open-consul/agent/consul/autopilot_test.go

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// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package consul
import (
"context"
"fmt"
"os"
"testing"
"time"
"github.com/hashicorp/raft"
"github.com/hashicorp/serf/serf"
"github.com/stretchr/testify/require"
"github.com/hashicorp/consul/agent/consul/autopilotevents"
"github.com/hashicorp/consul/agent/consul/stream"
"github.com/hashicorp/consul/agent/structs"
"github.com/hashicorp/consul/sdk/testutil/retry"
"github.com/hashicorp/consul/testrpc"
)
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func TestAutopilot_IdempotentShutdown(t *testing.T) {
if testing.Short() {
t.Skip("too slow for testing.Short")
}
dir1, s1 := testServerWithConfig(t)
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defer os.RemoveAll(dir1)
defer s1.Shutdown()
retry.Run(t, func(r *retry.R) { r.Check(waitForLeader(s1)) })
s1.autopilot.Start(context.Background())
s1.autopilot.Start(context.Background())
s1.autopilot.Start(context.Background())
<-s1.autopilot.Stop()
<-s1.autopilot.Stop()
<-s1.autopilot.Stop()
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}
func TestAutopilot_CleanupDeadServer(t *testing.T) {
if testing.Short() {
t.Skip("too slow for testing.Short")
}
dc := "dc1"
conf := func(c *Config) {
c.Datacenter = dc
c.Bootstrap = false
c.BootstrapExpect = 5
}
dir1, s1 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir1)
defer s1.Shutdown()
dir2, s2 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir2)
defer s2.Shutdown()
dir3, s3 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir3)
defer s3.Shutdown()
dir4, s4 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir4)
defer s4.Shutdown()
dir5, s5 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir5)
defer s5.Shutdown()
servers := []*Server{s1, s2, s3, s4, s5}
// Try to join
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joinLAN(t, s2, s1)
joinLAN(t, s3, s1)
joinLAN(t, s4, s1)
joinLAN(t, s5, s1)
for _, s := range servers {
testrpc.WaitForLeader(t, s.RPC, dc)
retry.Run(t, func(r *retry.R) { r.Check(wantPeers(s, 5)) })
}
testrpc.WaitForLeader(t, s1.RPC, "dc1")
leaderIndex := -1
for i, s := range servers {
if s.IsLeader() {
leaderIndex = i
break
}
}
require.NotEqual(t, leaderIndex, -1)
// Shutdown two non-leader servers
killed := make(map[string]struct{})
for i, s := range servers {
if i != leaderIndex {
s.Shutdown()
killed[string(s.config.NodeID)] = struct{}{}
}
if len(killed) == 2 {
break
}
}
retry.Run(t, func(r *retry.R) {
alive := 0
for _, m := range servers[leaderIndex].LANMembersInAgentPartition() {
if m.Status == serf.StatusAlive {
alive++
}
}
if alive != 3 {
r.Fatalf("Expected three alive servers instead of %d", alive)
}
})
// Make sure the dead servers are removed and we're back to 3 total peers
for _, s := range servers {
_, killed := killed[string(s.config.NodeID)]
if !killed {
retry.Run(t, func(r *retry.R) { r.Check(wantPeers(s, 3)) })
}
}
}
func TestAutopilot_CleanupDeadNonvoter(t *testing.T) {
if testing.Short() {
t.Skip("too slow for testing.Short")
}
dir1, s1 := testServerWithConfig(t, func(c *Config) {
c.AutopilotConfig = &structs.AutopilotConfig{
CleanupDeadServers: true,
ServerStabilizationTime: 100 * time.Millisecond,
}
})
defer os.RemoveAll(dir1)
defer s1.Shutdown()
// we have to wait for autopilot to be running long enough for the server stabilization time
// to kick in for this test to work.
time.Sleep(100 * time.Millisecond)
dir2, s2 := testServerDCBootstrap(t, "dc1", false)
defer os.RemoveAll(dir2)
defer s2.Shutdown()
testrpc.WaitForLeader(t, s1.RPC, "dc1")
// Have s2 join and then shut it down immediately before it gets a chance to
// be promoted to a voter.
