21930bfe2b
Signed-off-by: Antonio Murdaca <runcom@redhat.com>
273 lines
11 KiB
Go
273 lines
11 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 volume
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import (
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"time"
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"k8s.io/api/core/v1"
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"k8s.io/apimachinery/pkg/api/resource"
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metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
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"k8s.io/apimachinery/pkg/types"
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)
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// Volume represents a directory used by pods or hosts on a node. All method
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// implementations of methods in the volume interface must be idempotent.
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type Volume interface {
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// GetPath returns the path to which the volume should be mounted for the
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// pod.
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GetPath() string
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// MetricsProvider embeds methods for exposing metrics (e.g.
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// used, available space).
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MetricsProvider
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}
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// BlockVolume interface provides methods to generate global map path
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// and pod device map path.
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type BlockVolume interface {
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// GetGlobalMapPath returns a global map path which contains
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// symbolic links associated to a block device.
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// ex. plugins/kubernetes.io/{PluginName}/{DefaultKubeletVolumeDevicesDirName}/{volumePluginDependentPath}/{pod uuid}
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GetGlobalMapPath(spec *Spec) (string, error)
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// GetPodDeviceMapPath returns a pod device map path
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// and name of a symbolic link associated to a block device.
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// ex. pods/{podUid}}/{DefaultKubeletVolumeDevicesDirName}/{escapeQualifiedPluginName}/{volumeName}
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GetPodDeviceMapPath() (string, string)
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}
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// MetricsProvider exposes metrics (e.g. used,available space) related to a
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// Volume.
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type MetricsProvider interface {
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// GetMetrics returns the Metrics for the Volume. Maybe expensive for
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// some implementations.
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GetMetrics() (*Metrics, error)
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}
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// Metrics represents the used and available bytes of the Volume.
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type Metrics struct {
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// The time at which these stats were updated.
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Time metav1.Time
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// Used represents the total bytes used by the Volume.
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// Note: For block devices this maybe more than the total size of the files.
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Used *resource.Quantity
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// Capacity represents the total capacity (bytes) of the volume's
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// underlying storage. For Volumes that share a filesystem with the host
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// (e.g. emptydir, hostpath) this is the size of the underlying storage,
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// and will not equal Used + Available as the fs is shared.
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Capacity *resource.Quantity
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// Available represents the storage space available (bytes) for the
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// Volume. For Volumes that share a filesystem with the host (e.g.
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// emptydir, hostpath), this is the available space on the underlying
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// storage, and is shared with host processes and other Volumes.
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Available *resource.Quantity
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// InodesUsed represents the total inodes used by the Volume.
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InodesUsed *resource.Quantity
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// Inodes represents the total number of inodes available in the volume.
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// For volumes that share a filesystem with the host (e.g. emptydir, hostpath),
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// this is the inodes available in the underlying storage,
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// and will not equal InodesUsed + InodesFree as the fs is shared.
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Inodes *resource.Quantity
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// InodesFree represent the inodes available for the volume. For Volumes that share
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// a filesystem with the host (e.g. emptydir, hostpath), this is the free inodes
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// on the underlying storage, and is shared with host processes and other volumes
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InodesFree *resource.Quantity
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}
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// Attributes represents the attributes of this mounter.
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type Attributes struct {
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ReadOnly bool
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Managed bool
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SupportsSELinux bool
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}
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// Mounter interface provides methods to set up/mount the volume.
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type Mounter interface {
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// Uses Interface to provide the path for Docker binds.
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Volume
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// CanMount is called immediately prior to Setup to check if
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// the required components (binaries, etc.) are available on
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// the underlying node to complete the subsequent SetUp (mount)
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// operation. If CanMount returns error, the mount operation is
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// aborted and an event is generated indicating that the node
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// does not have the required binaries to complete the mount.
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// If CanMount succeeds, the mount operation continues
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// normally. The CanMount check can be enabled or disabled
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// using the experimental-check-mount-binaries binary flag
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CanMount() error
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// SetUp prepares and mounts/unpacks the volume to a
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// self-determined directory path. The mount point and its
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// content should be owned by 'fsGroup' so that it can be
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// accessed by the pod. This may be called more than once, so
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// implementations must be idempotent.
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SetUp(fsGroup *int64) error
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// SetUpAt prepares and mounts/unpacks the volume to the
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// specified directory path, which may or may not exist yet.
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// The mount point and its content should be owned by
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// 'fsGroup' so that it can be accessed by the pod. This may
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// be called more than once, so implementations must be
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// idempotent.
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SetUpAt(dir string, fsGroup *int64) error
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// GetAttributes returns the attributes of the mounter.
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GetAttributes() Attributes
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}
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// Unmounter interface provides methods to cleanup/unmount the volumes.
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type Unmounter interface {
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Volume
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// TearDown unmounts the volume from a self-determined directory and
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// removes traces of the SetUp procedure.
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TearDown() error
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// TearDown unmounts the volume from the specified directory and
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// removes traces of the SetUp procedure.
