//go:build !windows // +build !windows package main import ( "context" "fmt" "net" "net/http" "os" "path/filepath" "runtime" "strings" "sync" "testing" "time" "github.com/cloudflare/cfssl/csr" "github.com/cloudflare/cfssl/helpers" "github.com/cloudflare/cfssl/initca" "github.com/docker/docker/api/types" "github.com/docker/docker/api/types/container" "github.com/docker/docker/api/types/swarm" "github.com/docker/docker/client" "github.com/docker/docker/integration-cli/checker" "github.com/docker/docker/integration-cli/daemon" testdaemon "github.com/docker/docker/testutil/daemon" "github.com/docker/docker/testutil/request" "github.com/docker/swarmkit/ca" "gotest.tools/v3/assert" is "gotest.tools/v3/assert/cmp" "gotest.tools/v3/poll" ) var defaultReconciliationTimeout = 30 * time.Second func (s *DockerSwarmSuite) TestAPISwarmInit(c *testing.T) { // todo: should find a better way to verify that components are running than /info d1 := s.AddDaemon(c, true, true) info := d1.SwarmInfo(c) assert.Equal(c, info.ControlAvailable, true) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) assert.Equal(c, info.Cluster.RootRotationInProgress, false) d2 := s.AddDaemon(c, true, false) info = d2.SwarmInfo(c) assert.Equal(c, info.ControlAvailable, false) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) // Leaving cluster assert.NilError(c, d2.SwarmLeave(c, false)) info = d2.SwarmInfo(c) assert.Equal(c, info.ControlAvailable, false) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) d2.SwarmJoin(c, swarm.JoinRequest{ ListenAddr: d1.SwarmListenAddr(), JoinToken: d1.JoinTokens(c).Worker, RemoteAddrs: []string{d1.SwarmListenAddr()}, }) info = d2.SwarmInfo(c) assert.Equal(c, info.ControlAvailable, false) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) // Current state restoring after restarts d1.Stop(c) d2.Stop(c) d1.StartNode(c) d2.StartNode(c) info = d1.SwarmInfo(c) assert.Equal(c, info.ControlAvailable, true) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) info = d2.SwarmInfo(c) assert.Equal(c, info.ControlAvailable, false) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) } func (s *DockerSwarmSuite) TestAPISwarmJoinToken(c *testing.T) { d1 := s.AddDaemon(c, false, false) d1.SwarmInit(c, swarm.InitRequest{}) // todo: error message differs depending if some components of token are valid d2 := s.AddDaemon(c, false, false) c2 := d2.NewClientT(c) err := c2.SwarmJoin(context.Background(), swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), RemoteAddrs: []string{d1.SwarmListenAddr()}, }) assert.ErrorContains(c, err, "join token is necessary") info := d2.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) err = c2.SwarmJoin(context.Background(), swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), JoinToken: "foobaz", RemoteAddrs: []string{d1.SwarmListenAddr()}, }) assert.ErrorContains(c, err, "invalid join token") info = d2.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) workerToken := d1.JoinTokens(c).Worker d2.SwarmJoin(c, swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), JoinToken: workerToken, RemoteAddrs: []string{d1.SwarmListenAddr()}, }) info = d2.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) assert.NilError(c, d2.SwarmLeave(c, false)) info = d2.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) // change tokens d1.RotateTokens(c) err = c2.SwarmJoin(context.Background(), swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), JoinToken: workerToken, RemoteAddrs: []string{d1.SwarmListenAddr()}, }) assert.ErrorContains(c, err, "join token is necessary") info = d2.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) workerToken = d1.JoinTokens(c).Worker d2.SwarmJoin(c, swarm.JoinRequest{JoinToken: workerToken, RemoteAddrs: []string{d1.SwarmListenAddr()}}) info = d2.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) assert.NilError(c, d2.SwarmLeave(c, false)) info = d2.