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debug-testwrapper
tailscale/tsconsensus/tsconsensus_test.go
Will Norris 3ec5be3f51 all: remove AUTHORS file and references to it 
This file was never truly necessary and has never actually been used in
the history of Tailscale's open source releases.

A Brief History of AUTHORS files
---

The AUTHORS file was a pattern developed at Google, originally for
Chromium, then adopted by Go and a bunch of other projects. The problem
was that Chromium originally had a copyright line only recognizing
Google as the copyright holder. Because Google (and most open source
projects) do not require copyright assignemnt for contributions, each
contributor maintains their copyright. Some large corporate contributors
then tried to add their own name to the copyright line in the LICENSE
file or in file headers. This quickly becomes unwieldy, and puts a
tremendous burden on anyone building on top of Chromium, since the
license requires that they keep all copyright lines intact.

The compromise was to create an AUTHORS file that would list all of the
copyright holders. The LICENSE file and source file headers would then
include that list by reference, listing the copyright holder as "The
Chromium Authors".

This also become cumbersome to simply keep the file up to date with a
high rate of new contributors. Plus it's not always obvious who the
copyright holder is. Sometimes it is the individual making the
contribution, but many times it may be their employer. There is no way
for the proejct maintainer to know.

Eventually, Google changed their policy to no longer recommend trying to
keep the AUTHORS file up to date proactively, and instead to only add to
it when requested: https://opensource.google/docs/releasing/authors.
They are also clear that:

> Adding contributors to the AUTHORS file is entirely within the
> project's discretion and has no implications for copyright ownership.

It was primarily added to appease a small number of large contributors
that insisted that they be recognized as copyright holders (which was
entirely their right to do). But it's not truly necessary, and not even
the most accurate way of identifying contributors and/or copyright
holders.

In practice, we've never added anyone to our AUTHORS file. It only lists
Tailscale, so it's not really serving any purpose. It also causes
confusion because Tailscalars put the "Tailscale Inc & AUTHORS" header
in other open source repos which don't actually have an AUTHORS file, so
it's ambiguous what that means.

Instead, we just acknowledge that the contributors to Tailscale (whoever
they are) are copyright holders for their individual contributions. We
also have the benefit of using the DCO (developercertificate.org) which
provides some additional certification of their right to make the
contribution.

The source file changes were purely mechanical with:

    git ls-files | xargs sed -i -e 's/\(Tailscale Inc &\) AUTHORS/\1 contributors/g'

Updates #cleanup

Change-Id: Ia101a4a3005adb9118051b3416f5a64a4a45987d
Signed-off-by: Will Norris <will@tailscale.com>
2026-01-23 15:49:45 -08:00

