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tailscale/cmd/containerboot/main_test.go

745 lines
21 KiB
Go

// Copyright (c) 2022 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.
//go:build linux
package main
import (
"bytes"
_ "embed"
"encoding/base64"
"encoding/json"
"encoding/pem"
"errors"
"fmt"
"io"
"io/fs"
"net"
"net/http"
"net/http/httptest"
"net/netip"
"os"
"os/exec"
"path/filepath"
"strconv"
"strings"
"sync"
"testing"
"time"
"github.com/google/go-cmp/cmp"
"golang.org/x/sys/unix"
"tailscale.com/ipn/ipnstate"
"tailscale.com/tailcfg"
)
func TestContainerBoot(t *testing.T) {
d := t.TempDir()
lapi := localAPI{FSRoot: d}
if err := lapi.Start(); err != nil {
t.Fatal(err)
}
defer lapi.Close()
kube := kubeServer{FSRoot: d}
if err := kube.Start(); err != nil {
t.Fatal(err)
}
defer kube.Close()
dirs := []string{
"var/lib",
"usr/bin",
"tmp",
"dev/net",
"proc/sys/net/ipv4",
"proc/sys/net/ipv6/conf/all",
}
for _, path := range dirs {
if err := os.MkdirAll(filepath.Join(d, path), 0700); err != nil {
t.Fatal(err)
}
}
files := map[string][]byte{
"usr/bin/tailscaled": fakeTailscaled,
"usr/bin/tailscale": fakeTailscale,
"usr/bin/iptables": fakeTailscale,
"usr/bin/ip6tables": fakeTailscale,
"dev/net/tun": []byte(""),
"proc/sys/net/ipv4/ip_forward": []byte("0"),
"proc/sys/net/ipv6/conf/all/forwarding": []byte("0"),
}
resetFiles := func() {
for path, content := range files {
// Making everything executable is a little weird, but the
// stuff that doesn't need to be executable doesn't care if we
// do make it executable.
if err := os.WriteFile(filepath.Join(d, path), content, 0700); err != nil {
t.Fatal(err)
}
}
}
resetFiles()
boot := filepath.Join(d, "containerboot")
if err := exec.Command("go", "build", "-o", boot, "tailscale.com/cmd/containerboot").Run(); err != nil {
t.Fatalf("Building containerboot: %v", err)
}
argFile := filepath.Join(d, "args")
tsIPs := []netip.Addr{netip.MustParseAddr("100.64.0.1")}
runningSockPath := filepath.Join(d, "tmp/tailscaled.sock")
// TODO: refactor this 1-2 stuff if we ever need a third
// step. Right now all of containerboot's modes either converge
// with no further interaction needed, or with one extra step
// only.
tests := []struct {
Name string
Env map[string]string
KubeSecret map[string]string
WantArgs1 []string // Wait for containerboot to run these commands...
Status1 ipnstate.Status // ... then report this status in LocalAPI.
WantArgs2 []string // If non-nil, wait for containerboot to run these additional commands...
Status2 ipnstate.Status // ... then report this status in LocalAPI.
WantKubeSecret map[string]string
WantFiles map[string]string
}{
{
// Out of the box default: runs in userspace mode, ephemeral storage, interactive login.
Name: "no_args",
Env: nil,
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=mem: --statedir=/tmp --tun=userspace-networking",
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false",
},
// The tailscale up call blocks until auth is complete, so
// by the time it returns the next converged state is
// Running.
Status1: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
},
{
// Userspace mode, ephemeral storage, authkey provided on every run.
