// Populates data struct with pod1/volume/node and pod2/volume/node. // Calls DeleteNode() to delete the pod1/volume/node. // Verifies volume still exists, and one volumes to attach. func Test_DeletePod_Positive_2PodsExistNodeExistsVolumesExist(t *testing.T) { // Arrange volumePluginMgr, _ := volumetesting.GetTestVolumePluginMgr(t) dsw := NewDesiredStateOfWorld(volumePluginMgr) pod1Name := "pod1-uid" pod2Name := "pod2-uid" volumeName := api.UniqueVolumeName("volume-name") volumeSpec := controllervolumetesting.GetTestVolumeSpec(string(volumeName), volumeName) nodeName := "node-name" dsw.AddNode(nodeName) generatedVolumeName1, pod1AddErr := dsw.AddPod(types.UniquePodName(pod1Name), controllervolumetesting.NewPod(pod1Name, pod1Name), volumeSpec, nodeName) if pod1AddErr != nil { t.Fatalf( "AddPod failed for pod %q. Expected: <no error> Actual: <%v>", pod1Name, pod1AddErr) } generatedVolumeName2, pod2AddErr := dsw.AddPod(types.UniquePodName(pod2Name), controllervolumetesting.NewPod(pod2Name, pod2Name), volumeSpec, nodeName) if pod2AddErr != nil { t.Fatalf( "AddPod failed for pod %q. Expected: <no error> Actual: <%v>", pod2Name, pod2AddErr) } if generatedVolumeName1 != generatedVolumeName2 { t.Fatalf( "Generated volume names for the same volume should be the same but they are not: %q and %q", generatedVolumeName1, generatedVolumeName2) } volumeExists := dsw.VolumeExists(generatedVolumeName1, nodeName) if !volumeExists { t.Fatalf( "Volume %q does not exist under node %q, it should.", generatedVolumeName1, nodeName) } // Act dsw.DeletePod(types.UniquePodName(pod1Name), generatedVolumeName1, nodeName) // Assert volumeExists = dsw.VolumeExists(generatedVolumeName1, nodeName) if !volumeExists { t.Fatalf( "Volume %q under node %q should still exist, but it does not.", generatedVolumeName1, nodeName) } volumesToAttach := dsw.GetVolumesToAttach() if len(volumesToAttach) != 1 { t.Fatalf("len(volumesToAttach) Expected: <1> Actual: <%v>", len(volumesToAttach)) } verifyVolumeToAttach(t, volumesToAttach, nodeName, generatedVolumeName1, string(volumeName)) }
// Populates data struct with two nodes with one volume/pod each and an extra // pod for the second node/volume pair. // Calls GetVolumesToAttach() // Verifies two volumes to attach. func Test_GetVolumesToAttach_Positive_TwoNodesOneVolumeEachExtraPod(t *testing.T) { // Arrange volumePluginMgr, _ := volumetesting.GetTestVolumePluginMgr(t) dsw := NewDesiredStateOfWorld(volumePluginMgr) node1Name := "node1-name" pod1Name := "pod1-uid" volume1Name := api.UniqueVolumeName("volume1-name") volume1Spec := controllervolumetesting.GetTestVolumeSpec(string(volume1Name), volume1Name) dsw.AddNode(node1Name) generatedVolume1Name, podAddErr := dsw.AddPod(types.UniquePodName(pod1Name), controllervolumetesting.NewPod(pod1Name, pod1Name), volume1Spec, node1Name) if podAddErr != nil { t.Fatalf( "AddPod failed for pod %q. Expected: <no error> Actual: <%v>", pod1Name, podAddErr) } node2Name := "node2-name" pod2Name := "pod2-uid" volume2Name := api.UniqueVolumeName("volume2-name") volume2Spec := controllervolumetesting.GetTestVolumeSpec(string(volume2Name), volume2Name) dsw.AddNode(node2Name) generatedVolume2Name, podAddErr := dsw.AddPod(types.UniquePodName(pod2Name), controllervolumetesting.NewPod(pod2Name, pod2Name), volume2Spec, node2Name) if podAddErr != nil { t.Fatalf( "AddPod failed for pod %q. Expected: <no error> Actual: <%v>", pod2Name, podAddErr) } pod3Name := "pod3-uid" dsw.AddPod(types.UniquePodName(pod3Name), controllervolumetesting.NewPod(pod3Name, pod3Name), volume2Spec, node2Name) _, podAddErr = dsw.AddPod(types.UniquePodName(pod3Name), controllervolumetesting.NewPod(pod3Name, pod3Name), volume2Spec, node2Name) if podAddErr != nil { t.Fatalf( "AddPod failed for pod %q. Expected: <no error> Actual: <%v>", pod3Name, podAddErr) } // Act volumesToAttach := dsw.GetVolumesToAttach() // Assert if len(volumesToAttach) != 2 { t.Fatalf("len(volumesToAttach) Expected: <2> Actual: <%v>", len(volumesToAttach)) } verifyVolumeToAttach(t, volumesToAttach, node1Name, generatedVolume1Name, string(volume1Name)) verifyVolumeToAttach(t, volumesToAttach, node2Name, generatedVolume2Name, string(volume2Name)) }
// Populates data struct with new pod/volume1/node. // Calls VolumeExists() on that volume2/node. // Verifies volume2/node does not exist, and one volume to attach. func Test_VolumeExists_Positive_VolumeDoesntExistNodeExists(t *testing.T) { // Arrange volumePluginMgr, _ := volumetesting.GetTestVolumePluginMgr(t) dsw := NewDesiredStateOfWorld(volumePluginMgr) nodeName := "node-name" dsw.AddNode(nodeName) podName := "pod-uid" volume1Name := api.UniqueVolumeName("volume1-name") volume1Spec := controllervolumetesting.GetTestVolumeSpec(string(volume1Name), volume1Name) generatedVolume1Name, podAddErr := dsw.AddPod(types.UniquePodName(podName), controllervolumetesting.NewPod(podName, podName), volume1Spec, nodeName) if podAddErr != nil { t.Fatalf( "AddPod failed for pod %q. Expected: <no error> Actual: <%v>", podName, podAddErr) } volume2Name := api.UniqueVolumeName("volume2-name") // Act volumeExists := dsw.VolumeExists(volume2Name, nodeName) // Assert if volumeExists { t.Fatalf("Volume %q exists, it should not.", volume2Name) } volumesToAttach := dsw.GetVolumesToAttach() if len(volumesToAttach) != 1 { t.Fatalf("len(volumesToAttach) Expected: <1> Actual: <%v>", len(volumesToAttach)) } verifyVolumeToAttach(t, volumesToAttach, nodeName, generatedVolume1Name, string(volume1Name)) }
// Populates data struct with new pod/volume/node. // Calls VolumeExists() on that volume/node. // Verifies volume/node exists, and one volume to attach. func Test_VolumeExists_Positive_VolumeExistsNodeExists(t *testing.T) { // Arrange volumePluginMgr, _ := volumetesting.GetTestVolumePluginMgr(t) dsw := NewDesiredStateOfWorld(volumePluginMgr) nodeName := "node-name" dsw.AddNode(nodeName) podName := "pod-uid" volumeName := api.UniqueVolumeName("volume-name") volumeSpec := controllervolumetesting.GetTestVolumeSpec(string(volumeName), volumeName) generatedVolumeName, _ := dsw.AddPod(types.UniquePodName(podName), controllervolumetesting.NewPod(podName, podName), volumeSpec, nodeName) // Act volumeExists := dsw.VolumeExists(generatedVolumeName, nodeName) // Assert if !volumeExists { t.Fatalf("Volume %q does not exist, it should.", generatedVolumeName) } volumesToAttach := dsw.GetVolumesToAttach() if len(volumesToAttach) != 1 { t.Fatalf("len(volumesToAttach) Expected: <1> Actual: <%v>", len(volumesToAttach)) } verifyVolumeToAttach(t, volumesToAttach, nodeName, generatedVolumeName, string(volumeName)) }
