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gce_disks.go
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gce_disks.go
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/*
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 gce
import (
"context"
"encoding/json"
"fmt"
"net/http"
"strings"
"k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/api/resource"
"k8s.io/apimachinery/pkg/types"
"k8s.io/apimachinery/pkg/util/sets"
"k8s.io/kubernetes/pkg/cloudprovider"
kubeletapis "k8s.io/kubernetes/pkg/kubelet/apis"
"k8s.io/kubernetes/pkg/volume"
volumeutil "k8s.io/kubernetes/pkg/volume/util"
"github.com/golang/glog"
computebeta "google.golang.org/api/compute/v0.beta"
compute "google.golang.org/api/compute/v1"
"google.golang.org/api/googleapi"
utilfeature "k8s.io/apiserver/pkg/util/feature"
"k8s.io/kubernetes/pkg/cloudprovider/providers/gce/cloud"
"k8s.io/kubernetes/pkg/cloudprovider/providers/gce/cloud/meta"
"k8s.io/kubernetes/pkg/features"
)
type DiskType string
const (
DiskTypeSSD = "pd-ssd"
DiskTypeStandard = "pd-standard"
diskTypeDefault = DiskTypeStandard
diskTypeURITemplateSingleZone = "%s/zones/%s/diskTypes/%s" // {gce.projectID}/zones/{disk.Zone}/diskTypes/{disk.Type}"
diskTypeURITemplateRegional = "%s/regions/%s/diskTypes/%s" // {gce.projectID}/regions/{disk.Region}/diskTypes/{disk.Type}"
diskTypePersistent = "PERSISTENT"
diskSourceURITemplateSingleZone = "%s/zones/%s/disks/%s" // {gce.projectID}/zones/{disk.Zone}/disks/{disk.Name}"
diskSourceURITemplateRegional = "%s/regions/%s/disks/%s" //{gce.projectID}/regions/{disk.Region}/disks/repd"
replicaZoneURITemplateSingleZone = "%s/zones/%s" // {gce.projectID}/zones/{disk.Zone}
)
type diskServiceManager interface {
// Creates a new persistent disk on GCE with the given disk spec.
CreateDiskOnCloudProvider(
name string,
sizeGb int64,
tagsStr string,
diskType string,
zone string) error
// Creates a new regional persistent disk on GCE with the given disk spec.
CreateRegionalDiskOnCloudProvider(
name string,
sizeGb int64,
tagsStr string,
diskType string,
zones sets.String) error
// Deletes the persistent disk from GCE with the given diskName.
DeleteDiskOnCloudProvider(zone string, disk string) error
// Deletes the regional persistent disk from GCE with the given diskName.
DeleteRegionalDiskOnCloudProvider(diskName string) error
// Attach a persistent disk on GCE with the given disk spec to the specified instance.
AttachDiskOnCloudProvider(
disk *GCEDisk,
readWrite string,
instanceZone string,
instanceName string) error
// Detach a persistent disk on GCE with the given disk spec from the specified instance.
DetachDiskOnCloudProvider(
instanceZone string,
instanceName string,
devicePath string) error
ResizeDiskOnCloudProvider(disk *GCEDisk, sizeGb int64, zone string) error
RegionalResizeDiskOnCloudProvider(disk *GCEDisk, sizeGb int64) error
// Gets the persistent disk from GCE with the given diskName.
GetDiskFromCloudProvider(zone string, diskName string) (*GCEDisk, error)
// Gets the regional persistent disk from GCE with the given diskName.