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// Copyright (c) Tailscale Inc & contributors
// SPDX-License-Identifier: BSD-3-Clause
package tsconsensus
import (
"bufio"
"bytes"
"context"
"encoding/json"
"errors"
"fmt"
"io"
"net"
"net/http"
"net/http/httptest"
"net/netip"
"os"
"path/filepath"
"strings"
"sync"
"testing"
"time"
"github.com/google/go-cmp/cmp"
"github.com/hashicorp/go-hclog"
"github.com/hashicorp/raft"
"tailscale.com/client/tailscale"
"tailscale.com/ipn/store/mem"
"tailscale.com/net/netns"
"tailscale.com/tailcfg"
"tailscale.com/tsnet"
"tailscale.com/tstest/integration"
"tailscale.com/tstest/integration/testcontrol"
"tailscale.com/tstest/nettest"
"tailscale.com/types/key"
"tailscale.com/types/logger"
"tailscale.com/types/views"
"tailscale.com/util/cibuild"
"tailscale.com/util/racebuild"
)
type fsm struct {
mu sync.Mutex
applyEvents []string
}
func commandWith(t *testing.T, s string) []byte {
jsonArgs, err := json.Marshal(s)
if err != nil {
t.Fatal(err)
}
bs, err := json.Marshal(Command{
Args: jsonArgs,
})
if err != nil {
t.Fatal(err)
}
return bs
}
func fromCommand(bs []byte) (string, error) {
var cmd Command
err := json.Unmarshal(bs, &cmd)
if err != nil {
return "", err
}
var args string
err = json.Unmarshal(cmd.Args, &args)
if err != nil {
return "", err
}
return args, nil
}
func (f *fsm) Apply(lg *raft.Log) any {
f.mu.Lock()
defer f.mu.Unlock()
s, err := fromCommand(lg.Data)
if err != nil {
return CommandResult{
Err: err,
}
}
f.applyEvents = append(f.applyEvents, s)
result, err := json.Marshal(len(f.applyEvents))
if err != nil {
panic("should be able to Marshal that?")
}
return CommandResult{
Result: result,
}
}
func (f *fsm) numEvents() int {
f.mu.Lock()
defer f.mu.Unlock()
return len(f.applyEvents)
}
func (f *fsm) eventsMatch(es []string) bool {
f.mu.Lock()
defer f.mu.Unlock()
return cmp.Equal(es, f.applyEvents)
}
func (f *fsm) Snapshot() (raft.FSMSnapshot, error) {
return nil, nil
}
func (f *fsm) Restore(rc io.ReadCloser) error {
return nil
}
func testConfig(t *testing.T) {
if cibuild.On() {
t.Skip("these integration tests don't always work well in CI and that's bad for CI; see https://github.com/tailscale/tailscale/issues/16340 and https://github.com/tailscale/tailscale/issues/18022")
}
// -race AND Parallel makes things start to take too long.
if !racebuild.On {
t.Parallel()
}
nettest.SkipIfNoNetwork(t)
}
func startControl(t testing.TB) (control *testcontrol.Server, controlURL string) {
t.Helper()
// tailscale/corp#4520: don't use netns for tests.
netns.SetEnabled(false)
t.Cleanup(func() {
netns.SetEnabled(true)
})
derpLogf := logger.Discard
derpMap := integration.RunDERPAndSTUN(t, derpLogf, "127.0.0.1")
control = &testcontrol.Server{
DERPMap: derpMap,
DNSConfig: &tailcfg.DNSConfig{
Proxied: true,
},
MagicDNSDomain: "tail-scale.ts.net",
}
control.HTTPTestServer = httptest.NewUnstartedServer(control)
control.HTTPTestServer.Start()
t.Cleanup(control.HTTPTestServer.Close)
controlURL = control.HTTPTestServer.URL
t.Logf("testcontrol listening on %s", controlURL)
return control, controlURL
}
func startNode(t testing.TB, ctx context.Context, controlURL, hostname string) (*tsnet.Server, key.NodePublic, netip.Addr) {
t.Helper()
tmp := filepath.Join(t.TempDir(), hostname)
os.MkdirAll(tmp, 0755)
s := &tsnet.Server{
Dir: tmp,
