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871751873b
This dependency makes it harder to see the structure of the program, and sometimes complicates compilation. Mostly just changing the source of strings that are already exported from the report package. A few new strings have to be moved there, plus the function `IsPauseImageName()`.
149 lines
5.6 KiB
Go
149 lines
5.6 KiB
Go
package render
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import (
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"context"
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"strings"
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"github.com/weaveworks/scope/report"
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)
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// KubernetesVolumesRenderer is a Renderer which combines all Kubernetes
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// volumes components such as stateful Pods, Persistent Volume, Persistent Volume Claim, Storage Class.
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var KubernetesVolumesRenderer = MakeReduce(
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VolumesRenderer,
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PodToVolumeRenderer,
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PVCToStorageClassRenderer,
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PVToSnapshotRenderer,
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VolumeSnapshotRenderer,
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)
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// VolumesRenderer is a Renderer which produces a renderable kubernetes PV & PVC
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// graph by merging the pods graph and the Persistent Volume topology.
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var VolumesRenderer = volumesRenderer{}
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// volumesRenderer is a Renderer to render PV & PVC nodes.
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type volumesRenderer struct{}
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// Render renders PV & PVC nodes along with adjacency
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func (v volumesRenderer) Render(ctx context.Context, rpt report.Report) Nodes {
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nodes := make(report.Nodes)
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for id, n := range rpt.PersistentVolumeClaim.Nodes {
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volume, _ := n.Latest.Lookup(report.KubernetesVolumeName)
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for _, p := range rpt.PersistentVolume.Nodes {
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volumeName, _ := p.Latest.Lookup(report.KubernetesName)
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if volume == volumeName {
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n.Adjacency = n.Adjacency.Add(p.ID)
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n.Children = n.Children.Add(p)
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}
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}
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nodes[id] = n
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}
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return Nodes{Nodes: nodes}
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}
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// PodToVolumeRenderer is a Renderer which produces a renderable kubernetes Pod
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// graph by merging the pods graph and the Persistent Volume Claim topology.
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// Pods having persistent volumes are rendered.
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var PodToVolumeRenderer = podToVolumesRenderer{}
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// VolumesRenderer is a Renderer to render Pods & PVCs.
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type podToVolumesRenderer struct{}
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// Render renders the Pod nodes having volumes adjacency.
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func (v podToVolumesRenderer) Render(ctx context.Context, rpt report.Report) Nodes {
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nodes := make(report.Nodes)
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for podID, podNode := range rpt.Pod.Nodes {
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claimNames, found := podNode.Latest.Lookup(report.KubernetesVolumeClaim)
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if !found {
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continue
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}
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podNamespace, _ := podNode.Latest.Lookup(report.KubernetesNamespace)
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claimNameList := strings.Split(claimNames, report.ScopeDelim)
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for _, ClaimName := range claimNameList {
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for _, pvcNode := range rpt.PersistentVolumeClaim.Nodes {
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pvcName, _ := pvcNode.Latest.Lookup(report.KubernetesName)
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pvcNamespace, _ := pvcNode.Latest.Lookup(report.KubernetesNamespace)
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if (pvcName == ClaimName) && (podNamespace == pvcNamespace) {
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podNode.Adjacency = podNode.Adjacency.Add(pvcNode.ID)
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podNode.Children = podNode.Children.Add(pvcNode)
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break
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}
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}
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}
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nodes[podID] = podNode
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}
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return Nodes{Nodes: nodes}
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}
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// PVCToStorageClassRenderer is a Renderer which produces a renderable kubernetes PVC
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// & Storage class graph.
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var PVCToStorageClassRenderer = pvcToStorageClassRenderer{}
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// pvcToStorageClassRenderer is a Renderer to render PVC & StorageClass.
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type pvcToStorageClassRenderer struct{}
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// Render renders the PVC & Storage Class nodes with adjacency.
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func (v pvcToStorageClassRenderer) Render(ctx context.Context, rpt report.Report) Nodes {
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nodes := make(report.Nodes)
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for scID, scNode := range rpt.StorageClass.Nodes {
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storageClass, _ := scNode.Latest.Lookup(report.KubernetesName)
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for _, pvcNode := range rpt.PersistentVolumeClaim.Nodes {
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storageClassName, _ := pvcNode.Latest.Lookup(report.KubernetesStorageClassName)
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if storageClassName == storageClass {
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scNode.Adjacency = scNode.Adjacency.Add(pvcNode.ID)
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scNode.Children = scNode.Children.Add(pvcNode)
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}
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}
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nodes[scID] = scNode
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}
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return Nodes{Nodes: nodes}
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}
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//PVToSnapshotRenderer is a Renderer which produces a renderable kubernetes PV
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var PVToSnapshotRenderer = pvToSnapshotRenderer{}
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//pvToSnapshotRenderer is a Renderer to render PV & Snapshot.
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type pvToSnapshotRenderer struct{}
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//Render renders the PV & Snapshot nodes with adjacency.
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func (v pvToSnapshotRenderer) Render(ctx context.Context, rpt report.Report) Nodes {
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nodes := make(report.Nodes)
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for pvNodeID, p := range rpt.PersistentVolume.Nodes {
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volumeName, _ := p.Latest.Lookup(report.KubernetesName)
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for _, volumeSnapshotNode := range rpt.VolumeSnapshot.Nodes {
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snapshotPVName, _ := volumeSnapshotNode.Latest.Lookup(report.KubernetesVolumeName)
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if volumeName == snapshotPVName {
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p.Adjacency = p.Adjacency.Add(volumeSnapshotNode.ID)
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p.Children = p.Children.Add(volumeSnapshotNode)
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}
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}
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nodes[pvNodeID] = p
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}
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return Nodes{Nodes: nodes}
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}
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// VolumeSnapshotRenderer is a renderer which produces a renderable Kubernetes Volume Snapshot and Volume Snapshot Data
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var VolumeSnapshotRenderer = volumeSnapshotRenderer{}
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// volumeSnapshotRenderer is a render to volume snapshot & volume snapshot data
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type volumeSnapshotRenderer struct{}
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// Render renders the volumeSnapshots & volumeSnapshotData with adjacency
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// It checks for the volumeSnapshotData name in volumeSnapshot, adjacency is created by matching the volumeSnapshotData name.
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func (v volumeSnapshotRenderer) Render(ctx context.Context, rpt report.Report) Nodes {
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nodes := make(report.Nodes)
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for volumeSnapshotID, volumeSnapshotNode := range rpt.VolumeSnapshot.Nodes {
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snapshotData, _ := volumeSnapshotNode.Latest.Lookup(report.KubernetesSnapshotData)
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for volumeSnapshotDataID, volumeSnapshotDataNode := range rpt.VolumeSnapshotData.Nodes {
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snapshotDataName, _ := volumeSnapshotDataNode.Latest.Lookup(report.KubernetesName)
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if snapshotDataName == snapshotData {
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volumeSnapshotNode.Adjacency = volumeSnapshotNode.Adjacency.Add(volumeSnapshotDataNode.ID)
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volumeSnapshotNode.Children = volumeSnapshotNode.Children.Add(volumeSnapshotDataNode)
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}
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nodes[volumeSnapshotDataID] = volumeSnapshotDataNode
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}
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nodes[volumeSnapshotID] = volumeSnapshotNode
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}
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return Nodes{Nodes: nodes}
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}
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