// Populates data struct with pod1/volume/node. // Calls DeleteNode() to delete the pod2/volume/node. // Verifies volume still exists, and one volumes to attach. func Test_DeletePod_Positive_PodDoesNotExist(t *testing.T) { // Arrange volumePluginMgr, _ := volumetesting.GetTestVolumePluginMgr(t) dsw := NewDesiredStateOfWorld(volumePluginMgr) pod1Name := "pod1-uid" pod2Name := "pod2-uid" volumeName := api.UniqueVolumeName("volume-name") volumeSpec := controllervolumetesting.GetTestVolumeSpec(string(volumeName), volumeName) nodeName := "node-name" dsw.AddNode(nodeName) generatedVolumeName, pod1AddErr := dsw.AddPod(types.UniquePodName(pod1Name), controllervolumetesting.NewPod(pod1Name, pod1Name), volumeSpec, nodeName) if pod1AddErr != nil { t.Fatalf( "AddPod failed for pod %q. Expected: <no error> Actual: <%v>", pod1Name, pod1AddErr) } volumeExists := dsw.VolumeExists(generatedVolumeName, nodeName) if !volumeExists { t.Fatalf( "Added pod %q to volume %q/node %q. Volume does not exist, it should.", pod1Name, generatedVolumeName, nodeName) } // Act dsw.DeletePod(types.UniquePodName(pod2Name), generatedVolumeName, nodeName) // Assert volumeExists = dsw.VolumeExists(generatedVolumeName, nodeName) if !volumeExists { t.Fatalf( "Volume %q/node %q does not exist, it should.", generatedVolumeName, nodeName) } volumesToAttach := dsw.GetVolumesToAttach() if len(volumesToAttach) != 1 { t.Fatalf("len(volumesToAttach) Expected: <1> Actual: <%v>", len(volumesToAttach)) } verifyVolumeToAttach(t, volumesToAttach, nodeName, generatedVolumeName, string(volumeName)) }
// Populates data struct with new pod/volume/node. // Calls DeleteNode() to delete the node. // Verifies call fails because node still contains child volumes. func Test_DeleteNode_Negative_NodeExistsHasChildVolumes(t *testing.T) { // Arrange volumePluginMgr, _ := volumetesting.GetTestVolumePluginMgr(t) dsw := NewDesiredStateOfWorld(volumePluginMgr) nodeName := "node-name" dsw.AddNode(nodeName) podName := "pod-uid" volumeName := api.UniqueVolumeName("volume-name") volumeSpec := controllervolumetesting.GetTestVolumeSpec(string(volumeName), volumeName) generatedVolumeName, podAddErr := dsw.AddPod(types.UniquePodName(podName), controllervolumetesting.NewPod(podName, podName), volumeSpec, nodeName) if podAddErr != nil { t.Fatalf( "AddPod failed for pod %q. Expected: <no error> Actual: <%v>", podName, podAddErr) } // Act err := dsw.DeleteNode(nodeName) // Assert if err == nil { t.Fatalf("DeleteNode did not fail. Expected: <\"failed to delete node...the node still contains volumes in its list of volumes to attach\"> Actual: <no error>") } nodeExists := dsw.NodeExists(nodeName) if !nodeExists { t.Fatalf("Node %q no longer exists, it should.", nodeName) } volumesToAttach := dsw.GetVolumesToAttach() if len(volumesToAttach) != 1 { t.Fatalf("len(volumesToAttach) Expected: <1> Actual: <%v>", len(volumesToAttach)) } verifyVolumeToAttach(t, volumesToAttach, nodeName, generatedVolumeName, string(volumeName)) }
// Calls AddPod() with new pod/volume/node on empty data struct. // Verifies call fails because node does not exist. func Test_AddPod_Negative_NewPodNodeDoesntExistVolumeDoesntExist(t *testing.T) { // Arrange volumePluginMgr, _ := volumetesting.GetTestVolumePluginMgr(t) dsw := NewDesiredStateOfWorld(volumePluginMgr) podName := "pod-uid" volumeName := api.UniqueVolumeName("volume-name") volumeSpec := controllervolumetesting.GetTestVolumeSpec(string(volumeName), volumeName) nodeName := "node-name" volumeExists := dsw.VolumeExists(volumeName, nodeName) if volumeExists { t.Fatalf( "Volume %q/node %q should not exist, but it