GetRegionalDiskFromCloudProvider(diskName string) (*GCEDisk, error)
}
type gceServiceManager struct {
gce *GCECloud
}
var _ diskServiceManager = &gceServiceManager{}
func (manager *gceServiceManager) CreateDiskOnCloudProvider(
name string,
sizeGb int64,
tagsStr string,
diskType string,
zone string) error {
diskTypeURI, err := manager.getDiskTypeURI(
manager.gce.region /* diskRegion */, singleZone{zone}, diskType, false /* useBetaAPI */)
if err != nil {
return err
}
diskToCreateV1 := &compute.Disk{
Name: name,
SizeGb: sizeGb,
Description: tagsStr,
Type: diskTypeURI,
}
ctx, cancel := cloud.ContextWithCallTimeout()
defer cancel()
return manager.gce.c.Disks().Insert(ctx, meta.ZonalKey(name, zone), diskToCreateV1)
}
func (manager *gceServiceManager) CreateRegionalDiskOnCloudProvider(
name string,
sizeGb int64,
tagsStr string,
diskType string,
replicaZones sets.String) error {
if !utilfeature.DefaultFeatureGate.Enabled(features.GCERegionalPersistentDisk) {
return fmt.Errorf("the regional PD feature is only available with the %s Kubernetes feature gate enabled", features.GCERegionalPersistentDisk)
}
diskTypeURI, err := manager.getDiskTypeURI(
manager.gce.region /* diskRegion */, multiZone{replicaZones}, diskType, true /* useBetaAPI */)
if err != nil {
return err
}
fullyQualifiedReplicaZones := []string{}
for _, replicaZone := range replicaZones.UnsortedList() {
fullyQualifiedReplicaZones = append(
fullyQualifiedReplicaZones, manager.getReplicaZoneURI(replicaZone, true))
}
diskToCreateBeta := &computebeta.Disk{
Name: name,
SizeGb: sizeGb,
Description: tagsStr,
Type: diskTypeURI,
ReplicaZones: fullyQualifiedReplicaZones,
}
ctx, cancel := cloud.ContextWithCallTimeout()
defer cancel()
return manager.gce.c.BetaRegionDisks().Insert(ctx, meta.RegionalKey(name, manager.gce.region), diskToCreateBeta)
}
func (manager *gceServiceManager) AttachDiskOnCloudProvider(
disk *GCEDisk,
readWrite string,
instanceZone string,
instanceName string) error {
source, err := manager.getDiskSourceURI(disk)
if err != nil {
return err
}
attachedDiskV1 := &compute.AttachedDisk{
DeviceName: disk.Name,
Kind: disk.Kind,
Mode: readWrite,
Source: source,
Type: diskTypePersistent,
}
ctx, cancel := cloud.ContextWithCallTimeout()
defer cancel()
return manager.gce.c.Instances().AttachDisk(ctx, meta.ZonalKey(instanceName, instanceZone), attachedDiskV1)
}
func (manager *gceServiceManager) DetachDiskOnCloudProvider(
instanceZone string,
instanceName string,
devicePath string) error {
ctx, cancel := cloud.ContextWithCallTimeout()
defer cancel()
return manager.gce.c.Instances().DetachDisk(ctx, meta.ZonalKey(instanceName, instanceZone), devicePath)
}
func (manager *gceServiceManager) GetDiskFromCloudProvider(
zone string,
diskName string) (*GCEDisk, error) {
if zone == "" {
return nil, fmt.Errorf("Can not fetch disk %q. Zone is empty.", diskName)
}
if diskName == "" {
return nil, fmt.Errorf("Can not fetch disk. Zone is specified (%q). But disk name is empty.", zone)
}
ctx, cancel := cloud.ContextWithCallTimeout()
defer cancel()
diskStable, err := manager.gce.c.Disks().Get(ctx, meta.ZonalKey(diskName, zone))
if err != nil {
return nil, err
}
zoneInfo := singleZone{strings.TrimSpace(lastComponent(diskStable.Zone))}
if zoneInfo.zone == "" {
zoneInfo = singleZone{zone}
}
region, err := manager.getRegionFromZone(zoneInfo)
if err != nil {
return nil, fmt.Errorf("failed to extract region from zone for %q/%q err=%v", zone, diskName, err)
}
return &GCEDisk{
ZoneInfo: zoneInfo,
Region: region,
Name: diskStable.Name,
Kind: diskStable.Kind,
Type: diskStable.Type,
SizeGb: diskStable.SizeGb,
}, nil
}
func (manager *gceServiceManager) GetRegionalDiskFromCloudProvider(
diskName string) (*GCEDisk, error) {
if !utilfeature.DefaultFeatureGate.Enabled(features.GCERegionalPersistentDisk) {
