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/*
Copyright 2014 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"
"fmt"
"io"
"net/http"
"regexp"
"strconv"
"strings"
"sync"
"time"
gcfg "gopkg.in/gcfg.v1"
"cloud.google.com/go/compute/metadata"
"k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/util/sets"
"k8s.io/apimachinery/pkg/util/wait"
"k8s.io/apiserver/pkg/server/options/encryptionconfig"
"k8s.io/apiserver/pkg/storage/value/encrypt/envelope"
"k8s.io/client-go/informers"
clientset "k8s.io/client-go/kubernetes"
"k8s.io/client-go/kubernetes/scheme"
v1core "k8s.io/client-go/kubernetes/typed/core/v1"
"k8s.io/client-go/tools/cache"
"k8s.io/client-go/tools/record"
"k8s.io/client-go/util/flowcontrol"
"k8s.io/kubernetes/pkg/cloudprovider"
"k8s.io/kubernetes/pkg/controller"
kubeletapis "k8s.io/kubernetes/pkg/kubelet/apis"
"github.com/golang/glog"
"golang.org/x/oauth2"
"golang.org/x/oauth2/google"
cloudkms "google.golang.org/api/cloudkms/v1"
computealpha "google.golang.org/api/compute/v0.alpha"
computebeta "google.golang.org/api/compute/v0.beta"
compute "google.golang.org/api/compute/v1"
container "google.golang.org/api/container/v1"
)
const (
ProviderName = "gce"
k8sNodeRouteTag = "k8s-node-route"
// AffinityTypeNone - no session affinity.
gceAffinityTypeNone = "NONE"
// AffinityTypeClientIP - affinity based on Client IP.
gceAffinityTypeClientIP = "CLIENT_IP"
// AffinityTypeClientIPProto - affinity based on Client IP and port.
gceAffinityTypeClientIPProto = "CLIENT_IP_PROTO"
operationPollInterval = 3 * time.Second
// Creating Route in very large clusters, may take more than half an hour.
operationPollTimeoutDuration = time.Hour
// Each page can have 500 results, but we cap how many pages
// are iterated through to prevent infinite loops if the API
// were to continuously return a nextPageToken.
maxPages = 25
maxTargetPoolCreateInstances = 200
// HTTP Load Balancer parameters
// Configure 2 second period for external health checks.
gceHcCheckIntervalSeconds = int64(2)
gceHcTimeoutSeconds = int64(1)
// Start sending requests as soon as a pod is found on the node.
gceHcHealthyThreshold = int64(1)
// Defaults to 5 * 2 = 10 seconds before the LB will steer traffic away
gceHcUnhealthyThreshold = int64(5)
gceComputeAPIEndpoint = "https://www.googleapis.com/compute/v1/"
gceComputeAPIEndpointAlpha = "https://www.googleapis.com/compute/alpha/"
)
// gceObject is an abstraction of all GCE API object in go client
type gceObject interface {
MarshalJSON() ([]byte, error)
}
// GCECloud is an implementation of Interface, LoadBalancer and Instances for Google Compute Engine.
type GCECloud struct {
// ClusterID contains functionality for getting (and initializing) the ingress-uid. Call GCECloud.Initialize()
// for the cloudprovider to start watching the configmap.
ClusterID ClusterID
service *compute.Service
serviceBeta *computebeta.Service
serviceAlpha *computealpha.Service
containerService *container.Service
cloudkmsService *cloudkms.Service
client clientset.Interface
clientBuilder controller.ControllerClientBuilder
eventBroadcaster record.EventBroadcaster
eventRecorder record.EventRecorder
projectID string
region string
localZone string // The zone in which we are running
// managedZones will be set to the 1 zone if running a single zone cluster
// it will be set to ALL zones in region for any multi-zone cluster
// Use GetAllCurrentZones to get only zones that contain nodes
managedZones []string
networkURL string
isLegacyNetwork bool
subnetworkURL string
secondaryRangeName string
networkProjectID string
onXPN bool
nodeTags []string // List of tags to use on firewall rules for load balancers
lastComputedNodeTags []string // List of node tags calculated in GetHostTags()
lastKnownNodeNames sets.String // List of hostnames used to calculate lastComputedHostTags in GetHostTags(names)
computeNodeTagLock sync.Mutex // Lock for computing and setting node tags
nodeInstancePrefix string // If non-"", an advisory prefix for all nodes in the cluster
useMetadataServer bool
operationPollRateLimiter flowcontrol.RateLimiter
manager ServiceManager
// Lock for access to nodeZones
nodeZonesLock sync.Mutex
// nodeZones is a mapping from Zone to a sets.String of Node's names in the Zone
// it is updated by the nodeInformer
nodeZones map[string]sets.String
nodeInformerSynced cache.InformerSynced
// sharedResourceLock is used to serialize GCE operations that may mutate shared state to
// prevent inconsistencies. For example, load balancers manipulation methods will take the
// lock to prevent shared resources from being prematurely deleted while the operation is
// in progress.
sharedResourceLock sync.Mutex
// AlphaFeatureGate gates gce alpha features in GCECloud instance.
