k3s/vendor/k8s.io/kubernetes/pkg/volume/volume.go
2020-08-28 17:18:31 -07:00

296 lines
12 KiB
Go

/*
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 volume
import (
"time"
v1 "k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/api/resource"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/types"
)
// Volume represents a directory used by pods or hosts on a node. All method
// implementations of methods in the volume interface must be idempotent.
type Volume interface {
// GetPath returns the path to which the volume should be mounted for the
// pod.
GetPath() string
// MetricsProvider embeds methods for exposing metrics (e.g.
// used, available space).
MetricsProvider
}
// BlockVolume interface provides methods to generate global map path
// and pod device map path.
type BlockVolume interface {
// GetGlobalMapPath returns a global map path which contains
// bind mount associated to a block device.
// ex. plugins/kubernetes.io/{PluginName}/{DefaultKubeletVolumeDevicesDirName}/{volumePluginDependentPath}/{pod uuid}
GetGlobalMapPath(spec *Spec) (string, error)
// GetPodDeviceMapPath returns a pod device map path
// and name of a symbolic link associated to a block device.
// ex. pods/{podUid}/{DefaultKubeletVolumeDevicesDirName}/{escapeQualifiedPluginName}/, {volumeName}
GetPodDeviceMapPath() (string, string)
}
// MetricsProvider exposes metrics (e.g. used,available space) related to a
// Volume.
type MetricsProvider interface {
// GetMetrics returns the Metrics for the Volume. Maybe expensive for
// some implementations.
GetMetrics() (*Metrics, error)
}
// Metrics represents the used and available bytes of the Volume.
type Metrics struct {
// The time at which these stats were updated.
Time metav1.Time
// Used represents the total bytes used by the Volume.
// Note: For block devices this maybe more than the total size of the files.
Used *resource.Quantity
// Capacity represents the total capacity (bytes) of the volume's
// underlying storage. For Volumes that share a filesystem with the host
// (e.g. emptydir, hostpath) this is the size of the underlying storage,
// and will not equal Used + Available as the fs is shared.
Capacity *resource.Quantity
// Available represents the storage space available (bytes) for the
// Volume. For Volumes that share a filesystem with the host (e.g.
// emptydir, hostpath), this is the available space on the underlying
// storage, and is shared with host processes and other Volumes.
Available *resource.Quantity
// InodesUsed represents the total inodes used by the Volume.
InodesUsed *resource.Quantity
// Inodes represents the total number of inodes available in the volume.
// For volumes that share a filesystem with the host (e.g. emptydir, hostpath),
// this is the inodes available in the underlying storage,
// and will not equal InodesUsed + InodesFree as the fs is shared.
Inodes *resource.Quantity
// InodesFree represent the inodes available for the volume. For Volumes that share
// a filesystem with the host (e.g. emptydir, hostpath), this is the free inodes
// on the underlying storage, and is shared with host processes and other volumes
InodesFree *resource.Quantity
}
// Attributes represents the attributes of this mounter.
type Attributes struct {
ReadOnly bool
Managed bool
SupportsSELinux bool
}
// MounterArgs provides more easily extensible arguments to Mounter
type MounterArgs struct {
// When FsUser is set, the ownership of the volume will be modified to be
// owned and writable by FsUser. Otherwise, there is no side effects.
// Currently only supported with projected service account tokens.
FsUser *int64
FsGroup *int64
FSGroupChangePolicy *v1.PodFSGroupChangePolicy
DesiredSize *resource.Quantity
}
// Mounter interface provides methods to set up/mount the volume.
type Mounter interface {
// Uses Interface to provide the path for Docker binds.
Volume
// CanMount is called immediately prior to Setup to check if
// the required components (binaries, etc.) are available on
// the underlying node to complete the subsequent SetUp (mount)
// operation. If CanMount returns error, the mount operation is
// aborted and an event is generated indicating that the node
// does not have the required binaries to complete the mount.
// If CanMount succeeds, the mount operation continues
// normally. The CanMount check can be enabled or disabled
// using the experimental-check-mount-binaries binary flag
CanMount() error
// SetUp prepares and mounts/unpacks the volume to a
// self-determined directory path. The mount point and its
// content should be owned by `fsUser` or 'fsGroup' so that it can be
// accessed by the pod. This may be called more than once, so
// implementations must be idempotent.
// It could return following types of errors:
// - TransientOperationFailure
// - UncertainProgressError
// - Error of any other type should be considered a final error
SetUp(mounterArgs MounterArgs) error
// SetUpAt prepares and mounts/unpacks the volume to the
// specified directory path, which may or may not exist yet.
// The mount point and its content should be owned by `fsUser`
// 'fsGroup' so that it can be accessed by the pod. This may
// be called more than once, so implementations must be
// idempotent.
SetUpAt(dir string, mounterArgs MounterArgs) error
// GetAttributes returns the attributes of the mounter.
// This function is called after SetUp()/SetUpAt().
GetAttributes() Attributes
}
// Unmounter interface provides methods to cleanup/unmount the volumes.
type Unmounter interface {
Volume
// TearDown unmounts the volume from a self-determined directory and
// removes traces of the SetUp procedure.
TearDown() error
// TearDown unmounts the volume from the specified directory and
// removes traces of the SetUp procedure.