ControlURL: controlURL,
Hostname: hostname,
Store: new(mem.Store),
Ephemeral: true,
}
t.Cleanup(func() { s.Close() })
status, err := s.Up(ctx)
if err != nil {
t.Fatal(err)
}
return s, status.Self.PublicKey, status.TailscaleIPs[0]
}
func waitForNodesToBeTaggedInStatus(t testing.TB, ctx context.Context, ts *tsnet.Server, nodeKeys []key.NodePublic, tag string) {
t.Helper()
waitFor(t, "nodes tagged in status", func() bool {
lc, err := ts.LocalClient()
if err != nil {
t.Fatal(err)
}
status, err := lc.Status(ctx)
if err != nil {
t.Fatalf("error getting status: %v", err)
}
for _, k := range nodeKeys {
var tags *views.Slice[string]
if k == status.Self.PublicKey {
tags = status.Self.Tags
} else {
tags = status.Peer[k].Tags
}
if tag == "" {
if tags != nil && tags.Len() != 0 {
return false
}
} else {
if tags == nil {
return false
}
if tags.Len() != 1 || tags.At(0) != tag {
return false
}
}
}
return true
}, 2*time.Second)
}
func tagNodes(t testing.TB, control *testcontrol.Server, nodeKeys []key.NodePublic, tag string) {
t.Helper()
for _, key := range nodeKeys {
n := control.Node(key)
if tag == "" {
if len(n.Tags) != 1 {
t.Fatalf("expected tags to have one tag")
}
n.Tags = nil
} else {
if len(n.Tags) != 0 {
// if we want this to work with multiple tags we'll have to change the logic
// for checking if a tag got removed yet.
t.Fatalf("expected tags to be empty")
}
n.Tags = append(n.Tags, tag)
}
b := true
n.Online = &b
control.UpdateNode(n)
}
}
func addIDedLogger(id string, c Config) Config {
// logs that identify themselves
c.Raft.Logger = hclog.New(&hclog.LoggerOptions{
Name: fmt.Sprintf("raft: %s", id),
Output: c.Raft.LogOutput,
Level: hclog.LevelFromString(c.Raft.LogLevel),
})
return c
}
func warnLogConfig() Config {
c := DefaultConfig()
// fewer logs from raft
c.Raft.LogLevel = "WARN"
// timeouts long enough that we can form a cluster under -race
c.Raft.LeaderLeaseTimeout = 2 * time.Second
c.Raft.HeartbeatTimeout = 4 * time.Second
c.Raft.ElectionTimeout = 4 * time.Second
return c
}
func TestStart(t *testing.T) {
testConfig(t)
control, controlURL := startControl(t)
ctx := context.Background()
one, k, _ := startNode(t, ctx, controlURL, "one")
clusterTag := "tag:whatever"
// nodes must be tagged with the cluster tag, to find each other
tagNodes(t, control, []key.NodePublic{k}, clusterTag)
waitForNodesToBeTaggedInStatus(t, ctx, one, []key.NodePublic{k}, clusterTag)
sm := &fsm{}
r, err := Start(ctx, one, sm, BootstrapOpts{Tag: clusterTag}, warnLogConfig())
if err != nil {
t.Fatal(err)
}
defer r.Stop(ctx)
}
func waitFor(t testing.TB, msg string, condition func() bool, waitBetweenTries time.Duration) {
t.Helper()
try := 0
for true {
try++
done := condition()
if done {
t.Logf("waitFor success: %s: after %d tries", msg, try)
return
}
time.Sleep(waitBetweenTries)
}
}
type participant struct {
c *Consensus
sm *fsm
ts *tsnet.Server
key key.NodePublic
}
// starts and tags the *tsnet.Server nodes with the control, waits for the nodes to make successful
// LocalClient Status calls that show the first node as Online.
func startNodesAndWaitForPeerStatus(t testing.TB, ctx context.Context, clusterTag string, nNodes int) ([]*participant, *testcontrol.Server, string) {
t.Helper()
ps := make([]*participant, nNodes)
keysToTag := make([]key.NodePublic, nNodes)
