util

package
v1.11.0 Latest Latest
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Published: Jun 27, 2018 License: Apache-2.0 Imports: 38 Imported by: 0

Documentation

Overview

Contains utility code for use by volume plugins.

Index

Constants

View Source
const (
	// EBSVolumeLimitKey resource name that will store volume limits for EBS
	EBSVolumeLimitKey = "attachable-volumes-aws-ebs"
	// AzureVolumeLimitKey stores resource name that will store volume limits for Azure
	AzureVolumeLimitKey = "attachable-volumes-azure-disk"
	// GCEVolumeLimitKey stores resource name that will store volume limits for GCE node
	GCEVolumeLimitKey = "attachable-volumes-gce-pd"
)
View Source
const (
	// Name of finalizer on PVCs that have a running pod.
	PVCProtectionFinalizer = "kubernetes.io/pvc-protection"

	// Name of finalizer on PVs that are bound by PVCs
	PVProtectionFinalizer = "kubernetes.io/pv-protection"
)
View Source
const (
	// GB - GigaByte size
	GB = 1000 * 1000 * 1000
	// GIB - GibiByte size
	GIB = 1024 * 1024 * 1024

	// ControllerManagedAttachAnnotation is the key of the annotation on Node
	// objects that indicates attach/detach operations for the node should be
	// managed by the attach/detach controller
	ControllerManagedAttachAnnotation string = "volumes.kubernetes.io/controller-managed-attach-detach"

	// KeepTerminatedPodVolumesAnnotation is the key of the annotation on Node
	// that decides if pod volumes are unmounted when pod is terminated
	KeepTerminatedPodVolumesAnnotation string = "volumes.kubernetes.io/keep-terminated-pod-volumes"

	// VolumeGidAnnotationKey is the of the annotation on the PersistentVolume
	// object that specifies a supplemental GID.
	VolumeGidAnnotationKey = "pv.beta.kubernetes.io/gid"

	// VolumeDynamicallyCreatedByKey is the key of the annotation on PersistentVolume
	// object created dynamically
	VolumeDynamicallyCreatedByKey = "kubernetes.io/createdby"
)

Variables

This section is empty.

Functions

func AccessModesContainedInAll added in v1.10.0

func AccessModesContainedInAll(indexedModes []v1.PersistentVolumeAccessMode, requestedModes []v1.PersistentVolumeAccessMode) bool

AccessModesContainedInAll returns whether all of the requested modes are contained by modes

func AccessModesContains added in v1.10.0

func AccessModesContains(modes []v1.PersistentVolumeAccessMode, mode v1.PersistentVolumeAccessMode) bool

AccessModesContains returns whether the requested mode is contained by modes

func CalculateTimeoutForVolume added in v1.10.0

func CalculateTimeoutForVolume(minimumTimeout, timeoutIncrement int, pv *v1.PersistentVolume) int64

CalculateTimeoutForVolume calculates time for a Recycler pod to complete a recycle operation. The calculation and return value is either the minimumTimeout or the timeoutIncrement per Gi of storage size, whichever is greater.

func CheckNodeAffinity added in v1.7.0

func CheckNodeAffinity(pv *v1.PersistentVolume, nodeLabels map[string]string) error

CheckNodeAffinity looks at the PV node affinity, and checks if the node has the same corresponding labels This ensures that we don't mount a volume that doesn't belong to this node

func CheckPersistentVolumeClaimModeBlock added in v1.11.0

func CheckPersistentVolumeClaimModeBlock(pvc *v1.PersistentVolumeClaim) bool

CheckPersistentVolumeClaimModeBlock checks VolumeMode. If the mode is Block, return true otherwise return false.

func CheckVolumeModeFilesystem added in v1.10.0

func CheckVolumeModeFilesystem(volumeSpec *volume.Spec) (bool, error)

CheckVolumeModeFilesystem checks VolumeMode. If the mode is Filesystem, return true otherwise return false.

func ChooseZoneForVolume added in v1.10.0

func ChooseZoneForVolume(zones sets.String, pvcName string) string

ChooseZoneForVolume implements our heuristics for choosing a zone for volume creation based on the volume name Volumes are generally round-robin-ed across all active zones, using the hash of the PVC Name. However, if the PVCName ends with `-<integer>`, we will hash the prefix, and then add the integer to the hash. This means that a StatefulSet's volumes (`claimname-statefulsetname-id`) will spread across available zones, assuming the id values are consecutive.

func ChooseZonesForVolume added in v1.10.0

func ChooseZonesForVolume(zones sets.String, pvcName string, numZones uint32) sets.String

ChooseZonesForVolume is identical to ChooseZoneForVolume, but selects a multiple zones, for multi-zone disks.