TearDownAt(dir string) error
}
// BlockVolumeMapper interface is a mapper interface for block volume.
type BlockVolumeMapper interface {
BlockVolume
}
// CustomBlockVolumeMapper interface provides custom methods to set up/map the volume.
type CustomBlockVolumeMapper interface {
BlockVolumeMapper
// SetUpDevice prepares the volume to the node by the plugin specific way.
// For most in-tree plugins, attacher.Attach() and attacher.WaitForAttach()
// will do necessary works.
// This may be called more than once, so implementations must be idempotent.
// SetUpDevice returns stagingPath if device setup was successful
SetUpDevice() (stagingPath string, err error)
// MapPodDevice maps the block device to a path and return the path.
// Unique device path across kubelet node reboot is required to avoid
// unexpected block volume destruction.
// If empty string is returned, the path retuned by attacher.Attach() and
// attacher.WaitForAttach() will be used.
MapPodDevice() (publishPath string, err error)
// GetStagingPath returns path that was used for staging the volume
// it is mainly used by CSI plugins
GetStagingPath() string
}
// BlockVolumeUnmapper interface is an unmapper interface for block volume.
type BlockVolumeUnmapper interface {
BlockVolume
}
// CustomBlockVolumeUnmapper interface provides custom methods to cleanup/unmap the volumes.
type CustomBlockVolumeUnmapper interface {
BlockVolumeUnmapper
// TearDownDevice removes traces of the SetUpDevice procedure.
// If the plugin is non-attachable, this method detaches the volume
// from a node.
TearDownDevice(mapPath string, devicePath string) error
// UnmapPodDevice removes traces of the MapPodDevice procedure.
UnmapPodDevice() error
}
// Provisioner is an interface that creates templates for PersistentVolumes
// and can create the volume as a new resource in the infrastructure provider.
type Provisioner interface {
// Provision creates the resource by allocating the underlying volume in a
// storage system. This method should block until completion and returns
// PersistentVolume representing the created storage resource.
Provision(selectedNode *v1.Node, allowedTopologies []v1.TopologySelectorTerm) (*v1.PersistentVolume, error)
}
// Deleter removes the resource from the underlying storage provider. Calls
// to this method should block until the deletion is complete. Any error
// returned indicates the volume has failed to be reclaimed. A nil return
// indicates success.
type Deleter interface {
Volume
// This method should block until completion.
// deletedVolumeInUseError returned from this function will not be reported
// as error and it will be sent as "Info" event to the PV being deleted. The
// volume controller will retry deleting the volume in the next periodic
// sync. This can be used to postpone deletion of a volume that is being
// detached from a node. Deletion of such volume would fail anyway and such
// error would confuse users.
Delete() error
}
// Attacher can attach a volume to a node.
type Attacher interface {
DeviceMounter
// Attaches the volume specified by the given spec to the node with the given Name.
// On success, returns the device path where the device was attached on the
// node.
Attach(spec *Spec, nodeName types.NodeName) (string, error)
// VolumesAreAttached checks whether the list of volumes still attached to the specified
// node. It returns a map which maps from the volume spec to the checking result.
// If an error is occurred during checking, the error will be returned
VolumesAreAttached(specs []*Spec, nodeName types.NodeName) (map[*Spec]bool, error)
// WaitForAttach blocks until the device is attached to this
// node. If it successfully attaches, the path to the device
// is returned. Otherwise, if the device does not attach after
// the given timeout period, an error will be returned.
WaitForAttach(spec *Spec, devicePath string, pod *v1.Pod, timeout time.Duration) (string, error)
}
// DeviceMounter can mount a block volume to a global path.
type DeviceMounter interface {
// GetDeviceMountPath returns a path where the device should
// be mounted after it is attached. This is a global mount
// point which should be bind mounted for individual volumes.
GetDeviceMountPath(spec *Spec) (string, error)
// MountDevice mounts the disk to a global path which
// individual pods can then bind mount
// Note that devicePath can be empty if the volume plugin does not implement any of Attach and WaitForAttach methods.
// It could return following types of errors:
// - TransientOperationFailure
// - UncertainProgressError
// - Error of any other type should be considered a final error
MountDevice(spec *Spec, devicePath string, deviceMountPath string) error
}
type BulkVolumeVerifier interface {
// BulkVerifyVolumes checks whether the list of volumes still attached to the
// the clusters in the node. It returns a map which maps from the volume spec to the checking result.
// If an error occurs during check - error should be returned and volume on nodes
// should be assumed as still attached.
BulkVerifyVolumes(volumesByNode map[types.NodeName][]*Spec) (map[types.NodeName]map[*Spec]bool, error)
}
// Detacher can detach a volume from a node.
type Detacher interface {
DeviceUnmounter
// Detach the given volume from the node with the given Name.
// volumeName is name of the volume as returned from plugin's
// GetVolumeName().
Detach(volumeName string, nodeName types.NodeName) error
}
// DeviceUnmounter can unmount a block volume from the global path.
type DeviceUnmounter interface {
// UnmountDevice unmounts the global mount of the disk. This
// should only be called once all bind mounts have been
// unmounted.
UnmountDevice(deviceMountPath string) error
}