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) // change spec, don't change tokens d1.UpdateSwarm(c, func(s *swarm.Spec) {}) err = c2.SwarmJoin(context.Background(), swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), RemoteAddrs: []string{d1.SwarmListenAddr()}, }) assert.ErrorContains(c, err, "join token is necessary") info = d2.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) d2.SwarmJoin(c, swarm.JoinRequest{JoinToken: workerToken, RemoteAddrs: []string{d1.SwarmListenAddr()}}) info = d2.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) assert.NilError(c, d2.SwarmLeave(c, false)) info = d2.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) } func (s *DockerSwarmSuite) TestUpdateSwarmAddExternalCA(c *testing.T) { d1 := s.AddDaemon(c, false, false) d1.SwarmInit(c, swarm.InitRequest{}) d1.UpdateSwarm(c, func(s *swarm.Spec) { s.CAConfig.ExternalCAs = []*swarm.ExternalCA{ { Protocol: swarm.ExternalCAProtocolCFSSL, URL: "https://thishasnoca.org", }, { Protocol: swarm.ExternalCAProtocolCFSSL, URL: "https://thishasacacert.org", CACert: "cacert", }, } }) info := d1.SwarmInfo(c) assert.Equal(c, len(info.Cluster.Spec.CAConfig.ExternalCAs), 2) assert.Equal(c, info.Cluster.Spec.CAConfig.ExternalCAs[0].CACert, "") assert.Equal(c, info.Cluster.Spec.CAConfig.ExternalCAs[1].CACert, "cacert") } func (s *DockerSwarmSuite) TestAPISwarmCAHash(c *testing.T) { d1 := s.AddDaemon(c, true, true) d2 := s.AddDaemon(c, false, false) splitToken := strings.Split(d1.JoinTokens(c).Worker, "-") splitToken[2] = "1kxftv4ofnc6mt30lmgipg6ngf9luhwqopfk1tz6bdmnkubg0e" replacementToken := strings.Join(splitToken, "-") c2 := d2.NewClientT(c) err := c2.SwarmJoin(context.Background(), swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), JoinToken: replacementToken, RemoteAddrs: []string{d1.SwarmListenAddr()}, }) assert.ErrorContains(c, err, "remote CA does not match fingerprint") } func (s *DockerSwarmSuite) TestAPISwarmPromoteDemote(c *testing.T) { d1 := s.AddDaemon(c, false, false) d1.SwarmInit(c, swarm.InitRequest{}) d2 := s.AddDaemon(c, true, false) info := d2.SwarmInfo(c) assert.Equal(c, info.ControlAvailable, false) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) d1.UpdateNode(c, d2.NodeID(), func(n *swarm.Node) { n.Spec.Role = swarm.NodeRoleManager }) poll.WaitOn(c, pollCheck(c, d2.CheckControlAvailable, checker.True()), poll.WithTimeout(defaultReconciliationTimeout)) d1.UpdateNode(c, d2.NodeID(), func(n *swarm.Node) { n.Spec.Role = swarm.NodeRoleWorker }) poll.WaitOn(c, pollCheck(c, d2.CheckControlAvailable, checker.False()), poll.WithTimeout(defaultReconciliationTimeout)) // Wait for the role to change to worker in the cert. This is partially // done because it's something worth testing in its own right, and // partially because changing the role from manager to worker and then // back to manager quickly might cause the node to pause for awhile // while waiting for the role to change to worker, and the test can // time out during this interval. poll.WaitOn(c, pollCheck(c, func(c *testing.T) (interface{}, string) { certBytes, err := os.ReadFile(filepath.Join(d2.Folder, "root", "swarm", "certificates", "swarm-node.crt")) if err != nil { return "", fmt.Sprintf("error: %v", err) } certs, err := helpers.ParseCertificatesPEM(certBytes) if err == nil && len(certs) > 0 && len(certs[0].Subject.OrganizationalUnit) > 0 { return certs[0].Subject.OrganizationalUnit[0], "" } return "", "could not get organizational unit from certificate" }, checker.Equals("swarm-worker")), poll.WithTimeout(defaultReconciliationTimeout)) // Demoting last node should fail node := d1.GetNode(c, d1.NodeID()) node.Spec.Role = swarm.NodeRoleWorker url := fmt.Sprintf("/nodes/%s/update?version=%d", node.ID, node.Version.Index) res, body, err := request.Post(url, request.Host(d1.Sock()), request.JSONBody(node.Spec)) assert.NilError(c, err) b, err := request.ReadBody(body) assert.NilError(c, err) assert.Equal(c, res.StatusCode, http.StatusBadRequest, "output: %q", string(b)) // The warning specific to demoting the last manager is best-effort and // won't appear until the Role field of the demoted manager has been // updated. // Yes, I know this looks silly, but checker.Matches is broken, since // it anchors the regexp contrary to the documentation, and this makes // it impossible to match something that includes a line break. if !strings.Contains(string(b), "last manager of the swarm") { assert.Assert(c, strings.Contains(string(b), "this would result in a loss of quorum")) } info = d1.