!", node)
st, err = c.Status(ctx)
if err != nil {
return fmt.Errorf("%v status: %w", node, err)
}
sts[i] = st
if st.BackendState != "Running" {
return fmt.Errorf("%v state = %q", node, st.BackendState)
}
t.Logf("%v up with %v", node, sts[i].Self.TailscaleIPs)
return nil
})
}
if err := eg.Wait(); err != nil {
t.Fatalf("initial setup: %v", err)
}
defer nt.vnet.Close()
if len(nodes) < 2 {
return ""
}
pingRes, err := ping(ctx, clients[0], sts[1].Self.TailscaleIPs[0])
if err != nil {
t.Fatalf("ping failure: %v", err)
}
nt.gotRoute = classifyPing(pingRes)
t.Logf("ping route: %v", nt.gotRoute)
return nt.gotRoute
}
func classifyPing(pr *ipnstate.PingResult) pingRoute {
if pr == nil {
return routeNil
}
if pr.Endpoint != "" {
ap, err := netip.ParseAddrPort(pr.Endpoint)
if err == nil {
if ap.Addr().IsPrivate() {
return routeLocal
}
return routeDirect
}
}
return routeDERP // presumably
}
type pingRoute string
const (
routeDERP pingRoute = "derp"
routeLocal pingRoute = "local"
routeDirect pingRoute = "direct"
routeNil pingRoute = "nil" // *ipnstate.PingResult is nil
)
func ping(ctx context.Context, c *vnet.NodeAgentClient, target netip.Addr) (*ipnstate.PingResult, error) {
n := 0
var res *ipnstate.PingResult
anyPong := false
for n < 10 {
n++
pr, err := c.PingWithOpts(ctx, target, tailcfg.PingDisco, tailscale.PingOpts{})
if err != nil {
if anyPong {
return res, nil
}
return nil, err
}
if pr.Err != "" {
return nil, errors.New(pr.Err)
}
if pr.DERPRegionID == 0 {
return pr, nil
}
res = pr
select {
case <-ctx.Done():
case <-time.After(time.Second):
}
}
if res == nil {
return nil, errors.New("no ping response")
}
return res, nil
}
func up(ctx context.Context, c *vnet.NodeAgentClient) error {
req, err := http.NewRequestWithContext(ctx, "GET", "http://unused/up", nil)
if err != nil {
return err
}
res, err := c.HTTPClient.Do(req)
if err != nil {
return err
}
defer res.Body.Close()
all, _ := io.ReadAll(res.Body)
if res.StatusCode != 200 {
return fmt.Errorf("unexpected status code %v: %s", res.Status, all)
}
return nil
}
type nodeType struct {
name string
fn addNodeFunc
}
var types = []nodeType{
{"easy", easy},
{"easyAF", easyAF},
{"hard", hard},
{"easyPMP", easyPMP},
{"hardPMP", hardPMP},
{"one2one", one2one},
{"sameLAN", sameLAN},
}
// want sets the expected ping route for the test.
func (nt *natTest) want(r pingRoute) {
if nt.gotRoute != r {
nt.tb.Errorf("ping route = %v; want %v", nt.gotRoute, r)
}
}
func TestEasyEasy(t *testing.T) {
nt := newNatTest(t)
nt.runTest(easy, easy)
nt.want(routeDirect)
}
func TestSingleJustIPv6(t *testing.T) {
nt := newNatTest(t)
nt.runTest(just6)
}
func TestJustIPv6(t *testing.T) {
nt := newNatTest(t)
nt.runTest(just6, just6)
nt.want(routeDirect)
}
func TestEasy4AndJust6(t *testing.T) {
nt := newNatTest(t)
nt.runTest(easyAnd6, just6)
nt.want(routeDirect)
}
func TestSameLAN(t *testing.T) {
nt := newNatTest(t)
nt.runTest(easy, sameLAN)
nt.want(routeLocal)
}
// TestBPFDisco tests https://github.com/tailscale/tailscale/issues/3824 ...