return nil, fmt.Errorf("the regional PD feature is only available with the %s Kubernetes feature gate enabled", features.GCERegionalPersistentDisk)
}
ctx, cancel := cloud.ContextWithCallTimeout()
defer cancel()
diskBeta, err := manager.gce.c.BetaRegionDisks().Get(ctx, meta.RegionalKey(diskName, manager.gce.region))
if err != nil {
return nil, err
}
zones := sets.NewString()
for _, zoneURI := range diskBeta.ReplicaZones {
zones.Insert(lastComponent(zoneURI))
}
return &GCEDisk{
ZoneInfo: multiZone{zones},
Region: lastComponent(diskBeta.Region),
Name: diskBeta.Name,
Kind: diskBeta.Kind,
Type: diskBeta.Type,
SizeGb: diskBeta.SizeGb,
}, nil
}
func (manager *gceServiceManager) DeleteDiskOnCloudProvider(
zone string,
diskName string) error {
ctx, cancel := cloud.ContextWithCallTimeout()
defer cancel()
return manager.gce.c.Disks().Delete(ctx, meta.ZonalKey(diskName, zone))
}
func (manager *gceServiceManager) DeleteRegionalDiskOnCloudProvider(
diskName string) error {
if !utilfeature.DefaultFeatureGate.Enabled(features.GCERegionalPersistentDisk) {
return fmt.Errorf("the regional PD feature is only available with the %s Kubernetes feature gate enabled", features.GCERegionalPersistentDisk)
}
ctx, cancel := cloud.ContextWithCallTimeout()
defer cancel()
return manager.gce.c.BetaRegionDisks().Delete(ctx, meta.RegionalKey(diskName, manager.gce.region))
}
func (manager *gceServiceManager) getDiskSourceURI(disk *GCEDisk) (string, error) {
getProjectsAPIEndpoint := manager.getProjectsAPIEndpoint()
switch zoneInfo := disk.ZoneInfo.(type) {
case singleZone:
if zoneInfo.zone == "" || disk.Region == "" {
// Unexpected, but sanity-check
return "", fmt.Errorf("PD does not have zone/region information: %#v", disk)
}
return getProjectsAPIEndpoint + fmt.Sprintf(
diskSourceURITemplateSingleZone,
manager.gce.projectID,
zoneInfo.zone,
disk.Name), nil
case multiZone:
if zoneInfo.replicaZones == nil || zoneInfo.replicaZones.Len() <= 0 {
// Unexpected, but sanity-check
return "", fmt.Errorf("PD is regional but does not have any replicaZones specified: %v", disk)
}
return getProjectsAPIEndpoint + fmt.Sprintf(
diskSourceURITemplateRegional,
manager.gce.projectID,
disk.Region,
disk.Name), nil
case nil:
// Unexpected, but sanity-check
return "", fmt.Errorf("PD did not have ZoneInfo: %v", disk)
default:
// Unexpected, but sanity-check
return "", fmt.Errorf("disk.ZoneInfo has unexpected type %T", zoneInfo)
}
}
func (manager *gceServiceManager) getDiskTypeURI(
diskRegion string, diskZoneInfo zoneType, diskType string, useBetaAPI bool) (string, error) {
var getProjectsAPIEndpoint string
if useBetaAPI {
getProjectsAPIEndpoint = manager.getProjectsAPIEndpointBeta()
} else {
getProjectsAPIEndpoint = manager.getProjectsAPIEndpoint()
}
switch zoneInfo := diskZoneInfo.(type) {
case singleZone:
if zoneInfo.zone == "" {
return "", fmt.Errorf("zone is empty: %v", zoneInfo)
}
return getProjectsAPIEndpoint + fmt.Sprintf(
diskTypeURITemplateSingleZone,
manager.gce.projectID,
zoneInfo.zone,
diskType), nil
case multiZone:
if zoneInfo.replicaZones == nil || zoneInfo.replicaZones.Len() <= 0 {
return "", fmt.Errorf("zoneInfo is regional but does not have any replicaZones specified: %v", zoneInfo)
}
return getProjectsAPIEndpoint + fmt.Sprintf(
diskTypeURITemplateRegional,
manager.gce.projectID,
diskRegion,
diskType), nil
case nil:
return "", fmt.Errorf("zoneInfo nil")
default:
return "", fmt.Errorf("zoneInfo has unexpected type %T", zoneInfo)
}
}
func (manager *gceServiceManager) getReplicaZoneURI(zone string, useBetaAPI bool) string {
var getProjectsAPIEndpoint string
if useBetaAPI {
getProjectsAPIEndpoint = manager.getProjectsAPIEndpointBeta()
} else {
getProjectsAPIEndpoint = manager.getProjectsAPIEndpoint()
}
return getProjectsAPIEndpoint + fmt.Sprintf(