joinLAN(t, s2, s1)
retry.Run(t, func(r *retry.R) {
r.Check(wantRaft([]*Server{s1, s2}))
})
s2.Shutdown()
retry.Run(t, func(r *retry.R) {
r.Check(wantRaft([]*Server{s1}))
})
}
func TestAutopilot_CleanupDeadServerPeriodic(t *testing.T) {
if testing.Short() {
t.Skip("too slow for testing.Short")
}
t.Parallel()
dir1, s1 := testServerWithConfig(t, func(c *Config) {
c.Datacenter = "dc1"
c.Bootstrap = true
})
defer os.RemoveAll(dir1)
defer s1.Shutdown()
conf := func(c *Config) {
c.Datacenter = "dc1"
c.Bootstrap = false
}
dir2, s2 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir2)
defer s2.Shutdown()
dir3, s3 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir3)
defer s3.Shutdown()
dir4, s4 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir4)
defer s4.Shutdown()
dir5, s5 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir5)
defer s5.Shutdown()
servers := []*Server{s1, s2, s3, s4, s5}
// Join the servers to s1, and wait until they are all promoted to
// voters.
for _, s := range servers[1:] {
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joinLAN(t, s, s1)
}
retry.Run(t, func(r *retry.R) {
r.Check(wantRaft(servers))
for _, s := range servers {
r.Check(wantPeers(s, 5))
}
})
// Kill a non-leader server
s4.Shutdown()
// Should be removed from the peers automatically
servers = []*Server{s1, s2, s3, s5}
retry.Run(t, func(r *retry.R) {
r.Check(wantRaft(servers))
for _, s := range servers {
r.Check(wantPeers(s, 4))
}
})
}
func TestAutopilot_RollingUpdate(t *testing.T) {
if testing.Short() {
t.Skip("too slow for testing.Short")
}
t.Parallel()
dir1, s1 := testServerWithConfig(t, func(c *Config) {
c.Datacenter = "dc1"
c.Bootstrap = true
})
defer os.RemoveAll(dir1)
defer s1.Shutdown()
conf := func(c *Config) {
c.Datacenter = "dc1"
c.Bootstrap = false
}
dir2, s2 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir2)
defer s2.Shutdown()
dir3, s3 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir3)
defer s3.Shutdown()
// Join the servers to s1, and wait until they are all promoted to
// voters.
servers := []*Server{s1, s2, s3}
for _, s := range servers[1:] {
joinLAN(t, s, s1)
}
retry.Run(t, func(r *retry.R) {
r.Check(wantRaft(servers))
for _, s := range servers {
r.Check(wantPeers(s, 3))
}
})
// Add one more server like we are doing a rolling update.
dir4, s4 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir4)
defer s4.Shutdown()
joinLAN(t, s1, s4)
servers = append(servers, s4)
retry.Run(t, func(r *retry.R) {
r.Check(wantRaft(servers))
for _, s := range servers {
r.Check(wantPeers(s, 3))
}
})
// Now kill one of the "old" nodes like we are doing a rolling update.
s3.Shutdown()
isVoter := func() bool {
future := s1.raft.GetConfiguration()
if err := future.Error(); err != nil {
t.Fatalf("err: %v", err)
}
for _, s := range future.Configuration().Servers {
if string(s.ID) == string(s4.config.NodeID) {
return s.Suffrage == raft.Voter
}
}
t.Fatalf("didn't find s4")
return false
}
// Wait for s4 to stabilize, get promoted to a voter, and for s3 to be
// removed.
servers = []*Server{s1, s2, s4}
retry.Run(t, func(r *retry.R) {
r.Check(wantRaft(servers))
for _, s := range servers {
r.Check(wantPeers(s, 3))
}
if !isVoter() {
r.Fatalf("should be a voter")
}
})
}
func TestAutopilot_CleanupStaleRaftServer(t *testing.T) {
if testing.Short() {
t.Skip("too slow for testing.Short")
}
t.Parallel()
dir1, s1 := testServerDCBootstrap(t, "dc1", true)
defer os.RemoveAll(dir1)
defer s1.Shutdown()
dir2, s2 := testServerDCBootstrap(t, "dc1", false)
defer os.RemoveAll(dir2)
defer s2.Shutdown()
dir3, s3 := testServerDCBootstrap(t, "dc1", false)
defer os.RemoveAll(dir3)
defer s3.Shutdown()
dir4, s4 := testServerDCBootstrap(t, "dc1", false)
defer os.RemoveAll(dir4)
defer s4.Shutdown()
servers := []*Server{s1, s2, s3}
// Join the servers to s1
for _, s := range servers[1:] {
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joinLAN(t, s, s1)
}
for _, s := range servers {
retry.Run(t, func(r *retry.R) { r.Check(wantPeers(s, 3)) })
}
testrpc.WaitForLeader(t, s1.RPC, "dc1")
// Add s4 to peers directly
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addVoterFuture := s1.raft.AddVoter(raft.ServerID(s4.config.NodeID), raft.ServerAddress(joinAddrLAN(s4)), 0, 0)
if err := addVoterFuture.Error(); err != nil {
t.Fatal(err)
}
// Verify we have 4 peers
peers, err := s1.autopilot.NumVoters()
if err != nil {
t.Fatal(err)
}
if peers != 4 {
t.Fatalf("bad: %v", peers)
}
// Wait for s4 to be removed
for _, s := range []*Server{s1, s2, s3} {
retry.Run(t, func(r *retry.R) { r.Check(wantPeers(s, 3)) })
}
}
func TestAutopilot_PromoteNonVoter(t *testing.T) {
if testing.Short() {
t.Skip("too slow for testing.Short")
}
t.Parallel()
dir1, s1 := testServerWithConfig(t, func(c *Config) {
c.Datacenter = "dc1"
c.Bootstrap = true
c.AutopilotConfig.ServerStabilizationTime = 200 * time.Millisecond
c.ServerHealthInterval = 100 * time.Millisecond
c.AutopilotInterval = 100 * time.Millisecond
})
defer os.RemoveAll(dir1)
defer s1.Shutdown()
codec := rpcClient(t, s1)
defer codec.Close()
testrpc.WaitForLeader(t, s1.RPC, "dc1")
// this may seem arbitrary but we need to get past the server stabilization time
// so that we start factoring in that time for newly connected nodes.