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TearDownAt(dir string) error
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}
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// BlockVolumeMapper interface provides methods to set up/map the volume.
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type BlockVolumeMapper interface {
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BlockVolume
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// SetUpDevice prepares the volume to a self-determined directory path,
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// which may or may not exist yet and returns combination of physical
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// device path of a block volume and error.
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// If the plugin is non-attachable, it should prepare the device
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// in /dev/ (or where appropriate) and return unique device path.
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// Unique device path across kubelet node reboot is required to avoid
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// unexpected block volume destruction.
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// If the plugin is attachable, it should not do anything here,
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// just return empty string for device path.
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// Instead, attachable plugin have to return unique device path
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// at attacher.Attach() and attacher.WaitForAttach().
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// This may be called more than once, so implementations must be idempotent.
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SetUpDevice() (string, error)
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}
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// BlockVolumeUnmapper interface provides methods to cleanup/unmap the volumes.
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type BlockVolumeUnmapper interface {
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BlockVolume
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// TearDownDevice removes traces of the SetUpDevice procedure under
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// a self-determined directory.
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// If the plugin is non-attachable, this method detaches the volume
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// from a node.
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TearDownDevice(mapPath string, devicePath string) error
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}
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// Provisioner is an interface that creates templates for PersistentVolumes
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// and can create the volume as a new resource in the infrastructure provider.
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type Provisioner interface {
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// Provision creates the resource by allocating the underlying volume in a
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// storage system. This method should block until completion and returns
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// PersistentVolume representing the created storage resource.
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Provision() (*v1.PersistentVolume, error)
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}
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// Deleter removes the resource from the underlying storage provider. Calls
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// to this method should block until the deletion is complete. Any error
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// returned indicates the volume has failed to be reclaimed. A nil return
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// indicates success.
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type Deleter interface {
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Volume
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// This method should block until completion.
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// deletedVolumeInUseError returned from this function will not be reported
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// as error and it will be sent as "Info" event to the PV being deleted. The
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// volume controller will retry deleting the volume in the next periodic
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// sync. This can be used to postpone deletion of a volume that is being
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// detached from a node. Deletion of such volume would fail anyway and such
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// error would confuse users.
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Delete() error
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}
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// Attacher can attach a volume to a node.
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type Attacher interface {
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// Attaches the volume specified by the given spec to the node with the given Name.
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// On success, returns the device path where the device was attached on the
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// node.
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Attach(spec *Spec, nodeName types.NodeName) (string, error)
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// VolumesAreAttached checks whether the list of volumes still attached to the specified
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// node. It returns a map which maps from the volume spec to the checking result.
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// If an error is occurred during checking, the error will be returned
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VolumesAreAttached(specs []*Spec, nodeName types.NodeName) (map[*Spec]bool, error)
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// WaitForAttach blocks until the device is attached to this
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// node. If it successfully attaches, the path to the device
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// is returned. Otherwise, if the device does not attach after
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// the given timeout period, an error will be returned.
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WaitForAttach(spec *Spec, devicePath string, pod *v1.Pod, timeout time.Duration) (string, error)
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// GetDeviceMountPath returns a path where the device should
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// be mounted after it is attached. This is a global mount
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// point which should be bind mounted for individual volumes.
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GetDeviceMountPath(spec *Spec) (string, error)
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// MountDevice mounts the disk to a global path which
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// individual pods can then bind mount
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MountDevice(spec *Spec, devicePath string, deviceMountPath string) error
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}
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type BulkVolumeVerifier interface {
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// BulkVerifyVolumes checks whether the list of volumes still attached to the
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// the clusters in the node. It returns a map which maps from the volume spec to the checking result.
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// If an error occurs during check - error should be returned and volume on nodes
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// should be assumed as still attached.
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BulkVerifyVolumes(volumesByNode map[types.NodeName][]*Spec) (map[types.NodeName]map[*Spec]bool, error)
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}
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// Detacher can detach a volume from a node.
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type Detacher interface {
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// Detach the given volume from the node with the given Name.
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// volumeName is name of the volume as returned from plugin's
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// GetVolumeName().
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Detach(volumeName string, nodeName types.NodeName) error
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// UnmountDevice unmounts the global mount of the disk. This
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// should only be called once all bind mounts have been
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// unmounted.
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UnmountDevice(deviceMountPath string) error
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}
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// NewDeletedVolumeInUseError returns a new instance of DeletedVolumeInUseError
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// error.
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func NewDeletedVolumeInUseError(message string) error {
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return deletedVolumeInUseError(message)
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}
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type deletedVolumeInUseError string
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var _ error = deletedVolumeInUseError("")
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// IsDeletedVolumeInUse returns true if an error returned from Delete() is
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// deletedVolumeInUseError
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func IsDeletedVolumeInUse(err error) bool {
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switch err.(type) {
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case deletedVolumeInUseError:
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return true
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default:
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return false
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}
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}
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func (err deletedVolumeInUseError) Error() string {
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return string(err)
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}
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