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) assert.Equal(c, info.ControlAvailable, true) // Promote already demoted node d1.UpdateNode(c, d2.NodeID(), func(n *swarm.Node) { n.Spec.Role = swarm.NodeRoleManager }) poll.WaitOn(c, pollCheck(c, d2.CheckControlAvailable, checker.True()), poll.WithTimeout(defaultReconciliationTimeout)) } func (s *DockerSwarmSuite) TestAPISwarmLeaderProxy(c *testing.T) { // add three managers, one of these is leader d1 := s.AddDaemon(c, true, true) d2 := s.AddDaemon(c, true, true) d3 := s.AddDaemon(c, true, true) // start a service by hitting each of the 3 managers d1.CreateService(c, simpleTestService, func(s *swarm.Service) { s.Spec.Name = "test1" }) d2.CreateService(c, simpleTestService, func(s *swarm.Service) { s.Spec.Name = "test2" }) d3.CreateService(c, simpleTestService, func(s *swarm.Service) { s.Spec.Name = "test3" }) // 3 services should be started now, because the requests were proxied to leader // query each node and make sure it returns 3 services for _, d := range []*daemon.Daemon{d1, d2, d3} { services := d.ListServices(c) assert.Equal(c, len(services), 3) } } func (s *DockerSwarmSuite) TestAPISwarmLeaderElection(c *testing.T) { if runtime.GOARCH == "s390x" { c.Skip("Disabled on s390x") } if runtime.GOARCH == "ppc64le" { c.Skip("Disabled on ppc64le") } // Create 3 nodes d1 := s.AddDaemon(c, true, true) d2 := s.AddDaemon(c, true, true) d3 := s.AddDaemon(c, true, true) // assert that the first node we made is the leader, and the other two are followers assert.Equal(c, d1.GetNode(c, d1.NodeID()).ManagerStatus.Leader, true) assert.Equal(c, d1.GetNode(c, d2.NodeID()).ManagerStatus.Leader, false) assert.Equal(c, d1.GetNode(c, d3.NodeID()).ManagerStatus.Leader, false) d1.Stop(c) var ( leader *daemon.Daemon // keep track of leader followers []*daemon.Daemon // keep track of followers ) var lastErr error checkLeader := func(nodes ...*daemon.Daemon) checkF { return func(c *testing.T) (interface{}, string) { // clear these out before each run leader = nil followers = nil for _, d := range nodes { n := d.GetNode(c, d.NodeID(), func(err error) bool { if strings.Contains(err.Error(), context.DeadlineExceeded.Error()) || strings.Contains(err.Error(), "swarm does not have a leader") { lastErr = err return true } return false }) if n == nil { return false, fmt.Sprintf("failed to get node: %v", lastErr) } if n.ManagerStatus.Leader { leader = d } else { followers = append(followers, d) } } if leader == nil { return false, "no leader elected" } return true, fmt.Sprintf("elected %v", leader.ID()) } } // wait for an election to occur c.Logf("Waiting for election to occur...") poll.WaitOn(c, pollCheck(c, checkLeader(d2, d3), checker.True()), poll.WithTimeout(defaultReconciliationTimeout)) // assert that we have a new leader assert.Assert(c, leader != nil) // Keep track of the current leader, since we want that to be chosen. stableleader := leader // add the d1, the initial leader, back d1.StartNode(c) // wait for possible election c.Logf("Waiting for possible election...") poll.WaitOn(c, pollCheck(c, checkLeader(d1, d2, d3), checker.True()), poll.WithTimeout(defaultReconciliationTimeout)) // pick out the leader and the followers again // verify that we still only have 1 leader and 2 followers assert.Assert(c, leader != nil) assert.Equal(c, len(followers), 2) // and that after we added d1 back, the