localClients := make([]*tailscale.LocalClient, nNodes)
control, controlURL := startControl(t)
for i := 0; i < nNodes; i++ {
ts, key, _ := startNode(t, ctx, controlURL, fmt.Sprintf("node %d", i))
ps[i] = &participant{ts: ts, key: key}
keysToTag[i] = key
lc, err := ts.LocalClient()
if err != nil {
t.Fatalf("%d: error getting local client: %v", i, err)
}
localClients[i] = lc
}
tagNodes(t, control, keysToTag, clusterTag)
waitForNodesToBeTaggedInStatus(t, ctx, ps[0].ts, keysToTag, clusterTag)
fxCameOnline := func() bool {
// all the _other_ nodes see the first as online
for i := 1; i < nNodes; i++ {
status, err := localClients[i].Status(ctx)
if err != nil {
t.Fatalf("%d: error getting status: %v", i, err)
}
if !status.Peer[ps[0].key].Online {
return false
}
}
return true
}
waitFor(t, "other nodes see node 1 online in ts status", fxCameOnline, 2*time.Second)
return ps, control, controlURL
}
// populates participants with their consensus fields, waits for all nodes to show all nodes
// as part of the same consensus cluster. Starts the first participant first and waits for it to
// become leader before adding other nodes.
func createConsensusCluster(t testing.TB, ctx context.Context, clusterTag string, participants []*participant, cfg Config) {
t.Helper()
participants[0].sm = &fsm{}
myCfg := addIDedLogger("0", cfg)
first, err := Start(ctx, participants[0].ts, participants[0].sm, BootstrapOpts{Tag: clusterTag}, myCfg)
if err != nil {
t.Fatal(err)
}
fxFirstIsLeader := func() bool {
return first.raft.State() == raft.Leader
}
waitFor(t, "node 0 is leader", fxFirstIsLeader, 2*time.Second)
participants[0].c = first
for i := 1; i < len(participants); i++ {
participants[i].sm = &fsm{}
myCfg := addIDedLogger(fmt.Sprintf("%d", i), cfg)
c, err := Start(ctx, participants[i].ts, participants[i].sm, BootstrapOpts{Tag: clusterTag}, myCfg)
if err != nil {
t.Fatal(err)
}
participants[i].c = c
}
fxRaftConfigContainsAll := func() bool {
for i := 0; i < len(participants); i++ {
fut := participants[i].c.raft.GetConfiguration()
err = fut.Error()
if err != nil {
t.Fatalf("%d: Getting Configuration errored: %v", i, err)
}
if len(fut.Configuration().Servers) != len(participants) {
return false
}
}
return true
}
waitFor(t, "all raft machines have all servers in their config", fxRaftConfigContainsAll, time.Second*2)
}
func TestApply(t *testing.T) {
testConfig(t)
ctx := context.Background()
clusterTag := "tag:whatever"
ps, _, _ := startNodesAndWaitForPeerStatus(t, ctx, clusterTag, 2)
cfg := warnLogConfig()
createConsensusCluster(t, ctx, clusterTag, ps, cfg)
for _, p := range ps {
defer p.c.Stop(ctx)
}
fut := ps[0].c.raft.Apply(commandWith(t, "woo"), 2*time.Second)
err := fut.Error()
if err != nil {
t.Fatalf("Raft Apply Error: %v", err)
}
want := []string{"woo"}
fxBothMachinesHaveTheApply := func() bool {
return ps[0].sm.eventsMatch(want) && ps[1].sm.eventsMatch(want)
}
waitFor(t, "the apply event made it into both state machines", fxBothMachinesHaveTheApply, time.Second*1)
}
// calls ExecuteCommand on each participant and checks that all participants get all commands
func assertCommandsWorkOnAnyNode(t testing.TB, participants []*participant) {
t.Helper()
want := []string{}
for i, p := range participants {
si := fmt.Sprintf("%d", i)
want = append(want, si)
bs, err := json.Marshal(si)
if err != nil {