Name: "authkey",
Env: map[string]string{
"TS_AUTH_KEY": "tskey-key",
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=mem: --statedir=/tmp --tun=userspace-networking",
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false --authkey=tskey-key",
},
Status1: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
},
{
Name: "authkey_disk_state",
Env: map[string]string{
"TS_AUTH_KEY": "tskey-key",
"TS_STATE_DIR": filepath.Join(d, "tmp"),
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=/tmp --tun=userspace-networking",
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false --authkey=tskey-key",
},
Status1: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
},
{
Name: "routes",
Env: map[string]string{
"TS_AUTH_KEY": "tskey-key",
"TS_ROUTES": "1.2.3.0/24,10.20.30.0/24",
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=mem: --statedir=/tmp --tun=userspace-networking",
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false --authkey=tskey-key --advertise-routes=1.2.3.0/24,10.20.30.0/24",
},
Status1: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
WantFiles: map[string]string{
"proc/sys/net/ipv4/ip_forward": "0",
"proc/sys/net/ipv6/conf/all/forwarding": "0",
},
},
{
Name: "routes_kernel_ipv4",
Env: map[string]string{
"TS_AUTH_KEY": "tskey-key",
"TS_ROUTES": "1.2.3.0/24,10.20.30.0/24",
"TS_USERSPACE": "false",
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=mem: --statedir=/tmp",
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false --authkey=tskey-key --advertise-routes=1.2.3.0/24,10.20.30.0/24",
},
Status1: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
WantFiles: map[string]string{
"proc/sys/net/ipv4/ip_forward": "1",
"proc/sys/net/ipv6/conf/all/forwarding": "0",
},
},
{
Name: "routes_kernel_ipv6",
Env: map[string]string{
"TS_AUTH_KEY": "tskey-key",
"TS_ROUTES": "::/64,1::/64",
"TS_USERSPACE": "false",
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=mem: --statedir=/tmp",
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false --authkey=tskey-key --advertise-routes=::/64,1::/64",
},
Status1: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
WantFiles: map[string]string{
"proc/sys/net/ipv4/ip_forward": "0",
"proc/sys/net/ipv6/conf/all/forwarding": "1",
},
},
{
Name: "routes_kernel_all_families",
Env: map[string]string{
"TS_AUTH_KEY": "tskey-key",
"TS_ROUTES": "::/64,1.2.3.0/24",
"TS_USERSPACE": "false",
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=mem: --statedir=/tmp",
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false --authkey=tskey-key --advertise-routes=::/64,1.2.3.0/24",
},
Status1: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
WantFiles: map[string]string{
"proc/sys/net/ipv4/ip_forward": "1",
"proc/sys/net/ipv6/conf/all/forwarding": "1",
},
},
{
Name: "proxy",
Env: map[string]string{
"TS_AUTH_KEY": "tskey-key",
"TS_DEST_IP": "1.2.3.4",
"TS_USERSPACE": "false",
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=mem: --statedir=/tmp",
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false --authkey=tskey-key",
},
Status1: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
WantArgs2: []string{
"/usr/bin/iptables -t nat -I PREROUTING 1 -d 100.64.0.1 -j DNAT --to-destination 1.2.3.4",
},
Status2: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
},
{
Name: "authkey_once",
Env: map[string]string{
"TS_AUTH_KEY": "tskey-key",
"TS_AUTH_ONCE": "true",
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=mem: --statedir=/tmp --tun=userspace-networking",
},
Status1: ipnstate.Status{
BackendState: "NeedsLogin",
},
WantArgs2: []string{
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false --authkey=tskey-key",
},
Status2: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
},
{
Name: "kube_storage",
Env: map[string]string{
"KUBERNETES_SERVICE_HOST": kube.Host,
"KUBERNETES_SERVICE_PORT_HTTPS": kube.Port,
},
KubeSecret: map[string]string{
"authkey": "tskey-key",
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=kube:tailscale --statedir=/tmp --tun=userspace-networking",
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false --authkey=tskey-key",
},
Status1: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
Self: &ipnstate.PeerStatus{
ID: tailcfg.StableNodeID("myID"),
},
},
WantKubeSecret: map[string]string{
"authkey": "tskey-key",
"device_id": "myID",
},
},
{
// Same as previous, but deletes the authkey from the kube secret.
