Migrated scheduler files server.go, node_label.go, csi.go, non_csi.go to structured logging (#105855)

* migrated server.go

* fixed migration

* resolving review comments

* added storageClass

* review comments

* review comments

cmd/kube-scheduler/app/server.go

@@ -65,7 +65,8 @@ type Option func(runtime.Registry) error
 func NewSchedulerCommand(registryOptions ...Option) *cobra.Command {
 	opts, err := options.NewOptions()
 	if err != nil {
-		klog.Fatalf("unable to initialize command options: %v", err)
+		klog.ErrorS(err, "Unable to initialize command options")
+		os.Exit(1)
 	}
 
 	cmd := &cobra.Command{
@@ -196,7 +197,7 @@ func Run(ctx context.Context, cc *schedulerserverconfig.CompletedConfig, sched *
 				select {
 				case <-ctx.Done():
 					// We were asked to terminate. Exit 0.
-					klog.Info("Requested to terminate. Exiting.")
+					klog.InfoS("Requested to terminate, exiting")
 					os.Exit(0)
 				default:
 					// We lost the lock.

pkg/scheduler/framework/plugins/nodelabel/node_label.go

@@ -51,7 +51,7 @@ func New(plArgs runtime.Object, handle framework.Handle) (framework.Plugin, erro
 		return nil, err
 	}
 
-	klog.Warning("NodeLabel plugin is deprecated and will be removed in a future version; use NodeAffinity instead")
+	klog.InfoS("NodeLabel plugin is deprecated and will be removed in a future version, use NodeAffinity instead")
 	return &NodeLabel{
 		handle: handle,
 		args:   args,

pkg/scheduler/framework/plugins/nodevolumelimits/csi.go

@@ -96,7 +96,7 @@ func (pl *CSILimits) Filter(ctx context.Context, _ *framework.CycleState, pod *v
 	csiNode, err := pl.csiNodeLister.Get(node.Name)
 	if err != nil {
 		// TODO: return the error once CSINode is created by default (2 releases)
-		klog.V(5).InfoS("Could not get a CSINode object for the node", "node", node.Name, "err", err)
+		klog.V(5).InfoS("Could not get a CSINode object for the node", "node", klog.KObj(node), "err", err)
 	}
 
 	newVolumes := make(map[string]string)
@@ -188,7 +188,7 @@ func (pl *CSILimits) filterAttachableVolumes(
 			}
 			// If the PVC is invalid, we don't count the volume because
 			// there's no guarantee that it belongs to the running predicate.
-			klog.V(5).InfoS("Unable to look up PVC info", "PVC", fmt.Sprintf("%s/%s", pod.Namespace, pvcName))
+			klog.V(5).InfoS("Unable to look up PVC info", "pod", klog.KObj(pod), "PVC", klog.KRef(pod.Namespace, pvcName))
 			continue
 		}
 
@@ -215,17 +215,15 @@ func (pl *CSILimits) filterAttachableVolumes(
 // the information of the CSI driver that the plugin has been migrated to.
 func (pl *CSILimits) getCSIDriverInfo(csiNode *storagev1.CSINode, pvc *v1.PersistentVolumeClaim) (string, string) {
 	pvName := pvc.Spec.VolumeName
-	namespace := pvc.Namespace
-	pvcName := pvc.Name
 
 	if pvName == "" {
-		klog.V(5).InfoS("Persistent volume had no name for claim", "PVC", fmt.Sprintf("%s/%s", namespace, pvcName))
+		klog.V(5).InfoS("Persistent volume had no name for claim", "PVC", klog.KObj(pvc))
 		return pl.getCSIDriverInfoFromSC(csiNode, pvc)
 	}
 
 	pv, err := pl.pvLister.Get(pvName)
 	if err != nil {
-		klog.V(5).InfoS("Unable to look up PV info for PVC and PV", "PVC", fmt.Sprintf("%s/%s", namespace, pvcName), "PV", pvName)
+		klog.V(5).InfoS("Unable to look up PV info for PVC and PV", "PVC", klog.KObj(pvc), "PV", klog.KRef("", pvName))
 		// If we can't fetch PV associated with PVC, may be it got deleted
 		// or PVC was prebound to a PVC that hasn't been created yet.
 		// fallback to using StorageClass for volume counting
@@ -276,13 +274,13 @@ func (pl *CSILimits) getCSIDriverInfoFromSC(csiNode *storagev1.CSINode, pvc *v1.
 	// If StorageClass is not set or not found, then PVC must be using immediate binding mode
 	// and hence it must be bound before scheduling. So it is safe to not count it.
 	if scName == "" {
-		klog.V(5).InfoS("PVC has no StorageClass", "PVC", fmt.Sprintf("%s/%s", namespace, pvcName))
+		klog.V(5).InfoS("PVC has no StorageClass", "PVC", klog.KObj(pvc))
 		return "", ""
 	}
 