replicaZoneURITemplateSingleZone,
manager.gce.projectID,
zone)
}
func (manager *gceServiceManager) getRegionFromZone(zoneInfo zoneType) (string, error) {
var zone string
switch zoneInfo := zoneInfo.(type) {
case singleZone:
if zoneInfo.zone == "" {
// Unexpected, but sanity-check
return "", fmt.Errorf("PD is single zone, but zone is not specified: %#v", zoneInfo)
}
zone = zoneInfo.zone
case multiZone:
if zoneInfo.replicaZones == nil || zoneInfo.replicaZones.Len() <= 0 {
// Unexpected, but sanity-check
return "", fmt.Errorf("PD is regional but does not have any replicaZones specified: %v", zoneInfo)
}
zone = zoneInfo.replicaZones.UnsortedList()[0]
case nil:
// Unexpected, but sanity-check
return "", fmt.Errorf("zoneInfo is nil")
default:
// Unexpected, but sanity-check
return "", fmt.Errorf("zoneInfo has unexpected type %T", zoneInfo)
}
region, err := GetGCERegion(zone)
if err != nil {
glog.Warningf("failed to parse GCE region from zone %q: %v", zone, err)
region = manager.gce.region
}
return region, nil
}
func (manager *gceServiceManager) ResizeDiskOnCloudProvider(disk *GCEDisk, sizeGb int64, zone string) error {
resizeServiceRequest := &compute.DisksResizeRequest{
SizeGb: sizeGb,
}
ctx, cancel := cloud.ContextWithCallTimeout()
defer cancel()
return manager.gce.c.Disks().Resize(ctx, meta.ZonalKey(disk.Name, zone), resizeServiceRequest)
}
func (manager *gceServiceManager) RegionalResizeDiskOnCloudProvider(disk *GCEDisk, sizeGb int64) error {
if !utilfeature.DefaultFeatureGate.Enabled(features.GCERegionalPersistentDisk) {
return fmt.Errorf("the regional PD feature is only available with the %s Kubernetes feature gate enabled", features.GCERegionalPersistentDisk)
}
resizeServiceRequest := &computebeta.RegionDisksResizeRequest{
SizeGb: sizeGb,
}
ctx, cancel := cloud.ContextWithCallTimeout()
defer cancel()
return manager.gce.c.BetaRegionDisks().Resize(ctx, meta.RegionalKey(disk.Name, disk.Region), resizeServiceRequest)
}
// Disks is interface for manipulation with GCE PDs.
type Disks interface {
// AttachDisk attaches given disk to the node with the specified NodeName.
// Current instance is used when instanceID is empty string.
AttachDisk(diskName string, nodeName types.NodeName, readOnly bool, regional bool) error
// DetachDisk detaches given disk to the node with the specified NodeName.
// Current instance is used when nodeName is empty string.
DetachDisk(devicePath string, nodeName types.NodeName) error
// DiskIsAttached checks if a disk is attached to the node with the specified NodeName.
DiskIsAttached(diskName string, nodeName types.NodeName) (bool, error)
// DisksAreAttached is a batch function to check if a list of disks are attached
// to the node with the specified NodeName.
DisksAreAttached(diskNames []string, nodeName types.NodeName) (map[string]bool, error)
// CreateDisk creates a new PD with given properties. Tags are serialized
// as JSON into Description field.
CreateDisk(name string, diskType string, zone string, sizeGb int64, tags map[string]string) error
// CreateRegionalDisk creates a new Regional Persistent Disk, with the
// specified properties, replicated to the specified zones. Tags are
// serialized as JSON into Description field.
CreateRegionalDisk(name string, diskType string, replicaZones sets.String, sizeGb int64, tags map[string]string) error
// DeleteDisk deletes PD.
DeleteDisk(diskToDelete string) error
// ResizeDisk resizes PD and returns new disk size
ResizeDisk(diskToResize string, oldSize resource.Quantity, newSize resource.Quantity) (resource.Quantity, error)
// GetAutoLabelsForPD returns labels to apply to PersistentVolume
// representing this PD, namely failure domain and zone.
// zone can be provided to specify the zone for the PD,
// if empty all managed zones will be searched.