Name: "kube_storage_auth_once",
Env: map[string]string{
"KUBERNETES_SERVICE_HOST": kube.Host,
"KUBERNETES_SERVICE_PORT_HTTPS": kube.Port,
"TS_AUTH_ONCE": "true",
},
KubeSecret: map[string]string{
"authkey": "tskey-key",
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=kube:tailscale --statedir=/tmp --tun=userspace-networking",
},
Status1: ipnstate.Status{
BackendState: "NeedsLogin",
},
WantArgs2: []string{
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false --authkey=tskey-key",
},
Status2: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
Self: &ipnstate.PeerStatus{
ID: tailcfg.StableNodeID("myID"),
},
},
WantKubeSecret: map[string]string{
"device_id": "myID",
},
},
{
Name: "proxies",
Env: map[string]string{
"TS_SOCKS5_SERVER": "localhost:1080",
"TS_OUTBOUND_HTTP_PROXY_LISTEN": "localhost:8080",
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=mem: --statedir=/tmp --tun=userspace-networking --socks5-server=localhost:1080 --outbound-http-proxy-listen=localhost:8080",
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false",
},
// The tailscale up call blocks until auth is complete, so
// by the time it returns the next converged state is
// Running.
Status1: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
},
{
Name: "dns",
Env: map[string]string{
"TS_ACCEPT_DNS": "true",
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=mem: --statedir=/tmp --tun=userspace-networking",
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=true",
},
Status1: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
},
{
Name: "extra_args",
Env: map[string]string{
"TS_EXTRA_ARGS": "--widget=rotated",
"TS_TAILSCALED_EXTRA_ARGS": "--experiments=widgets",
},
WantArgs1: []string{
"/usr/bin/tailscaled --socket=/tmp/tailscaled.sock --state=mem: --statedir=/tmp --tun=userspace-networking --experiments=widgets",
"/usr/bin/tailscale --socket=/tmp/tailscaled.sock up --accept-dns=false --widget=rotated",
},
Status1: ipnstate.Status{
BackendState: "Running",
TailscaleIPs: tsIPs,
},
},
}
for _, test := range tests {
t.Run(test.Name, func(t *testing.T) {
lapi.Reset()
kube.Reset()
os.Remove(argFile)
os.Remove(runningSockPath)
resetFiles()
for k, v := range test.KubeSecret {
kube.SetSecret(k, v)
}
cmd := exec.Command(boot)
cmd.Env = []string{
fmt.Sprintf("PATH=%s/usr/bin:%s", d, os.Getenv("PATH")),
fmt.Sprintf("TS_TEST_RECORD_ARGS=%s", argFile),
fmt.Sprintf("TS_TEST_SOCKET=%s", lapi.Path),
fmt.Sprintf("TS_SOCKET=%s", runningSockPath),
fmt.Sprintf("TS_TEST_ONLY_ROOT=%s", d),
}
for k, v := range test.Env {
cmd.Env = append(cmd.Env, fmt.Sprintf("%s=%s", k, v))
}
cbOut := &lockingBuffer{}
defer func() {
if t.Failed() {
t.Logf("containerboot output:\n%s", cbOut.String())
}
}()
cmd.Stderr = cbOut
if err := cmd.Start(); err != nil {
t.Fatalf("starting containerboot: %v", err)
}
defer func() {
cmd.Process.Signal(unix.SIGTERM)
cmd.Process.Wait()
}()
waitArgs(t, 2*time.Second, d, argFile, strings.Join(test.WantArgs1, "\n"))
lapi.SetStatus(test.Status1)
if test.WantArgs2 != nil {
waitArgs(t, 2*time.Second, d, argFile, strings.Join(append(test.WantArgs1, test.WantArgs2...), "\n"))
lapi.SetStatus(test.Status2)
}
waitLogLine(t, 2*time.Second, cbOut, "Startup complete, waiting for shutdown signal")
if test.WantKubeSecret != nil {
got := kube.Secret()
if diff := cmp.Diff(got, test.WantKubeSecret); diff != "" {
t.Fatalf("unexpected kube secret data (-got+want):\n%s", diff)
}
} else {
got := kube.Secret()
if len(got) != 0 {
t.Fatalf("kube secret unexpectedly not empty, got %#v", got)
}
}
for path, want := range test.WantFiles {
gotBs, err := os.ReadFile(filepath.Join(d, path))
if err != nil {
t.Fatalf("reading wanted file %q: %v", path, err)
}
if got := strings.TrimSpace(string(gotBs)); got != want {
t.Errorf("wrong file contents for %q, got %q want %q", path, got, want)
}
}
})
}
}
type lockingBuffer struct {
sync.Mutex
b bytes.Buffer
}
func (b *lockingBuffer) Write(bs []byte) (int, error) {
b.Lock()
defer b.Unlock()
return b.b.Write(bs)
}
func (b *lockingBuffer) String() string {
b.Lock()
defer b.Unlock()
return b.b.String()
}
// waitLogLine looks for want in the contents of b.