// Related wrapper functions that interacts with gce alpha api should examine whether
// the corresponding api is enabled.
// If not enabled, it should return error.
AlphaFeatureGate *AlphaFeatureGate
}
type ServiceManager interface {
// Creates a new persistent disk on GCE with the given disk spec.
CreateDisk(
name string,
sizeGb int64,
tagsStr string,
diskType string,
zone string) (gceObject, error)
// Creates a new regional persistent disk on GCE with the given disk spec.
CreateRegionalDisk(
name string,
sizeGb int64,
tagsStr string,
diskType string,
zones sets.String) (gceObject, error)
// Deletes the persistent disk from GCE with the given diskName.
DeleteDisk(zone string, disk string) (gceObject, error)
// Deletes the regional persistent disk from GCE with the given diskName.
DeleteRegionalDisk(diskName string) (gceObject, error)
// Attach a persistent disk on GCE with the given disk spec to the specified instance.
AttachDisk(
disk *GCEDisk,
readWrite string,
instanceZone string,
instanceName string) (gceObject, error)
// Detach a persistent disk on GCE with the given disk spec from the specified instance.
DetachDisk(
instanceZone string,
instanceName string,
devicePath string) (gceObject, error)
// Gets the persistent disk from GCE with the given diskName.
GetDisk(zone string, diskName string) (*GCEDisk, error)
// Gets the regional persistent disk from GCE with the given diskName.
GetRegionalDisk(diskName string) (*GCEDisk, error)
// Waits until GCE reports the given operation in the given zone as done.
WaitForZoneOp(op gceObject, zone string, mc *metricContext) error
// Waits until GCE reports the given operation in the given region is done.
WaitForRegionalOp(op gceObject, mc *metricContext) error
}
type GCEServiceManager struct {
gce *GCECloud
}
// TODO: replace gcfg with json
type ConfigGlobal struct {
TokenURL string `gcfg:"token-url"`
TokenBody string `gcfg:"token-body"`
// ProjectID and NetworkProjectID can either be the numeric or string-based
// unique identifier that starts with [a-z].
ProjectID string `gcfg:"project-id"`
// NetworkProjectID refers to the project which owns the network being used.
NetworkProjectID string `gcfg:"network-project-id"`
NetworkName string `gcfg:"network-name"`
SubnetworkName string `gcfg:"subnetwork-name"`
// SecondaryRangeName is the name of the secondary range to allocate IP
// aliases. The secondary range must be present on the subnetwork the
// cluster is attached to.
SecondaryRangeName string `gcfg:"secondary-range-name"`
NodeTags []string `gcfg:"node-tags"`
NodeInstancePrefix string `gcfg:"node-instance-prefix"`
Multizone bool `gcfg:"multizone"`
// ApiEndpoint is the GCE compute API endpoint to use. If this is blank,
// then the default endpoint is used.
ApiEndpoint string `gcfg:"api-endpoint"`
// LocalZone specifies the GCE zone that gce cloud client instance is
// located in (i.e. where the controller will be running). If this is
// blank, then the local zone will be discovered via the metadata server.
LocalZone string `gcfg:"local-zone"`
// Default to none.
// For example: MyFeatureFlag
AlphaFeatures []string `gcfg:"alpha-features"`
}
// ConfigFile is the struct used to parse the /etc/gce.conf configuration file.
type ConfigFile struct {
Global ConfigGlobal `gcfg:"global"`
}
// CloudConfig includes all the necessary configuration for creating GCECloud
type CloudConfig struct {
ApiEndpoint string
ProjectID string
NetworkProjectID string
Region string
Zone string
ManagedZones []string
NetworkName string
NetworkURL string
SubnetworkName string
SubnetworkURL string
SecondaryRangeName string
NodeTags []string
NodeInstancePrefix string
TokenSource oauth2.TokenSource
UseMetadataServer bool
AlphaFeatureGate *AlphaFeatureGate
}
// kmsPluginRegisterOnce prevents the cloudprovider from registering its KMS plugin
// more than once in the KMS plugin registry.
var kmsPluginRegisterOnce sync.Once
func init() {
cloudprovider.RegisterCloudProvider(
ProviderName,
func(config io.Reader) (cloudprovider.Interface, error) {
return newGCECloud(config)
})
}
// Raw access to the underlying GCE service, probably should only be used for e2e tests
func (g *GCECloud) GetComputeService() *compute.Service {
return g.service
}
// Raw access to the cloudkmsService of GCE cloud. Required for encryption of etcd using Google KMS.