GetAutoLabelsForPD(name string, zone string) (map[string]string, error)
}
// GCECloud implements Disks.
var _ Disks = (*GCECloud)(nil)
// GCECloud implements PVLabeler.
var _ cloudprovider.PVLabeler = (*GCECloud)(nil)
type GCEDisk struct {
ZoneInfo zoneType
Region string
Name string
Kind string
Type string
SizeGb int64
}
type zoneType interface {
isZoneType()
}
type multiZone struct {
replicaZones sets.String
}
type singleZone struct {
zone string
}
func (m multiZone) isZoneType() {}
func (s singleZone) isZoneType() {}
func newDiskMetricContextZonal(request, region, zone string) *metricContext {
return newGenericMetricContext("disk", request, region, zone, computeV1Version)
}
func newDiskMetricContextRegional(request, region string) *metricContext {
return newGenericMetricContext("disk", request, region, unusedMetricLabel, computeV1Version)
}
func (gce *GCECloud) GetLabelsForVolume(ctx context.Context, pv *v1.PersistentVolume) (map[string]string, error) {
// Ignore any volumes that are being provisioned
if pv.Spec.GCEPersistentDisk.PDName == volume.ProvisionedVolumeName {
return nil, nil
}
// If the zone is already labeled, honor the hint
zone := pv.Labels[kubeletapis.LabelZoneFailureDomain]
labels, err := gce.GetAutoLabelsForPD(pv.Spec.GCEPersistentDisk.PDName, zone)
if err != nil {
return nil, err
}
return labels, nil
}
func (gce *GCECloud) AttachDisk(diskName string, nodeName types.NodeName, readOnly bool, regional bool) error {
instanceName := mapNodeNameToInstanceName(nodeName)
instance, err := gce.getInstanceByName(instanceName)
if err != nil {
return fmt.Errorf("error getting instance %q", instanceName)
}
// Try fetching as regional PD
var disk *GCEDisk
var mc *metricContext
if regional && utilfeature.DefaultFeatureGate.Enabled(features.GCERegionalPersistentDisk) {
disk, err = gce.getRegionalDiskByName(diskName)
if err != nil {
return err
}
mc = newDiskMetricContextRegional("attach", gce.region)
} else {
disk, err = gce.getDiskByName(diskName, instance.Zone)
if err != nil {
return err
}
mc = newDiskMetricContextZonal("attach", gce.region, instance.Zone)
}
readWrite := "READ_WRITE"
if readOnly {
readWrite = "READ_ONLY"
}
return mc.Observe(gce.manager.AttachDiskOnCloudProvider(disk, readWrite, instance.Zone, instance.Name))
}
func (gce *GCECloud) DetachDisk(devicePath string, nodeName types.NodeName) error {
instanceName := mapNodeNameToInstanceName(nodeName)
inst, err := gce.getInstanceByName(instanceName)
if err != nil {
if err == cloudprovider.InstanceNotFound {
// If instance no longer exists, safe to assume volume is not attached.
glog.Warningf(
"Instance %q does not exist. DetachDisk will assume PD %q is not attached to it.",
instanceName,
devicePath)
return nil
}
return fmt.Errorf("error getting instance %q", instanceName)
}
mc := newDiskMetricContextZonal("detach", gce.region, inst.Zone)
return mc.Observe(gce.manager.DetachDiskOnCloudProvider(inst.Zone, inst.Name, devicePath))
}
func (gce *GCECloud) DiskIsAttached(diskName string, nodeName types.NodeName) (bool, error) {
instanceName := mapNodeNameToInstanceName(nodeName)
instance, err := gce.getInstanceByName(instanceName)
if err != nil {
if err == cloudprovider.InstanceNotFound {
// If instance no longer exists, safe to assume volume is not attached.
glog.Warningf(
"Instance %q does not exist. DiskIsAttached will assume PD %q is not attached to it.",
instanceName,
diskName)
return false, nil
}
return false, err
}
for _, disk := range instance.Disks {
if disk.DeviceName == diskName {
// Disk is still attached to node
return true, nil
}
}
return false, nil
}
func (gce *GCECloud) DisksAreAttached(diskNames []string, nodeName types.NodeName) (map[string]bool, error) {
attached := make(map[string]bool)
for _, diskName := range diskNames {
attached[diskName] = false
}
instanceName := mapNodeNameToInstanceName(nodeName)
instance, err := gce.getInstanceByName(instanceName)
if err != nil {
if err == cloudprovider.InstanceNotFound {
// If instance no longer exists, safe to assume volume is not attached.