//
// Only lines starting with 'boot: ' (the output of containerboot
// itself) are considered, and the logged timestamp is ignored.
//
// waitLogLine fails the entire test if path doesn't contain want
// before the timeout.
func waitLogLine(t *testing.T, timeout time.Duration, b *lockingBuffer, want string) {
deadline := time.Now().Add(timeout)
for time.Now().Before(deadline) {
for _, line := range strings.Split(b.String(), "\n") {
if !strings.HasPrefix(line, "boot: ") {
continue
}
if strings.HasSuffix(line, " "+want) {
return
}
}
time.Sleep(100 * time.Millisecond)
}
t.Fatalf("timed out waiting for wanted output line %q. Output:\n%s", want, b.String())
}
// waitArgs waits until the contents of path matches wantArgs, a set
// of command lines recorded by test_tailscale.sh and
// test_tailscaled.sh.
//
// All occurrences of removeStr are removed from the file prior to
// comparison. This is used to remove the varying temporary root
// directory name from recorded commandlines, so that wantArgs can be
// a constant value.
//
// waitArgs fails the entire test if path doesn't contain wantArgs
// before the timeout.
func waitArgs(t *testing.T, timeout time.Duration, removeStr, path, wantArgs string) {
t.Helper()
wantArgs = strings.TrimSpace(wantArgs)
deadline := time.Now().Add(timeout)
var got string
for time.Now().Before(deadline) {
bs, err := os.ReadFile(path)
if errors.Is(err, fs.ErrNotExist) {
// Don't bother logging that the file doesn't exist, it
// should start existing soon.
goto loop
} else if err != nil {
t.Logf("reading %q: %v", path, err)
goto loop
}
got = strings.TrimSpace(string(bs))
got = strings.ReplaceAll(got, removeStr, "")
if got == wantArgs {
return
}
loop:
time.Sleep(100 * time.Millisecond)
}
t.Fatalf("waiting for args file %q to have expected output, got:\n%s\n\nWant: %s", path, got, wantArgs)
}
//go:embed test_tailscaled.sh
var fakeTailscaled []byte
//go:embed test_tailscale.sh
var fakeTailscale []byte
// localAPI is a minimal fake tailscaled LocalAPI server that presents
// just enough functionality for containerboot to function
// correctly. In practice this means it only supports querying
// tailscaled status, and panics on all other uses to make it very
// obvious that something unexpected happened.
type localAPI struct {
FSRoot string
Path string // populated by Start
srv *http.Server
sync.Mutex
status ipnstate.Status
}
func (l *localAPI) Start() error {
path := filepath.Join(l.FSRoot, "tmp/tailscaled.sock.fake")
if err := os.MkdirAll(filepath.Dir(path), 0700); err != nil {
return err
}
ln, err := net.Listen("unix", path)
if err != nil {
return err
}
l.srv = &http.Server{
Handler: l,
}
l.Path = path
go l.srv.Serve(ln)
return nil
}
func (l *localAPI) Close() {
l.srv.Close()
}
func (l *localAPI) Reset() {
l.SetStatus(ipnstate.Status{
BackendState: "NoState",
})
}
func (l *localAPI) SetStatus(st ipnstate.Status) {
l.Lock()
defer l.Unlock()
l.status = st
}
func (l *localAPI) ServeHTTP(w http.ResponseWriter, r *http.Request) {
if r.Method != "GET" {
panic(fmt.Sprintf("unsupported method %q", r.Method))
}
if r.URL.Path != "/localapi/v0/status" {
panic(fmt.Sprintf("unsupported localAPI path %q", r.URL.Path))
}
w.Header().Set("Content-Type", "application/json")
l.Lock()
defer l.Unlock()
if err := json.NewEncoder(w).Encode(l.status); err != nil {
panic("json encode failed")
}
}
// kubeServer is a minimal fake Kubernetes server that presents just
// enough functionality for containerboot to function correctly. In
// practice this means it only supports reading and modifying a single
// kube secret, and panics on all other uses to make it very obvious
// that something unexpected happened.