t.Fatal(err)
}
res, err := p.c.ExecuteCommand(Command{Args: bs})
if err != nil {
t.Fatalf("%d: Error ExecuteCommand: %v", i, err)
}
if res.Err != nil {
t.Fatalf("%d: Result Error ExecuteCommand: %v", i, res.Err)
}
var retVal int
err = json.Unmarshal(res.Result, &retVal)
if err != nil {
t.Fatal(err)
}
// the test implementation of the fsm returns the count of events that have been received
if retVal != i+1 {
t.Fatalf("Result, want %d, got %d", i+1, retVal)
}
fxEventsInAll := func() bool {
for _, pOther := range participants {
if !pOther.sm.eventsMatch(want) {
return false
}
}
return true
}
waitFor(t, "event makes it to all", fxEventsInAll, time.Second*1)
}
}
func TestConfig(t *testing.T) {
testConfig(t)
ctx := context.Background()
clusterTag := "tag:whatever"
ps, _, _ := startNodesAndWaitForPeerStatus(t, ctx, clusterTag, 3)
cfg := warnLogConfig()
// test all is well with non default ports
cfg.CommandPort = 12347
cfg.RaftPort = 11882
mp := uint16(8798)
cfg.MonitorPort = mp
cfg.ServeDebugMonitor = true
createConsensusCluster(t, ctx, clusterTag, ps, cfg)
for _, p := range ps {
defer p.c.Stop(ctx)
}
assertCommandsWorkOnAnyNode(t, ps)
url := fmt.Sprintf("http://%s:%d/", ps[0].c.self.hostAddr.String(), mp)
httpClientOnTailnet := ps[1].ts.HTTPClient()
rsp, err := httpClientOnTailnet.Get(url)
if err != nil {
t.Fatal(err)
}
if rsp.StatusCode != 200 {
t.Fatalf("monitor status want %d, got %d", 200, rsp.StatusCode)
}
defer rsp.Body.Close()
reader := bufio.NewReader(rsp.Body)
line1, err := reader.ReadString('\n')
if err != nil {
t.Fatal(err)
}
// Not a great assertion because it relies on the format of the response.
if !strings.HasPrefix(line1, "RaftState:") {
t.Fatalf("getting monitor status, first line, want something that starts with 'RaftState:', got '%s'", line1)
}
}
func TestFollowerFailover(t *testing.T) {
testConfig(t)
ctx := context.Background()
clusterTag := "tag:whatever"
ps, _, _ := startNodesAndWaitForPeerStatus(t, ctx, clusterTag, 3)
cfg := warnLogConfig()
createConsensusCluster(t, ctx, clusterTag, ps, cfg)
for _, p := range ps {
defer p.c.Stop(ctx)
}
smThree := ps[2].sm
fut := ps[0].c.raft.Apply(commandWith(t, "a"), 2*time.Second)
futTwo := ps[0].c.raft.Apply(commandWith(t, "b"), 2*time.Second)
err := fut.Error()
if err != nil {
t.Fatalf("Apply Raft error %v", err)
}
err = futTwo.Error()
if err != nil {
t.Fatalf("Apply Raft error %v", err)
}
wantFirstTwoEvents := []string{"a", "b"}
fxAllMachinesHaveTheApplies := func() bool {
return ps[0].sm.eventsMatch(wantFirstTwoEvents) &&
ps[1].sm.eventsMatch(wantFirstTwoEvents) &&
smThree.eventsMatch(wantFirstTwoEvents)
}
waitFor(t, "the apply events made it into all state machines", fxAllMachinesHaveTheApplies, time.Second*1)
//a follower goes loses contact with the cluster
ps[2].c.Stop(ctx)
// applies still make it to one and two
futThree := ps[0].c.raft.Apply(commandWith(t, "c"), 2*time.Second)
futFour := ps[0].c.raft.Apply(commandWith(t, "d"), 2*time.Second)
err = futThree.Error()
if err != nil {
t.Fatalf("Apply Raft error %v", err)
}
err = futFour.Error()
if err != nil {
t.Fatalf("Apply Raft error %v", err)
}
wantFourEvents := []string{"a", "b", "c", "d"}
fxAliveMachinesHaveTheApplies := func() bool {
return ps[0].sm.eventsMatch(wantFourEvents) &&
ps[1].sm.eventsMatch(wantFourEvents) &&