leader hasn't changed assert.Equal(c, leader.NodeID(), stableleader.NodeID()) } func (s *DockerSwarmSuite) TestAPISwarmRaftQuorum(c *testing.T) { if runtime.GOARCH == "s390x" { c.Skip("Disabled on s390x") } if runtime.GOARCH == "ppc64le" { c.Skip("Disabled on ppc64le") } d1 := s.AddDaemon(c, true, true) d2 := s.AddDaemon(c, true, true) d3 := s.AddDaemon(c, true, true) d1.CreateService(c, simpleTestService) d2.Stop(c) // make sure there is a leader poll.WaitOn(c, pollCheck(c, d1.CheckLeader, checker.IsNil()), poll.WithTimeout(defaultReconciliationTimeout)) d1.CreateService(c, simpleTestService, func(s *swarm.Service) { s.Spec.Name = "top1" }) d3.Stop(c) var service swarm.Service simpleTestService(&service) service.Spec.Name = "top2" cli := d1.NewClientT(c) defer cli.Close() // d1 will eventually step down from leader because there is no longer an active quorum, wait for that to happen poll.WaitOn(c, pollCheck(c, func(c *testing.T) (interface{}, string) { _, err := cli.ServiceCreate(context.Background(), service.Spec, types.ServiceCreateOptions{}) return err.Error(), "" }, checker.Contains("Make sure more than half of the managers are online.")), poll.WithTimeout(defaultReconciliationTimeout*2)) d2.StartNode(c) // make sure there is a leader poll.WaitOn(c, pollCheck(c, d1.CheckLeader, checker.IsNil()), poll.WithTimeout(defaultReconciliationTimeout)) d1.CreateService(c, simpleTestService, func(s *swarm.Service) { s.Spec.Name = "top3" }) } func (s *DockerSwarmSuite) TestAPISwarmLeaveRemovesContainer(c *testing.T) { d := s.AddDaemon(c, true, true) instances := 2 d.CreateService(c, simpleTestService, setInstances(instances)) id, err := d.Cmd("run", "-d", "busybox", "top") assert.NilError(c, err, id) id = strings.TrimSpace(id) poll.WaitOn(c, pollCheck(c, d.CheckActiveContainerCount, checker.Equals(instances+1)), poll.WithTimeout(defaultReconciliationTimeout)) assert.ErrorContains(c, d.SwarmLeave(c, false), "") assert.NilError(c, d.SwarmLeave(c, true)) poll.WaitOn(c, pollCheck(c, d.CheckActiveContainerCount, checker.Equals(1)), poll.WithTimeout(defaultReconciliationTimeout)) id2, err := d.Cmd("ps", "-q") assert.NilError(c, err, id2) assert.Assert(c, strings.HasPrefix(id, strings.TrimSpace(id2))) } // #23629 func (s *DockerSwarmSuite) TestAPISwarmLeaveOnPendingJoin(c *testing.T) { testRequires(c, Network) s.AddDaemon(c, true, true) d2 := s.AddDaemon(c, false, false) id, err := d2.Cmd("run", "-d", "busybox", "top") assert.NilError(c, err, id) id = strings.TrimSpace(id) c2 := d2.NewClientT(c) err = c2.SwarmJoin(context.Background(), swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), RemoteAddrs: []string{"123.123.123.123:1234"}, }) assert.ErrorContains(c, err, "Timeout was reached") info := d2.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStatePending) assert.NilError(c, d2.SwarmLeave(c, true)) poll.WaitOn(c, pollCheck(c, d2.CheckActiveContainerCount, checker.Equals(1)), poll.WithTimeout(defaultReconciliationTimeout)) id2, err := d2.Cmd("ps", "-q") assert.NilError(c, err, id2) assert.Assert(c, strings.HasPrefix(id, strings.TrimSpace(id2))) } // #23705 func (s *DockerSwarmSuite) TestAPISwarmRestoreOnPendingJoin(c *testing.T) { testRequires(c, Network) d := s.AddDaemon(c, false, false) client := d.NewClientT(c) err := client.SwarmJoin(context.Background(), swarm.JoinRequest{ ListenAddr: d.SwarmListenAddr(), RemoteAddrs: []string{"123.123.123.123:1234"}, }) assert.ErrorContains(c, err, "Timeout was reached") poll.WaitOn(c, pollCheck(c, d.CheckLocalNodeState, checker.Equals(swarm.LocalNodeStatePending)), poll.WithTimeout(defaultReconciliationTimeout)) d.RestartNode(c) info := d.SwarmInfo(c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) } func (s *DockerSwarmSuite) TestAPISwarmManagerRestore(c *testing.T) { d1 := s.AddDaemon(c, true, true) instances := 2 id := d1.CreateService(c, simpleTestService, setInstances(instances)) d1.GetService(c, id) d1.RestartNode(c) d1.GetService(c, id) d2 := s.AddDaemon(c, true, true) d2.GetService(c, id) d2.RestartNode(c) d2.GetService(c, id) d3 := s.AddDaemon(c, true, true) d3.GetService(c, id) d3.RestartNode(c) d3.GetService(c, id) err := d3.Kill() assert.NilError(c, err) time.Sleep(1 * time.Second) // time to handle signal d3.StartNode(c) d3.GetService(c, id) } func (s *DockerSwarmSuite) TestAPISwarmScaleNoRollingUpdate(c *testing.T) { d := s.AddDaemon(c, true, true) instances := 2 id := d.CreateService(c, simpleTestService, setInstances(instances)) poll.WaitOn(c, pollCheck(c, d.CheckActiveContainerCount, checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) containers := d.ActiveContainers(c) instances = 4 d.UpdateService(c, d.GetService(c, id), setInstances(instances)) poll.WaitOn(c, pollCheck(c, d.CheckActiveContainerCount, checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) containers2 := d.ActiveContainers(c) loop0: for _, c1 := range containers { for _, c2 := range containers2 { if c1 == c2 { continue loop0 } } c.Errorf("container %v not found in new set %#v", c1, containers2) } } func (s *DockerSwarmSuite) TestAPISwarmInvalidAddress(c *testing.T) { d := s.AddDaemon(c, false, false) req := swarm.InitRequest{ ListenAddr: "", } res, _, err := request.Post("/swarm/init", request.Host(d.Sock()), request.JSONBody(req)) assert.NilError(c, err) assert.Equal(c, res.StatusCode, http.StatusBadRequest) req2 := swarm.JoinRequest{ ListenAddr: "0.0.0.0:2377", RemoteAddrs: []string{""}, } res, _, err = request.Post("/swarm/join", request.Host(d.Sock()), request.JSONBody(req2)) assert.NilError(c, err) assert.Equal(c, res.StatusCode, http.StatusBadRequest) } func (s *DockerSwarmSuite) TestAPISwarmForceNewCluster(c *testing.T) { d1 := s.AddDaemon(c, true, true) d2 := s.AddDaemon(c, true, true) instances := 2 id := d1.CreateService(c, simpleTestService, setInstances(instances)) poll.WaitOn(c, pollCheck(c, reducedCheck(sumAsIntegers, d1.CheckActiveContainerCount, d2.CheckActiveContainerCount), checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) // drain d2, all containers should move to d1 d1.UpdateNode(c, d2.NodeID(), func(n *swarm.Node) { n.Spec.Availability = swarm.NodeAvailabilityDrain }) poll.WaitOn(c, pollCheck(c, d1.CheckActiveContainerCount, checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) poll.WaitOn(c, pollCheck(c, d2.CheckActiveContainerCount, checker.Equals(0)), poll.WithTimeout(defaultReconciliationTimeout)) d2.Stop(c) d1.SwarmInit(c, swarm.InitRequest{ ForceNewCluster: true, Spec: swarm.Spec{}, }) poll.WaitOn(c, pollCheck(c, d1.CheckActiveContainerCount, checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) d3 := s.AddDaemon(c, true, true) info := d3.SwarmInfo(c) assert.Equal(c, info.ControlAvailable, true) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) instances = 4 d3.UpdateService(c, d3.GetService(c, id), setInstances(instances)) poll.WaitOn(c, pollCheck(c, reducedCheck(sumAsIntegers, d1.CheckActiveContainerCount, d3.CheckActiveContainerCount), checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) } func simpleTestService(s *swarm.Service) { ureplicas := uint64(1) restartDelay := 100 * time.Millisecond s.Spec = swarm.ServiceSpec{ TaskTemplate: swarm.TaskSpec{ ContainerSpec: &swarm.ContainerSpec{ Image: "busybox:latest", Command: []string{"/bin/top"}, }, RestartPolicy: &swarm.RestartPolicy{ Delay: &restartDelay, }, }, Mode: swarm.ServiceMode{ Replicated: &swarm.ReplicatedService{ Replicas: &ureplicas, }, }, } s.Spec.Name = "top" } func serviceForUpdate(s *swarm.Service) { ureplicas := uint64(1) restartDelay := 100 * time.Millisecond s.Spec = swarm.ServiceSpec{ TaskTemplate: swarm.TaskSpec{ ContainerSpec: &swarm.ContainerSpec{ Image: "busybox:latest", Command: []string{"/bin/top"}, }, RestartPolicy: &swarm.RestartPolicy{ Delay: &restartDelay, }, }, Mode: swarm.ServiceMode{ Replicated: &swarm.ReplicatedService{ Replicas: &ureplicas, }, }, UpdateConfig: &swarm.UpdateConfig{ Parallelism: 2, Delay: 4 * time.Second, FailureAction: swarm.UpdateFailureActionContinue, }, RollbackConfig: &swarm.UpdateConfig{ Parallelism: 3, Delay: 4 * time.Second, FailureAction: swarm.UpdateFailureActionContinue, }, } s.Spec.Name = "updatetest" } func setInstances(replicas int) testdaemon.ServiceConstructor { ureplicas := uint64(replicas) return func(s *swarm.Service) { s.Spec.Mode = swarm.ServiceMode{ Replicated: &swarm.ReplicatedService{ Replicas: &ureplicas, }, } } } func setUpdateOrder(order string) testdaemon.ServiceConstructor { return func(s *swarm.Service) { if s.Spec.UpdateConfig == nil { s.Spec.UpdateConfig = &swarm.UpdateConfig{} } s.Spec.UpdateConfig.Order = order } } func setRollbackOrder(order string) testdaemon.ServiceConstructor { return func(s *swarm.Service) { if s.Spec.RollbackConfig == nil { s.Spec.RollbackConfig = &swarm.UpdateConfig{} } s.Spec.RollbackConfig.Order = order } } func setImage(image string) testdaemon.ServiceConstructor { return func(s *swarm.Service) { if s.Spec.TaskTemplate.ContainerSpec == nil { s.Spec.TaskTemplate.ContainerSpec = &swarm.ContainerSpec{} } s.Spec.TaskTemplate.ContainerSpec.Image = image } } func setFailureAction(failureAction string) testdaemon.ServiceConstructor { return func(s *swarm.Service) { s.Spec.UpdateConfig.FailureAction = failureAction } } func setMaxFailureRatio(maxFailureRatio float32) testdaemon.ServiceConstructor { return func(s *swarm.Service) { s.Spec.UpdateConfig.MaxFailureRatio = maxFailureRatio } } func setParallelism(parallelism uint64) testdaemon.ServiceConstructor { return func(s *swarm.Service) { s.Spec.UpdateConfig.Parallelism = parallelism } } func setConstraints(constraints []string) testdaemon.ServiceConstructor { return func(s *swarm.Service) { if s.Spec.TaskTemplate.Placement == nil { s.Spec.TaskTemplate.Placement = &swarm.Placement{} } s.Spec.TaskTemplate.Placement.Constraints = constraints } } func setPlacementPrefs(prefs []swarm.PlacementPreference) testdaemon.ServiceConstructor { return func(s *swarm.Service) { if s.Spec.TaskTemplate.Placement == nil { s.Spec.TaskTemplate.Placement = &swarm.Placement{} } s.Spec.TaskTemplate.Placement.Preferences = prefs } } func setGlobalMode(s *swarm.Service) { s.Spec.Mode = swarm.ServiceMode{ Global: &swarm.GlobalService{}, } } func checkClusterHealth(c *testing.T, cl []*daemon.Daemon, managerCount, workerCount int) { var totalMCount, totalWCount int for _, d := range cl { var ( info swarm.Info ) // check info in a poll.WaitOn(), because if the cluster doesn't have a leader, `info` will return an error checkInfo := func(c *testing.T) (interface{}, string) { client := d.NewClientT(c) daemonInfo, err := client.Info(context.Background()) info = daemonInfo.Swarm return err, "cluster not ready in time" } poll.WaitOn(c, pollCheck(c, checkInfo, checker.IsNil()), poll.WithTimeout(defaultReconciliationTimeout)) if !info.ControlAvailable { totalWCount++ continue } var leaderFound bool totalMCount++ var mCount, wCount int for _, n := range d.ListNodes(c) { waitReady := func(c *testing.T) (interface{}, string) { if n.Status.State == swarm.NodeStateReady { return true, "" } nn := d.GetNode(c, n.ID) n = *nn return n.Status.State == swarm.NodeStateReady, fmt.Sprintf("state of node %s, reported by %s", n.ID, d.NodeID()) } poll.WaitOn(c, pollCheck(c, waitReady, checker.True()), poll.WithTimeout(defaultReconciliationTimeout)) waitActive := func(c *testing.T) (interface{}, string) { if n.Spec.Availability == swarm.NodeAvailabilityActive { return true, "" } nn := d.GetNode(c, n.ID) n = *nn return n.Spec.Availability == swarm.NodeAvailabilityActive, fmt.Sprintf("availability of node %s, reported by %s", n.ID, d.NodeID()) } poll.WaitOn(c, pollCheck(c, waitActive, checker.True()), poll.WithTimeout(defaultReconciliationTimeout)) if n.Spec.Role == swarm.NodeRoleManager { assert.Assert(c, n.ManagerStatus != nil, "manager status of