func ClaimToClaimKey added in v1.10.0

func ClaimToClaimKey(claim *v1.PersistentVolumeClaim) string

ClaimToClaimKey return namespace/name string for pvc

func GenerateVolumeName added in v1.10.0

func GenerateVolumeName(clusterName, pvName string, maxLength int) string

GenerateVolumeName returns a PV name with clusterName prefix. The function should be used to generate a name of GCE PD or Cinder volume. It basically adds "<clusterName>-dynamic-" before the PV name, making sure the resulting string fits given length and cuts "dynamic" if not.

func GetClassForVolume added in v1.5.0

func GetClassForVolume(kubeClient clientset.Interface, pv *v1.PersistentVolume) (*storage.StorageClass, error)

func GetPath added in v1.10.0

func GetPath(mounter volume.Mounter) (string, error)

GetPath checks if the path from the mounter is empty.

func GetPersistentVolumeClaimVolumeMode added in v1.10.0

func GetPersistentVolumeClaimVolumeMode(claim *v1.PersistentVolumeClaim) (v1.PersistentVolumeMode, error)

GetPersistentVolumeClaimVolumeMode retrieves VolumeMode from pvc.

func GetSecretForPV added in v1.5.0

func GetSecretForPV(secretNamespace, secretName, volumePluginName string, kubeClient clientset.Interface) (map[string]string, error)

GetSecretForPV locates secret by name and namespace, verifies the secret type, and returns secret map

func GetSecretForPod added in v1.5.0

func GetSecretForPod(pod *v1.Pod, secretName string, kubeClient clientset.Interface) (map[string]string, error)

GetSecretForPod locates secret by name in the pod's namespace and returns secret map

func GetUniquePodName added in v1.10.0

func GetUniquePodName(pod *v1.Pod) types.UniquePodName

GetUniquePodName returns a unique identifier to reference a pod by

func GetUniqueVolumeName added in v1.10.0

func GetUniqueVolumeName(pluginName, volumeName string) v1.UniqueVolumeName

GetUniqueVolumeName returns a unique name representing the volume/plugin. Caller should ensure that volumeName is a name/ID uniquely identifying the actual backing device, directory, path, etc. for a particular volume. The returned name can be used to uniquely reference the volume, for example, to prevent operations (attach/detach or mount/unmount) from being triggered on the same volume.

func GetUniqueVolumeNameForNonAttachableVolume added in v1.10.0

func GetUniqueVolumeNameForNonAttachableVolume(
	podName types.UniquePodName, volumePlugin volume.VolumePlugin, volumeSpec *volume.Spec) v1.UniqueVolumeName

GetUniqueVolumeNameForNonAttachableVolume returns the unique volume name for a non-attachable volume.

func GetUniqueVolumeNameFromSpec added in v1.10.0

func GetUniqueVolumeNameFromSpec(
	volumePlugin volume.VolumePlugin,
	volumeSpec *volume.Spec) (v1.UniqueVolumeName, error)

GetUniqueVolumeNameFromSpec uses the given VolumePlugin to generate a unique name representing the volume defined in the specified volume spec. This returned name can be used to uniquely reference the actual backing device, directory, path, etc. referenced by the given volumeSpec. If the given plugin does not support the volume spec, this returns an error.

func GetVolumeMode added in v1.10.0

func GetVolumeMode(volumeSpec *volume.Spec) (v1.PersistentVolumeMode, error)

GetVolumeMode retrieves VolumeMode from pv. If the volume doesn't have PersistentVolume, it's an inline volume, should return volumeMode as filesystem to keep existing behavior.

func GetWindowsPath added in v1.10.0

func GetWindowsPath(path string) string

GetWindowsPath get a windows path

func IsPodTerminated added in v1.10.0

func IsPodTerminated(pod *v1.Pod, podStatus v1.PodStatus) bool

IsPodTerminated checks if pod is terminated

func IsReady

func IsReady(dir string) bool

IsReady checks for the existence of a regular file called 'ready' in the given directory and returns true if that file exists.

func JoinMountOptions added in v1.10.0

func JoinMountOptions(userOptions []string, systemOptions []string) []string

JoinMountOptions joins mount options eliminating duplicates

func LabelZonesToSet added in v1.8.0

func LabelZonesToSet(labelZonesValue string) (sets.String, error)

LabelZonesToSet converts a PV label value from string containing a delimited list of zones to set

func LoadPodFromFile added in v1.8.0

func LoadPodFromFile(filePath string) (*v1.Pod, error)

LoadPodFromFile will read, decode, and return a Pod from a file.

func MakeAbsolutePath added in v1.10.3

func MakeAbsolutePath(goos, path string) string

MakeAbsolutePath convert path to absolute path according to GOOS

func MakeNestedMountpoints added in v1.7.14

func MakeNestedMountpoints(name, baseDir string, pod v1.Pod) error

MakeNestedMountpoints creates mount points in baseDir for volumes mounted beneath name

func MapBlockVolume added in v1.11.0

func MapBlockVolume(
	devicePath,
	globalMapPath,
	podVolumeMapPath,
	volumeMapName string,
	podUID utypes.UID,
) error