smThree.eventsMatch(wantFirstTwoEvents)
}
waitFor(t, "the apply events made it into eligible state machines", fxAliveMachinesHaveTheApplies, time.Second*1)
// follower comes back
smThreeAgain := &fsm{}
cfg = addIDedLogger("2 after restarting", warnLogConfig())
rThreeAgain, err := Start(ctx, ps[2].ts, smThreeAgain, BootstrapOpts{Tag: clusterTag}, cfg)
if err != nil {
t.Fatal(err)
}
defer rThreeAgain.Stop(ctx)
fxThreeGetsCaughtUp := func() bool {
return smThreeAgain.eventsMatch(wantFourEvents)
}
waitFor(t, "the apply events made it into the third node when it appeared with an empty state machine", fxThreeGetsCaughtUp, time.Second*2)
if !smThree.eventsMatch(wantFirstTwoEvents) {
t.Fatalf("Expected smThree to remain on 2 events: got %d", smThree.numEvents())
}
}
func TestRejoin(t *testing.T) {
testConfig(t)
ctx := context.Background()
clusterTag := "tag:whatever"
ps, control, controlURL := startNodesAndWaitForPeerStatus(t, ctx, clusterTag, 3)
cfg := warnLogConfig()
createConsensusCluster(t, ctx, clusterTag, ps, cfg)
for _, p := range ps {
defer p.c.Stop(ctx)
}
// 1st node gets a redundant second join request from the second node
ps[0].c.handleJoin(joinRequest{
RemoteHost: ps[1].c.self.hostAddr.String(),
RemoteID: ps[1].c.self.id,
})
tsJoiner, keyJoiner, _ := startNode(t, ctx, controlURL, "node joiner")
tagNodes(t, control, []key.NodePublic{keyJoiner}, clusterTag)
waitForNodesToBeTaggedInStatus(t, ctx, ps[0].ts, []key.NodePublic{keyJoiner}, clusterTag)
smJoiner := &fsm{}
cJoiner, err := Start(ctx, tsJoiner, smJoiner, BootstrapOpts{Tag: clusterTag}, cfg)
if err != nil {
t.Fatal(err)
}
ps = append(ps, &participant{
sm: smJoiner,
c: cJoiner,
ts: tsJoiner,
key: keyJoiner,
})
assertCommandsWorkOnAnyNode(t, ps)
}
func TestOnlyTaggedPeersCanDialRaftPort(t *testing.T) {
testConfig(t)
ctx := context.Background()
clusterTag := "tag:whatever"
ps, control, controlURL := startNodesAndWaitForPeerStatus(t, ctx, clusterTag, 3)
cfg := warnLogConfig()
createConsensusCluster(t, ctx, clusterTag, ps, cfg)
for _, p := range ps {
defer p.c.Stop(ctx)
}
assertCommandsWorkOnAnyNode(t, ps)
untaggedNode, _, _ := startNode(t, ctx, controlURL, "untagged node")
taggedNode, taggedKey, _ := startNode(t, ctx, controlURL, "untagged node")
tagNodes(t, control, []key.NodePublic{taggedKey}, clusterTag)
waitForNodesToBeTaggedInStatus(t, ctx, ps[0].ts, []key.NodePublic{taggedKey}, clusterTag)
// surface area: command http, peer tcp
//untagged
ipv4, _ := ps[0].ts.TailscaleIPs()
sAddr := fmt.Sprintf("%s:%d", ipv4, cfg.RaftPort)
getErrorFromTryingToSend := func(s *tsnet.Server) error {
ctx := context.Background()
conn, err := s.Dial(ctx, "tcp", sAddr)
if err != nil {
t.Fatalf("unexpected Dial err: %v", err)
}
fmt.Fprintf(conn, "hellllllloooooo")
status, err := bufio.NewReader(conn).ReadString('\n')
if status != "" {
t.Fatalf("node sending non-raft message should get empty response, got: '%s' for: %s", status, s.Hostname)
}
if err == nil {
t.Fatalf("node sending non-raft message should get an error but got nil err for: %s", s.Hostname)
}
return err
}
isNetErr := func(err error) bool {
var netErr net.Error
return errors.As(err, &netErr)
}
err := getErrorFromTryingToSend(untaggedNode)
if !isNetErr(err) {
t.Fatalf("untagged node trying to send should get a net.Error, got: %v", err)
}
