/* Copyright 2017 The Kubernetes Authors. 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 v1beta2_test import ( "testing" "k8s.io/api/apps/v1beta2" v1 "k8s.io/api/core/v1" "k8s.io/apimachinery/pkg/util/intstr" "k8s.io/kubernetes/pkg/api/legacyscheme" "k8s.io/kubernetes/pkg/apis/apps" "k8s.io/kubernetes/pkg/apis/autoscaling" api "k8s.io/kubernetes/pkg/apis/core" apiequality "k8s.io/apimachinery/pkg/api/equality" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" utilpointer "k8s.io/utils/pointer" ) func TestV1beta2StatefulSetSpecConversion(t *testing.T) { replicas := utilpointer.Int32(2) selector := &metav1.LabelSelector{MatchLabels: map[string]string{"foo": "bar"}} v1beta2Template := v1.PodTemplateSpec{ ObjectMeta: metav1.ObjectMeta{Name: "foo"}, Spec: v1.PodSpec{ RestartPolicy: v1.RestartPolicy("bar"), SecurityContext: new(v1.PodSecurityContext), }, } apiTemplate := api.PodTemplateSpec{ ObjectMeta: metav1.ObjectMeta{Name: "foo"}, Spec: api.PodSpec{ RestartPolicy: api.RestartPolicy("bar"), SecurityContext: new(api.PodSecurityContext), }, } testcases := map[string]struct { stsSpec1 *apps.StatefulSetSpec stsSepc2 *v1beta2.StatefulSetSpec }{ "StatefulSetSpec Conversion 1": { stsSpec1: &apps.StatefulSetSpec{ Replicas: *replicas, Template: apiTemplate, }, stsSepc2: &v1beta2.StatefulSetSpec{ Replicas: replicas, Template: v1beta2Template, }, }, "StatefulSetSpec Conversion 2": { stsSpec1: &apps.StatefulSetSpec{ Replicas: *replicas, Selector: selector, Template: apiTemplate, ServiceName: "foo", PodManagementPolicy: apps.PodManagementPolicyType("bar"), }, stsSepc2: &v1beta2.StatefulSetSpec{ Replicas: replicas, Selector: selector, Template: v1beta2Template, ServiceName: "foo", PodManagementPolicy: v1beta2.PodManagementPolicyType("bar"), }, }, } for k, tc := range testcases { // apps -> v1beta2 internal1 := &v1beta2.StatefulSetSpec{} if err := legacyscheme.Scheme.Convert(tc.stsSpec1, internal1, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "from extensions to v1beta2", err) } if !apiequality.Semantic.DeepEqual(internal1, tc.stsSepc2) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", k, "from extensions to v1beta2", tc.stsSepc2, internal1) } // v1beta2 -> apps internal2 := &apps.StatefulSetSpec{} if err := legacyscheme.Scheme.Convert(tc.stsSepc2, internal2, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "from v1beta2 to extensions", err) } if !apiequality.Semantic.DeepEqual(internal2, tc.stsSpec1) { t.Errorf("%q- %q: expected\n\t%#v, got \n\t%#v", k, "from v1beta2 to extensions", tc.stsSpec1, internal2) } } } func TestV1beta2StatefulSetUpdateStrategyConversion(t *testing.T) { partition := utilpointer.Int32(2) v1beta2rollingUpdate := new(v1beta2.RollingUpdateStatefulSetStrategy) v1beta2rollingUpdate.Partition = partition appsrollingUpdate := new(apps.RollingUpdateStatefulSetStrategy) appsrollingUpdate.Partition = *partition testcases := map[string]struct { stsUpdateStrategy1 *apps.StatefulSetUpdateStrategy stsUpdateStrategy2 *v1beta2.StatefulSetUpdateStrategy }{ "StatefulSetUpdateStrategy Conversion 1": { stsUpdateStrategy1: &apps.StatefulSetUpdateStrategy{Type: apps.StatefulSetUpdateStrategyType("foo")}, stsUpdateStrategy2: &v1beta2.StatefulSetUpdateStrategy{Type: v1beta2.StatefulSetUpdateStrategyType("foo")}, }, "StatefulSetUpdateStrategy Conversion 2": { stsUpdateStrategy1: &apps.StatefulSetUpdateStrategy{ Type: apps.StatefulSetUpdateStrategyType("foo"), RollingUpdate: appsrollingUpdate, }, stsUpdateStrategy2: &v1beta2.StatefulSetUpdateStrategy{ Type: v1beta2.StatefulSetUpdateStrategyType("foo"), RollingUpdate: v1beta2rollingUpdate, }, }, } for k, tc := range testcases { // apps -> v1beta2 internal1 := &v1beta2.StatefulSetUpdateStrategy{} if err := legacyscheme.Scheme.Convert(tc.stsUpdateStrategy1, internal1, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", "apps -> v1beta2", k, err) } if !apiequality.Semantic.DeepEqual(internal1, tc.stsUpdateStrategy2) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", "apps -> v1beta2", k, tc.stsUpdateStrategy2, internal1) } // v1beta2 -> apps internal2 := &apps.StatefulSetUpdateStrategy{} if err := legacyscheme.Scheme.Convert(tc.stsUpdateStrategy2, internal2, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", "v1beta2 -> apps", k, err) } if !apiequality.Semantic.DeepEqual(internal2, tc.stsUpdateStrategy1) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", "v1beta2 -> apps", k, tc.stsUpdateStrategy1, internal2) } } } func TestV1beta2RollingUpdateDaemonSetConversion(t *testing.T) { intorstr := intstr.FromInt32(1) maxSurge := intstr.FromInt32(0) testcases := map[string]struct { rollingUpdateDs1 *apps.RollingUpdateDaemonSet rollingUpdateDs2 *v1beta2.RollingUpdateDaemonSet }{ "RollingUpdateDaemonSet Conversion 2": { rollingUpdateDs1: &apps.RollingUpdateDaemonSet{MaxUnavailable: intorstr, MaxSurge: maxSurge}, rollingUpdateDs2: &v1beta2.RollingUpdateDaemonSet{MaxUnavailable: &intorstr, MaxSurge: &maxSurge}, }, } for k, tc := range testcases { // extensions -> v1beta2 internal1 := &v1beta2.RollingUpdateDaemonSet{} if err := legacyscheme.Scheme.Convert(tc.rollingUpdateDs1, internal1, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "from extensions to v1beta2", err) } if !apiequality.Semantic.DeepEqual(internal1, tc.rollingUpdateDs2) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", k, "from extensions to v1beta2", tc.rollingUpdateDs2, internal1) } // v1beta2 -> extensions internal2 := &apps.RollingUpdateDaemonSet{} if err := legacyscheme.Scheme.Convert(tc.rollingUpdateDs2, internal2, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "from v1beta2 to extensions", err) } if !apiequality.Semantic.DeepEqual(internal2, tc.rollingUpdateDs1) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", k, "from v1beta2 to extensions", tc.rollingUpdateDs1, internal2) } } } func TestV1beta2StatefulSetStatusConversion(t *testing.T) { observedGeneration := new(int64) *observedGeneration = 2 collisionCount := new(int32) *collisionCount = 1 testcases := map[string]struct { stsStatus1 *apps.StatefulSetStatus stsStatus2 *v1beta2.StatefulSetStatus }{ "StatefulSetStatus Conversion 1": { stsStatus1: &apps.StatefulSetStatus{ Replicas: int32(3), ReadyReplicas: int32(1), CurrentReplicas: int32(3), UpdatedReplicas: int32(3), CurrentRevision: "12345", UpdateRevision: "23456", ObservedGeneration: observedGeneration, }, stsStatus2: &v1beta2.StatefulSetStatus{ Replicas: int32(3), ReadyReplicas: int32(1), CurrentReplicas: int32(3), UpdatedReplicas: int32(3), CurrentRevision: "12345", UpdateRevision: "23456", ObservedGeneration: *observedGeneration, }, }, "StatefulSetStatus Conversion 2": { stsStatus1: &apps.StatefulSetStatus{ ObservedGeneration: observedGeneration, Replicas: int32(3), ReadyReplicas: int32(1), CurrentReplicas: int32(3), UpdatedReplicas: int32(3), CurrentRevision: "12345", UpdateRevision: "23456", CollisionCount: collisionCount, }, stsStatus2: &v1beta2.StatefulSetStatus{ ObservedGeneration: *observedGeneration, Replicas: int32(3), ReadyReplicas: int32(1), CurrentReplicas: int32(3), UpdatedReplicas: int32(3), CurrentRevision: "12345", UpdateRevision: "23456", CollisionCount: collisionCount, }, }, } for k, tc := range testcases { // apps -> v1beta2 internal1 := &v1beta2.StatefulSetStatus{} if err := legacyscheme.Scheme.Convert(tc.stsStatus1, internal1, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "from apps to v1beta2", err) } if !apiequality.Semantic.DeepEqual(internal1, tc.stsStatus2) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", k, "from apps to v1beta2", tc.stsStatus2, internal1) } // v1beta2 -> apps internal2 := &apps.StatefulSetStatus{} if err := legacyscheme.Scheme.Convert(tc.stsStatus2, internal2, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "from v1beta2 to apps", err) } if !apiequality.Semantic.DeepEqual(internal2, tc.stsStatus1) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", k, "from v1beta2 to apps", tc.stsStatus1, internal2) } } } func TestV1beta2DeploymentConversion(t *testing.T) { replica := utilpointer.Int32(2) rollbackTo := new(apps.RollbackConfig) rollbackTo.Revision = int64(2) testcases := map[string]struct { deployment1 *apps.Deployment deployment2 *v1beta2.Deployment }{ "Deployment Conversion 1": { deployment1: &apps.Deployment{ Spec: apps.DeploymentSpec{ Replicas: *replica, RollbackTo: rollbackTo, Template: api.PodTemplateSpec{ Spec: api.PodSpec{ SecurityContext: new(api.PodSecurityContext), }, }, }, }, deployment2: &v1beta2.Deployment{ ObjectMeta: metav1.ObjectMeta{ Annotations: map[string]string{v1beta2.DeprecatedRollbackTo: "2"}, }, Spec: v1beta2.DeploymentSpec{ Replicas: replica, Template: v1.PodTemplateSpec{ Spec: v1.PodSpec{ SecurityContext: new(v1.PodSecurityContext), }, }, }, }, }, "Deployment Conversion 2": { deployment1: &apps.Deployment{ Spec: apps.DeploymentSpec{ Replicas: *replica, Template: api.PodTemplateSpec{ Spec: api.PodSpec{ SecurityContext: new(api.PodSecurityContext), }, }, }, }, deployment2: &v1beta2.Deployment{ Spec: v1beta2.DeploymentSpec{ Replicas: replica, Template: v1.PodTemplateSpec{ Spec: v1.PodSpec{ SecurityContext: new(v1.PodSecurityContext), }, }, }, }, }, } for k, tc := range testcases { // extensions -> v1beta2 internal1 := &v1beta2.Deployment{} if err := legacyscheme.Scheme.Convert(tc.deployment1, internal1, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "from extensions to v1beta2", err) } if !apiequality.Semantic.DeepEqual(internal1, tc.deployment2) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", k, "from extensions to v1beta2", tc.deployment2, internal1) } // v1beta2 -> extensions internal2 := &apps.Deployment{} if err := legacyscheme.Scheme.Convert(tc.deployment2, internal2, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "from v1beta2 to extensions", err) } if !apiequality.Semantic.DeepEqual(internal2, tc.deployment1) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", k, "from v1beta2 to extensions", tc.deployment1, internal2) } } } func TestV1beta2ScaleStatusConversion(t *testing.T) { matchLabels := map[string]string{"foo": "bar"} selector1 := &metav1.LabelSelector{MatchLabels: matchLabels} labelsSelector1, _ := metav1.LabelSelectorAsSelector(selector1) matchExpressions := []metav1.LabelSelectorRequirement{ {Key: "foo", Operator: metav1.LabelSelectorOpIn, Values: []string{"foo"}}, } selector2 := &metav1.LabelSelector{MatchLabels: matchLabels, MatchExpressions: matchExpressions} labelsSelector2, _ := metav1.LabelSelectorAsSelector(selector2) testcases := map[string]struct { scaleStatus1 *autoscaling.ScaleStatus scaleStatus2 *v1beta2.ScaleStatus }{ "ScaleStatus Conversion 1": { scaleStatus1: &autoscaling.ScaleStatus{Replicas: 2}, scaleStatus2: &v1beta2.ScaleStatus{Replicas: 2}, }, "ScaleStatus Conversion 2": { scaleStatus1: &autoscaling.ScaleStatus{Replicas: 2, Selector: labelsSelector1.String()}, scaleStatus2: &v1beta2.ScaleStatus{Replicas: 2, Selector: matchLabels, TargetSelector: labelsSelector1.String()}, }, "ScaleStatus Conversion 3": { scaleStatus1: &autoscaling.ScaleStatus{Replicas: 2, Selector: labelsSelector2.String()}, scaleStatus2: &v1beta2.ScaleStatus{Replicas: 2, Selector: map[string]string{}, TargetSelector: labelsSelector2.String()}, }, } for k, tc := range testcases { // autoscaling -> v1beta2 internal1 := &v1beta2.ScaleStatus{} if err := legacyscheme.Scheme.Convert(tc.scaleStatus1, internal1, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "autoscaling -> v1beta2", err) } if !apiequality.Semantic.DeepEqual(internal1, tc.scaleStatus2) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", k, "autoscaling -> v1beta2", tc.scaleStatus2, internal1) } // v1beta2 -> autoscaling internal2 := &autoscaling.ScaleStatus{} if err := legacyscheme.Scheme.Convert(tc.scaleStatus2, internal2, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "v1beta2 -> autoscaling", err) } if !apiequality.Semantic.DeepEqual(internal2, tc.scaleStatus1) { t.Errorf("%q - %q: expected\n\t%+v, got \n\t%+v", k, "v1beta2 -> autoscaling", tc.scaleStatus1, internal2) } } } func TestV1beta2DeploymentSpecConversion(t *testing.T) { replica := utilpointer.Int32(2) revisionHistoryLimit := utilpointer.Int32(2) progressDeadlineSeconds := utilpointer.Int32(2) testcases := map[string]struct { deploymentSpec1 *apps.DeploymentSpec deploymentSpec2 *v1beta2.DeploymentSpec }{ "DeploymentSpec Conversion 1": { deploymentSpec1: &apps.DeploymentSpec{ Replicas: *replica, Template: api.PodTemplateSpec{ Spec: api.PodSpec{ SecurityContext: new(api.PodSecurityContext), }, }, }, deploymentSpec2: &v1beta2.DeploymentSpec{ Replicas: replica, Template: v1.PodTemplateSpec{ Spec: v1.PodSpec{ SecurityContext: new(v1.PodSecurityContext), }, }, }, }, "DeploymentSpec Conversion 2": { deploymentSpec1: &apps.DeploymentSpec{ Replicas: *replica, RevisionHistoryLimit: revisionHistoryLimit, MinReadySeconds: 2, Paused: true, Template: api.PodTemplateSpec{ Spec: api.PodSpec{ SecurityContext: new(api.PodSecurityContext), }, }, }, deploymentSpec2: &v1beta2.DeploymentSpec{ Replicas: replica, RevisionHistoryLimit: revisionHistoryLimit, MinReadySeconds: 2, Paused: true, Template: v1.PodTemplateSpec{ Spec: v1.PodSpec{ SecurityContext: new(v1.PodSecurityContext), }, }, }, }, "DeploymentSpec Conversion 3": { deploymentSpec1: &apps.DeploymentSpec{ Replicas: *replica, ProgressDeadlineSeconds: progressDeadlineSeconds, Template: api.PodTemplateSpec{ Spec: api.PodSpec{ SecurityContext: new(api.PodSecurityContext), }, }, }, deploymentSpec2: &v1beta2.DeploymentSpec{ Replicas: replica, ProgressDeadlineSeconds: progressDeadlineSeconds, Template: v1.PodTemplateSpec{ Spec: v1.PodSpec{ SecurityContext: new(v1.PodSecurityContext), }, }, }, }, } // extensions -> v1beta2 for k, tc := range testcases { internal := &v1beta2.DeploymentSpec{} if err := legacyscheme.Scheme.Convert(tc.deploymentSpec1, internal, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", "extensions -> v1beta2", k, err) } if !apiequality.Semantic.DeepEqual(internal, tc.deploymentSpec2) { t.Errorf("%q - %q: expected\n\t%+v, got \n\t%+v", "extensions -> v1beta2", k, tc.deploymentSpec2, internal) } } // v1beta2 -> extensions for k, tc := range testcases { internal := &apps.DeploymentSpec{} if err := legacyscheme.Scheme.Convert(tc.deploymentSpec2, internal, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", "v1beta2 -> extensions", k, err) } if !apiequality.Semantic.DeepEqual(internal, tc.deploymentSpec1) { t.Errorf("%q - %q: expected\n\t%+v, got \n\t%+v", "v1beta2 -> extensions", k, tc.deploymentSpec1, internal) } } } func TestV1beta2DeploymentStrategyConversion(t *testing.T) { maxUnavailable := intstr.FromInt32(2) maxSurge := intstr.FromInt32(2) extensionsRollingUpdate := apps.RollingUpdateDeployment{MaxUnavailable: maxUnavailable, MaxSurge: maxSurge} v1beta2RollingUpdate := v1beta2.RollingUpdateDeployment{MaxUnavailable: &maxUnavailable, MaxSurge: &maxSurge} testcases := map[string]struct { deploymentStrategy1 *apps.DeploymentStrategy deploymentStrategy2 *v1beta2.DeploymentStrategy }{ "DeploymentStrategy Conversion 1": { deploymentStrategy1: &apps.DeploymentStrategy{Type: apps.DeploymentStrategyType("foo")}, deploymentStrategy2: &v1beta2.DeploymentStrategy{Type: v1beta2.DeploymentStrategyType("foo")}, }, "DeploymentStrategy Conversion 2": { deploymentStrategy1: &apps.DeploymentStrategy{Type: apps.DeploymentStrategyType("foo"), RollingUpdate: &extensionsRollingUpdate}, deploymentStrategy2: &v1beta2.DeploymentStrategy{Type: v1beta2.DeploymentStrategyType("foo"), RollingUpdate: &v1beta2RollingUpdate}, }, } for k, tc := range testcases { // extensions -> v1beta2 internal1 := &v1beta2.DeploymentStrategy{} if err := legacyscheme.Scheme.Convert(tc.deploymentStrategy1, internal1, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "extensions -> v1beta2", err) } if !apiequality.Semantic.DeepEqual(internal1, tc.deploymentStrategy2) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", k, "extensions -> v1beta2", tc.deploymentStrategy2, internal1) } // v1beta2 -> extensions internal2 := &apps.DeploymentStrategy{} if err := legacyscheme.Scheme.Convert(tc.deploymentStrategy2, internal2, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "v1beta2 -> extensions", err) } if !apiequality.Semantic.DeepEqual(internal2, tc.deploymentStrategy1) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", k, "v1beta2 -> extensions", tc.deploymentStrategy1, internal2) } } } func TestV1beta2RollingUpdateDeploymentConversion(t *testing.T) { nilIntStr := intstr.IntOrString{} maxUnavailable := intstr.FromInt32(2) maxSurge := intstr.FromInt32(2) testcases := map[string]struct { rollingUpdateDeployment1 *apps.RollingUpdateDeployment rollingUpdateDeployment2 *v1beta2.RollingUpdateDeployment }{ "RollingUpdateDeployment Conversion 1": { rollingUpdateDeployment1: &apps.RollingUpdateDeployment{}, rollingUpdateDeployment2: &v1beta2.RollingUpdateDeployment{MaxUnavailable: &nilIntStr, MaxSurge: &nilIntStr}, }, "RollingUpdateDeployment Conversion 2": { rollingUpdateDeployment1: &apps.RollingUpdateDeployment{MaxUnavailable: maxUnavailable}, rollingUpdateDeployment2: &v1beta2.RollingUpdateDeployment{MaxUnavailable: &maxUnavailable, MaxSurge: &nilIntStr}, }, "RollingUpdateDeployment Conversion 