MapBlockVolume is a utility function to provide a common way of mounting block device path for a specified volume and pod. This function should be called by volume plugins that implements volume.BlockVolumeMapper.Map() method.

func MarkFSResizeFinished added in v1.10.0

func MarkFSResizeFinished(
	pvc *v1.PersistentVolumeClaim,
	capacity v1.ResourceList,
	kubeClient clientset.Interface) error

MarkFSResizeFinished marks file system resizing as done

func MergeResizeConditionOnPVC added in v1.10.0

func MergeResizeConditionOnPVC(
	pvc *v1.PersistentVolumeClaim,
	resizeConditions []v1.PersistentVolumeClaimCondition) *v1.PersistentVolumeClaim

MergeResizeConditionOnPVC updates pvc with requested resize conditions leaving other conditions untouched.

func MountOptionFromSpec added in v1.10.0

func MountOptionFromSpec(spec *volume.Spec, options ...string) []string

MountOptionFromSpec extracts and joins mount options from volume spec with supplied options

func NewDanglingError added in v1.9.0

func NewDanglingError(msg string, node k8stypes.NodeName, devicePath string) error

func NewSafeFormatAndMountFromHost added in v1.10.0

func NewSafeFormatAndMountFromHost(pluginName string, host volume.VolumeHost) *mount.SafeFormatAndMount

NewSafeFormatAndMountFromHost creates a new SafeFormatAndMount with Mounter and Exec taken from given VolumeHost.

func OperationCompleteHook added in v1.8.0

func OperationCompleteHook(plugin, operationName string) func(*error)

OperationCompleteHook returns a hook to call when an operation is completed

func PatchPVCStatus added in v1.10.0

func PatchPVCStatus(
	oldPVC *v1.PersistentVolumeClaim,
	newPVC *v1.PersistentVolumeClaim,
	kubeClient clientset.Interface) (*v1.PersistentVolumeClaim, error)

PatchPVCStatus updates PVC status using PATCH verb

func PathExists added in v1.3.6

func PathExists(path string) (bool, error)

PathExists returns true if the specified path exists.

func RoundUpSize added in v1.10.0

func RoundUpSize(volumeSizeBytes int64, allocationUnitBytes int64) int64

RoundUpSize calculates how many allocation units are needed to accommodate a volume of given size. E.g. when user wants 1500MiB volume, while AWS EBS allocates volumes in gibibyte-sized chunks, RoundUpSize(1500 * 1024*1024, 1024*1024*1024) returns '2' (2 GiB is the smallest allocatable volume that can hold 1500MiB)

func RoundUpToGB added in v1.10.0

func RoundUpToGB(size resource.Quantity) int64

RoundUpToGB rounds up given quantity to chunks of GB

func RoundUpToGiB added in v1.10.0

func RoundUpToGiB(size resource.Quantity) int64

RoundUpToGiB rounds up given quantity upto chunks of GiB

func SetReady

func SetReady(dir string)

SetReady creates a file called 'ready' in the given directory. It logs an error if the file cannot be created.

func SplitUniqueName added in v1.10.0

func SplitUniqueName(uniqueName v1.UniqueVolumeName) (string, string, error)

SplitUniqueName splits the unique name to plugin name and volume name strings. It expects the uniqueName to follow the fromat plugin_name/volume_name and the plugin name must be namespaced as described by the plugin interface, i.e. namespace/plugin containing exactly one '/'. This means the unique name will always be in the form of plugin_namespace/plugin/volume_name, see k8s.io/kubernetes/pkg/volume/plugins.go VolumePlugin interface description and pkg/volume/util/volumehelper/volumehelper.go GetUniqueVolumeNameFromSpec that constructs the unique volume names.

func UnmountMountPoint added in v1.7.2

func UnmountMountPoint(mountPath string, mounter mount.Interface, extensiveMountPointCheck bool) error

UnmountMountPoint is a common unmount routine that unmounts the given path and deletes the remaining directory if successful. if extensiveMountPointCheck is true IsNotMountPoint will be called instead of IsLikelyNotMountPoint. IsNotMountPoint is more expensive but properly handles bind mounts.

func UnmountPath added in v1.3.6

func UnmountPath(mountPath string, mounter mount.Interface) error

UnmountPath is a common unmount routine that unmounts the given path and deletes the remaining directory if successful.

func UnmountViaEmptyDir added in v1.10.0

func UnmountViaEmptyDir(dir string, host volume.VolumeHost, volName string, volSpec volume.Spec, podUID utypes.UID) error

UnmountViaEmptyDir delegates the tear down operation for secret, configmap, git_repo and downwardapi to empty_dir

func ValidateZone added in v1.10.0

func ValidateZone(zone string) error

ValidateZone returns: - an error in case zone is an empty string or contains only any combination of spaces and tab characters - nil otherwise

func ZonesSetToLabelValue added in v1.8.0

func ZonesSetToLabelValue(strSet sets.String) string

func ZonesToSet added in v1.8.0

func ZonesToSet(zonesString string) (sets.String, error)

ZonesToSet converts a string containing a comma separated list of zones to set

Types

type AtomicWriter added in v1.2.0

type AtomicWriter struct {
	// contains filtered or unexported fields
}

AtomicWriter handles atomically projecting content for a set of files into a target directory.