does.", volumeName, nodeName) } // Act _, podErr := dsw.AddPod(types.UniquePodName(podName), controllervolumetesting.NewPod(podName, podName), volumeSpec, nodeName) // Assert if podErr == nil { t.Fatalf("AddPod did not fail. Expected: <\"failed to add pod...no node with that name exists in the list of managed nodes\"> Actual: <no error>") } volumeExists = dsw.VolumeExists(volumeName, nodeName) if volumeExists { t.Fatalf( "Volume %q/node %q should not exist, but it does.", volumeName, nodeName) } volumesToAttach := dsw.GetVolumesToAttach() if len(volumesToAttach) != 0 { t.Fatalf("len(volumesToAttach) Expected: <0> Actual: <%v>", len(volumesToAttach)) } }
// Populates data struct with two nodes with one volume/pod on one node and two // volume/pod pairs on the other node. // Calls GetVolumesToAttach() // Verifies three volumes to attach. func Test_GetVolumesToAttach_Positive_TwoNodesThreeVolumes(t *testing.T) { // Arrange volumePluginMgr, _ := volumetesting.GetTestVolumePluginMgr(t) dsw := NewDesiredStateOfWorld(volumePluginMgr) node1Name := "node1-name" pod1Name := "pod1-uid" volume1Name := api.UniqueVolumeName("volume1-name") volume1Spec := controllervolumetesting.GetTestVolumeSpec(string(volume1Name), volume1Name) dsw.AddNode(node1Name) generatedVolume1Name, podAddErr := dsw.AddPod(types.UniquePodName(pod1Name), controllervolumetesting.NewPod(pod1Name, pod1Name), volume1Spec, node1Name) if podAddErr != nil { t.Fatalf( "AddPod failed for pod %q. Expected: <no error> Actual: <%v>", pod1Name, podAddErr) } node2Name := "node2-name" pod2aName := "pod2a-name" volume2Name := api.UniqueVolumeName("volume2-name") volume2Spec := controllervolumetesting.GetTestVolumeSpec(string(volume2Name), volume2Name) dsw.AddNode(node2Name) generatedVolume2Name1, podAddErr := dsw.AddPod(types.UniquePodName(pod2aName), controllervolumetesting.NewPod(pod2aName, pod2aName), volume2Spec, node2Name) if podAddErr != nil { t.Fatalf( "AddPod failed for pod %q. Expected: <no error> Actual: <%v>", pod2aName, podAddErr) } pod2bName := "pod2b-name" generatedVolume2Name2, podAddErr := dsw.AddPod(types.UniquePodName(pod2bName), controllervolumetesting.NewPod(pod2bName, pod2bName), volume2Spec, node2Name) if podAddErr != nil { t.Fatalf( "AddPod failed for pod %q. Expected: <no error> Actual: <%v>", pod2bName, podAddErr) } if generatedVolume2Name1 != generatedVolume2Name2 { t.Fatalf( "Generated volume names for the same volume should be the same but they are not: %q and %q", generatedVolume2Name1, generatedVolume2Name2) } pod3Name := "pod3-uid" volume3Name := api.UniqueVolumeName("volume3-name") volume3Spec := controllervolumetesting.GetTestVolumeSpec(string(volume3Name), volume3Name) generatedVolume3Name, podAddErr := dsw.AddPod(types.UniquePodName(pod3Name), controllervolumetesting.NewPod(pod3Name, pod3Name), volume3Spec, node1Name) if podAddErr != nil { t.Fatalf( "AddPod failed for pod %q. Expected: <no error> Actual: <%v>", pod3Name, podAddErr) } // Act volumesToAttach := dsw.GetVolumesToAttach() // Assert if len(volumesToAttach) != 3 { t.Fatalf("len(volumesToAttach) Expected: <3> Actual: <%v>", len(volumesToAttach)) } verifyVolumeToAttach(t, volumesToAttach, node1Name, generatedVolume1Name, string(volume1Name)) verifyVolumeToAttach(t, volumesToAttach, node2Name, generatedVolume2Name1, string(volume2Name)) verifyVolumeToAttach(t, volumesToAttach, node1Name, generatedVolume3Name, string(volume3Name)) }