time.Sleep(100 * time.Millisecond)
dir2, s2 := testServerWithConfig(t, func(c *Config) {
c.Datacenter = "dc1"
c.Bootstrap = false
c.RaftConfig.ProtocolVersion = 3
})
defer os.RemoveAll(dir2)
defer s2.Shutdown()
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joinLAN(t, s2, s1)
// Make sure we see it as a nonvoter initially. We wait until half
// the stabilization period has passed.
retry.Run(t, func(r *retry.R) {
future := s1.raft.GetConfiguration()
if err := future.Error(); err != nil {
r.Fatal(err)
}
servers := future.Configuration().Servers
if len(servers) != 2 {
r.Fatalf("bad: %v", servers)
}
if servers[1].Suffrage != raft.Nonvoter {
r.Fatalf("bad: %v", servers)
}
health := s1.autopilot.GetServerHealth(servers[1].ID)
if health == nil {
r.Fatal("nil health")
}
if !health.Healthy {
r.Fatalf("bad: %v", health)
}
if time.Since(health.StableSince) < s1.config.AutopilotConfig.ServerStabilizationTime/2 {
r.Fatal("stable period not elapsed")
}
})
// Make sure it ends up as a voter.
retry.Run(t, func(r *retry.R) {
future := s1.raft.GetConfiguration()
if err := future.Error(); err != nil {
r.Fatal(err)
}
servers := future.Configuration().Servers
if len(servers) != 2 {
r.Fatalf("bad: %v", servers)
}
if servers[1].Suffrage != raft.Voter {
r.Fatalf("bad: %v", servers)
}
})
}
func TestAutopilot_MinQuorum(t *testing.T) {
if testing.Short() {
t.Skip("too slow for testing.Short")
}
dc := "dc1"
conf := func(c *Config) {
c.Datacenter = dc
c.Bootstrap = false
c.BootstrapExpect = 4
c.AutopilotConfig.MinQuorum = 3
c.AutopilotInterval = 100 * time.Millisecond
}
dir1, s1 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir1)
defer s1.Shutdown()
dir2, s2 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir2)
defer s2.Shutdown()
dir3, s3 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir3)
defer s3.Shutdown()
dir4, s4 := testServerWithConfig(t, conf)
defer os.RemoveAll(dir4)
defer s4.Shutdown()
servers := map[string]*Server{s1.config.NodeName: s1,
s2.config.NodeName: s2,
s3.config.NodeName: s3,
s4.config.NodeName: s4}
// Try to join
joinLAN(t, s2, s1)
joinLAN(t, s3, s1)
joinLAN(t, s4, s1)
//Differentiate between leader and server
findStatus := func(leader bool) *Server {
for _, mem := range servers {
if mem.IsLeader() == leader {
return mem
}
if !mem.IsLeader() == !leader {
return mem
}
}
return nil
}
testrpc.WaitForLeader(t, s1.RPC, dc)
// Have autopilot take one into left
dead := findStatus(false)
if dead == nil {
t.Fatalf("no members set")
}
require.NoError(t, dead.Shutdown())
retry.Run(t, func(r *retry.R) {
leader := findStatus(true)
if leader == nil {
r.Fatalf("no members set")
}
for _, m := range leader.LANMembersInAgentPartition() {
if m.Name == dead.config.NodeName && m.Status != serf.StatusLeft {
r.Fatalf("%v should be left, got %v", m.Name, m.Status.String())
}
}
})
delete(servers, dead.config.NodeName)
//Autopilot should not take this one into left
dead = findStatus(false)
require.NoError(t, dead.Shutdown())
retry.Run(t, func(r *retry.R) {
leader := findStatus(true)
if leader == nil {
r.Fatalf("no members set")
}
for _, m := range leader.LANMembersInAgentPartition() {
if m.Name == dead.config.NodeName && m.Status != serf.StatusFailed {
r.Fatalf("%v should be failed, got %v", m.Name, m.Status.String())
}
}
})
}
func TestAutopilot_EventPublishing(t *testing.T) {
// This is really an integration level test. The general flow this test will follow is:
//
// 1. Start a 3 server cluster
// 2. Subscribe to the ready server events
// 3. Observe the first event which will be pretty immediately ready as it is the
// snapshot event.