glog.Warningf(
"Instance %q does not exist. DisksAreAttached will assume PD %v are not attached to it.",
instanceName,
diskNames)
return attached, nil
}
return attached, err
}
for _, instanceDisk := range instance.Disks {
for _, diskName := range diskNames {
if instanceDisk.DeviceName == diskName {
// Disk is still attached to node
attached[diskName] = true
}
}
}
return attached, nil
}
// CreateDisk creates a new Persistent Disk, with the specified name &
// size, in the specified zone. It stores specified tags encoded in
// JSON in Description field.
func (gce *GCECloud) CreateDisk(
name string, diskType string, zone string, sizeGb int64, tags map[string]string) error {
// Do not allow creation of PDs in zones that are do not have nodes. Such PDs
// are not currently usable.
curZones, err := gce.GetAllCurrentZones()
if err != nil {
return err
}
if !curZones.Has(zone) {
return fmt.Errorf("kubernetes does not have a node in zone %q", zone)
}
tagsStr, err := gce.encodeDiskTags(tags)
if err != nil {
return err
}
diskType, err = getDiskType(diskType)
if err != nil {
return err
}
mc := newDiskMetricContextZonal("create", gce.region, zone)
err = gce.manager.CreateDiskOnCloudProvider(
name, sizeGb, tagsStr, diskType, zone)
mc.Observe(err)
if isGCEError(err, "alreadyExists") {
glog.Warningf("GCE PD %q already exists, reusing", name)
return nil
}
return err
}
// CreateRegionalDisk creates a new Regional Persistent Disk, with the specified
// name & size, replicated to the specified zones. It stores specified tags
// encoded in JSON in Description field.
func (gce *GCECloud) CreateRegionalDisk(
name string, diskType string, replicaZones sets.String, sizeGb int64, tags map[string]string) error {
// Do not allow creation of PDs in zones that are do not have nodes. Such PDs
// are not currently usable. This functionality should be reverted to checking
// against managed zones if we want users to be able to create RegionalDisks
// in zones where there are no nodes
curZones, err := gce.GetAllCurrentZones()
if err != nil {
return err
}
if !curZones.IsSuperset(replicaZones) {
return fmt.Errorf("kubernetes does not have nodes in specified zones: %q. Zones that contain nodes: %q", replicaZones.Difference(curZones), curZones)
}
tagsStr, err := gce.encodeDiskTags(tags)
if err != nil {
return err
}
diskType, err = getDiskType(diskType)
if err != nil {
return err
}
mc := newDiskMetricContextRegional("create", gce.region)
err = gce.manager.CreateRegionalDiskOnCloudProvider(
name, sizeGb, tagsStr, diskType, replicaZones)
mc.Observe(err)
if isGCEError(err, "alreadyExists") {
glog.Warningf("GCE PD %q already exists, reusing", name)
return nil
}
return err
}
func getDiskType(diskType string) (string, error) {
switch diskType {
case DiskTypeSSD, DiskTypeStandard:
return diskType, nil
case "":
return diskTypeDefault, nil
default:
return "", fmt.Errorf("invalid GCE disk type %q", diskType)
}
}
func (gce *GCECloud) DeleteDisk(diskToDelete string) error {
err := gce.doDeleteDisk(diskToDelete)
if isGCEError(err, "resourceInUseByAnotherResource") {
return volume.NewDeletedVolumeInUseError(err.Error())
}
if err == cloudprovider.DiskNotFound {
return nil
}
return err
}
// ResizeDisk expands given disk and returns new disk size
func (gce *GCECloud) ResizeDisk(diskToResize string, oldSize resource.Quantity, newSize resource.Quantity) (resource.Quantity, error) {
disk, err := gce.GetDiskByNameUnknownZone(diskToResize)
if err != nil {
return oldSize, err
}
requestBytes := newSize.Value()
// GCE resizes in chunks of GBs (not GiB)
requestGB := volumeutil.RoundUpSize(requestBytes, 1000*1000*1000)
newSizeQuant := resource.MustParse(fmt.Sprintf("%dG", requestGB))
// If disk is already of size equal or greater than requested size, we simply return
if disk.SizeGb >= requestGB {
return newSizeQuant, nil
}
var mc *metricContext
switch zoneInfo := disk.ZoneInfo.(type) {
case singleZone:
mc = newDiskMetricContextZonal("resize", disk.Region, zoneInfo.zone)
err := gce.manager.ResizeDiskOnCloudProvider(disk, requestGB, zoneInfo.zone)
if err != nil {
return oldSize, mc.Observe(err)
} else {
return newSizeQuant, mc.Observe(err)
}
case multiZone:
if !utilfeature.DefaultFeatureGate.Enabled(features.GCERegionalPersistentDisk) {
return oldSize, fmt.Errorf("disk.ZoneInfo has unexpected type %T", zoneInfo)
}
mc = newDiskMetricContextRegional("resize", disk.Region)
err := gce.manager.RegionalResizeDiskOnCloudProvider(disk, requestGB)
if err != nil {
return oldSize, mc.Observe(err)
} else {
return newSizeQuant, mc.Observe(err)
}
case nil:
return oldSize, fmt.Errorf("PD has nil ZoneInfo: %v", disk)
default:
return oldSize, fmt.Errorf("disk.ZoneInfo has unexpected type %T", zoneInfo)
}
}
// Builds the labels that should be automatically added to a PersistentVolume backed by a GCE PD
// Specifically, this builds FailureDomain (zone) and Region labels.
