mirror of
https://github.com/ceph/ceph-csi.git
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e727bd351e
updating kubernetes to 1.30 release Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
336 lines
18 KiB
Go
336 lines
18 KiB
Go
/*
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Copyright 2014 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package cloudprovider
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import (
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"context"
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"errors"
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"fmt"
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"strings"
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v1 "k8s.io/api/core/v1"
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"k8s.io/apimachinery/pkg/types"
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"k8s.io/client-go/informers"
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clientset "k8s.io/client-go/kubernetes"
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restclient "k8s.io/client-go/rest"
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)
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// ControllerClientBuilder allows you to get clients and configs for controllers
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// Please note a copy also exists in pkg/controller/client_builder.go
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// TODO: Make this depend on the separate controller utilities repo (issues/68947)
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type ControllerClientBuilder interface {
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Config(name string) (*restclient.Config, error)
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ConfigOrDie(name string) *restclient.Config
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Client(name string) (clientset.Interface, error)
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ClientOrDie(name string) clientset.Interface
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}
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// Interface is an abstract, pluggable interface for cloud providers.
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type Interface interface {
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// Initialize provides the cloud with a kubernetes client builder and may spawn goroutines
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// to perform housekeeping or run custom controllers specific to the cloud provider.
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// Any tasks started here should be cleaned up when the stop channel closes.
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Initialize(clientBuilder ControllerClientBuilder, stop <-chan struct{})
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// LoadBalancer returns a balancer interface. Also returns true if the interface is supported, false otherwise.
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LoadBalancer() (LoadBalancer, bool)
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// Instances returns an instances interface. Also returns true if the interface is supported, false otherwise.
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Instances() (Instances, bool)
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// InstancesV2 is an implementation for instances and should only be implemented by external cloud providers.
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// Implementing InstancesV2 is behaviorally identical to Instances but is optimized to significantly reduce
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// API calls to the cloud provider when registering and syncing nodes. Implementation of this interface will
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// disable calls to the Zones interface. Also returns true if the interface is supported, false otherwise.
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InstancesV2() (InstancesV2, bool)
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// Zones returns a zones interface. Also returns true if the interface is supported, false otherwise.
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// DEPRECATED: Zones is deprecated in favor of retrieving zone/region information from InstancesV2.
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// This interface will not be called if InstancesV2 is enabled.
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Zones() (Zones, bool)
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// Clusters returns a clusters interface. Also returns true if the interface is supported, false otherwise.
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Clusters() (Clusters, bool)
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// Routes returns a routes interface along with whether the interface is supported.
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Routes() (Routes, bool)
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// ProviderName returns the cloud provider ID.
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ProviderName() string
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// HasClusterID returns true if a ClusterID is required and set
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HasClusterID() bool
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}
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type InformerUser interface {
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// SetInformers sets the informer on the cloud object.
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SetInformers(informerFactory informers.SharedInformerFactory)
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}
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// Clusters is an abstract, pluggable interface for clusters of containers.
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type Clusters interface {
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// ListClusters lists the names of the available clusters.
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ListClusters(ctx context.Context) ([]string, error)
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// Master gets back the address (either DNS name or IP address) of the master node for the cluster.
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Master(ctx context.Context, clusterName string) (string, error)
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}
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// (DEPRECATED) DefaultLoadBalancerName is the default load balancer name that is called from
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// LoadBalancer.GetLoadBalancerName. Use this method to maintain backward compatible names for
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// LoadBalancers that were created prior to Kubernetes v1.12. In the future, each provider should
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// replace this method call in GetLoadBalancerName with a provider-specific implementation that
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// is less cryptic than the Service's UUID.
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func DefaultLoadBalancerName(service *v1.Service) string {
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//GCE requires that the name of a load balancer starts with a lower case letter.
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ret := "a" + string(service.UID)
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ret = strings.Replace(ret, "-", "", -1)
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//AWS requires that the name of a load balancer is shorter than 32 bytes.
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if len(ret) > 32 {
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ret = ret[:32]
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}
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return ret
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}
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// GetInstanceProviderID builds a ProviderID for a node in a cloud.