// we still get an error trying to send but it's EOF the target node was happy to talk
// to us but couldn't understand what we said.
err = getErrorFromTryingToSend(taggedNode)
if isNetErr(err) {
t.Fatalf("tagged node trying to send should not get a net.Error, got: %v", err)
}
}
func TestOnlyTaggedPeersCanBeDialed(t *testing.T) {
testConfig(t)
ctx := context.Background()
clusterTag := "tag:whatever"
ps, control, _ := startNodesAndWaitForPeerStatus(t, ctx, clusterTag, 3)
// make a StreamLayer for ps[0]
ts := ps[0].ts
auth := newAuthorization(ts, clusterTag)
port := 19841
lns := make([]net.Listener, 3)
for i, p := range ps {
ln, err := p.ts.Listen("tcp", fmt.Sprintf(":%d", port))
if err != nil {
t.Fatal(err)
}
lns[i] = ln
}
sl := StreamLayer{
s: ts,
Listener: lns[0],
auth: auth,
shutdownCtx: ctx,
}
ip1, _ := ps[1].ts.TailscaleIPs()
a1 := raft.ServerAddress(fmt.Sprintf("%s:%d", ip1, port))
ip2, _ := ps[2].ts.TailscaleIPs()
a2 := raft.ServerAddress(fmt.Sprintf("%s:%d", ip2, port))
// both can be dialed...
conn, err := sl.Dial(a1, 2*time.Second)
if err != nil {
t.Fatal(err)
}
conn.Close()
conn, err = sl.Dial(a2, 2*time.Second)
if err != nil {
t.Fatal(err)
}
conn.Close()
// untag ps[2]
tagNodes(t, control, []key.NodePublic{ps[2].key}, "")
waitForNodesToBeTaggedInStatus(t, ctx, ps[0].ts, []key.NodePublic{ps[2].key}, "")
// now only ps[1] can be dialed
conn, err = sl.Dial(a1, 2*time.Second)
if err != nil {
t.Fatal(err)
}
conn.Close()
_, err = sl.Dial(a2, 2*time.Second)
if err.Error() != "dial: peer is not allowed" {
t.Fatalf("expected dial: peer is not allowed, got: %v", err)
}
}
func TestOnlyTaggedPeersCanJoin(t *testing.T) {
testConfig(t)
ctx := context.Background()
clusterTag := "tag:whatever"
ps, _, controlURL := startNodesAndWaitForPeerStatus(t, ctx, clusterTag, 3)
cfg := warnLogConfig()
createConsensusCluster(t, ctx, clusterTag, ps, cfg)
for _, p := range ps {
defer p.c.Stop(ctx)
}
tsJoiner, _, _ := startNode(t, ctx, controlURL, "joiner node")
ipv4, _ := tsJoiner.TailscaleIPs()
url := fmt.Sprintf("http://%s/join", ps[0].c.commandAddr(ps[0].c.self.hostAddr))
payload, err := json.Marshal(joinRequest{
RemoteHost: ipv4.String(),
RemoteID: "node joiner",
})
if err != nil {
t.Fatal(err)
}
body := bytes.NewBuffer(payload)
req, err := http.NewRequest("POST", url, body)
if err != nil {
t.Fatal(err)
}
resp, err := tsJoiner.HTTPClient().Do(req)
if err != nil {
t.Fatal(err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusForbidden {
t.Fatalf("join req when not tagged, expected status: %d, got: %d", http.StatusForbidden, resp.StatusCode)
}
rBody, _ := io.ReadAll(resp.Body)
sBody := strings.TrimSpace(string(rBody))
expected := "peer not allowed"
if sBody != expected {
t.Fatalf("join req when not tagged, expected body: %s, got: %s", expected, sBody)
}
}
func TestFollowOnly(t *testing.T) {
testConfig(t)
ctx := context.Background()
clusterTag := "tag:whatever"
ps, _, _ := startNodesAndWaitForPeerStatus(t, ctx, clusterTag, 3)
cfg := warnLogConfig()
// start the leader
_, err := Start(ctx, ps[0].ts, ps[0].sm, BootstrapOpts{Tag: clusterTag}, cfg)
if err != nil {
t.Fatal(err)
}
// start the follower with FollowOnly
_, err = Start(ctx, ps[1].ts, ps[1].sm, BootstrapOpts{Tag: clusterTag, FollowOnly: true}, cfg)
if err != nil {
t.Fatal(err)
}
}
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