 	storageClass, err := pl.scLister.Get(scName)
 	if err != nil {
-		klog.V(5).InfoS("Could not get StorageClass for PVC", "PVC", fmt.Sprintf("%s/%s", namespace, pvcName), "err", err)
+		klog.V(5).InfoS("Could not get StorageClass for PVC", "PVC", klog.KObj(pvc), "err", err)
 		return "", ""
 	}
 

pkg/scheduler/framework/plugins/nodevolumelimits/non_csi.go

@@ -178,7 +178,7 @@ func newNonCSILimits(
 		filter = cinderVolumeFilter
 		volumeLimitKey = v1.ResourceName(volumeutil.CinderVolumeLimitKey)
 	default:
-		klog.ErrorS(errors.New("wrong filterName"), "Cannot create nonCSILimits plugin", "candidates", fmt.Sprintf("%v %v %v %v", ebsVolumeFilterType, gcePDVolumeFilterType, azureDiskVolumeFilterType, cinderVolumeFilterType))
+		klog.ErrorS(errors.New("wrong filterName"), "Cannot create nonCSILimits plugin")
 		return nil
 	}
 	pl := &nonCSILimits{
@@ -242,7 +242,7 @@ func (pl *nonCSILimits) Filter(ctx context.Context, _ *framework.CycleState, pod
 		if err != nil {
 			// we don't fail here because the CSINode object is only necessary
 			// for determining whether the migration is enabled or not
-			klog.V(5).InfoS("Could not get a CSINode object for the node", "node", node.Name, "err", err)
+			klog.V(5).InfoS("Could not get a CSINode object for the node", "node", klog.KObj(node), "err", err)
 		}
 	}
 
@@ -327,7 +327,7 @@ func (pl *nonCSILimits) filterVolumes(pod *v1.Pod, newPod bool, filteredVolumes
 			}
 			// If the PVC is invalid, we don't count the volume because
 			// there's no guarantee that it belongs to the running predicate.
-			klog.V(4).InfoS("Unable to look up PVC info, assuming PVC doesn't match predicate when counting limits", "PVC", fmt.Sprintf("%s/%s", pod.Namespace, pvcName), "err", err)
+			klog.V(4).InfoS("Unable to look up PVC info, assuming PVC doesn't match predicate when counting limits", "pod", klog.KObj(pod), "PVC", klog.KRef(pod.Namespace, pvcName), "err", err)
 			continue
 		}
 
@@ -343,7 +343,7 @@ func (pl *nonCSILimits) filterVolumes(pod *v1.Pod, newPod bool, filteredVolumes
 			// original PV where it was bound to, so we count the volume if
 			// it belongs to the running predicate.
 			if pl.matchProvisioner(pvc) {
-				klog.V(4).InfoS("PVC is not bound, assuming PVC matches predicate when counting limits", "PVC", fmt.Sprintf("%s/%s", pod.Namespace, pvcName))
+				klog.V(4).InfoS("PVC is not bound, assuming PVC matches predicate when counting limits", "pod", klog.KObj(pod), "PVC", klog.KRef(pod.Namespace, pvcName))
 				filteredVolumes.Insert(pvID)
 			}
 			continue
@@ -354,7 +354,7 @@ func (pl *nonCSILimits) filterVolumes(pod *v1.Pod, newPod bool, filteredVolumes
 			// If the PV is invalid and PVC belongs to the running predicate,
 			// log the error and count the PV towards the PV limit.
 			if pl.matchProvisioner(pvc) {
-				klog.V(4).InfoS("Unable to look up PV, assuming PV matches predicate when counting limits", "PV", fmt.Sprintf("%s/%s/%s", pod.Namespace, pvcName, pvName), "err", err)
+				klog.V(4).InfoS("Unable to look up PV, assuming PV matches predicate when counting limits", "pod", klog.KObj(pod), "PVC", klog.KRef(pod.Namespace, pvcName), "PV", klog.KRef("", pvName), "err", err)
 				filteredVolumes.Insert(pvID)
 			}
 			continue
@@ -386,9 +386,9 @@ func (pl *nonCSILimits) matchProvisioner(pvc *v1.PersistentVolumeClaim) bool {
 func getMaxVolLimitFromEnv() int {
 	if rawMaxVols := os.Getenv(KubeMaxPDVols); rawMaxVols != "" {
 		if parsedMaxVols, err := strconv.Atoi(rawMaxVols); err != nil {
-			klog.ErrorS(err, "Unable to parse maximum PD volumes value, using default.")
+			klog.ErrorS(err, "Unable to parse maximum PD volumes value, using default")
 		} else if parsedMaxVols <= 0 {
-			klog.Error("Maximum PD volumes must be a positive value, using default")
+			klog.ErrorS(errors.New("maximum PD volumes is negative"), "Unable to parse maximum PD volumes value, using default")
 		} else {
 			return parsedMaxVols
 		}