func (g *GCECloud) GetKMSService() *cloudkms.Service {
return g.cloudkmsService
}
// newGCECloud creates a new instance of GCECloud.
func newGCECloud(config io.Reader) (gceCloud *GCECloud, err error) {
var cloudConfig *CloudConfig
var configFile *ConfigFile
if config != nil {
configFile, err = readConfig(config)
if err != nil {
return nil, err
}
glog.Infof("Using GCE provider config %+v", configFile)
}
cloudConfig, err = generateCloudConfig(configFile)
if err != nil {
return nil, err
}
return CreateGCECloud(cloudConfig)
}
func readConfig(reader io.Reader) (*ConfigFile, error) {
cfg := &ConfigFile{}
if err := gcfg.FatalOnly(gcfg.ReadInto(cfg, reader)); err != nil {
glog.Errorf("Couldn't read config: %v", err)
return nil, err
}
return cfg, nil
}
func generateCloudConfig(configFile *ConfigFile) (cloudConfig *CloudConfig, err error) {
cloudConfig = &CloudConfig{}
// By default, fetch token from GCE metadata server
cloudConfig.TokenSource = google.ComputeTokenSource("")
cloudConfig.UseMetadataServer = true
if configFile != nil {
if configFile.Global.ApiEndpoint != "" {
cloudConfig.ApiEndpoint = configFile.Global.ApiEndpoint
}
if configFile.Global.TokenURL != "" {
// if tokenURL is nil, set tokenSource to nil. This will force the OAuth client to fall
// back to use DefaultTokenSource. This allows running gceCloud remotely.
if configFile.Global.TokenURL == "nil" {
cloudConfig.TokenSource = nil
} else {
cloudConfig.TokenSource = NewAltTokenSource(configFile.Global.TokenURL, configFile.Global.TokenBody)
}
}
cloudConfig.NodeTags = configFile.Global.NodeTags
cloudConfig.NodeInstancePrefix = configFile.Global.NodeInstancePrefix
alphaFeatureGate, err := NewAlphaFeatureGate(configFile.Global.AlphaFeatures)
if err != nil {
glog.Errorf("Encountered error for creating alpha feature gate: %v", err)
}
cloudConfig.AlphaFeatureGate = alphaFeatureGate
} else {
// initialize AlphaFeatureGate when no AlphaFeatures are configured.
alphaFeatureGate, err := NewAlphaFeatureGate([]string{})
if err != nil {
glog.Errorf("Encountered error for initializing alpha feature gate: %v", err)
}
cloudConfig.AlphaFeatureGate = alphaFeatureGate
}
// retrieve projectID and zone
if configFile == nil || configFile.Global.ProjectID == "" || configFile.Global.LocalZone == "" {
cloudConfig.ProjectID, cloudConfig.Zone, err = getProjectAndZone()
if err != nil {
return nil, err
}
}
if configFile != nil {
if configFile.Global.ProjectID != "" {
cloudConfig.ProjectID = configFile.Global.ProjectID
}
if configFile.Global.LocalZone != "" {
cloudConfig.Zone = configFile.Global.LocalZone
}
if configFile.Global.NetworkProjectID != "" {
cloudConfig.NetworkProjectID = configFile.Global.NetworkProjectID
}
}
// retrieve region
cloudConfig.Region, err = GetGCERegion(cloudConfig.Zone)
if err != nil {
return nil, err
}
// generate managedZones
cloudConfig.ManagedZones = []string{cloudConfig.Zone}
if configFile != nil && configFile.Global.Multizone {
cloudConfig.ManagedZones = nil // Use all zones in region
}
// Determine if network parameter is URL or Name
if configFile != nil && configFile.Global.NetworkName != "" {
if strings.Contains(configFile.Global.NetworkName, "/") {
cloudConfig.NetworkURL = configFile.Global.NetworkName
} else {
cloudConfig.NetworkName = configFile.Global.NetworkName
}
} else {
cloudConfig.NetworkName, err = getNetworkNameViaMetadata()
if err != nil {
return nil, err
}
}
// Determine if subnetwork parameter is URL or Name
// If cluster is on a GCP network of mode=custom, then `SubnetName` must be specified in config file.
if configFile != nil && configFile.Global.SubnetworkName != "" {
if strings.Contains(configFile.Global.SubnetworkName, "/") {
cloudConfig.SubnetworkURL = configFile.Global.SubnetworkName
} else {
cloudConfig.SubnetworkName = configFile.Global.SubnetworkName
}
}
if configFile != nil {
cloudConfig.SecondaryRangeName = configFile.Global.SecondaryRangeName
}
return cloudConfig, err
}
// CreateGCECloud creates a GCECloud object using the specified parameters.
// If no networkUrl is specified, loads networkName via rest call.
// If no tokenSource is specified, uses oauth2.DefaultTokenSource.
