/* Copyright 2015 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 container import ( "reflect" "testing" "time" "github.com/google/go-cmp/cmp" "github.com/stretchr/testify/assert" v1 "k8s.io/api/core/v1" "k8s.io/apimachinery/pkg/api/resource" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" ) func TestEnvVarsToMap(t *testing.T) { vars := []EnvVar{ { Name: "foo", Value: "bar", }, { Name: "zoo", Value: "baz", }, } varMap := envVarsToMap(vars) if e, a := len(vars), len(varMap); e != a { t.Errorf("Unexpected map length; expected: %d, got %d", e, a) } if a := varMap["foo"]; a != "bar" { t.Errorf("Unexpected value of key 'foo': %v", a) } if a := varMap["zoo"]; a != "baz" { t.Errorf("Unexpected value of key 'zoo': %v", a) } } func TestExpandCommandAndArgs(t *testing.T) { cases := []struct { name string container *v1.Container envs []EnvVar expectedCommand []string expectedArgs []string }{ { name: "none", container: &v1.Container{}, }, { name: "command expanded", container: &v1.Container{ Command: []string{"foo", "$(VAR_TEST)", "$(VAR_TEST2)"}, }, envs: []EnvVar{ { Name: "VAR_TEST", Value: "zoo", }, { Name: "VAR_TEST2", Value: "boo", }, }, expectedCommand: []string{"foo", "zoo", "boo"}, }, { name: "args expanded", container: &v1.Container{ Args: []string{"zap", "$(VAR_TEST)", "$(VAR_TEST2)"}, }, envs: []EnvVar{ { Name: "VAR_TEST", Value: "hap", }, { Name: "VAR_TEST2", Value: "trap", }, }, expectedArgs: []string{"zap", "hap", "trap"}, }, { name: "both expanded", container: &v1.Container{ Command: []string{"$(VAR_TEST2)--$(VAR_TEST)", "foo", "$(VAR_TEST3)"}, Args: []string{"foo", "$(VAR_TEST)", "$(VAR_TEST2)"}, }, envs: []EnvVar{ { Name: "VAR_TEST", Value: "zoo", }, { Name: "VAR_TEST2", Value: "boo", }, { Name: "VAR_TEST3", Value: "roo", }, }, expectedCommand: []string{"boo--zoo", "foo", "roo"}, expectedArgs: []string{"foo", "zoo", "boo"}, }, } for _, tc := range cases { actualCommand, actualArgs := ExpandContainerCommandAndArgs(tc.container, tc.envs) if e, a := tc.expectedCommand, actualCommand; !reflect.DeepEqual(e, a) { t.Errorf("%v: unexpected command; expected %v, got %v", tc.name, e, a) } if e, a := tc.expectedArgs, actualArgs; !reflect.DeepEqual(e, a) { t.Errorf("%v: unexpected args; expected %v, got %v", tc.name, e, a) } } } func TestExpandVolumeMountsWithSubpath(t *testing.T) { cases := []struct { name string container *v1.Container envs []EnvVar expectedSubPath string expectedMountPath string expectedOk bool }{ { name: "subpath with no expansion", container: &v1.Container{ VolumeMounts: []v1.VolumeMount{{SubPathExpr: "foo"}}, }, expectedSubPath: "foo", expectedMountPath: "", expectedOk: true, }, { name: "volumes with expanded subpath", container: &v1.Container{ VolumeMounts: []v1.VolumeMount{{SubPathExpr: "foo/$(POD_NAME)"}}, }, envs: []EnvVar{ { Name: "POD_NAME", Value: "bar", }, }, expectedSubPath: "foo/bar", expectedMountPath: "", expectedOk: true, }, { name: "volumes expanded with empty subpath", container: &v1.Container{ VolumeMounts: []v1.VolumeMount{{SubPathExpr: ""}}, }, envs: []EnvVar{ { Name: "POD_NAME", Value: "bar", }, }, expectedSubPath: "", expectedMountPath: "", expectedOk: true, }, { name: "volumes expanded with no envs subpath", container: &v1.Container{ VolumeMounts: []v1.VolumeMount{{SubPathExpr: "/foo/$(POD_NAME)"}}, }, expectedSubPath: "/foo/$(POD_NAME)", expectedMountPath: "", expectedOk: false, }, { name: "volumes expanded with leading environment variable", container: &v1.Container{ VolumeMounts: []v1.VolumeMount{{SubPathExpr: "$(POD_NAME)/bar"}}, }, envs: []EnvVar{ { Name: "POD_NAME", Value: "foo", }, }, expectedSubPath: "foo/bar", expectedMountPath: "", expectedOk: true, }, { name: "volumes with volume and subpath", container: &v1.Container{ VolumeMounts: []v1.VolumeMount{{MountPath: "/foo", SubPathExpr: "$(POD_NAME)/bar"}}, }, envs: []EnvVar{ { Name: "POD_NAME", Value: "foo", }, }, expectedSubPath: "foo/bar", expectedMountPath: "/foo", expectedOk: true, }, { name: "volumes with volume and no subpath", container: &v1.Container{ VolumeMounts: []v1.VolumeMount{{MountPath: "/foo"}}, }, envs: []EnvVar{ { Name: "POD_NAME", Value: "foo", }, }, expectedSubPath: "", expectedMountPath: "/foo", expectedOk: true, }, { name: "subpaths with empty environment variable", container: &v1.Container{ VolumeMounts: []v1.VolumeMount{{SubPathExpr: "foo/$(POD_NAME)/$(ANNOTATION)"}}, }, envs: []EnvVar{ { Name: "ANNOTATION", Value: "", }, }, expectedSubPath: "foo/$(POD_NAME)/$(ANNOTATION)", expectedMountPath: "", expectedOk: false, }, { name: "subpaths with missing env variables", container: &v1.Container{ VolumeMounts: []v1.VolumeMount{{SubPathExpr: "foo/$(ODD_NAME)/$(POD_NAME)"}}, }, envs: []EnvVar{ { Name: "ODD_NAME", Value: "bar", }, }, expectedSubPath: "foo/$(ODD_NAME)/$(POD_NAME)", expectedMountPath: "", expectedOk: false, }, { name: "subpaths with empty expansion", container: &v1.Container{ VolumeMounts: []v1.VolumeMount{{SubPathExpr: "$()"}}, }, expectedSubPath: "$()", expectedMountPath: "", expectedOk: false, }, { name: "subpaths with nested expandable envs", container: &v1.Container{ VolumeMounts: []v1.VolumeMount{{SubPathExpr: "$(POD_NAME$(ANNOTATION))"}}, }, envs: []EnvVar{ { Name: "POD_NAME", Value: "foo", }, { Name: "ANNOTATION", Value: "bar", }, }, expectedSubPath: "$(POD_NAME$(ANNOTATION))", expectedMountPath: "", expectedOk: false, }, } for _, tc := range cases { actualSubPath, err := ExpandContainerVolumeMounts(tc.container.VolumeMounts[0], tc.envs) ok := err == nil if e, a := tc.expectedOk, ok; !reflect.DeepEqual(e, a) { t.Errorf("%v: unexpected validation failure of subpath; expected %v, got %v", tc.name, e, a) } if !ok { // if ExpandContainerVolumeMounts returns an error, we don't care what the actualSubPath value is continue } if e, a := tc.expectedSubPath, actualSubPath; !reflect.DeepEqual(e, a) { t.Errorf("%v: unexpected subpath; expected %v, got %v", tc.name, e, a) } if e, a := tc.expectedMountPath, tc.container.VolumeMounts[0].MountPath; !reflect.DeepEqual(e, a) { t.Errorf("%v: unexpected mountpath; expected %v, got %v", tc.name, e, a) } } } func TestGetContainerSpec(t *testing.T) { for _, tc := range []struct { name string havePod *v1.Pod haveName string wantContainer *v1.Container }{ { name: "regular container", havePod: &v1.Pod{ Spec: v1.PodSpec{ Containers: []v1.Container{ {Name: "plain-ole-container"}, }, InitContainers: []v1.Container{ {Name: "init-container"}, }, }, }, haveName: "plain-ole-container", wantContainer: &v1.Container{Name: "plain-ole-container"}, }, { name: "init container", havePod: &v1.Pod{ Spec: v1.PodSpec{ Containers: []v1.Container{ {Name: "plain-ole-container"}, }, InitContainers: []v1.Container{ {Name: "init-container"}, }, }, }, haveName: "init-container", wantContainer: &v1.Container{Name: "init-container"}, }, { name: "ephemeral container", havePod: &v1.Pod{ Spec: v1.PodSpec{ Containers: []v1.Container{ {Name: "plain-ole-container"}, }, InitContainers: []v1.Container{ {Name: "init-container"}, }, EphemeralContainers: []v1.EphemeralContainer{ {EphemeralContainerCommon: v1.EphemeralContainerCommon{ Name: "debug-container", }}, }, }, }, haveName: "debug-container", wantContainer: &v1.Container{Name: "debug-container"}, }, } { t.Run(tc.name, func(t *testing.T) { gotContainer := GetContainerSpec(tc.havePod, tc.haveName) if diff := cmp.Diff(tc.wantContainer, gotContainer); diff != "" { t.Fatalf("GetContainerSpec for %q returned diff (-want +got):%v", tc.name, diff) } }) } } func TestShouldContainerBeRestarted(t *testing.T) { pod := &v1.Pod{ ObjectMeta: metav1.ObjectMeta{ UID: "12345678", Name: "foo", Namespace: "new", }, Spec: v1.PodSpec{ Containers: []v1.Container{ {Name: "no-history"}, {Name: "alive"}, {Name: "succeed"}, {Name: "failed"}, {Name: "unknown"}, }, }, } podStatus := &PodStatus{ ID: pod.UID, Name: pod.Name, Namespace: pod.Namespace, ContainerStatuses: []*Status{ { Name: "alive", State: ContainerStateRunning, }, { Name: "succeed", State: ContainerStateExited, ExitCode: 0, }, { Name: "failed", State: ContainerStateExited, ExitCode: 1, }, { Name: "alive", State: ContainerStateExited, ExitCode: 2, }, { Name: "unknown", State: ContainerStateUnknown, }, { Name: "failed", State: ContainerStateExited, ExitCode: 3, }, }, } policies := []v1.RestartPolicy{ v1.RestartPolicyNever, v1.RestartPolicyOnFailure, v1.RestartPolicyAlways, } // test policies expected := map[string][]bool{ "no-history": {true, true, true}, "alive": {false, false, false}, "succeed": {false, false, true}, "failed": {false, true, true}, "unknown": {true, true, true}, } for _, c := range pod.Spec.Containers { for i, policy := range policies { pod.Spec.RestartPolicy = policy e := expected[c.Name][i] r := ShouldContainerBeRestarted(&c, pod, podStatus) if r != e { t.Errorf("Restart for container %q with restart policy %q expected %t, got %t", c.Name, policy, e, r) } } } // test deleted pod pod.DeletionTimestamp = &metav1.Time{Time: time.Now()} expected = map[string][]bool{ "no-history": {false, false, false}, "alive": {false, false, false}, "succeed": {false, false, false}, "failed": {false, false, false}, "unknown": {false, false, false}, } for _, c := range pod.Spec.Containers { for i, policy := range policies { pod.Spec.RestartPolicy = policy e := expected[c.Name][i] r := ShouldContainerBeRestarted(&c, pod, podStatus) if r != e { t.Errorf("Restart for container %q with restart policy %q expected %t, got %t", c.Name, policy, e, r) } } } } func TestHasPrivilegedContainer(t *testing.T) { newBoolPtr := func(b bool) *bool { return &b } tests := map[string]struct { securityContext *v1.SecurityContext expected bool }{ "nil security context": { securityContext: nil, expected: false, }, "nil privileged": { securityContext: &v1.SecurityContext{}, expected: false, }, "false privileged": { securityContext: &v1.SecurityContext{Privileged: newBoolPtr(false)}, expected: false, }, "true privileged": { securityContext: &v1.SecurityContext{Privileged: newBoolPtr(true)}, expected: true, }, } for k, v := range tests { pod := &v1.Pod{ Spec: v1.PodSpec{ Containers: []v1.Container{ {SecurityContext: v.securityContext}, }, }, } actual := HasPrivilegedContainer(pod) if actual != v.expected { t.Errorf("%s expected %t but got %t", k, v.expected, actual) } } // Test init containers as well. for k, v := range tests { pod := &v1.Pod{ Spec: v1.PodSpec{ InitContainers: []v1.Container{ {SecurityContext: v.securityContext}, }, }, } actual := HasPrivilegedContainer(pod) if actual != v.expected { t.Errorf("%s expected %t but got %t", k, v.expected, actual) } } } func TestMakePortMappings(t *testing.T) { port := func(name string, protocol v1.Protocol, containerPort, hostPort int32, ip string) v1.ContainerPort { return v1.ContainerPort{ Name: name, Protocol: protocol, ContainerPort: containerPort, HostPort: hostPort, HostIP: ip, } } portMapping := func(protocol v1.Protocol, containerPort, hostPort int, ip string) PortMapping { return PortMapping{ Protocol: protocol, ContainerPort: containerPort, HostPort: hostPort, HostIP: ip, } } tests := []struct { container *v1.Container expectedPortMappings []PortMapping }{ { &v1.Container{ Name: "fooContainer", Ports: []v1.ContainerPort{ port("", v1.ProtocolTCP, 80, 8080, "127.0.0.1"), port("", v1.ProtocolTCP, 443, 4343, "192.168.0.1"), port("foo", v1.ProtocolUDP, 555, 5555, ""), // Duplicated, should be ignored. port("foo", v1.ProtocolUDP, 888, 8888, ""), // Duplicated with different address family, shouldn't be ignored port("", v1.ProtocolTCP, 80, 8080, "::"), // No address family specified port("", v1.ProtocolTCP, 1234, 5678, ""), }, }, []PortMapping{ portMapping(v1.ProtocolTCP, 80, 8080, "127.0.0.1"), portMapping(v1.ProtocolTCP, 443, 4343, "192.168.0.1"), portMapping(v1.ProtocolUDP, 555, 5555, ""), portMapping(v1.ProtocolTCP, 80, 8080, "::"), portMapping(v1.ProtocolTCP, 1234, 5678, ""), }, }, { // The same container port can be mapped to different host ports &v1.Container{ Name: "fooContainer", Ports: []v1.ContainerPort{ port("", v1.ProtocolTCP, 443, 4343, "192.168.0.1"), port("", v1.ProtocolTCP, 4343, 4343, "192.168.0.1"), }, }, []PortMapping{ portMapping(v1.ProtocolTCP, 443, 4343, "192.168.0.1"), portMapping(v1.ProtocolTCP, 4343, 4343, "192.168.0.1"), }, }, { // The same container port AND same container host is not OK &v1.Container{ Name: "fooContainer", Ports: []v1.ContainerPort{ port("", v1.ProtocolTCP, 443, 4343, ""), port("", v1.ProtocolTCP, 443, 4343, ""), }, }, []PortMapping{ portMapping(v1.ProtocolTCP, 443, 4343, ""), }, }, { // multihomed nodes - multiple IP scenario &v1.Container{ Name: "fooContainer", Ports: []v1.ContainerPort{ port("", v1.ProtocolTCP, 443, 4343, "192.168.0.1"), port("", v1.ProtocolTCP, 443, 4343, "172.16.0.1"), }, }, []PortMapping{ portMapping(v1.ProtocolTCP, 443, 4343, "192.168.0.1"), portMapping(v1.ProtocolTCP, 443, 4343, "172.16.0.1"), }, }, } for i, tt := range tests { actual := MakePortMappings(tt.container) assert.Equal(t, tt.expectedPortMappings, actual, "[%d]", i) } } func TestHashContainer(t *testing.T) { testCases := []struct { name string image string args []string containerPort int32 expectedHash uint64 }{ { name: "test_container", image: "foo/image:v1", args: []string{ "/bin/sh", "-c", "echo abc", }, containerPort: int32(8001), expectedHash: uint64(0x3c42280f), }, } for _, tc := range testCases { container := v1.Container{ Name: tc.name, Image: tc.image, Args: tc.args, Ports: []v1.ContainerPort{{ContainerPort: tc.containerPort}}, } hashVal := HashContainer(&container) assert.Equal(t, tc.expectedHash, hashVal, "the hash value here should not be changed.") } } func TestShouldRecordEvent(t *testing.T) { var innerEventRecorder = &innerEventRecorder{ recorder: nil, } _, actual := innerEventRecorder.shouldRecordEvent(nil) assert.Equal(t, false, actual) var obj = &v1.ObjectReference{Namespace: "claimrefns", Name: "claimrefname"} _, actual = innerEventRecorder.shouldRecordEvent(obj) assert.Equal(t, true, actual) obj = &v1.ObjectReference{Namespace: "system", Name: "infra", FieldPath: "implicitly required container "} _, actual = innerEventRecorder.shouldRecordEvent(obj) assert.Equal(t, false, actual) var nilObj *v1.ObjectReference = nil _, actual = innerEventRecorder.shouldRecordEvent(nilObj) assert.Equal(t, false, actual, "should not panic if the typed nil was used, see https://github.com/kubernetes/kubernetes/issues/95552") } func TestHasWindowsHostProcessContainer(t *testing.T) { trueVar := true falseVar := false const containerName = "container" testCases := []struct { name string podSpec *v1.PodSpec expectedResult bool }{ { name: "hostprocess not set anywhere", podSpec: &v1.PodSpec{ Containers: []v1.Container{{ Name: containerName, }}, }, expectedResult: false, }, { name: "pod with hostprocess=false", podSpec: &v1.PodSpec{ HostNetwork: true, SecurityContext: &v1.PodSecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &falseVar, }, }, Containers: []v1.Container{{ Name: containerName, }}, }, expectedResult: false, }, { name: "pod with hostprocess=true", podSpec: &v1.PodSpec{ HostNetwork: true, SecurityContext: &v1.PodSecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &trueVar, }, }, Containers: []v1.Container{{ Name: containerName, }}, }, expectedResult: true, }, { name: "container with hostprocess=false", podSpec: &v1.PodSpec{ HostNetwork: true, Containers: []v1.Container{{ Name: containerName, SecurityContext: &v1.SecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &falseVar, }, }, }}, }, expectedResult: false, }, { name: "container with hostprocess=true", podSpec: &v1.PodSpec{ HostNetwork: true, Containers: []v1.Container{{ Name: containerName, SecurityContext: &v1.SecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &trueVar, }, }, }}, }, expectedResult: true, }, { name: "pod with hostprocess=false, container with hostprocess=true", podSpec: &v1.PodSpec{ HostNetwork: true, SecurityContext: &v1.PodSecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &falseVar, }, }, Containers: []v1.Container{{ Name: containerName, SecurityContext: &v1.SecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &trueVar, }, }, }}, }, expectedResult: true, }, { name: "pod with hostprocess=true, container with hostprocess=flase", podSpec: &v1.PodSpec{ HostNetwork: true, SecurityContext: &v1.PodSecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &trueVar, }, }, Containers: []v1.Container{{ Name: containerName, SecurityContext: &v1.SecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &falseVar, }, }, }}, }, expectedResult: false, }, { name: "containers with hostproces=mixed", podSpec: &v1.PodSpec{ Containers: []v1.Container{ { Name: containerName, SecurityContext: &v1.SecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &falseVar, }, }, }, { Name: containerName, SecurityContext: &v1.SecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &trueVar, }, }, }, }, }, expectedResult: true, }, { name: "pod with hostProcess=false, containers with hostproces=mixed", podSpec: &v1.PodSpec{ SecurityContext: &v1.PodSecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &falseVar, }, }, Containers: []v1.Container{ { Name: containerName, SecurityContext: &v1.SecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &falseVar, }, }, }, { Name: containerName, SecurityContext: &v1.SecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &trueVar, }, }, }, }, }, expectedResult: true, }, { name: "pod with hostProcess=true, containers with hostproces=mixed", podSpec: &v1.PodSpec{ SecurityContext: &v1.PodSecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &trueVar, }, }, Containers: []v1.Container{ { Name: containerName, SecurityContext: &v1.SecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &falseVar, }, }, }, { Name: containerName, SecurityContext: &v1.SecurityContext{ WindowsOptions: &v1.WindowsSecurityContextOptions{ HostProcess: &trueVar, }, }, }, }, }, expectedResult: true, }, } for _, testCase := range testCases { t.Run(testCase.name, func(t *testing.T) { pod := &v1.Pod{} pod.Spec = *testCase.podSpec result := HasWindowsHostProcessContainer(pod) assert.Equal(t, result, testCase.expectedResult) }) } } func TestHashContainerWithoutResources(t *testing.T) { cpu100m := resource.MustParse("100m") cpu200m := resource.MustParse("200m") mem100M := resource.MustParse("100Mi") mem200M := resource.MustParse("200Mi") cpuPolicyRestartNotRequired := v1.ContainerResizePolicy{ResourceName: v1.ResourceCPU, RestartPolicy: v1.NotRequired} memPolicyRestartNotRequired := v1.ContainerResizePolicy{ResourceName: v1.ResourceMemory, RestartPolicy: v1.NotRequired} cpuPolicyRestartRequired := v1.ContainerResizePolicy{ResourceName: v1.ResourceCPU, RestartPolicy: v1.RestartContainer} memPolicyRestartRequired := v1.ContainerResizePolicy{ResourceName: v1.ResourceMemory, RestartPolicy: v1.RestartContainer} type testCase struct { name string container *v1.Container expectedHash uint64 } tests := []testCase{ { "Burstable pod with CPU policy restart required", &v1.Container{ Name: "foo", Image: "bar", Resources: v1.ResourceRequirements{ Limits: v1.ResourceList{v1.ResourceCPU: cpu200m, v1.ResourceMemory: mem200M}, Requests: v1.ResourceList{v1.ResourceCPU: cpu100m, v1.ResourceMemory: mem100M}, }, ResizePolicy: []v1.ContainerResizePolicy{cpuPolicyRestartRequired, memPolicyRestartNotRequired}, }, 0x5f62cb4c, }, { "Burstable pod with memory policy restart required", &v1.Container{ Name: "foo", Image: "bar", Resources: v1.ResourceRequirements{ Limits: v1.ResourceList{v1.ResourceCPU: cpu200m, v1.ResourceMemory: mem200M}, Requests: v1.ResourceList{v1.ResourceCPU: cpu100m, v1.ResourceMemory: mem100M}, }, ResizePolicy: []v1.ContainerResizePolicy{cpuPolicyRestartNotRequired, memPolicyRestartRequired}, }, 0xcdab9e00, }, { "Guaranteed pod with CPU policy restart required", &v1.Container{ Name: "foo", Image: "bar", Resources: v1.ResourceRequirements{ Limits: v1.ResourceList{v1.ResourceCPU: cpu100m, v1.ResourceMemory: mem100M}, Requests: v1.ResourceList{v1.ResourceCPU: cpu100m, v1.ResourceMemory: mem100M}, }, ResizePolicy: []v1.ContainerResizePolicy{cpuPolicyRestartRequired, memPolicyRestartNotRequired}, }, 0x5f62cb4c, }, { "Guaranteed pod with memory policy restart required", &v1.Container{ Name: "foo", Image: "bar", Resources: v1.ResourceRequirements{ Limits: v1.ResourceList{v1.ResourceCPU: cpu100m, v1.ResourceMemory: mem100M}, Requests: v1.ResourceList{v1.ResourceCPU: cpu100m, v1.ResourceMemory: mem100M}, }, ResizePolicy: []v1.ContainerResizePolicy{cpuPolicyRestartNotRequired, memPolicyRestartRequired}, }, 0xcdab9e00, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { containerCopy := tc.container.DeepCopy() hash := HashContainerWithoutResources(tc.container) assert.Equal(t, tc.expectedHash, hash, "[%s]", tc.name) assert.Equal(t, containerCopy, tc.container, "[%s]", tc.name) }) } }