// The PersistentVolumeLabel admission controller calls this and adds the labels when a PV is created.
// If zone is specified, the volume will only be found in the specified zone,
// otherwise all managed zones will be searched.
func (gce *GCECloud) GetAutoLabelsForPD(name string, zone string) (map[string]string, error) {
var disk *GCEDisk
var err error
if zone == "" {
// For regional PDs this is fine, but for zonal PDs we would like as far
// as possible to avoid this case, because GCE doesn't guarantee that
// volumes are uniquely named per region, just per zone. However,
// creation of GCE PDs was originally done only by name, so we have to
// continue to support that.
// However, wherever possible the zone should be passed (and it is
// passed for most cases that we can control, e.g. dynamic volume
// provisioning).
disk, err = gce.GetDiskByNameUnknownZone(name)
if err != nil {
return nil, err
}
} else {
// We could assume the disks exists; we have all the information we need
// However it is more consistent to ensure the disk exists,
// and in future we may gather addition information (e.g. disk type, IOPS etc)
if utilfeature.DefaultFeatureGate.Enabled(features.GCERegionalPersistentDisk) {
zoneSet, err := volumeutil.LabelZonesToSet(zone)
if err != nil {
glog.Warningf("Failed to parse zone field: %q. Will use raw field.", zone)
}
if len(zoneSet) > 1 {
// Regional PD
disk, err = gce.getRegionalDiskByName(name)
if err != nil {
return nil, err
}
} else {
// Zonal PD
disk, err = gce.getDiskByName(name, zone)
if err != nil {
return nil, err
}
}
} else {
disk, err = gce.getDiskByName(name, zone)
if err != nil {
return nil, err
}
}
}
labels := make(map[string]string)
switch zoneInfo := disk.ZoneInfo.(type) {
case singleZone:
if zoneInfo.zone == "" || disk.Region == "" {
// Unexpected, but sanity-check
return nil, fmt.Errorf("PD did not have zone/region information: %v", disk)
}
labels[kubeletapis.LabelZoneFailureDomain] = zoneInfo.zone
labels[kubeletapis.LabelZoneRegion] = disk.Region
case multiZone:
if zoneInfo.replicaZones == nil || zoneInfo.replicaZones.Len() <= 0 {
// Unexpected, but sanity-check
return nil, fmt.Errorf("PD is regional but does not have any replicaZones specified: %v", disk)
}
labels[kubeletapis.LabelZoneFailureDomain] =
volumeutil.ZonesSetToLabelValue(zoneInfo.replicaZones)
labels[kubeletapis.LabelZoneRegion] = disk.Region
case nil:
// Unexpected, but sanity-check
return nil, fmt.Errorf("PD did not have ZoneInfo: %v", disk)
default:
// Unexpected, but sanity-check
return nil, fmt.Errorf("disk.ZoneInfo has unexpected type %T", zoneInfo)
}
return labels, nil
}
// Returns a GCEDisk for the disk, if it is found in the specified zone.