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// Note that if the instance does not exist, we must return ("", cloudprovider.InstanceNotFound)
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// cloudprovider.InstanceNotFound should NOT be returned for instances that exist but are stopped/sleeping
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func GetInstanceProviderID(ctx context.Context, cloud Interface, nodeName types.NodeName) (string, error) {
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instances, ok := cloud.Instances()
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if !ok {
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return "", fmt.Errorf("failed to get instances from cloud provider")
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}
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instanceID, err := instances.InstanceID(ctx, nodeName)
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if err != nil {
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if err == NotImplemented {
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return "", err
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}
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if err == InstanceNotFound {
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return "", err
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}
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return "", fmt.Errorf("failed to get instance ID from cloud provider: %w", err)
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}
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return cloud.ProviderName() + "://" + instanceID, nil
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}
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// LoadBalancer is an abstract, pluggable interface for load balancers.
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//
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// Cloud provider may chose to implement the logic for
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// constructing/destroying specific kinds of load balancers in a
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// controller separate from the ServiceController. If this is the case,
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// then {Ensure,Update}LoadBalancer must return the ImplementedElsewhere error.
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// For the given LB service, the GetLoadBalancer must return "exists=True" if
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// there exists a LoadBalancer instance created by ServiceController.
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// In all other cases, GetLoadBalancer must return a NotFound error.
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// EnsureLoadBalancerDeleted must not return ImplementedElsewhere to ensure
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// proper teardown of resources that were allocated by the ServiceController.
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// This can happen if a user changes the type of LB via an update to the resource
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// or when migrating from ServiceController to alternate implementation.
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// The finalizer on the service will be added and removed by ServiceController
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// irrespective of the ImplementedElsewhere error. Additional finalizers for
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// LB services must be managed in the alternate implementation.
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type LoadBalancer interface {
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// GetLoadBalancer returns whether the specified load balancer exists, and
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// if so, what its status is.
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// Implementations must treat the *v1.Service parameter as read-only and not modify it.
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// Parameter 'clusterName' is the name of the cluster as presented to kube-controller-manager.
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// TODO: Break this up into different interfaces (LB, etc) when we have more than one type of service
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GetLoadBalancer(ctx context.Context, clusterName string, service *v1.Service) (status *v1.LoadBalancerStatus, exists bool, err error)
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// GetLoadBalancerName returns the name of the load balancer. Implementations must treat the
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// *v1.Service parameter as read-only and not modify it.
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GetLoadBalancerName(ctx context.Context, clusterName string, service *v1.Service) string
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// EnsureLoadBalancer creates a new load balancer 'name', or updates the existing one. Returns the status of the balancer
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// Implementations must treat the *v1.Service and *v1.Node
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// parameters as read-only and not modify them.
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// Parameter 'clusterName' is the name of the cluster as presented to kube-controller-manager.
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//
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// Implementations may return a (possibly wrapped) api.RetryError to enforce
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// backing off at a fixed duration. This can be used for cases like when the
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// load balancer is not ready yet (e.g., it is still being provisioned) and
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// polling at a fixed rate is preferred over backing off exponentially in
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// order to minimize latency.
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EnsureLoadBalancer(ctx context.Context, clusterName string, service *v1.Service, nodes []*v1.Node) (*v1.LoadBalancerStatus, error)
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// UpdateLoadBalancer updates hosts under the specified load balancer.
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// Implementations must treat the *v1.Service and *v1.Node
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// parameters as read-only and not modify them.
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// Parameter 'clusterName' is the name of the cluster as presented to kube-controller-manager
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UpdateLoadBalancer(ctx context.Context, clusterName string, service *v1.Service, nodes []*v1.Node) error
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// EnsureLoadBalancerDeleted deletes the specified load balancer if it
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// exists, returning nil if the load balancer specified either didn't exist or
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// was successfully deleted.
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// This construction is useful because many cloud providers' load balancers
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// have multiple underlying components, meaning a Get could say that the LB
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// doesn't exist even if some part of it is still laying around.
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// Implementations must treat the *v1.Service parameter as read-only and not modify it.
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// Parameter 'clusterName' is the name of the cluster as presented to kube-controller-manager
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EnsureLoadBalancerDeleted(ctx context.Context, clusterName string, service *v1.Service) error
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}
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// Instances is an abstract, pluggable interface for sets of instances.
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type Instances interface {
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// NodeAddresses returns the addresses of the specified instance.
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NodeAddresses(ctx context.Context, name types.NodeName) ([]v1.NodeAddress, error)
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// NodeAddressesByProviderID returns the addresses of the specified instance.
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// The instance is specified using the providerID of the node. The
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// ProviderID is a unique identifier of the node. This will not be called
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// from the node whose nodeaddresses are being queried. i.e. local metadata
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// services cannot be used in this method to obtain nodeaddresses
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NodeAddressesByProviderID(ctx context.Context, providerID string) ([]v1.NodeAddress, error)
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// InstanceID returns the cloud provider ID of the node with the specified NodeName.
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// Note that if the instance does not exist, we must return ("", cloudprovider.InstanceNotFound)
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// cloudprovider.InstanceNotFound should NOT be returned for instances that exist but are stopped/sleeping
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InstanceID(ctx context.Context, nodeName types.NodeName) (string, error)
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// InstanceType returns the type of the specified instance.
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InstanceType(ctx context.Context, name types.NodeName) (string, error)
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// InstanceTypeByProviderID returns the type of the specified instance.
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InstanceTypeByProviderID(ctx context.Context, providerID string) (string, error)
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// AddSSHKeyToAllInstances adds an SSH public key as a legal identity for all instances
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// expected format for the key is standard ssh-keygen format: <protocol> <blob>
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AddSSHKeyToAllInstances(ctx context.Context, user string, keyData []byte) error
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// CurrentNodeName returns the name of the node we are currently running on
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// On most clouds (e.g. GCE) this is the hostname, so we provide the hostname
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CurrentNodeName(ctx context.Context, hostname string) (types.NodeName, error)
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// InstanceExistsByProviderID returns true if the instance for the given provider exists.
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// If false is returned with no error, the instance will be immediately deleted by the cloud controller manager.
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// This method should still return true for instances that exist but are stopped/sleeping.
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InstanceExistsByProviderID(ctx context.Context, providerID string) (bool, error)
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// InstanceShutdownByProviderID returns true if the instance is shutdown in cloudprovider
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InstanceShutdownByProviderID(ctx context.Context, providerID string) (bool, error)
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}
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// InstancesV2 is an abstract, pluggable interface for cloud provider instances.
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// Unlike the Instances interface, it is designed for external cloud providers and should only be used by them.
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// Implementation of this interface will disable calls to the Zones interface.
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type InstancesV2 interface {
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// InstanceExists returns true if the instance for the given node exists according to the cloud provider.
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// Use the node.name or node.spec.providerID field to find the node in the cloud provider.
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InstanceExists(ctx context.Context, node *v1.Node) (bool, error)
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// InstanceShutdown returns true if the instance is shutdown according to the cloud provider.
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// Use the node.name or node.spec.providerID field to find the node in the cloud provider.
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InstanceShutdown(ctx context.Context, node *v1.Node) (bool, error)
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// InstanceMetadata returns the instance's metadata. The values returned in InstanceMetadata are
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// translated into specific fields and labels in the Node object on registration.
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// Implementations should always check node.spec.providerID first when trying to discover the instance
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// for a given node. In cases where node.spec.providerID is empty, implementations can use other
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// properties of the node like its name, labels and annotations.
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InstanceMetadata(ctx context.Context, node *v1.Node) (*InstanceMetadata, error)
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}
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// Route is a representation of an advanced routing rule.
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type Route struct {
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// Name is the name of the routing rule in the cloud-provider.
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// It will be ignored in a Create (although nameHint may influence it)
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Name string
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// TargetNode is the NodeName of the target instance.
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TargetNode types.NodeName
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// EnableNodeAddresses is a feature gate for TargetNodeAddresses. If false, ignore TargetNodeAddresses.
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// Without this, if users haven't updated their cloud-provider, reconcile() will delete and create same route every time.
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EnableNodeAddresses bool
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// TargetNodeAddresses are the Node IPs of the target Node.
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TargetNodeAddresses []v1.NodeAddress
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// DestinationCIDR is the CIDR format IP range that this routing rule
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// applies to.
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DestinationCIDR string
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// Blackhole is set to true if this is a blackhole route
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// The node controller will delete the route if it is in the managed range.
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Blackhole bool
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}
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// Routes is an abstract, pluggable interface for advanced routing rules.
