//go: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/network" "github.com/docker/docker/api/types/swarm" "github.com/docker/docker/errdefs" "github.com/docker/docker/integration-cli/checker" "github.com/docker/docker/integration-cli/daemon" "github.com/docker/docker/testutil" testdaemon "github.com/docker/docker/testutil/daemon" "github.com/docker/docker/testutil/request" "github.com/moby/swarmkit/v2/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) { ctx := testutil.GetContext(c) // todo: should find a better way to verify that components are running than /info d1 := s.AddDaemon(ctx, c, true, true) info := d1.SwarmInfo(ctx, c) assert.Equal(c, info.ControlAvailable, true) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) assert.Equal(c, info.Cluster.RootRotationInProgress, false) d2 := s.AddDaemon(ctx, c, true, false) info = d2.SwarmInfo(ctx, c) assert.Equal(c, info.ControlAvailable, false) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) // Leaving cluster assert.NilError(c, d2.SwarmLeave(ctx, c, false)) info = d2.SwarmInfo(ctx, c) assert.Equal(c, info.ControlAvailable, false) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) d2.SwarmJoin(ctx, c, swarm.JoinRequest{ ListenAddr: d1.SwarmListenAddr(), JoinToken: d1.JoinTokens(c).Worker, RemoteAddrs: []string{d1.SwarmListenAddr()}, }) info = d2.SwarmInfo(ctx, 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(ctx, c) assert.Equal(c, info.ControlAvailable, true) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) info = d2.SwarmInfo(ctx, c) assert.Equal(c, info.ControlAvailable, false) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) } func (s *DockerSwarmSuite) TestAPISwarmJoinToken(c *testing.T) { ctx := testutil.GetContext(c) d1 := s.AddDaemon(ctx, c, false, false) d1.SwarmInit(ctx, c, swarm.InitRequest{}) // todo: error message differs depending if some components of token are valid d2 := s.AddDaemon(ctx, c, false, false) c2 := d2.NewClientT(c) err := c2.SwarmJoin(testutil.GetContext(c), swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), RemoteAddrs: []string{d1.SwarmListenAddr()}, }) assert.ErrorContains(c, err, "join token is necessary") info := d2.SwarmInfo(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) err = c2.SwarmJoin(testutil.GetContext(c), swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), JoinToken: "foobaz", RemoteAddrs: []string{d1.SwarmListenAddr()}, }) assert.ErrorContains(c, err, "invalid join token") info = d2.SwarmInfo(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) workerToken := d1.JoinTokens(c).Worker d2.SwarmJoin(ctx, c, swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), JoinToken: workerToken, RemoteAddrs: []string{d1.SwarmListenAddr()}, }) info = d2.SwarmInfo(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) assert.NilError(c, d2.SwarmLeave(ctx, c, false)) info = d2.SwarmInfo(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) // change tokens d1.RotateTokens(c) err = c2.SwarmJoin(testutil.GetContext(c), swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), JoinToken: workerToken, RemoteAddrs: []string{d1.SwarmListenAddr()}, }) assert.ErrorContains(c, err, "join token is necessary") info = d2.SwarmInfo(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) workerToken = d1.JoinTokens(c).Worker d2.SwarmJoin(ctx, c, swarm.JoinRequest{JoinToken: workerToken, RemoteAddrs: []string{d1.SwarmListenAddr()}}) info = d2.SwarmInfo(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) assert.NilError(c, d2.SwarmLeave(ctx, c, false)) info = d2.SwarmInfo(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) // change spec, don't change tokens d1.UpdateSwarm(c, func(s *swarm.Spec) {}) err = c2.SwarmJoin(testutil.GetContext(c), swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), RemoteAddrs: []string{d1.SwarmListenAddr()}, }) assert.ErrorContains(c, err, "join token is necessary") info = d2.SwarmInfo(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) d2.SwarmJoin(ctx, c, swarm.JoinRequest{JoinToken: workerToken, RemoteAddrs: []string{d1.SwarmListenAddr()}}) info = d2.SwarmInfo(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) assert.NilError(c, d2.SwarmLeave(ctx, c, false)) info = d2.SwarmInfo(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) } func (s *DockerSwarmSuite) TestUpdateSwarmAddExternalCA(c *testing.T) { ctx := testutil.GetContext(c) d1 := s.AddDaemon(ctx, c, false, false) d1.SwarmInit(ctx, 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(ctx, 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) { ctx := testutil.GetContext(c) d1 := s.AddDaemon(ctx, c, true, true) d2 := s.AddDaemon(ctx, c, false, false) splitToken := strings.Split(d1.JoinTokens(c).Worker, "-") splitToken[2] = "1kxftv4ofnc6mt30lmgipg6ngf9luhwqopfk1tz6bdmnkubg0e" replacementToken := strings.Join(splitToken, "-") c2 := d2.NewClientT(c) err := c2.SwarmJoin(testutil.GetContext(c), 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) { ctx := testutil.GetContext(c) d1 := s.AddDaemon(ctx, c, false, false) d1.SwarmInit(ctx, c, swarm.InitRequest{}) d2 := s.AddDaemon(ctx, c, true, false) info := d2.SwarmInfo(ctx, c) assert.Equal(c, info.ControlAvailable, false) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) d1.UpdateNode(ctx, c, d2.NodeID(), func(n *swarm.Node) { n.Spec.Role = swarm.NodeRoleManager }) poll.WaitOn(c, pollCheck(c, d2.CheckControlAvailable(ctx), checker.True()), poll.WithTimeout(defaultReconciliationTimeout)) d1.UpdateNode(ctx, c, d2.NodeID(), func(n *swarm.Node) { n.Spec.Role = swarm.NodeRoleWorker }) poll.WaitOn(c, pollCheck(c, d2.CheckControlAvailable(ctx), 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(ctx, 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(testutil.GetContext(c), 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(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) assert.Equal(c, info.ControlAvailable, true) // Promote already demoted node d1.UpdateNode(ctx, c, d2.NodeID(), func(n *swarm.Node) { n.Spec.Role = swarm.NodeRoleManager }) poll.WaitOn(c, pollCheck(c, d2.CheckControlAvailable(ctx), checker.True()), poll.WithTimeout(defaultReconciliationTimeout)) } func (s *DockerSwarmSuite) TestAPISwarmLeaderProxy(c *testing.T) { ctx := testutil.GetContext(c) // add three managers, one of these is leader d1 := s.AddDaemon(ctx, c, true, true) d2 := s.AddDaemon(ctx, c, true, true) d3 := s.AddDaemon(ctx, c, true, true) // start a service by hitting each of the 3 managers d1.CreateService(ctx, c, simpleTestService, func(s *swarm.Service) { s.Spec.Name = "test1" }) d2.CreateService(ctx, c, simpleTestService, func(s *swarm.Service) { s.Spec.Name = "test2" }) d3.CreateService(ctx, 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(ctx, c) assert.Equal(c, len(services), 3) } } func (s *DockerSwarmSuite) TestAPISwarmLeaderElection(c *testing.T) { ctx := testutil.GetContext(c) if runtime.GOARCH == "s390x" { c.Skip("Disabled on s390x") } if runtime.GOARCH == "ppc64le" { c.Skip("Disabled on ppc64le") } // Create 3 nodes d1 := s.AddDaemon(ctx, c, true, true) d2 := s.AddDaemon(ctx, c, true, true) d3 := s.AddDaemon(ctx, c, true, true) // assert that the first node we made is the leader, and the other two are followers assert.Equal(c, d1.GetNode(ctx, c, d1.NodeID()).ManagerStatus.Leader, true) assert.Equal(c, d1.GetNode(ctx, c, d2.NodeID()).ManagerStatus.Leader, false) assert.Equal(c, d1.GetNode(ctx, 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(ctx, 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) { ctx := testutil.GetContext(c) if runtime.GOARCH == "s390x" { c.Skip("Disabled on s390x") } if runtime.GOARCH == "ppc64le" { c.Skip("Disabled on ppc64le") } d1 := s.AddDaemon(ctx, c, true, true) d2 := s.AddDaemon(ctx, c, true, true) d3 := s.AddDaemon(ctx, c, true, true) d1.CreateService(ctx, c, simpleTestService) d2.Stop(c) // make sure there is a leader poll.WaitOn(c, pollCheck(c, d1.CheckLeader(ctx), checker.IsNil()), poll.WithTimeout(defaultReconciliationTimeout)) d1.CreateService(ctx, 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(testutil.GetContext(c), 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(ctx), checker.IsNil()), poll.WithTimeout(defaultReconciliationTimeout)) d1.CreateService(ctx, c, simpleTestService, func(s *swarm.Service) { s.Spec.Name = "top3" }) } func (s *DockerSwarmSuite) TestAPISwarmLeaveRemovesContainer(c *testing.T) { ctx := testutil.GetContext(c) d := s.AddDaemon(ctx, c, true, true) instances := 2 d.CreateService(ctx, 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(ctx), checker.Equals(instances+1)), poll.WithTimeout(defaultReconciliationTimeout)) assert.ErrorContains(c, d.SwarmLeave(ctx, c, false), "") assert.NilError(c, d.SwarmLeave(ctx, c, true)) poll.WaitOn(c, pollCheck(c, d.CheckActiveContainerCount(ctx), 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) ctx := testutil.GetContext(c) s.AddDaemon(ctx, c, true, true) d2 := s.AddDaemon(ctx, 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(testutil.GetContext(c), swarm.JoinRequest{ ListenAddr: d2.SwarmListenAddr(), RemoteAddrs: []string{"123.123.123.123:1234"}, }) assert.ErrorContains(c, err, "Timeout was reached") info := d2.SwarmInfo(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStatePending) assert.NilError(c, d2.SwarmLeave(ctx, c, true)) poll.WaitOn(c, pollCheck(c, d2.CheckActiveContainerCount(ctx), 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) ctx := testutil.GetContext(c) d := s.AddDaemon(ctx, c, false, false) client := d.NewClientT(c) err := client.SwarmJoin(testutil.GetContext(c), 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(ctx), checker.Equals(swarm.LocalNodeStatePending)), poll.WithTimeout(defaultReconciliationTimeout)) d.RestartNode(c) info := d.SwarmInfo(ctx, c) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateInactive) } func (s *DockerSwarmSuite) TestAPISwarmManagerRestore(c *testing.T) { ctx := testutil.GetContext(c) d1 := s.AddDaemon(ctx, c, true, true) instances := 2 id := d1.CreateService(ctx, c, simpleTestService, setInstances(instances)) d1.GetService(ctx, c, id) d1.RestartNode(c) d1.GetService(ctx, c, id) d2 := s.AddDaemon(ctx, c, true, true) d2.GetService(ctx, c, id) d2.RestartNode(c) d2.GetService(ctx, c, id) d3 := s.AddDaemon(ctx, c, true, true) d3.GetService(ctx, c, id) d3.RestartNode(c) d3.GetService(ctx, c, id) err := d3.Kill() assert.NilError(c, err) d3.StartNode(c) d3.GetService(ctx, c, id) } func (s *DockerSwarmSuite) TestAPISwarmScaleNoRollingUpdate(c *testing.T) { ctx := testutil.GetContext(c) d := s.AddDaemon(ctx, c, true, true) instances := 2 id := d.CreateService(ctx, c, simpleTestService, setInstances(instances)) poll.WaitOn(c, pollCheck(c, d.CheckActiveContainerCount(ctx), checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) containers := d.ActiveContainers(ctx, c) instances = 4 d.UpdateService(ctx, c, d.GetService(ctx, c, id), setInstances(instances)) poll.WaitOn(c, pollCheck(c, d.CheckActiveContainerCount(ctx), checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) containers2 := d.ActiveContainers(ctx, 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) { ctx := testutil.GetContext(c) d := s.AddDaemon(ctx, c, false, false) req := swarm.InitRequest{ ListenAddr: "", } res, _, err := request.Post(testutil.GetContext(c), "/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(testutil.GetContext(c), "/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) { ctx := testutil.GetContext(c) d1 := s.AddDaemon(ctx, c, true, true) d2 := s.AddDaemon(ctx, c, true, true) instances := 2 id := d1.CreateService(ctx, c, simpleTestService, setInstances(instances)) poll.WaitOn(c, pollCheck(c, reducedCheck(sumAsIntegers, d1.CheckActiveContainerCount(ctx), d2.CheckActiveContainerCount(ctx)), checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) // drain d2, all containers should move to d1 d1.UpdateNode(ctx, c, d2.NodeID(), func(n *swarm.Node) { n.Spec.Availability = swarm.NodeAvailabilityDrain }) poll.WaitOn(c, pollCheck(c, d1.CheckActiveContainerCount(ctx), checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) poll.WaitOn(c, pollCheck(c, d2.CheckActiveContainerCount(ctx), checker.Equals(0)), poll.WithTimeout(defaultReconciliationTimeout)) d2.Stop(c) d1.SwarmInit(ctx, c, swarm.InitRequest{ ForceNewCluster: true, Spec: swarm.Spec{}, }) poll.WaitOn(c, pollCheck(c, d1.CheckActiveContainerCount(ctx), checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) d3 := s.AddDaemon(ctx, c, true, true) info := d3.SwarmInfo(ctx, c) assert.Equal(c, info.ControlAvailable, true) assert.Equal(c, info.LocalNodeState, swarm.LocalNodeStateActive) instances = 4 d3.UpdateService(ctx, c, d3.GetService(ctx, c, id), setInstances(instances)) poll.WaitOn(c, pollCheck(c, reducedCheck(sumAsIntegers, d1.CheckActiveContainerCount(ctx), d3.CheckActiveContainerCount(ctx)), 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 ctx := testutil.GetContext(c) 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(ctx) 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(ctx, c) { waitReady := func(c *testing.T) (interface{}, string) { if n.Status.State == swarm.NodeStateReady { return true, "" } nn := d.GetNode(ctx, 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(ctx, 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) { ctx := testutil.GetContext(c) mCount, wCount := 5, 1 var nodes []*daemon.Daemon for i := 0; i < mCount; i++ { manager := s.AddDaemon(ctx, c, true, true) info := manager.SwarmInfo(ctx, 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(ctx, c, true, false) info := worker.SwarmInfo(ctx, 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", "--ip6tables=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) { ctx := testutil.GetContext(c) d := s.AddDaemon(ctx, c, true, true) instances := 2 id := d.CreateService(ctx, c, simpleTestService, setInstances(instances)) poll.WaitOn(c, pollCheck(c, d.CheckActiveContainerCount(ctx), checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) service := d.GetService(ctx, c, id) instances = 5 setInstances(instances)(service) cli := d.NewClientT(c) defer cli.Close() _, err := cli.ServiceUpdate(ctx, service.Spec.Name, service.Version, service.Spec, types.ServiceUpdateOptions{}) assert.NilError(c, err) poll.WaitOn(c, pollCheck(c, d.CheckActiveContainerCount(ctx), checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) } // Unlocking an unlocked swarm results in an error func (s *DockerSwarmSuite) TestAPISwarmUnlockNotLocked(c *testing.T) { ctx := testutil.GetContext(c) d := s.AddDaemon(ctx, 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) { ctx := testutil.GetContext(c) ln, err := net.Listen("tcp", fmt.Sprintf(":%d", defaultSwarmPort)) assert.NilError(c, err) defer ln.Close() d := s.AddDaemon(ctx, c, false, false) client := d.NewClientT(c) _, err = client.SwarmInit(testutil.GetContext(c), swarm.InitRequest{ ListenAddr: d.SwarmListenAddr(), }) assert.ErrorContains(c, err, "address already in use") } // 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") ctx := testutil.GetContext(c) d := s.AddDaemon(ctx, c, true, true) out, err := d.Cmd("network", "create", "-d", "overlay", "lb") assert.NilError(c, err, out) instances := 1 d.CreateService(ctx, 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(ctx), checker.Equals(instances)), poll.WithTimeout(defaultReconciliationTimeout)) containers := d.ActiveContainers(testutil.GetContext(c), c) out, err = d.Cmd("exec", containers[0], "ping", "-c1", "-W3", "top") assert.NilError(c, err, out) } func (s *DockerSwarmSuite) TestSwarmRepeatedRootRotation(c *testing.T) { ctx := testutil.GetContext(c) m := s.AddDaemon(ctx, c, true, true) w := s.AddDaemon(ctx, c, true, false) info := m.SwarmInfo(ctx, 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.NewKeyRequest(), 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(ctx, 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(ctx, c, m.NodeID()).Description.TLSInfo wInfo := m.GetNode(ctx, 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(ctx, c, m.NodeID()).Description.TLSInfo, clusterTLSInfo) assert.DeepEqual(c, m.GetNode(ctx, c, w.NodeID()).Description.TLSInfo, clusterTLSInfo) currentTrustRoot = clusterTLSInfo.TrustRoot } } func (s *DockerSwarmSuite) TestAPINetworkInspectWithScope(c *testing.T) { ctx := testutil.GetContext(c) d := s.AddDaemon(ctx, c, true, true) name := "test-scoped-network" apiclient := d.NewClientT(c) resp, err := apiclient.NetworkCreate(ctx, name, network.CreateOptions{Driver: "overlay"}) assert.NilError(c, err) nw, err := apiclient.NetworkInspect(ctx, name, network.InspectOptions{}) assert.NilError(c, err) assert.Check(c, is.Equal("swarm", nw.Scope)) assert.Check(c, is.Equal(resp.ID, nw.ID)) _, err = apiclient.NetworkInspect(ctx, name, network.InspectOptions{Scope: "local"}) assert.Check(c, is.ErrorType(err, errdefs.IsNotFound)) }