// If managedZones is nil / empty all zones in the region will be managed.
func CreateGCECloud(config *CloudConfig) (*GCECloud, error) {
// Use ProjectID for NetworkProjectID, if it wasn't explicitly set.
if config.NetworkProjectID == "" {
config.NetworkProjectID = config.ProjectID
}
client, err := newOauthClient(config.TokenSource)
if err != nil {
return nil, err
}
service, err := compute.New(client)
if err != nil {
return nil, err
}
client, err = newOauthClient(config.TokenSource)
if err != nil {
return nil, err
}
serviceBeta, err := computebeta.New(client)
if err != nil {
return nil, err
}
client, err = newOauthClient(config.TokenSource)
if err != nil {
return nil, err
}
serviceAlpha, err := computealpha.New(client)
if err != nil {
return nil, err
}
// Expect override api endpoint to always be v1 api and follows the same pattern as prod.
// Generate alpha and beta api endpoints based on override v1 api endpoint.
// For example,
// staging API endpoint: https://www.googleapis.com/compute/staging_v1/
if config.ApiEndpoint != "" {
service.BasePath = fmt.Sprintf("%sprojects/", config.ApiEndpoint)
serviceBeta.BasePath = fmt.Sprintf("%sprojects/", strings.Replace(config.ApiEndpoint, "v1", "beta", -1))
serviceAlpha.BasePath = fmt.Sprintf("%sprojects/", strings.Replace(config.ApiEndpoint, "v1", "alpha", -1))
}
containerService, err := container.New(client)
if err != nil {
return nil, err
}
cloudkmsService, err := cloudkms.New(client)
if err != nil {
return nil, err
}
// ProjectID and.NetworkProjectID may be project number or name.
projID, netProjID := tryConvertToProjectNames(config.ProjectID, config.NetworkProjectID, service)
onXPN := projID != netProjID
var networkURL string
var subnetURL string
var isLegacyNetwork bool
if config.NetworkURL != "" {
networkURL = config.NetworkURL
} else if config.NetworkName != "" {
networkURL = gceNetworkURL(config.ApiEndpoint, netProjID, config.NetworkName)
} else {
// Other consumers may use the cloudprovider without utilizing the wrapped GCE API functions
// or functions requiring network/subnetwork URLs (e.g. Kubelet).
glog.Warningf("No network name or URL specified.")
}
if config.SubnetworkURL != "" {
subnetURL = config.SubnetworkURL
} else if config.SubnetworkName != "" {
subnetURL = gceSubnetworkURL(config.ApiEndpoint, netProjID, config.Region, config.SubnetworkName)
} else {
// Determine the type of network and attempt to discover the correct subnet for AUTO mode.
// Gracefully fail because kubelet calls CreateGCECloud without any config, and minions
// lack the proper credentials for API calls.
if networkName := lastComponent(networkURL); networkName != "" {
var n *compute.Network
if n, err = getNetwork(service, netProjID, networkName); err != nil {
glog.Warningf("Could not retrieve network %q; err: %v", networkName, err)
} else {
switch typeOfNetwork(n) {
case netTypeLegacy:
glog.Infof("Network %q is type legacy - no subnetwork", networkName)
isLegacyNetwork = true
case netTypeCustom:
glog.Warningf("Network %q is type custom - cannot auto select a subnetwork", networkName)
case netTypeAuto:
subnetURL, err = determineSubnetURL(service, netProjID, networkName, config.Region)
if err != nil {
glog.Warningf("Could not determine subnetwork for network %q and region %v; err: %v", networkName, config.Region, err)
} else {
glog.Infof("Auto selecting subnetwork %q", subnetURL)
}
}
}
}
}
if len(config.ManagedZones) == 0 {
config.ManagedZones, err = getZonesForRegion(service, config.ProjectID, config.Region)
if err != nil {
return nil, err
}
}
if len(config.ManagedZones) != 1 {
glog.Infof("managing multiple zones: %v", config.ManagedZones)
}
operationPollRateLimiter := flowcontrol.NewTokenBucketRateLimiter(10, 100) // 10 qps, 100 bucket size.
gce := &GCECloud{
service: service,
serviceAlpha: serviceAlpha,
serviceBeta: serviceBeta,
containerService: containerService,
cloudkmsService: cloudkmsService,
projectID: projID,
networkProjectID: netProjID,
onXPN: onXPN,
region: config.Region,
localZone: config.Zone,
managedZones: config.ManagedZones,
networkURL: networkURL,
isLegacyNetwork: isLegacyNetwork,
subnetworkURL: subnetURL,
secondaryRangeName: config.SecondaryRangeName,
nodeTags: config.NodeTags,
nodeInstancePrefix: config.NodeInstancePrefix,
useMetadataServer: config.UseMetadataServer,
operationPollRateLimiter: operationPollRateLimiter,
AlphaFeatureGate: config.AlphaFeatureGate,
nodeZones: map[string]sets.String{},
}
gce.manager = &GCEServiceManager{gce}
// Registering the KMS plugin only the first time.