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type Routes interface {
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// ListRoutes lists all managed routes that belong to the specified clusterName
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ListRoutes(ctx context.Context, clusterName string) ([]*Route, error)
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// CreateRoute creates the described managed route
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// route.Name will be ignored, although the cloud-provider may use nameHint
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// to create a more user-meaningful name.
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CreateRoute(ctx context.Context, clusterName string, nameHint string, route *Route) error
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// DeleteRoute deletes the specified managed route
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// Route should be as returned by ListRoutes
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DeleteRoute(ctx context.Context, clusterName string, route *Route) error
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}
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var (
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DiskNotFound = errors.New("disk is not found")
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ImplementedElsewhere = errors.New("implemented by alternate to cloud provider")
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InstanceNotFound = errors.New("instance not found")
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NotImplemented = errors.New("unimplemented")
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)
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// Zone represents the location of a particular machine.
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type Zone struct {
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FailureDomain string
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Region string
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}
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// Zones is an abstract, pluggable interface for zone enumeration.
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// DEPRECATED: Zones is deprecated in favor of retrieving zone/region information from InstancesV2.
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// This interface will not be called if InstancesV2 is enabled.
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type Zones interface {
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// GetZone returns the Zone containing the current failure zone and locality region that the program is running in
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// In most cases, this method is called from the kubelet querying a local metadata service to acquire its zone.
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// For the case of external cloud providers, use GetZoneByProviderID or GetZoneByNodeName since GetZone
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// can no longer be called from the kubelets.
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GetZone(ctx context.Context) (Zone, error)
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// GetZoneByProviderID returns the Zone containing the current zone and locality region of the node specified by providerID
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// This method is particularly used in the context of external cloud providers where node initialization must be done
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// outside the kubelets.
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GetZoneByProviderID(ctx context.Context, providerID string) (Zone, error)
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// GetZoneByNodeName returns the Zone containing the current zone and locality region of the node specified by node name
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// This method is particularly used in the context of external cloud providers where node initialization must be done
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// outside the kubelets.
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GetZoneByNodeName(ctx context.Context, nodeName types.NodeName) (Zone, error)
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}
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// PVLabeler is an abstract, pluggable interface for fetching labels for volumes
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// DEPRECATED: PVLabeler is deprecated in favor of CSI topology feature.
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type PVLabeler interface {
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GetLabelsForVolume(ctx context.Context, pv *v1.PersistentVolume) (map[string]string, error)
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}
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// InstanceMetadata contains metadata about a specific instance.
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// Values returned in InstanceMetadata are translated into specific fields and labels for Node.
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type InstanceMetadata struct {
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// ProviderID is a unique ID used to identify an instance on the cloud provider.
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// The ProviderID set here will be set on the node's spec.providerID field.
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// The provider ID format can be set by the cloud provider but providers should
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// ensure the format does not change in any incompatible way.
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//
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// The provider ID format used by existing cloud provider has been:
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// <provider-name>://<instance-id>
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// Existing providers setting this field should preserve the existing format
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// currently being set in node.spec.providerID.
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ProviderID string
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// InstanceType is the instance's type.
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// The InstanceType set here will be set using the following labels on the node object:
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// * node.kubernetes.io/instance-type=<instance-type>
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// * beta.kubernetes.io/instance-type=<instance-type> (DEPRECATED)
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InstanceType string
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// NodeAddress contains information for the instance's address.
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// The node addresses returned here will be set on the node's status.addresses field.
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NodeAddresses []v1.NodeAddress
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// Zone is the zone that the instance is in.
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// The value set here is applied as the following labels on the node:
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// * topology.kubernetes.io/zone=<zone>
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// * failure-domain.beta.kubernetes.io/zone=<zone> (DEPRECATED)
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Zone string
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// Region is the region that the instance is in.
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// The value set here is applied as the following labels on the node:
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// * topology.kubernetes.io/region=<region>
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// * failure-domain.beta.kubernetes.io/region=<region> (DEPRECATED)
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Region string
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// AdditionalLabels is a map of additional labels provided by the cloud provider.
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// When provided, they will be applied to the node and enable cloud providers
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// to labels nodes with information that may be valuable to that provider.
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AdditionalLabels map[string]string
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}
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