/* Copyright 2014 Google Inc. All rights reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package controller import ( "errors" "net" "reflect" "sort" "testing" "time" "github.com/GoogleCloudPlatform/kubernetes/pkg/api" apierrors "github.com/GoogleCloudPlatform/kubernetes/pkg/api/errors" "github.com/GoogleCloudPlatform/kubernetes/pkg/api/resource" "github.com/GoogleCloudPlatform/kubernetes/pkg/client" fake_cloud "github.com/GoogleCloudPlatform/kubernetes/pkg/cloudprovider/fake" "github.com/GoogleCloudPlatform/kubernetes/pkg/probe" "github.com/GoogleCloudPlatform/kubernetes/pkg/util" ) // FakeNodeHandler is a fake implementation of NodesInterface and NodeInterface. It // allows test cases to have fine-grained control over mock behaviors. We alos need // PodsInterface and PodInterface to test list & delet pods, which is implemented in // the embeded client.Fake field. type FakeNodeHandler struct { client.Fake // Input: Hooks determine if request is valid or not CreateHook func(*FakeNodeHandler, *api.Node) bool Existing []*api.Node // Output CreatedNodes []*api.Node DeletedNodes []*api.Node UpdatedNodes []*api.Node RequestCount int } func (c *FakeNodeHandler) Nodes() client.NodeInterface { return c } func (m *FakeNodeHandler) Create(node *api.Node) (*api.Node, error) { defer func() { m.RequestCount++ }() for _, n := range m.Existing { if n.Name == node.Name { return nil, apierrors.NewAlreadyExists("Minion", node.Name) } } if m.CreateHook == nil || m.CreateHook(m, node) { nodeCopy := *node m.CreatedNodes = append(m.CreatedNodes, &nodeCopy) return node, nil } else { return nil, errors.New("Create error.") } } func (m *FakeNodeHandler) Get(name string) (*api.Node, error) { return nil, nil } func (m *FakeNodeHandler) List() (*api.NodeList, error) { defer func() { m.RequestCount++ }() var nodes []*api.Node for i := 0; i < len(m.UpdatedNodes); i++ { if !contains(m.UpdatedNodes[i], m.DeletedNodes) { nodes = append(nodes, m.UpdatedNodes[i]) } } for i := 0; i < len(m.Existing); i++ { if !contains(m.Existing[i], m.DeletedNodes) && !contains(m.Existing[i], nodes) { nodes = append(nodes, m.Existing[i]) } } for i := 0; i < len(m.CreatedNodes); i++ { if !contains(m.Existing[i], m.DeletedNodes) && !contains(m.CreatedNodes[i], nodes) { nodes = append(nodes, m.CreatedNodes[i]) } } nodeList := &api.NodeList{} for _, node := range nodes { nodeList.Items = append(nodeList.Items, *node) } return nodeList, nil } func (m *FakeNodeHandler) Delete(id string) error { m.DeletedNodes = append(m.DeletedNodes, newNode(id)) m.RequestCount++ return nil } func (m *FakeNodeHandler) Update(node *api.Node) (*api.Node, error) { nodeCopy := *node m.UpdatedNodes = append(m.UpdatedNodes, &nodeCopy) m.RequestCount++ return node, nil } // FakeKubeletClient is a fake implementation of KubeletClient. type FakeKubeletClient struct { Status probe.Result Err error } func (c *FakeKubeletClient) GetPodStatus(host, podNamespace, podID string) (api.PodStatusResult, error) { return api.PodStatusResult{}, errors.New("Not Implemented") } func (c *FakeKubeletClient) HealthCheck(host string) (probe.Result, error) { return c.Status, c.Err } func TestRegisterNodes(t *testing.T) { table := []struct { fakeNodeHandler *FakeNodeHandler machines []string retryCount int expectedRequestCount int expectedCreateCount int expectedFail bool }{ { // Register two nodes normally. machines: []string{"node0", "node1"}, fakeNodeHandler: &FakeNodeHandler{ CreateHook: func(fake *FakeNodeHandler, node *api.Node) bool { return true }, }, retryCount: 1, expectedRequestCount: 2, expectedCreateCount: 2, expectedFail: false, }, { // Canonicalize node names. machines: []string{"NODE0", "node1"}, fakeNodeHandler: &FakeNodeHandler{ CreateHook: func(fake *FakeNodeHandler, node *api.Node) bool { if node.Name == "NODE0" { return false } return true }, }, retryCount: 1, expectedRequestCount: 2, expectedCreateCount: 2, expectedFail: false, }, { // No machine to register. machines: []string{}, fakeNodeHandler: &FakeNodeHandler{ CreateHook: func(fake *FakeNodeHandler, node *api.Node) bool { return true }, }, retryCount: 1, expectedRequestCount: 0, expectedCreateCount: 0, expectedFail: false, }, { // Fail the first two requests. machines: []string{"node0", "node1"}, fakeNodeHandler: &FakeNodeHandler{ CreateHook: func(fake *FakeNodeHandler, node *api.Node) bool { if fake.RequestCount == 0 || fake.RequestCount == 1 { return false } return true }, }, retryCount: 10, expectedRequestCount: 4, expectedCreateCount: 2, expectedFail: false, }, { // One node already exists machines: []string{"node0", "node1"}, fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{ { ObjectMeta: api.ObjectMeta{ Name: "node1", }, }, }, }, retryCount: 10, expectedRequestCount: 2, expectedCreateCount: 1, expectedFail: false, }, { // The first node always fails. machines: []string{"node0", "node1"}, fakeNodeHandler: &FakeNodeHandler{ CreateHook: func(fake *FakeNodeHandler, node *api.Node) bool { if node.Name == "node0" { return false } return true }, }, retryCount: 2, expectedRequestCount: 3, // 2 for node0, 1 for node1 expectedCreateCount: 1, expectedFail: true, }, } for _, item := range table { nodes := api.NodeList{} for _, machine := range item.machines { nodes.Items = append(nodes.Items, *newNode(machine)) } nodeController := NewNodeController(nil, "", item.machines, &api.NodeResources{}, item.fakeNodeHandler, nil, 10, time.Minute) err := nodeController.RegisterNodes(&nodes, item.retryCount, time.Millisecond) if !item.expectedFail && err != nil { t.Errorf("unexpected error: %v", err) } if item.expectedFail && err == nil { t.Errorf("unexpected non-error") } if item.fakeNodeHandler.RequestCount != item.expectedRequestCount { t.Errorf("expected %v calls, but got %v.", item.expectedRequestCount, item.fakeNodeHandler.RequestCount) } if len(item.fakeNodeHandler.CreatedNodes) != item.expectedCreateCount { t.Errorf("expected %v nodes, but got %v.", item.expectedCreateCount, item.fakeNodeHandler.CreatedNodes) } } } func TestCreateStaticNodes(t *testing.T) { table := []struct { machines []string expectedNodes *api.NodeList }{ { machines: []string{}, expectedNodes: &api.NodeList{}, }, { machines: []string{"node0"}, expectedNodes: &api.NodeList{ Items: []api.Node{ { ObjectMeta: api.ObjectMeta{Name: "node0"}, Spec: api.NodeSpec{}, Status: api.NodeStatus{}, }, }, }, }, { machines: []string{"node0", "node1"}, expectedNodes: &api.NodeList{ Items: []api.Node{ { ObjectMeta: api.ObjectMeta{Name: "node0"}, Spec: api.NodeSpec{}, Status: api.NodeStatus{}, }, { ObjectMeta: api.ObjectMeta{Name: "node1"}, Spec: api.NodeSpec{}, Status: api.NodeStatus{}, }, }, }, }, } for _, item := range table { nodeController := NewNodeController(nil, "", item.machines, &api.NodeResources{}, nil, nil, 10, time.Minute) nodes, err := nodeController.StaticNodes() if err != nil { t.Errorf("unexpected error: %v", err) } if !reflect.DeepEqual(item.expectedNodes, nodes) { t.Errorf("expected node list %+v, got %+v", item.expectedNodes, nodes) } } } func TestCreateCloudNodes(t *testing.T) { resourceList := api.ResourceList{ api.ResourceCPU: *resource.NewMilliQuantity(1000, resource.DecimalSI), api.ResourceMemory: *resource.NewQuantity(3000, resource.DecimalSI), } table := []struct { fakeCloud *fake_cloud.FakeCloud machines []string expectedNodes *api.NodeList }{ { fakeCloud: &fake_cloud.FakeCloud{}, expectedNodes: &api.NodeList{}, }, { fakeCloud: &fake_cloud.FakeCloud{ Machines: []string{"node0"}, NodeResources: &api.NodeResources{Capacity: resourceList}, }, expectedNodes: &api.NodeList{ Items: []api.Node{ { ObjectMeta: api.ObjectMeta{Name: "node0"}, Spec: api.NodeSpec{Capacity: resourceList}, }, }, }, }, { fakeCloud: &fake_cloud.FakeCloud{ Machines: []string{"node0", "node1"}, NodeResources: &api.NodeResources{Capacity: resourceList}, }, expectedNodes: &api.NodeList{ Items: []api.Node{ { ObjectMeta: api.ObjectMeta{Name: "node0"}, Spec: api.NodeSpec{Capacity: resourceList}, }, { ObjectMeta: api.ObjectMeta{Name: "node1"}, Spec: api.NodeSpec{Capacity: resourceList}, }, }, }, }, } for _, item := range table { nodeController := NewNodeController(item.fakeCloud, ".*", nil, &api.NodeResources{}, nil, nil, 10, time.Minute) nodes, err := nodeController.CloudNodes() if err != nil { t.Errorf("unexpected error: %v", err) } if !reflect.DeepEqual(item.expectedNodes, nodes) { t.Errorf("expected node list %+v, got %+v", item.expectedNodes, nodes) } } } func TestSyncCloud(t *testing.T) { table := []struct { fakeNodeHandler *FakeNodeHandler fakeCloud *fake_cloud.FakeCloud matchRE string expectedRequestCount int expectedNameCreated []string expectedExtIDCreated []string expectedDeleted []string }{ { // 1 existing node, 1 cloud nodes: do nothing. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{newNode("node0")}, }, fakeCloud: &fake_cloud.FakeCloud{ Machines: []string{"node0"}, ExtID: map[string]string{ "node0": "ext-node0", "node1": "ext-node1", }, }, matchRE: ".*", expectedRequestCount: 1, // List expectedNameCreated: []string{}, expectedExtIDCreated: []string{}, expectedDeleted: []string{}, }, { // 1 existing node, 2 cloud nodes: create 1. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{newNode("node0")}, }, fakeCloud: &fake_cloud.FakeCloud{ Machines: []string{"node0", "node1"}, ExtID: map[string]string{ "node0": "ext-node0", "node1": "ext-node1", }, }, matchRE: ".*", expectedRequestCount: 2, // List + Create expectedNameCreated: []string{"node1"}, expectedExtIDCreated: []string{"ext-node1"}, expectedDeleted: []string{}, }, { // 2 existing nodes, 1 cloud node: delete 1. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{newNode("node0"), newNode("node1")}, }, fakeCloud: &fake_cloud.FakeCloud{ Machines: []string{"node0"}, ExtID: map[string]string{ "node0": "ext-node0", "node1": "ext-node1", }, }, matchRE: ".*", expectedRequestCount: 2, // List + Delete expectedNameCreated: []string{}, expectedExtIDCreated: []string{}, expectedDeleted: []string{"node1"}, }, { // 1 existing node, 3 cloud nodes but only 2 match regex: delete 1. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{newNode("node0")}, }, fakeCloud: &fake_cloud.FakeCloud{ Machines: []string{"node0", "node1", "fake"}, ExtID: map[string]string{ "node0": "ext-node0", "node1": "ext-node1", "fake": "ext-fake", }, }, matchRE: "node[0-9]+", expectedRequestCount: 2, // List + Create expectedNameCreated: []string{"node1"}, expectedExtIDCreated: []string{"ext-node1"}, expectedDeleted: []string{}, }, } for _, item := range table { nodeController := NewNodeController(item.fakeCloud, item.matchRE, nil, &api.NodeResources{}, item.fakeNodeHandler, nil, 10, time.Minute) if err := nodeController.SyncCloud(); err != nil { t.Errorf("unexpected error: %v", err) } if item.fakeNodeHandler.RequestCount != item.expectedRequestCount { t.Errorf("expected %v call, but got %v.", item.expectedRequestCount, item.fakeNodeHandler.RequestCount) } nodes := sortedNodeNames(item.fakeNodeHandler.CreatedNodes) if !reflect.DeepEqual(item.expectedNameCreated, nodes) { t.Errorf("expected node list %+v, got %+v", item.expectedNameCreated, nodes) } nodeExtIDs := sortedNodeExternalIDs(item.fakeNodeHandler.CreatedNodes) if !reflect.DeepEqual(item.expectedExtIDCreated, nodeExtIDs) { t.Errorf("expected node external id list %+v, got %+v", item.expectedExtIDCreated, nodeExtIDs) } nodes = sortedNodeNames(item.fakeNodeHandler.DeletedNodes) if !reflect.DeepEqual(item.expectedDeleted, nodes) { t.Errorf("expected node list %+v, got %+v", item.expectedDeleted, nodes) } } } func TestSyncCloudDeletePods(t *testing.T) { table := []struct { fakeNodeHandler *FakeNodeHandler fakeCloud *fake_cloud.FakeCloud matchRE string expectedRequestCount int expectedDeleted []string expectedActions []client.FakeAction }{ { // No node to delete: do nothing. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{newNode("node0"), newNode("node1")}, Fake: client.Fake{ PodsList: api.PodList{Items: []api.Pod{*newPod("pod0", "node0"), *newPod("pod1", "node1")}}, }, }, fakeCloud: &fake_cloud.FakeCloud{ Machines: []string{"node0", "node1"}, }, matchRE: ".*", expectedRequestCount: 1, // List expectedDeleted: []string{}, expectedActions: nil, }, { // Delete node1, and pod0 is running on it. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{newNode("node0"), newNode("node1")}, Fake: client.Fake{ PodsList: api.PodList{Items: []api.Pod{*newPod("pod0", "node1")}}, }, }, fakeCloud: &fake_cloud.FakeCloud{ Machines: []string{"node0"}, }, matchRE: ".*", expectedRequestCount: 2, // List + Delete expectedDeleted: []string{"node1"}, expectedActions: []client.FakeAction{{Action: "list-pods"}, {Action: "delete-pod", Value: "pod0"}}, }, { // Delete node1, but pod0 is running on node0. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{newNode("node0"), newNode("node1")}, Fake: client.Fake{ PodsList: api.PodList{Items: []api.Pod{*newPod("pod0", "node0")}}, }, }, fakeCloud: &fake_cloud.FakeCloud{ Machines: []string{"node0"}, }, matchRE: ".*", expectedRequestCount: 2, // List + Delete expectedDeleted: []string{"node1"}, expectedActions: []client.FakeAction{{Action: "list-pods"}}, }, } for _, item := range table { nodeController := NewNodeController(item.fakeCloud, item.matchRE, nil, &api.NodeResources{}, item.fakeNodeHandler, nil, 10, time.Minute) if err := nodeController.SyncCloud(); err != nil { t.Errorf("unexpected error: %v", err) } if item.fakeNodeHandler.RequestCount != item.expectedRequestCount { t.Errorf("expected %v call, but got %v.", item.expectedRequestCount, item.fakeNodeHandler.RequestCount) } nodes := sortedNodeNames(item.fakeNodeHandler.DeletedNodes) if !reflect.DeepEqual(item.expectedDeleted, nodes) { t.Errorf("expected node list %+v, got %+v", item.expectedDeleted, nodes) } if !reflect.DeepEqual(item.expectedActions, item.fakeNodeHandler.Actions) { t.Errorf("time out waiting for deleting pods, expected %+v, got %+v", item.expectedActions, item.fakeNodeHandler.Actions) } } } func TestHealthCheckNode(t *testing.T) { table := []struct { node *api.Node fakeKubeletClient *FakeKubeletClient expectedConditions []api.NodeCondition }{ { node: newNode("node0"), fakeKubeletClient: &FakeKubeletClient{ Status: probe.Success, Err: nil, }, expectedConditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionFull, Reason: "Node health check succeeded: kubelet /healthz endpoint returns ok", }, }, }, { node: newNode("node0"), fakeKubeletClient: &FakeKubeletClient{ Status: probe.Failure, Err: nil, }, expectedConditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionNone, Reason: "Node health check failed: kubelet /healthz endpoint returns not ok", }, }, }, { node: newNode("node0"), fakeKubeletClient: &FakeKubeletClient{ Status: probe.Failure, Err: errors.New("Error"), }, expectedConditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionUnknown, Reason: "Node health check error: Error", }, }, }, } for _, item := range table { nodeController := NewNodeController(nil, "", nil, nil, nil, item.fakeKubeletClient, 10, time.Minute) conditions := nodeController.DoCheck(item.node) for i := range conditions { if conditions[i].LastTransitionTime.IsZero() { t.Errorf("unexpected zero last transition timestamp") } if conditions[i].LastProbeTime.IsZero() { t.Errorf("unexpected zero last probe timestamp") } conditions[i].LastTransitionTime = util.Time{} conditions[i].LastProbeTime = util.Time{} } if !reflect.DeepEqual(item.expectedConditions, conditions) { t.Errorf("expected conditions %+v, got %+v", item.expectedConditions, conditions) } } } func TestPopulateNodeIPs(t *testing.T) { table := []struct { nodes *api.NodeList fakeCloud *fake_cloud.FakeCloud expectedFail bool expectedIP string }{ { nodes: &api.NodeList{Items: []api.Node{*newNode("node0"), *newNode("node1")}}, fakeCloud: &fake_cloud.FakeCloud{IP: net.ParseIP("1.2.3.4")}, expectedIP: "1.2.3.4", }, { nodes: &api.NodeList{Items: []api.Node{*newNode("node0"), *newNode("node1")}}, fakeCloud: &fake_cloud.FakeCloud{Err: ErrQueryIPAddress}, expectedIP: "", }, } for _, item := range table { nodeController := NewNodeController(item.fakeCloud, ".*", nil, nil, nil, nil, 10, time.Minute) result, err := nodeController.PopulateIPs(item.nodes) // In case of IP querying error, we should continue. if err != nil { t.Errorf("unexpected error: %v", err) } for _, node := range result.Items { if node.Status.HostIP != item.expectedIP { t.Errorf("expect HostIP %s, got %s", item.expectedIP, node.Status.HostIP) } } } } func TestSyncNodeStatusTransitionTime(t *testing.T) { table := []struct { fakeNodeHandler *FakeNodeHandler fakeKubeletClient *FakeKubeletClient expectedRequestCount int expectedTransitionTimeChange bool }{ { // Existing node is healthy, current porbe is healthy too. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{ { ObjectMeta: api.ObjectMeta{Name: "node0"}, Status: api.NodeStatus{ Conditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionFull, Reason: "Node health check succeeded: kubelet /healthz endpoint returns ok", LastTransitionTime: util.Date(2012, 1, 1, 0, 0, 0, 0, time.UTC), }, }, }, }, }, }, fakeKubeletClient: &FakeKubeletClient{ Status: probe.Success, Err: nil, }, expectedRequestCount: 2, // List+Update expectedTransitionTimeChange: false, }, { // Existing node is healthy, current porbe is unhealthy. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{ { ObjectMeta: api.ObjectMeta{Name: "node0"}, Status: api.NodeStatus{ Conditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionFull, Reason: "Node health check succeeded: kubelet /healthz endpoint returns ok", LastTransitionTime: util.Date(2012, 1, 1, 0, 0, 0, 0, time.UTC), }, }, }, }, }, }, fakeKubeletClient: &FakeKubeletClient{ Status: probe.Failure, Err: nil, }, expectedRequestCount: 2, // List+Update expectedTransitionTimeChange: true, }, } for _, item := range table { nodeController := NewNodeController(nil, "", []string{"node0"}, nil, item.fakeNodeHandler, item.fakeKubeletClient, 10, time.Minute) if err := nodeController.SyncNodeStatus(); err != nil { t.Errorf("unexpected error: %v", err) } if item.expectedRequestCount != item.fakeNodeHandler.RequestCount { t.Errorf("expected %v call, but got %v.", item.expectedRequestCount, item.fakeNodeHandler.RequestCount) } for i := range item.fakeNodeHandler.UpdatedNodes { conditions := item.fakeNodeHandler.UpdatedNodes[i].Status.Conditions for j := range conditions { condition := conditions[j] if item.expectedTransitionTimeChange { if !condition.LastTransitionTime.After(time.Date(2012, 1, 1, 0, 0, 0, 0, time.UTC)) { t.Errorf("unexpected last transition timestamp %v", condition.LastTransitionTime) } } else { if !condition.LastTransitionTime.Equal(time.Date(2012, 1, 1, 0, 0, 0, 0, time.UTC)) { t.Errorf("unexpected last transition timestamp %v", condition.LastTransitionTime) } } } } } } func TestEvictTimeoutedPods(t *testing.T) { table := []struct { fakeNodeHandler *FakeNodeHandler expectedRequestCount int expectedActions []client.FakeAction }{ // Node created long time ago, with no status. { fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{ { ObjectMeta: api.ObjectMeta{ Name: "node0", CreationTimestamp: util.Date(2012, 1, 1, 0, 0, 0, 0, time.UTC), }, }, }, Fake: client.Fake{ PodsList: api.PodList{Items: []api.Pod{*newPod("pod0", "node0")}}, }, }, expectedRequestCount: 1, // List expectedActions: []client.FakeAction{{Action: "list-pods"}, {Action: "delete-pod", Value: "pod0"}}, }, // Node created recently, with no status. { fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{ { ObjectMeta: api.ObjectMeta{ Name: "node0", CreationTimestamp: util.Now(), }, }, }, Fake: client.Fake{ PodsList: api.PodList{Items: []api.Pod{*newPod("pod0", "node0")}}, }, }, expectedRequestCount: 1, // List expectedActions: nil, }, // Node created long time ago, with status updated long time ago. { fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{ { ObjectMeta: api.ObjectMeta{ Name: "node0", CreationTimestamp: util.Date(2012, 1, 1, 0, 0, 0, 0, time.UTC), }, Status: api.NodeStatus{ Conditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionFull, LastProbeTime: util.Date(2013, 1, 1, 0, 0, 0, 0, time.UTC), }, }, }, }, }, Fake: client.Fake{ PodsList: api.PodList{Items: []api.Pod{*newPod("pod0", "node0")}}, }, }, expectedRequestCount: 1, // List expectedActions: []client.FakeAction{{Action: "list-pods"}, {Action: "delete-pod", Value: "pod0"}}, }, // Node created long time ago, with status updated recently. { fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{ { ObjectMeta: api.ObjectMeta{ Name: "node0", CreationTimestamp: util.Date(2012, 1, 1, 0, 0, 0, 0, time.UTC), }, Status: api.NodeStatus{ Conditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionFull, LastProbeTime: util.Now(), }, }, }, }, }, Fake: client.Fake{ PodsList: api.PodList{Items: []api.Pod{*newPod("pod0", "node0")}}, }, }, expectedRequestCount: 1, // List expectedActions: nil, }, } for _, item := range table { nodeController := NewNodeController(nil, "", []string{"node0"}, nil, item.fakeNodeHandler, nil, 10, 5*time.Minute) if err := nodeController.EvictTimeoutedPods(); err != nil { t.Errorf("unexpected error: %v", err) } if item.expectedRequestCount != item.fakeNodeHandler.RequestCount { t.Errorf("expected %v call, but got %v.", item.expectedRequestCount, item.fakeNodeHandler.RequestCount) } if !reflect.DeepEqual(item.expectedActions, item.fakeNodeHandler.Actions) { t.Errorf("actions differs, expected %+v, got %+v", item.expectedActions, item.fakeNodeHandler.Actions) } } } func TestSyncNodeStatusDeletePods(t *testing.T) { table := []struct { fakeNodeHandler *FakeNodeHandler fakeKubeletClient *FakeKubeletClient expectedRequestCount int expectedActions []client.FakeAction }{ { // Existing node is healthy, current porbe is healthy too. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{ { ObjectMeta: api.ObjectMeta{Name: "node0"}, Status: api.NodeStatus{ Conditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionFull, Reason: "Node health check succeeded: kubelet /healthz endpoint returns ok", LastTransitionTime: util.Date(2012, 1, 1, 0, 0, 0, 0, time.UTC), }, }, }, }, }, Fake: client.Fake{ PodsList: api.PodList{Items: []api.Pod{*newPod("pod0", "node1")}}, }, }, fakeKubeletClient: &FakeKubeletClient{ Status: probe.Success, Err: nil, }, expectedRequestCount: 2, // List+Update expectedActions: nil, }, { // Existing node is healthy, current porbe is unhealthy, i.e. node just becomes unhealthy. // Do not delete pods. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{ { ObjectMeta: api.ObjectMeta{Name: "node0"}, Status: api.NodeStatus{ Conditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionFull, Reason: "Node health check succeeded: kubelet /healthz endpoint returns ok", LastTransitionTime: util.Date(2012, 1, 1, 0, 0, 0, 0, time.UTC), }, }, }, }, }, Fake: client.Fake{ PodsList: api.PodList{Items: []api.Pod{*newPod("pod0", "node0")}}, }, }, fakeKubeletClient: &FakeKubeletClient{ Status: probe.Failure, Err: nil, }, expectedRequestCount: 2, // List+Update expectedActions: nil, }, { // Existing node unhealthy, current porbe is unhealthy. Node is still within grace peroid. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{ { ObjectMeta: api.ObjectMeta{Name: "node0"}, Status: api.NodeStatus{ Conditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionNone, Reason: "Node health check failed: kubelet /healthz endpoint returns not ok", // Here, last transition time is Now(). In node controller, the new condition's probe time is // also Now(). The two calls to Now() yields differnt time due to test execution, but the // time difference is within 5 minutes, which is the grace peroid. LastTransitionTime: util.Now(), }, }, }, }, }, Fake: client.Fake{ PodsList: api.PodList{Items: []api.Pod{*newPod("pod0", "node0")}}, }, }, fakeKubeletClient: &FakeKubeletClient{ Status: probe.Failure, Err: nil, }, expectedRequestCount: 2, // List+Update expectedActions: nil, }, { // Existing node unhealthy, current porbe is unhealthy. Node exceeds grace peroid. fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{ { ObjectMeta: api.ObjectMeta{Name: "node0"}, Status: api.NodeStatus{ Conditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionNone, Reason: "Node health check failed: kubelet /healthz endpoint returns not ok", // Here, last transition time is in the past, and in node controller, the // new condition's probe time is Now(). The time difference is larger than // 5*min. The test will fail if system clock is wrong, but we don't yet have // ways to mock time in our tests. LastTransitionTime: util.Date(2012, 1, 1, 0, 0, 0, 0, time.UTC), }, }, }, }, }, Fake: client.Fake{ PodsList: api.PodList{Items: []api.Pod{*newPod("pod0", "node0")}}, }, }, fakeKubeletClient: &FakeKubeletClient{ Status: probe.Failure, Err: nil, }, expectedRequestCount: 2, // List+Update expectedActions: []client.FakeAction{{Action: "list-pods"}, {Action: "delete-pod", Value: "pod0"}}, }, } for _, item := range table { nodeController := NewNodeController(nil, "", []string{"node0"}, nil, item.fakeNodeHandler, item.fakeKubeletClient, 10, 5*time.Minute) if err := nodeController.SyncNodeStatus(); err != nil { t.Errorf("unexpected error: %v", err) } if item.expectedRequestCount != item.fakeNodeHandler.RequestCount { t.Errorf("expected %v call, but got %v.", item.expectedRequestCount, item.fakeNodeHandler.RequestCount) } if !reflect.DeepEqual(item.expectedActions, item.fakeNodeHandler.Actions) { t.Errorf("time out waiting for deleting pods, expected %+v, got %+v", item.expectedActions, item.fakeNodeHandler.Actions) } } } func TestSyncNodeStatus(t *testing.T) { table := []struct { fakeNodeHandler *FakeNodeHandler fakeKubeletClient *FakeKubeletClient fakeCloud *fake_cloud.FakeCloud expectedNodes []*api.Node expectedRequestCount int }{ { fakeNodeHandler: &FakeNodeHandler{ Existing: []*api.Node{newNode("node0"), newNode("node1")}, }, fakeKubeletClient: &FakeKubeletClient{ Status: probe.Success, Err: nil, }, fakeCloud: &fake_cloud.FakeCloud{ IP: net.ParseIP("1.2.3.4"), }, expectedNodes: []*api.Node{ { ObjectMeta: api.ObjectMeta{Name: "node0"}, Status: api.NodeStatus{ Conditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionFull, Reason: "Node health check succeeded: kubelet /healthz endpoint returns ok", }, }, HostIP: "1.2.3.4", }, }, { ObjectMeta: api.ObjectMeta{Name: "node1"}, Status: api.NodeStatus{ Conditions: []api.NodeCondition{ { Type: api.NodeReady, Status: api.ConditionFull, Reason: "Node health check succeeded: kubelet /healthz endpoint returns ok", }, }, HostIP: "1.2.3.4", }, }, }, expectedRequestCount: 3, // List + 2xUpdate }, } for _, item := range table { nodeController := NewNodeController(item.fakeCloud, ".*", nil, nil, item.fakeNodeHandler, item.fakeKubeletClient, 10, time.Minute) if err := nodeController.SyncNodeStatus(); err != nil { t.Errorf("unexpected error: %v", err) } if item.fakeNodeHandler.RequestCount != item.expectedRequestCount { t.Errorf("expected %v call, but got %v.", item.expectedRequestCount, item.fakeNodeHandler.RequestCount) } for i := range item.fakeNodeHandler.UpdatedNodes { conditions := item.fakeNodeHandler.UpdatedNodes[i].Status.Conditions for j := range conditions { if conditions[j].LastTransitionTime.IsZero() { t.Errorf("unexpected zero last transition timestamp") } if conditions[j].LastProbeTime.IsZero() { t.Errorf("unexpected zero last probe timestamp") } conditions[j].LastTransitionTime = util.Time{} conditions[j].LastProbeTime = util.Time{} } } if !reflect.DeepEqual(item.expectedNodes, item.fakeNodeHandler.UpdatedNodes) { t.Errorf("expected nodes %+v, got %+v", item.expectedNodes[0], item.fakeNodeHandler.UpdatedNodes[0]) } // Second sync will also update the node. item.fakeNodeHandler.RequestCount = 0 if err := nodeController.SyncNodeStatus(); err != nil { t.Errorf("unexpected error: %v", err) } if item.fakeNodeHandler.RequestCount != item.expectedRequestCount { t.Errorf("expected %v call, but got %v.", item.expectedRequestCount, item.fakeNodeHandler.RequestCount) } } } func newNode(name string) *api.Node { return &api.Node{ObjectMeta: api.ObjectMeta{Name: name}} } func newPod(name, host string) *api.Pod { return &api.Pod{ObjectMeta: api.ObjectMeta{Name: name}, Status: api.PodStatus{Host: host}} } func sortedNodeNames(nodes []*api.Node) []string { nodeNames := []string{} for _, node := range nodes { nodeNames = append(nodeNames, node.Name) } sort.Strings(nodeNames) return nodeNames } func sortedNodeExternalIDs(nodes []*api.Node) []string { nodeExternalIDs := []string{} for _, node := range nodes { nodeExternalIDs = append(nodeExternalIDs, node.Spec.ExternalID) } sort.Strings(nodeExternalIDs) return nodeExternalIDs } func contains(node *api.Node, nodes []*api.Node) bool { for i := 0; i < len(nodes); i++ { if node.Name == nodes[i].Name { return true } } return false }