kmsPluginRegisterOnce.Do(func() {
// Register the Google Cloud KMS based service in the KMS plugin registry.
encryptionconfig.KMSPluginRegistry.Register(KMSServiceName, func(config io.Reader) (envelope.Service, error) {
return gce.getGCPCloudKMSService(config)
})
})
return gce, nil
}
// determineSubnetURL queries for all subnetworks in a region for a given network and returns
// the URL of the subnetwork which exists in the auto-subnet range.
func determineSubnetURL(service *compute.Service, networkProjectID, networkName, region string) (string, error) {
subnets, err := listSubnetworksOfNetwork(service, networkProjectID, networkName, region)
if err != nil {
return "", err
}
autoSubnets, err := subnetsInCIDR(subnets, autoSubnetIPRange)
if err != nil {
return "", err
}
if len(autoSubnets) == 0 {
return "", fmt.Errorf("no subnet exists in auto CIDR")
}
if len(autoSubnets) > 1 {
return "", fmt.Errorf("multiple subnetworks in the same region exist in auto CIDR")
}
return autoSubnets[0].SelfLink, nil
}
func tryConvertToProjectNames(configProject, configNetworkProject string, service *compute.Service) (projID, netProjID string) {
projID = configProject
if isProjectNumber(projID) {
projName, err := getProjectID(service, projID)
if err != nil {
glog.Warningf("Failed to retrieve project %v while trying to retrieve its name. err %v", projID, err)
} else {
projID = projName
}
}
netProjID = projID
if configNetworkProject != configProject {
netProjID = configNetworkProject
}
if isProjectNumber(netProjID) {
netProjName, err := getProjectID(service, netProjID)
if err != nil {
glog.Warningf("Failed to retrieve network project %v while trying to retrieve its name. err %v", netProjID, err)
} else {
netProjID = netProjName
}
}
return projID, netProjID
}
// Initialize takes in a clientBuilder and spawns a goroutine for watching the clusterid configmap.
// This must be called before utilizing the funcs of gce.ClusterID
func (gce *GCECloud) Initialize(clientBuilder controller.ControllerClientBuilder) {
gce.clientBuilder = clientBuilder
gce.client = clientBuilder.ClientOrDie("cloud-provider")
if gce.OnXPN() {
gce.eventBroadcaster = record.NewBroadcaster()
gce.eventBroadcaster.StartRecordingToSink(&v1core.EventSinkImpl{Interface: v1core.New(gce.client.Core().RESTClient()).Events("")})
gce.eventRecorder = gce.eventBroadcaster.NewRecorder(scheme.Scheme, v1.EventSource{Component: "gce-cloudprovider"})
}
go gce.watchClusterID()
}
// LoadBalancer returns an implementation of LoadBalancer for Google Compute Engine.
func (gce *GCECloud) LoadBalancer() (cloudprovider.LoadBalancer, bool) {
return gce, true
}
// Instances returns an implementation of Instances for Google Compute Engine.
func (gce *GCECloud) Instances() (cloudprovider.Instances, bool) {
return gce, true
}
// Zones returns an implementation of Zones for Google Compute Engine.
func (gce *GCECloud) Zones() (cloudprovider.Zones, bool) {
return gce, true
}
func (gce *GCECloud) Clusters() (cloudprovider.Clusters, bool) {
return gce, true
}
// Routes returns an implementation of Routes for Google Compute Engine.
func (gce *GCECloud) Routes() (cloudprovider.Routes, bool) {
return gce, true
}
// ProviderName returns the cloud provider ID.
func (gce *GCECloud) ProviderName() string {
return ProviderName
}
// ProjectID returns the ProjectID corresponding to the project this cloud is in.
func (g *GCECloud) ProjectID() string {
return g.projectID
}
// NetworkProjectID returns the ProjectID corresponding to the project this cluster's network is in.