Note:

  1. AtomicWriter reserves the set of pathnames starting with `..`.
  2. AtomicWriter offers no concurrency guarantees and must be synchronized by the caller.

The visible files in this volume are symlinks to files in the writer's data directory. Actual files are stored in a hidden timestamped directory which is symlinked to by the data directory. The timestamped directory and data directory symlink are created in the writer's target dir.  This scheme allows the files to be atomically updated by changing the target of the data directory symlink.

Consumers of the target directory can monitor the ..data symlink using inotify or fanotify to receive events when the content in the volume is updated.

func NewAtomicWriter added in v1.2.0

func NewAtomicWriter(targetDir string, logContext string) (*AtomicWriter, error)

NewAtomicWriter creates a new AtomicWriter configured to write to the given target directory, or returns an error if the target directory does not exist.

func (*AtomicWriter) Write added in v1.2.0

func (w *AtomicWriter) Write(payload map[string]FileProjection) error

Write does an atomic projection of the given payload into the writer's target directory. Input paths must not begin with '..'.

The Write algorithm is:

  1. The payload is validated; if the payload is invalid, the function returns 2.  The current timestamped directory is detected by reading the data directory symlink

  2. The old version of the volume is walked to determine whether any portion of the payload was deleted and is still present on disk.

  3. The data in the current timestamped directory is compared to the projected data to determine if an update is required. 5.  A new timestamped dir is created

  4. The payload is written to the new timestamped directory 7.  Symlinks and directory for new user-visible files are created (if needed).

    For example, consider the files: <target-dir>/podName <target-dir>/user/labels <target-dir>/k8s/annotations

    The user visible files are symbolic links into the internal data directory: <target-dir>/podName -> ..data/podName <target-dir>/usr -> ..data/usr <target-dir>/k8s -> ..data/k8s

    The data directory itself is a link to a timestamped directory with the real data: <target-dir>/..data -> ..2016_02_01_15_04_05.12345678/ 8.  A symlink to the new timestamped directory ..data_tmp is created that will become the new data directory 9.  The new data directory symlink is renamed to the data directory; rename is atomic

10. Old paths are removed from the user-visible portion of the target directory 11.  The previous timestamped directory is removed, if it exists

type DanglingAttachError added in v1.9.0

type DanglingAttachError struct {
	CurrentNode k8stypes.NodeName
	DevicePath  string
	// contains filtered or unexported fields
}

This error on attach indicates volume is attached to a different node than we expected.

func (*DanglingAttachError) Error added in v1.9.0

func (err *DanglingAttachError) Error() string

type DeviceUtil added in v1.3.0

type DeviceUtil interface {
	FindMultipathDeviceForDevice(disk string) string
	FindSlaveDevicesOnMultipath(disk string) []string
}

DeviceUtil is a util for common device methods

func NewDeviceHandler added in v1.3.0

func NewDeviceHandler(io IoUtil) DeviceUtil

NewDeviceHandler Create a new IoHandler implementation

type FileProjection added in v1.4.0

type FileProjection struct {
	Data []byte
	Mode int32
}

type IoUtil added in v1.3.0

type IoUtil interface {
	ReadDir(dirname string) ([]os.FileInfo, error)
	Lstat(name string) (os.FileInfo, error)
	EvalSymlinks(path string) (string, error)
}

IoUtil is a mockable util for common IO operations

func NewIOHandler added in v1.3.0

func NewIOHandler() IoUtil

NewIOHandler Create a new IoHandler implementation

Directories

Path Synopsis
Package nestedpendingoperations is a modified implementation of pkg/util/goroutinemap.
Package nestedpendingoperations is a modified implementation of pkg/util/goroutinemap.
Package operationexecutor implements interfaces that enable execution of attach, detach, mount, and unmount operations with a nestedpendingoperations so that more than one operation is never triggered on the same volume for the same pod.
Package operationexecutor implements interfaces that enable execution of attach, detach, mount, and unmount operations with a nestedpendingoperations so that more than one operation is never triggered on the same volume for the same pod.
Package types defines types used only by volume components
Package types defines types used only by volume components

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