node %s (manager), reported by %s", n.ID, d.NodeID()) if n.ManagerStatus.Leader { leaderFound = true } mCount++ } else { assert.Assert(c, n.ManagerStatus == nil, "manager status of node %s (worker), reported by %s", n.ID, d.NodeID()) wCount++ } } assert.Equal(c, leaderFound, true, "lack of leader reported by node %s", info.NodeID) assert.Equal(c, mCount, managerCount, "managers count reported by node %s", info.NodeID) assert.Equal(c, wCount, workerCount, "workers count reported by node %s", info.NodeID) } assert.Equal(c, totalMCount, managerCount) assert.Equal(c, totalWCount, workerCount) } func (s *DockerSwarmSuite) TestAPISwarmRestartCluster(c *testing.T) { mCount, wCount := 5, 1 var nodes []*daemon.Daemon for i := 0; i < mCount; i++ { manager := s.AddDaemon(c, true, true) info := manager.SwarmInfo(c) assert.Equal(c, info.ControlAvailable, true) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) nodes = append(nodes, manager) } for i := 0; i < wCount; i++ { worker := s.AddDaemon(c, true, false) info := worker.SwarmInfo(c) assert.Equal(c, info.ControlAvailable, false) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) nodes = append(nodes, worker) } // stop whole cluster { var wg sync.WaitGroup wg.Add(len(nodes)) errs := make(chan error, len(nodes)) for _, d := range nodes { go func(daemon *daemon.Daemon) { defer wg.Done() if err := daemon.StopWithError(); err != nil { errs <- err } }(d) } wg.Wait() close(errs) for err := range errs { assert.NilError(c, err) } } // start whole cluster { var wg sync.WaitGroup wg.Add(len(nodes)) errs := make(chan error, len(nodes)) for _, d := range nodes { go func(daemon *daemon.Daemon) { defer wg.Done() if err := daemon.StartWithError("--iptables=false"); err != nil { errs <- err } }(d) } wg.Wait() close(errs) for err := range errs { assert.NilError(c, err) } } checkClusterHealth(c, nodes, mCount, wCount) } func (s *DockerSwarmSuite) TestAPISwarmServicesUpdateWithName(c *testing.T) { d := s.AddDaemon(c, true, true) instances := 2 id := d.CreateService(c, simpleTestService, setInstances(instances)) poll.WaitOn(c, pollCheck(c, d.CheckActiveContainerCount, checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) service := d.GetService(c, id) instances = 5 setInstances(instances)(service) cli := d.NewClientT(c) defer cli.Close() _, err := cli.ServiceUpdate(context.Background(), service.Spec.Name, service.Version, service.Spec, types.ServiceUpdateOptions{}) assert.NilError(c, err) poll.WaitOn(c, pollCheck(c, d.CheckActiveContainerCount, checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) } // Unlocking an unlocked swarm results in an error func (s *DockerSwarmSuite) TestAPISwarmUnlockNotLocked(c *testing.T) { d := s.AddDaemon(c, true, true) err := d.SwarmUnlock(c, swarm.UnlockRequest{UnlockKey: "wrong-key"}) assert.ErrorContains(c, err, "swarm is not locked") } // #29885 func (s *DockerSwarmSuite) TestAPISwarmErrorHandling(c *testing.T) { ln, err := net.Listen("tcp", fmt.Sprintf(":%d", defaultSwarmPort)) assert.NilError(c, err) defer ln.Close() d := s.AddDaemon(c, false, false) client := d.NewClientT(c) _, err = client.SwarmInit(context.Background(), swarm.InitRequest{ ListenAddr: d.SwarmListenAddr(), }) assert.ErrorContains(c, err, "address already in use") } // Test case for 30242, where duplicate networks, with different drivers `bridge` and `overlay`, // caused both scopes to be `swarm` for `docker network inspect` and `docker network ls`. // This test makes sure the fixes correctly output scopes instead. func (s *DockerSwarmSuite) TestAPIDuplicateNetworks(c *testing.T) { d := s.AddDaemon(c, true, true) cli := d.NewClientT(c) defer cli.Close() name := "foo" networkCreate := types.NetworkCreate{ CheckDuplicate: false, } networkCreate.Driver = "bridge" n1, err := cli.NetworkCreate(context.Background(), name, networkCreate) assert.NilError(c, err) networkCreate.Driver = "overlay" n2, err := cli.NetworkCreate(context.Background(), name, networkCreate) assert.NilError(c, err) r1, err := cli.NetworkInspect(context.Background(), n1.ID, types.NetworkInspectOptions{}) assert.NilError(c, err) assert.Equal(c, r1.Scope, "local") r2, err := cli.NetworkInspect(context.Background(), n2.ID, types.NetworkInspectOptions{}) assert.NilError(c, err) assert.Equal(c, r2.Scope, "swarm") } // Test case for 30178 func (s *DockerSwarmSuite) TestAPISwarmHealthcheckNone(c *testing.T) { // Issue #36386 can be a independent one, which is worth further investigation. c.Skip("Root cause of Issue #36386 is needed") d := s.AddDaemon(c, true, true) out, err := d.Cmd("network", "create", "-d", "overlay", "lb") assert.NilError(c, err, out) instances := 1 d.CreateService(c, simpleTestService, setInstances(instances), func(s *swarm.Service) { if s.Spec.TaskTemplate.ContainerSpec == nil { s.Spec.TaskTemplate.ContainerSpec = &swarm.ContainerSpec{} } s.Spec.TaskTemplate.ContainerSpec.Healthcheck = &container.HealthConfig{} s.Spec.TaskTemplate.Networks = []swarm.NetworkAttachmentConfig{ {Target: "lb"}, } }) poll.WaitOn(c, pollCheck(c, d.CheckActiveContainerCount, checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) containers := d.ActiveContainers(c) out, err = d.Cmd("exec", containers[0], "ping", "-c1", "-W3", "top") assert.NilError(c, err, out) } func (s *DockerSwarmSuite) TestSwarmRepeatedRootRotation(c *testing.T) { m := s.AddDaemon(c, true, true) w := s.AddDaemon(c, true, false) info := m.SwarmInfo(c) currentTrustRoot := info.Cluster.TLSInfo.TrustRoot // rotate multiple times for i := 0; i < 4; i++ { var err error var cert, key []byte if i%2 != 0 { cert, _, key, err = initca.New(&csr.CertificateRequest{ CN: "newRoot", KeyRequest: csr.NewBasicKeyRequest(), CA: &csr.CAConfig{Expiry: ca.RootCAExpiration}, }) assert.NilError(c, err) } expectedCert := string(cert) m.UpdateSwarm(c, func(s *swarm.Spec) { s.CAConfig.SigningCACert = expectedCert s.CAConfig.SigningCAKey = string(key) s.CAConfig.ForceRotate++ }) // poll to make sure update succeeds var clusterTLSInfo swarm.TLSInfo for j := 0; j < 18; j++ { info := m.SwarmInfo(c) // the desired CA cert and key is always redacted assert.Equal(c, info.Cluster.Spec.CAConfig.SigningCAKey, "") assert.Equal(c, info.Cluster.Spec.CAConfig.SigningCACert, "") clusterTLSInfo = info.Cluster.TLSInfo // if root rotation is done and the trust root has changed, we don't have to poll anymore if !info.Cluster.RootRotationInProgress && clusterTLSInfo.TrustRoot != currentTrustRoot { break } // root rotation not done time.Sleep(250 * time.Millisecond) } if cert != nil { assert.Equal(c, clusterTLSInfo.TrustRoot, expectedCert) } // could take another second or two for the nodes to trust the new roots after they've all gotten // new TLS certificates for j := 0; j < 18; j++ { mInfo := m.GetNode(c, m.NodeID()).Description.TLSInfo wInfo := m.GetNode(c, w.NodeID()).Description.TLSInfo if mInfo.TrustRoot == clusterTLSInfo.TrustRoot && wInfo.TrustRoot == clusterTLSInfo.TrustRoot { break } // nodes don't trust root certs yet time.Sleep(250 * time.Millisecond) } assert.DeepEqual(c, m.GetNode(c, m.NodeID()).Description.TLSInfo, clusterTLSInfo) assert.DeepEqual(c, m.GetNode(c, w.NodeID()).Description.TLSInfo, clusterTLSInfo) currentTrustRoot = clusterTLSInfo.TrustRoot } } func (s *DockerSwarmSuite) TestAPINetworkInspectWithScope(c *testing.T) { d := s.AddDaemon(c, true, true) name := "test-scoped-network" ctx := context.Background() apiclient := d.NewClientT(c) resp, err := apiclient.NetworkCreate(ctx, name, types.NetworkCreate{Driver: "overlay"}) assert.NilError(c, err) network, err := apiclient.NetworkInspect(ctx, name, types.NetworkInspectOptions{}) assert.NilError(c, err) assert.Check(c, is.Equal("swarm", network.Scope)) assert.Check(c, is.Equal(resp.ID, network.ID)) _, err = apiclient.NetworkInspect(ctx, name, types.NetworkInspectOptions{Scope: "local"}) assert.Check(c, client.IsErrNotFound(err)) }