func (g *GCECloud) NetworkProjectID() string {
return g.networkProjectID
}
// Region returns the region
func (gce *GCECloud) Region() string {
return gce.region
}
// OnXPN returns true if the cluster is running on a cross project network (XPN)
func (gce *GCECloud) OnXPN() bool {
return gce.onXPN
}
// NetworkURL returns the network url
func (gce *GCECloud) NetworkURL() string {
return gce.networkURL
}
// SubnetworkURL returns the subnetwork url
func (gce *GCECloud) SubnetworkURL() string {
return gce.subnetworkURL
}
func (gce *GCECloud) IsLegacyNetwork() bool {
return gce.isLegacyNetwork
}
func (gce *GCECloud) SetInformers(informerFactory informers.SharedInformerFactory) {
glog.Infof("Setting up informers for GCECloud")
nodeInformer := informerFactory.Core().V1().Nodes().Informer()
nodeInformer.AddEventHandler(cache.ResourceEventHandlerFuncs{
AddFunc: func(obj interface{}) {
node := obj.(*v1.Node)
gce.updateNodeZones(nil, node)
},
UpdateFunc: func(prev, obj interface{}) {
prevNode := prev.(*v1.Node)
newNode := obj.(*v1.Node)
if newNode.Labels[kubeletapis.LabelZoneFailureDomain] ==
prevNode.Labels[kubeletapis.LabelZoneFailureDomain] {
return
}
gce.updateNodeZones(prevNode, newNode)
},
DeleteFunc: func(obj interface{}) {
node, isNode := obj.(*v1.Node)
// We can get DeletedFinalStateUnknown instead of *v1.Node here
// and we need to handle that correctly.
if !isNode {
deletedState, ok := obj.(cache.DeletedFinalStateUnknown)
if !ok {
glog.Errorf("Received unexpected object: %v", obj)
return
}
node, ok = deletedState.Obj.(*v1.Node)
if !ok {
glog.Errorf("DeletedFinalStateUnknown contained non-Node object: %v", deletedState.Obj)
return
}
}
gce.updateNodeZones(node, nil)
},
})
gce.nodeInformerSynced = nodeInformer.HasSynced
}
func (gce *GCECloud) updateNodeZones(prevNode, newNode *v1.Node) {
gce.nodeZonesLock.Lock()
defer gce.nodeZonesLock.Unlock()
if prevNode != nil {
prevZone, ok := prevNode.ObjectMeta.Labels[kubeletapis.LabelZoneFailureDomain]
if ok {
gce.nodeZones[prevZone].Delete(prevNode.ObjectMeta.Name)
if gce.nodeZones[prevZone].Len() == 0 {
gce.nodeZones[prevZone] = nil
}
}
}
if newNode != nil {
newZone, ok := newNode.ObjectMeta.Labels[kubeletapis.LabelZoneFailureDomain]
if ok {
if gce.nodeZones[newZone] == nil {
gce.nodeZones[newZone] = sets.NewString()
}
gce.nodeZones[newZone].Insert(newNode.ObjectMeta.Name)
}
}
}
// Known-useless DNS search path.
var uselessDNSSearchRE = regexp.MustCompile(`^[0-9]+.google.internal.$`)
// ScrubDNS filters DNS settings for pods.
func (gce *GCECloud) ScrubDNS(nameservers, searches []string) (nsOut, srchOut []string) {
// GCE has too many search paths by default. Filter the ones we know are useless.
for _, s := range searches {
if !uselessDNSSearchRE.MatchString(s) {
srchOut = append(srchOut, s)
}
}
return nameservers, srchOut
}
// HasClusterID returns true if the cluster has a clusterID
func (gce *GCECloud) HasClusterID() bool {
return true
}
// Project IDs cannot have a digit for the first characeter. If the id contains a digit,
// then it must be a project number.
func isProjectNumber(idOrNumber string) bool {
_, err := strconv.ParseUint(idOrNumber, 10, 64)
return err == nil
}
// GCECloud implements cloudprovider.Interface.
var _ cloudprovider.Interface = (*GCECloud)(nil)
func gceNetworkURL(apiEndpoint, project, network string) string {
if apiEndpoint == "" {
apiEndpoint = gceComputeAPIEndpoint
}
return apiEndpoint + strings.Join([]string{"projects", project, "global", "networks", network}, "/")
}
func gceSubnetworkURL(apiEndpoint, project, region, subnetwork string) string {
if apiEndpoint == "" {
apiEndpoint = gceComputeAPIEndpoint
}
return apiEndpoint + strings.Join([]string{"projects", project, "regions", region, "subnetworks", subnetwork}, "/")
}
// getProjectIDInURL parses full resource URLS and shorter URLS
// https://www.googleapis.com/compute/v1/projects/myproject/global/networks/mycustom
// projects/myproject/global/networks/mycustom
// All return "myproject"
func getProjectIDInURL(urlStr string) (string, error) {
fields := strings.Split(urlStr, "/")
for i, v := range fields {
if v == "projects" && i < len(fields)-1 {
return fields[i+1], nil
}
}
return "", fmt.Errorf("could not find project field in url: %v", urlStr)
}
// getRegionInURL parses full resource URLS and shorter URLS
// https://www.googleapis.com/compute/v1/projects/myproject/regions/us-central1/subnetworks/a
// projects/myproject/regions/us-central1/subnetworks/a
// All return "us-central1"
func getRegionInURL(urlStr string) string {
fields := strings.Split(urlStr, "/")
for i, v := range fields {
if v == "regions" && i < len(fields)-1 {
return fields[i+1]
}
}
return ""
}
func getNetworkNameViaMetadata() (string, error) {
result, err := metadata.Get("instance/network-interfaces/0/network")
if err != nil {
return "", err
}
parts := strings.Split(result, "/")
if len(parts) != 4 {
return "", fmt.Errorf("unexpected response: %s", result)
}
return parts[3], nil
}
// getNetwork returns a GCP network
func getNetwork(svc *compute.Service, networkProjectID, networkID string) (*compute.Network, error) {
return svc.Networks.Get(networkProjectID, networkID).Do()
}
// listSubnetworksOfNetwork returns a list of subnetworks for a particular region of a network.