// * server behind a Hard NAT
// * client behind a NAT with UPnP support
// * client machine has a stateful host firewall (e.g. ufw)
func TestBPFDisco(t *testing.T) {
nt := newNatTest(t)
nt.runTest(easyPMPFW, hard)
nt.want(routeDirect)
}
func TestHostFWNoBPF(t *testing.T) {
nt := newNatTest(t)
nt.runTest(easyPMPFWNoBPF, hard)
nt.want(routeDERP)
}
func TestHostFWPair(t *testing.T) {
nt := newNatTest(t)
nt.runTest(easyFW, easyFW)
nt.want(routeDirect)
}
func TestOneHostFW(t *testing.T) {
nt := newNatTest(t)
nt.runTest(easy, easyFW)
nt.want(routeDirect)
}
var pair = flag.String("pair", "", "comma-separated pair of types to test (easy, easyAF, hard, easyPMP, hardPMP, one2one, sameLAN)")
func TestPair(t *testing.T) {
t1, t2, ok := strings.Cut(*pair, ",")
if !ok {
t.Skipf("skipping test without --pair=type1,type2 set")
}
find := func(name string) addNodeFunc {
for _, nt := range types {
if nt.name == name {
return nt.fn
}
}
t.Fatalf("unknown type %q", name)
return nil
}
nt := newNatTest(t)
nt.runTest(find(t1), find(t2))
}
var runGrid = flag.Bool("run-grid", false, "run grid test")
func TestGrid(t *testing.T) {
if !*runGrid {
t.Skip("skipping grid test; set --run-grid to run")
}
t.Parallel()
sem := syncs.NewSemaphore(2)
var (
mu sync.Mutex
res = make(map[string]pingRoute)
)
for _, a := range types {
for _, b := range types {
key := a.name + "-" + b.name
keyBack := b.name + "-" + a.name
t.Run(key, func(t *testing.T) {
t.Parallel()
sem.Acquire()
defer sem.Release()
filename := key + ".cache"
contents, _ := os.ReadFile(filename)
if len(contents) == 0 {
filename2 := keyBack + ".cache"
contents, _ = os.ReadFile(filename2)
}
route := pingRoute(strings.TrimSpace(string(contents)))
if route == "" {
nt := newNatTest(t)
route = nt.runTest(a.fn, b.fn)
if err := os.WriteFile(filename, []byte(string(route)), 0666); err != nil {
t.Fatalf("writeFile: %v", err)
}
}
mu.Lock()
defer mu.Unlock()
res[key] = route
t.Logf("results: %v", res)
})
}
}
t.Cleanup(func() {
mu.Lock()
defer mu.Unlock()
var hb bytes.Buffer
pf := func(format string, args ...any) {
fmt.Fprintf(&hb, format, args...)
}
rewrite := func(s string) string {
return strings.ReplaceAll(s, "PMP", "+pm")
}
pf("<html><table border=1 cellpadding=5>")
pf("<tr><td></td>")
for _, a := range types {
pf("<td><b>%s</b></td>", rewrite(a.name))
}
pf("</tr>\n")
for _, a := range types {
if a.name == "sameLAN" {
continue
}
pf("<tr><td><b>%s</b></td>", rewrite(a.name))
for _, b := range types {
key := a.name + "-" + b.name
key2 := b.name + "-" + a.name
v := cmp.Or(res[key], res[key2], "-")
if v == "derp" {
pf("<td><div style='color: red; font-weight: bold'>%s</div></td>", v)
} else if v == "local" {
pf("<td><div style='color: green; font-weight: bold'>%s</div></td>", v)
} else {
pf("<td>%s</td>", v)
}
}
pf("</tr>\n")
}
pf("</table>")
pf("<b>easy</b>: Endpoint-Independent Mapping, Address and Port-Dependent Filtering (e.g. Linux, Google Wifi, Unifi, eero)<br>")
pf("<b>easyAF</b>: Endpoint-Independent Mapping, Address-Dependent Filtering (James says telephony things or Zyxel type things)<br>")
pf("<b>hard</b>: Address and Port-Dependent Mapping, Address and Port-Dependent Filtering (FreeBSD, OPNSense, pfSense)<br>")
pf("<b>one2one</b>: One-to-One NAT (e.g. an EC2 instance with a public IPv4)<br>")
pf("<b>x+pm</b>: x, with port mapping (NAT-PMP, PCP, UPnP, etc)<br>")
pf("<b>sameLAN</b>: a second node in the same LAN as the first<br>")
pf("</html>")
if err := os.WriteFile("grid.html", hb.Bytes(), 0666); err != nil {
t.Fatalf("writeFile: %v", err)
}
})
}