3": { rollingUpdateDeployment1: &apps.RollingUpdateDeployment{MaxSurge: maxSurge}, rollingUpdateDeployment2: &v1beta2.RollingUpdateDeployment{MaxSurge: &maxSurge, MaxUnavailable: &nilIntStr}, }, "RollingUpdateDeployment Conversion 4": { rollingUpdateDeployment1: &apps.RollingUpdateDeployment{MaxUnavailable: maxUnavailable, MaxSurge: maxSurge}, rollingUpdateDeployment2: &v1beta2.RollingUpdateDeployment{MaxUnavailable: &maxUnavailable, MaxSurge: &maxSurge}, }, } for k, tc := range testcases { // extensions -> v1beta2 internal1 := &v1beta2.RollingUpdateDeployment{} if err := legacyscheme.Scheme.Convert(tc.rollingUpdateDeployment1, internal1, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "extensions -> v1beta2", err) } if !apiequality.Semantic.DeepEqual(internal1, tc.rollingUpdateDeployment2) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", k, "extensions -> v1beta2", tc.rollingUpdateDeployment2, internal1) } // v1beta2 -> extensions internal2 := &apps.RollingUpdateDeployment{} if err := legacyscheme.Scheme.Convert(tc.rollingUpdateDeployment2, internal2, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "v1beta2 -> extensions", err) } if !apiequality.Semantic.DeepEqual(internal2, tc.rollingUpdateDeployment1) { t.Errorf("%q - %q: expected\n\t%#v, got \n\t%#v", k, "v1beta2 -> extensions", tc.rollingUpdateDeployment1, internal2) } } } func TestV1beta2ReplicaSetSpecConversion(t *testing.T) { replicas := new(int32) *replicas = 2 matchExpressions := []metav1.LabelSelectorRequirement{ {Key: "foo", Operator: metav1.LabelSelectorOpIn, Values: []string{"foo"}}, } matchLabels := map[string]string{"foo": "bar"} selector := &metav1.LabelSelector{MatchLabels: matchLabels, MatchExpressions: matchExpressions} testcases := map[string]struct { replicaset1 *apps.ReplicaSetSpec replicaset2 *v1beta2.ReplicaSetSpec }{ "ReplicaSetSpec Conversion 1": { replicaset1: &apps.ReplicaSetSpec{ Replicas: *replicas, MinReadySeconds: 2, Template: api.PodTemplateSpec{ Spec: api.PodSpec{ SecurityContext: new(api.PodSecurityContext), }, }, }, replicaset2: &v1beta2.ReplicaSetSpec{ Replicas: replicas, MinReadySeconds: 2, Template: v1.PodTemplateSpec{ Spec: v1.PodSpec{ SecurityContext: new(v1.PodSecurityContext), }, }, }, }, "ReplicaSetSpec Conversion 2": { replicaset1: &apps.ReplicaSetSpec{ Replicas: *replicas, Selector: selector, Template: api.PodTemplateSpec{ Spec: api.PodSpec{ SecurityContext: new(api.PodSecurityContext), }, }, }, replicaset2: &v1beta2.ReplicaSetSpec{ Replicas: replicas, Selector: selector, Template: v1.PodTemplateSpec{ Spec: v1.PodSpec{ SecurityContext: new(v1.PodSecurityContext), }, }, }, }, } for k, tc := range testcases { // extensions -> v1beta2 internal1 := &v1beta2.ReplicaSetSpec{} if err := legacyscheme.Scheme.Convert(tc.replicaset1, internal1, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "extensions -> v1beta2", err) } if !apiequality.Semantic.DeepEqual(internal1, tc.replicaset2) { t.Errorf("%q - %q: expected\n\t%+v, got \n\t%+v", k, "extensions -> v1beta2", tc.replicaset2, internal1) } // v1beta2 -> extensions internal2 := &apps.ReplicaSetSpec{} if err := legacyscheme.Scheme.Convert(tc.replicaset2, internal2, nil); err != nil { t.Errorf("%q - %q: unexpected error: %v", k, "v1beta2 -> extensions", err) } if !apiequality.Semantic.DeepEqual(internal2, tc.replicaset1) { t.Errorf("%q - %q: expected\n\t%+v, got \n\t%+v", k, "v1beta2 -> extensions", tc.replicaset1, internal2) } } }