func listSubnetworksOfNetwork(svc *compute.Service, networkProjectID, networkID, region string) ([]*compute.Subnetwork, error) {
var subnets []*compute.Subnetwork
err := svc.Subnetworks.List(networkProjectID, region).Filter(fmt.Sprintf("network eq .*/%v$", networkID)).Pages(context.Background(), func(res *compute.SubnetworkList) error {
subnets = append(subnets, res.Items...)
return nil
})
return subnets, err
}
// getProjectID returns the project's string ID given a project number or string
func getProjectID(svc *compute.Service, projectNumberOrID string) (string, error) {
proj, err := svc.Projects.Get(projectNumberOrID).Do()
if err != nil {
return "", err
}
return proj.Name, nil
}
func getZonesForRegion(svc *compute.Service, projectID, region string) ([]string, error) {
// TODO: use PageToken to list all not just the first 500
listCall := svc.Zones.List(projectID)
// Filtering by region doesn't seem to work
// (tested in https://cloud.google.com/compute/docs/reference/latest/zones/list)
// listCall = listCall.Filter("region eq " + region)
res, err := listCall.Do()
if err != nil {
return nil, fmt.Errorf("unexpected response listing zones: %v", err)
}
zones := []string{}
for _, zone := range res.Items {
regionName := lastComponent(zone.Region)
if regionName == region {
zones = append(zones, zone.Name)
}
}
return zones, nil
}
func findSubnetForRegion(subnetURLs []string, region string) string {
for _, url := range subnetURLs {
if thisRegion := getRegionInURL(url); thisRegion == region {
return url
}
}
return ""
}
func newOauthClient(tokenSource oauth2.TokenSource) (*http.Client, error) {
if tokenSource == nil {
var err error
tokenSource, err = google.DefaultTokenSource(
oauth2.NoContext,
compute.CloudPlatformScope,
compute.ComputeScope)
glog.Infof("Using DefaultTokenSource %#v", tokenSource)
if err != nil {
return nil, err
}
} else {
glog.Infof("Using existing Token Source %#v", tokenSource)
}
if err := wait.PollImmediate(5*time.Second, 30*time.Second, func() (bool, error) {
if _, err := tokenSource.Token(); err != nil {
glog.Errorf("error fetching initial token: %v", err)
return false, nil
}
return true, nil
}); err != nil {
return nil, err
}
return oauth2.NewClient(oauth2.NoContext, tokenSource), nil
}
var _ ServiceManager = &GCEServiceManager{}
func (manager *GCEServiceManager) CreateDisk(
name string,
sizeGb int64,
tagsStr string,
diskType string,
zone string) (gceObject, error) {
diskTypeURI, err := manager.getDiskTypeURI(
manager.gce.region /* diskRegion */, singleZone{zone}, diskType, false /* useAlphaAPI */)
if err != nil {
return nil, err
}
diskToCreateV1 := &compute.Disk{
Name: name,
SizeGb: sizeGb,
Description: tagsStr,
Type: diskTypeURI,
}
return manager.gce.service.Disks.Insert(
manager.gce.projectID, zone, diskToCreateV1).Do()
}
func (manager *GCEServiceManager) CreateRegionalDisk(
name string,
sizeGb int64,
tagsStr string,
diskType string,
replicaZones sets.String) (gceObject, error) {
if manager.gce.AlphaFeatureGate.Enabled(GCEDiskAlphaFeatureGate) {
diskTypeURI, err := manager.getDiskTypeURI(
manager.gce.region /* diskRegion */, multiZone{replicaZones}, diskType, true /* useAlphaAPI */)
if err != nil {
return nil, err
}
fullyQualifiedReplicaZones := []string{}
for _, replicaZone := range replicaZones.UnsortedList() {
fullyQualifiedReplicaZones = append(
fullyQualifiedReplicaZones, manager.getReplicaZoneURI(replicaZone, true))
}
diskToCreateAlpha := &computealpha.Disk{
Name: name,
SizeGb: sizeGb,
Description: tagsStr,
Type: diskTypeURI,
ReplicaZones: fullyQualifiedReplicaZones,
}
return manager.gce.serviceAlpha.RegionDisks.Insert(
manager.gce.projectID, manager.gce.region, diskToCreateAlpha).Do()
}
return nil, fmt.Errorf("The regional PD feature is only available via the GCE Alpha API. Enable \"DiskAlphaAPI\" in the list of \"alpha-features\" in \"gce.conf\" to use the feature.")