// 4. Wait for multiple iterations of the autopilot state updater and ensure no
// other events are seen. The state update interval is 50ms for tests unless
// overridden.
// 5. Add a fouth server.
// 6. Wait for an event to be emitted containing 4 ready servers.
// 1. create the test cluster
cluster := newTestCluster(t, &testClusterConfig{
Servers: 3,
ServerConf: testServerACLConfig,
// We want to wait until each server has registered itself in the Catalog. Otherwise
// the first snapshot even we see might have no servers in it while things are being
// initialized. Doing this wait ensure that things are in the right state to start
// the subscription.
})
// 2. subscribe to ready server events
req := stream.SubscribeRequest{
Topic: autopilotevents.EventTopicReadyServers,
Subject: stream.SubjectNone,
Token: TestDefaultInitialManagementToken,
}
sub, err := cluster.Servers[0].publisher.Subscribe(&req)
require.NoError(t, err)
t.Cleanup(sub.Unsubscribe)
// 3. Observe that an event was generated which should be the snapshot event.
// As we have just bootstrapped the cluster with 3 servers we expect to
// see those 3 here.
validatePayload(t, 3, mustGetEventWithTimeout(t, sub, 50*time.Millisecond))
// TODO - its kind of annoying that the EventPublisher doesn't have a mode where
// it knows each event is a full state of the world. The ramifications are that
// we have to expect/ignore the framing events for EndOfSnapshot.
event := mustGetEventWithTimeout(t, sub, 10*time.Millisecond)
require.True(t, event.IsFramingEvent())
// 4. Wait for 3 iterations of the ServerHealthInterval to ensure no events
// are being published when the autopilot state is not changing.
eventNotEmitted(t, sub, 150*time.Millisecond)
// 5. Add a fourth server
_, srv := testServerWithConfig(t, testServerACLConfig, func(c *Config) {
c.Bootstrap = false
c.BootstrapExpect = 0
})
joinLAN(t, srv, cluster.Servers[0])
// 6. Now wait for the event for the fourth server being added. This may take a little
// while as the joinLAN operation above doesn't wait for the server to actually get
// added to Raft.
validatePayload(t, 4, mustGetEventWithTimeout(t, sub, time.Second))
}
// mustGetEventWithTimeout is a helper function for validating that a Subscription.Next call will return
// an event within the given time. It also validates that no error is returned.
func mustGetEventWithTimeout(t *testing.T, subscription *stream.Subscription, timeout time.Duration) stream.Event {
t.Helper()
event, err := getEventWithTimeout(t, subscription, timeout)
require.NoError(t, err)
return event
}
// getEventWithTimeout is a helper function for retrieving a Event from a Subscription within the specified timeout.
func getEventWithTimeout(t *testing.T, subscription *stream.Subscription, timeout time.Duration) (stream.Event, error) {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), timeout)
defer cancel()
event, err := subscription.Next(ctx)
return event, err
}
// eventNotEmitted is a helper to validate that no Event is emitted for the given Subscription
func eventNotEmitted(t *testing.T, subscription *stream.Subscription, timeout time.Duration) {
t.Helper()
var event stream.Event
var err error
event, err = getEventWithTimeout(t, subscription, timeout)
require.Equal(t, context.DeadlineExceeded, err, fmt.Sprintf("event:%v", event))
}
func validatePayload(t *testing.T, expectedNumServers int, event stream.Event) {
t.Helper()
require.Equal(t, autopilotevents.EventTopicReadyServers, event.Topic)
readyServers, ok := event.Payload.(autopilotevents.EventPayloadReadyServers)
require.True(t, ok)
require.Len(t, readyServers, expectedNumServers)
}