type kubeServer struct {
FSRoot string
Host, Port string // populated by Start
srv *httptest.Server
sync.Mutex
secret map[string]string
}
func (k *kubeServer) Secret() map[string]string {
k.Lock()
defer k.Unlock()
ret := map[string]string{}
for k, v := range k.secret {
ret[k] = v
}
return ret
}
func (k *kubeServer) SetSecret(key, val string) {
k.Lock()
defer k.Unlock()
k.secret[key] = val
}
func (k *kubeServer) Reset() {
k.Lock()
defer k.Unlock()
k.secret = map[string]string{}
}
func (k *kubeServer) Start() error {
root := filepath.Join(k.FSRoot, "var/run/secrets/kubernetes.io/serviceaccount")
if err := os.MkdirAll(root, 0700); err != nil {
return err
}
if err := os.WriteFile(filepath.Join(root, "namespace"), []byte("default"), 0600); err != nil {
return err
}
if err := os.WriteFile(filepath.Join(root, "token"), []byte("bearer_token"), 0600); err != nil {
return err
}
k.srv = httptest.NewTLSServer(k)
k.Host = k.srv.Listener.Addr().(*net.TCPAddr).IP.String()
k.Port = strconv.Itoa(k.srv.Listener.Addr().(*net.TCPAddr).Port)
var cert bytes.Buffer
if err := pem.Encode(&cert, &pem.Block{Type: "CERTIFICATE", Bytes: k.srv.Certificate().Raw}); err != nil {
return err
}
if err := os.WriteFile(filepath.Join(root, "ca.crt"), cert.Bytes(), 0600); err != nil {
return err
}
return nil
}
func (k *kubeServer) Close() {
k.srv.Close()
}
func (k *kubeServer) ServeHTTP(w http.ResponseWriter, r *http.Request) {
if r.Header.Get("Authorization") != "Bearer bearer_token" {
panic("client didn't provide bearer token in request")
}
if r.URL.Path != "/api/v1/namespaces/default/secrets/tailscale" {
panic(fmt.Sprintf("unhandled fake kube api path %q", r.URL.Path))
}
bs, err := io.ReadAll(r.Body)
if err != nil {
http.Error(w, fmt.Sprintf("reading request body: %v", err), http.StatusInternalServerError)
return
}
switch r.Method {
case "GET":
w.Header().Set("Content-Type", "application/json")
ret := map[string]map[string]string{
"data": map[string]string{},
}
k.Lock()
defer k.Unlock()
for k, v := range k.secret {
v := base64.StdEncoding.EncodeToString([]byte(v))
if err != nil {
panic("encode failed")
}
ret["data"][k] = v
}
if err := json.NewEncoder(w).Encode(ret); err != nil {
panic("encode failed")
}
case "PATCH":
switch r.Header.Get("Content-Type") {
case "application/json-patch+json":
req := []struct {
Op string `json:"op"`
Path string `json:"path"`
}{}
if err := json.Unmarshal(bs, &req); err != nil {
panic(fmt.Sprintf("json decode failed: %v. Body:\n\n%s", err, string(bs)))
}
k.Lock()
defer k.Unlock()
for _, op := range req {
if op.Op != "remove" {
panic(fmt.Sprintf("unsupported json-patch op %q", op.Op))
}
if !strings.HasPrefix(op.Path, "/data/") {
panic(fmt.Sprintf("unsupported json-patch path %q", op.Path))
}
delete(k.secret, strings.TrimPrefix(op.Path, "/data/"))
}
case "application/strategic-merge-patch+json":
req := struct {
Data map[string]string `json:"stringData"`
}{}
if err := json.Unmarshal(bs, &req); err != nil {
panic(fmt.Sprintf("json decode failed: %v. Body:\n\n%s", err, string(bs)))
}
k.Lock()
defer k.Unlock()
for key, val := range req.Data {
k.secret[key] = val
}
default:
panic(fmt.Sprintf("unknown content type %q", r.Header.Get("Content-Type")))
}
default:
panic(fmt.Sprintf("unhandled HTTP method %q", r.Method))
}
}