package kube_inventory import ( "testing" "time" "github.com/ericchiang/k8s/apis/core/v1" metav1 "github.com/ericchiang/k8s/apis/meta/v1" "github.com/ericchiang/k8s/apis/resource" "github.com/influxdata/telegraf/testutil" ) func TestNode(t *testing.T) { cli := &client{} now := time.Now() created := time.Date(now.Year(), now.Month(), now.Day(), now.Hour()-2, 1, 36, 0, now.Location()) tests := []struct { name string handler *mockHandler output *testutil.Accumulator hasError bool }{ { name: "no nodes", handler: &mockHandler{ responseMap: map[string]interface{}{ "/nodes/": &v1.NodeList{}, }, }, hasError: false, }, { name: "collect nodes", handler: &mockHandler{ responseMap: map[string]interface{}{ "/nodes/": &v1.NodeList{ Items: []*v1.Node{ { Status: &v1.NodeStatus{ NodeInfo: &v1.NodeSystemInfo{ KernelVersion: toStrPtr("4.14.48-coreos-r2"), OsImage: toStrPtr("Container Linux by CoreOS 1745.7.0 (Rhyolite)"), ContainerRuntimeVersion: toStrPtr("docker://18.3.1"), KubeletVersion: toStrPtr("v1.10.3"), KubeProxyVersion: toStrPtr("v1.10.3"), }, Phase: toStrPtr("Running"), Capacity: map[string]*resource.Quantity{ "cpu": {String_: toStrPtr("16")}, "ephemeral_storage_bytes": {String_: toStrPtr("49536401408")}, "hugepages_1Gi_bytes": {String_: toStrPtr("0")}, "hugepages_2Mi_bytes": {String_: toStrPtr("0")}, "memory": {String_: toStrPtr("125817904Ki")}, "pods": {String_: toStrPtr("110")}, }, Allocatable: map[string]*resource.Quantity{ "cpu": {String_: toStrPtr("16")}, "ephemeral_storage_bytes": {String_: toStrPtr("44582761194")}, "hugepages_1Gi_bytes": {String_: toStrPtr("0")}, "hugepages_2Mi_bytes": {String_: toStrPtr("0")}, "memory": {String_: toStrPtr("125715504Ki")}, "pods": {String_: toStrPtr("110")}, }, Conditions: []*v1.NodeCondition{ {Type: toStrPtr("Ready"), Status: toStrPtr("true"), LastTransitionTime: &metav1.Time{Seconds: toInt64Ptr(now.Unix())}}, {Type: toStrPtr("OutOfDisk"), Status: toStrPtr("false"), LastTransitionTime: &metav1.Time{Seconds: toInt64Ptr(created.Unix())}}, }, }, Spec: &v1.NodeSpec{ ProviderID: toStrPtr("aws:///us-east-1c/i-0c00"), Taints: []*v1.Taint{ { Key: toStrPtr("k1"), Value: toStrPtr("v1"), Effect: toStrPtr("NoExecute"), }, { Key: toStrPtr("k2"), Value: toStrPtr("v2"), Effect: toStrPtr("NoSchedule"), }, }, }, Metadata: &metav1.ObjectMeta{ Generation: toInt64Ptr(int64(11232)), Namespace: toStrPtr("ns1"), Name: toStrPtr("node1"), Labels: map[string]string{ "lab1": "v1", "lab2": "v2", }, CreationTimestamp: &metav1.Time{Seconds: toInt64Ptr(created.Unix())}, }, }, }, }, }, }, output: &testutil.Accumulator{ Metrics: []*testutil.Metric{ { Measurement: nodeMeasurement, Fields: map[string]interface{}{ "capacity_cpu_cores": int64(16), "capacity_memory_bytes": int64(1.28837533696e+11), "capacity_pods": int64(110), "allocatable_cpu_cores": int64(16), "allocatable_memory_bytes": int64(1.28732676096e+11), "allocatable_pods": int64(110), }, Tags: map[string]string{ "node_name": "node1", }, }, }, }, hasError: false, }, } for _, v := range tests { ks := &KubernetesInventory{ client: cli, } acc := new(testutil.Accumulator) for _, node := range ((v.handler.responseMap["/nodes/"]).(*v1.NodeList)).Items { err := ks.gatherNode(*node, acc) if err != nil { t.Errorf("Failed to gather node - %s", err.Error()) } } err := acc.FirstError() if err == nil && v.hasError { t.Fatalf("%s failed, should have error", v.name) } else if err != nil && !v.hasError { t.Fatalf("%s failed, err: %v", v.name, err) } if v.output == nil && len(acc.Metrics) > 0 { t.Fatalf("%s: collected extra data", v.name) } else if v.output != nil && len(v.output.Metrics) > 0 { for i := range v.output.Metrics { measurement := v.output.Metrics[i].Measurement var keyTag string switch measurement { case nodeMeasurement: keyTag = "node" } var j int for j = range acc.Metrics { if acc.Metrics[j].Measurement == measurement && acc.Metrics[j].Tags[keyTag] == v.output.Metrics[i].Tags[keyTag] { break } } for k, m := range v.output.Metrics[i].Tags { if acc.Metrics[j].Tags[k] != m { t.Fatalf("%s: tag %s metrics unmatch Expected %s, got %s, measurement %s, j %d\n", v.name, k, m, acc.Metrics[j].Tags[k], measurement, j) } } for k, m := range v.output.Metrics[i].Fields { if acc.Metrics[j].Fields[k] != m { t.Fatalf("%s: field %s metrics unmatch Expected %v(%T), got %v(%T), measurement %s, j %d\n", v.name, k, m, m, acc.Metrics[j].Fields[k], acc.Metrics[i].Fields[k], measurement, j) } } } } } }