}
func (manager *GCEServiceManager) AttachDisk(
disk *GCEDisk,
readWrite string,
instanceZone string,
instanceName string) (gceObject, error) {
source, err := manager.getDiskSourceURI(disk)
if err != nil {
return nil, err
}
attachedDiskV1 := &compute.AttachedDisk{
DeviceName: disk.Name,
Kind: disk.Kind,
Mode: readWrite,
Source: source,
Type: diskTypePersistent,
}
return manager.gce.service.Instances.AttachDisk(
manager.gce.projectID, instanceZone, instanceName, attachedDiskV1).Do()
}
func (manager *GCEServiceManager) DetachDisk(
instanceZone string,
instanceName string,
devicePath string) (gceObject, error) {
return manager.gce.service.Instances.DetachDisk(
manager.gce.projectID, instanceZone, instanceName, devicePath).Do()
}
func (manager *GCEServiceManager) GetDisk(
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)
}
diskStable, err := manager.gce.service.Disks.Get(
manager.gce.projectID, zone, diskName).Do()
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,
}, nil
}
func (manager *GCEServiceManager) GetRegionalDisk(
diskName string) (*GCEDisk, error) {
if manager.gce.AlphaFeatureGate.Enabled(GCEDiskAlphaFeatureGate) {
diskAlpha, err := manager.gce.serviceAlpha.RegionDisks.Get(
manager.gce.projectID, manager.gce.region, diskName).Do()
if err != nil {
return nil, err
}
zones := sets.NewString()
for _, zoneURI := range diskAlpha.ReplicaZones {
zones.Insert(lastComponent(zoneURI))
}
return &GCEDisk{
ZoneInfo: multiZone{zones},
Region: lastComponent(diskAlpha.Region),
Name: diskAlpha.Name,
Kind: diskAlpha.Kind,
Type: diskAlpha.Type,
}, nil
}
return nil, fmt.Errorf("The regional PD feature is only available via the GCE Alpha API. Enable \"DiskAlphaAPI\" in the list of \"alpha-features\" in \"gce.conf\" to use the feature.")
}
func (manager *GCEServiceManager) DeleteDisk(
zone string,
diskName string) (gceObject, error) {
return manager.gce.service.Disks.Delete(
manager.gce.projectID, zone, diskName).Do()
}
func (manager *GCEServiceManager) DeleteRegionalDisk(
diskName string) (gceObject, error) {
if manager.gce.AlphaFeatureGate.Enabled(GCEDiskAlphaFeatureGate) {
return manager.gce.serviceAlpha.RegionDisks.Delete(
manager.gce.projectID, manager.gce.region, diskName).Do()
}
return nil, fmt.Errorf("DeleteRegionalDisk is a regional PD feature and is only available via the GCE Alpha API. Enable \"DiskAlphaAPI\" in the list of \"alpha-features\" in \"gce.conf\" to use the feature.")
}
func (manager *GCEServiceManager) WaitForZoneOp(
op gceObject, zone string, mc *metricContext) error {
return manager.gce.waitForZoneOp(op, zone, mc)
}
func (manager *GCEServiceManager) WaitForRegionalOp(
op gceObject, mc *metricContext) error {
return manager.gce.waitForRegionOp(op, manager.gce.region, mc)
}
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, useAlphaAPI bool) (string, error) {
var getProjectsAPIEndpoint string
if useAlphaAPI {
getProjectsAPIEndpoint = manager.getProjectsAPIEndpointAlpha()
} 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, useAlphaAPI bool) string {
var getProjectsAPIEndpoint string
if useAlphaAPI {
getProjectsAPIEndpoint = manager.getProjectsAPIEndpointAlpha()
} else {
getProjectsAPIEndpoint = manager.getProjectsAPIEndpoint()
}
return getProjectsAPIEndpoint + fmt.Sprintf(
replicaZoneURITemplateSingleZone,
manager.gce.projectID,
zone)
}
func (manager *GCEServiceManager) getProjectsAPIEndpoint() string {
projectsApiEndpoint := gceComputeAPIEndpoint + "projects/"
if manager.gce.service != nil {
projectsApiEndpoint = manager.gce.service.BasePath
}
return projectsApiEndpoint
}
func (manager *GCEServiceManager) getProjectsAPIEndpointAlpha() string {
projectsApiEndpoint := gceComputeAPIEndpointAlpha + "projects/"
if manager.gce.service != nil {
projectsApiEndpoint = manager.gce.serviceAlpha.BasePath
}
return projectsApiEndpoint
}
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
}
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