// If not found, returns (nil, nil)
func (gce *GCECloud) findDiskByName(diskName string, zone string) (*GCEDisk, error) {
mc := newDiskMetricContextZonal("get", gce.region, zone)
disk, err := gce.manager.GetDiskFromCloudProvider(zone, diskName)
if err == nil {
return disk, mc.Observe(nil)
}
if !isHTTPErrorCode(err, http.StatusNotFound) {
return nil, mc.Observe(err)
}
return nil, mc.Observe(nil)
}
// Like findDiskByName, but returns an error if the disk is not found
func (gce *GCECloud) getDiskByName(diskName string, zone string) (*GCEDisk, error) {
disk, err := gce.findDiskByName(diskName, zone)
if disk == nil && err == nil {
return nil, fmt.Errorf("GCE persistent disk not found: diskName=%q zone=%q", diskName, zone)
}
return disk, err
}
// Returns a GCEDisk for the regional disk, if it is found.
// If not found, returns (nil, nil)
func (gce *GCECloud) findRegionalDiskByName(diskName string) (*GCEDisk, error) {
mc := newDiskMetricContextRegional("get", gce.region)
disk, err := gce.manager.GetRegionalDiskFromCloudProvider(diskName)
if err == nil {
return disk, mc.Observe(nil)
}
if !isHTTPErrorCode(err, http.StatusNotFound) {
return nil, mc.Observe(err)
}
return nil, mc.Observe(nil)
}
// Like findRegionalDiskByName, but returns an error if the disk is not found
func (gce *GCECloud) getRegionalDiskByName(diskName string) (*GCEDisk, error) {
disk, err := gce.findRegionalDiskByName(diskName)
if disk == nil && err == nil {
return nil, fmt.Errorf("GCE regional persistent disk not found: diskName=%q", diskName)
}
return disk, err
}
// Scans all managed zones to return the GCE PD
// Prefer getDiskByName, if the zone can be established
// Return cloudprovider.DiskNotFound if the given disk cannot be found in any zone
func (gce *GCECloud) GetDiskByNameUnknownZone(diskName string) (*GCEDisk, error) {
if utilfeature.DefaultFeatureGate.Enabled(features.GCERegionalPersistentDisk) {
regionalDisk, err := gce.getRegionalDiskByName(diskName)
if err == nil {
return regionalDisk, err
}
}
// Note: this is the gotcha right now with GCE PD support:
// disk names are not unique per-region.
// (I can create two volumes with name "myvol" in e.g. us-central1-b & us-central1-f)
// For now, this is simply undefined behaviour.
//
// In future, we will have to require users to qualify their disk
// "us-central1-a/mydisk". We could do this for them as part of
// admission control, but that might be a little weird (values changing
// on create)
var found *GCEDisk
for _, zone := range gce.managedZones {
disk, err := gce.findDiskByName(diskName, zone)
if err != nil {
return nil, err
}
// findDiskByName returns (nil,nil) if the disk doesn't exist, so we can't
// assume that a disk was found unless disk is non-nil.
if disk == nil {
continue
}
if found != nil {
switch zoneInfo := disk.ZoneInfo.(type) {
case multiZone:
if zoneInfo.replicaZones.Has(zone) {
glog.Warningf("GCE PD name (%q) was found in multiple zones (%q), but ok because it is a RegionalDisk.",
diskName, zoneInfo.replicaZones)
continue
}
return nil, fmt.Errorf("GCE PD name was found in multiple zones: %q", diskName)
default:
return nil, fmt.Errorf("GCE PD name was found in multiple zones: %q", diskName)
}
}
found = disk
}
if found != nil {
return found, nil
}
glog.Warningf("GCE persistent disk %q not found in managed zones (%s)",
diskName, strings.Join(gce.managedZones, ","))
return nil, cloudprovider.DiskNotFound
}
// encodeDiskTags encodes requested volume tags into JSON string, as GCE does
// not support tags on GCE PDs and we use Description field as fallback.
func (gce *GCECloud) encodeDiskTags(tags map[string]string) (string, error) {
if len(tags) == 0 {
// No tags -> empty JSON
return "", nil
}
enc, err := json.Marshal(tags)
if err != nil {
return "", err
}
return string(enc), nil
}
func (gce *GCECloud) doDeleteDisk(diskToDelete string) error {
disk, err := gce.GetDiskByNameUnknownZone(diskToDelete)
if err != nil {
return err
}
var mc *metricContext
switch zoneInfo := disk.ZoneInfo.(type) {
case singleZone:
mc = newDiskMetricContextZonal("delete", disk.Region, zoneInfo.zone)
return mc.Observe(gce.manager.DeleteDiskOnCloudProvider(zoneInfo.zone, disk.Name))
case multiZone: