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offends
2025-08-25 16:04:00 +08:00
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125
gpushare-device-plugin/vendor/k8s.io/client-go/tools/auth/clientauth.go generated vendored Normal file
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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 auth defines a file format for holding authentication
information needed by clients of Kubernetes. Typically,
a Kubernetes cluster will put auth info for the admin in a known
location when it is created, and will (soon) put it in a known
location within a Container's file tree for Containers that
need access to the Kubernetes API.
Having a defined format allows:
- clients to be implemented in multiple languages
- applications which link clients to be portable across
clusters with different authentication styles (e.g.
some may use SSL Client certs, others may not, etc)
- when the format changes, applications only
need to update this code.
The file format is json, marshalled from a struct authcfg.Info.
Clinet libraries in other languages should use the same format.
It is not intended to store general preferences, such as default
namespace, output options, etc. CLIs (such as kubectl) and UIs should
develop their own format and may wish to inline the authcfg.Info type.
The authcfg.Info is just a file format. It is distinct from
client.Config which holds options for creating a client.Client.
Helper functions are provided in this package to fill in a
client.Client from an authcfg.Info.
Example:
import (
"pkg/client"
"pkg/client/auth"
)
info, err := auth.LoadFromFile(filename)
if err != nil {
// handle error
}
clientConfig = client.Config{}
clientConfig.Host = "example.com:4901"
clientConfig = info.MergeWithConfig()
client := client.New(clientConfig)
client.Pods(ns).List()
*/
package auth
// TODO: need a way to rotate Tokens. Therefore, need a way for client object to be reset when the authcfg is updated.
import (
"encoding/json"
"io/ioutil"
"os"
restclient "k8s.io/client-go/rest"
)
// Info holds Kubernetes API authorization config. It is intended
// to be read/written from a file as a JSON object.
type Info struct {
User string
Password string
CAFile string
CertFile string
KeyFile string
BearerToken string
Insecure *bool
}
// LoadFromFile parses an Info object from a file path.
// If the file does not exist, then os.IsNotExist(err) == true
func LoadFromFile(path string) (*Info, error) {
var info Info
if _, err := os.Stat(path); os.IsNotExist(err) {
return nil, err
}
data, err := ioutil.ReadFile(path)
if err != nil {
return nil, err
}
err = json.Unmarshal(data, &info)
if err != nil {
return nil, err
}
return &info, err
}
// MergeWithConfig returns a copy of a client.Config with values from the Info.
// The fields of client.Config with a corresponding field in the Info are set
// with the value from the Info.
func (info Info) MergeWithConfig(c restclient.Config) (restclient.Config, error) {
var config restclient.Config = c
config.Username = info.User
config.Password = info.Password
config.CAFile = info.CAFile
config.CertFile = info.CertFile
config.KeyFile = info.KeyFile
config.BearerToken = info.BearerToken
if info.Insecure != nil {
config.Insecure = *info.Insecure
}
return config, nil
}
func (info Info) Complete() bool {
return len(info.User) > 0 ||
len(info.CertFile) > 0 ||
len(info.BearerToken) > 0
}

50
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/OWNERS generated vendored Normal file
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approvers:
- thockin
- lavalamp
- smarterclayton
- wojtek-t
- deads2k
- caesarxuchao
- liggitt
- ncdc
reviewers:
- thockin
- lavalamp
- smarterclayton
- wojtek-t
- deads2k
- brendandburns
- derekwaynecarr
- caesarxuchao
- mikedanese
- liggitt
- nikhiljindal
- erictune
- davidopp
- pmorie
- kargakis
- janetkuo
- justinsb
- eparis
- soltysh
- jsafrane
- dims
- madhusudancs
- hongchaodeng
- krousey
- markturansky
- fgrzadkowski
- xiang90
- mml
- ingvagabund
- resouer
- jessfraz
- david-mcmahon
- mfojtik
- '249043822'
- lixiaobing10051267
- ddysher
- mqliang
- feihujiang
- sdminonne
- ncdc

394
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/controller.go generated vendored Normal file
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/*
Copyright 2015 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 cache
import (
"sync"
"time"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/util/clock"
utilruntime "k8s.io/apimachinery/pkg/util/runtime"
"k8s.io/apimachinery/pkg/util/wait"
)
// Config contains all the settings for a Controller.
type Config struct {
// The queue for your objects; either a FIFO or
// a DeltaFIFO. Your Process() function should accept
// the output of this Queue's Pop() method.
Queue
// Something that can list and watch your objects.
ListerWatcher
// Something that can process your objects.
Process ProcessFunc
// The type of your objects.
ObjectType runtime.Object
// Reprocess everything at least this often.
// Note that if it takes longer for you to clear the queue than this
// period, you will end up processing items in the order determined
// by FIFO.Replace(). Currently, this is random. If this is a
// problem, we can change that replacement policy to append new
// things to the end of the queue instead of replacing the entire
// queue.
FullResyncPeriod time.Duration
// ShouldResync, if specified, is invoked when the controller's reflector determines the next
// periodic sync should occur. If this returns true, it means the reflector should proceed with
// the resync.
ShouldResync ShouldResyncFunc
// If true, when Process() returns an error, re-enqueue the object.
// TODO: add interface to let you inject a delay/backoff or drop
// the object completely if desired. Pass the object in
// question to this interface as a parameter.
RetryOnError bool
}
// ShouldResyncFunc is a type of function that indicates if a reflector should perform a
// resync or not. It can be used by a shared informer to support multiple event handlers with custom
// resync periods.
type ShouldResyncFunc func() bool
// ProcessFunc processes a single object.
type ProcessFunc func(obj interface{}) error
// Controller is a generic controller framework.
type controller struct {
config Config
reflector *Reflector
reflectorMutex sync.RWMutex
clock clock.Clock
}
type Controller interface {
Run(stopCh <-chan struct{})
HasSynced() bool
LastSyncResourceVersion() string
}
// New makes a new Controller from the given Config.
func New(c *Config) Controller {
ctlr := &controller{
config: *c,
clock: &clock.RealClock{},
}
return ctlr
}
// Run begins processing items, and will continue until a value is sent down stopCh.
// It's an error to call Run more than once.
// Run blocks; call via go.
func (c *controller) Run(stopCh <-chan struct{}) {
defer utilruntime.HandleCrash()
go func() {
<-stopCh
c.config.Queue.Close()
}()
r := NewReflector(
c.config.ListerWatcher,
c.config.ObjectType,
c.config.Queue,
c.config.FullResyncPeriod,
)
r.ShouldResync = c.config.ShouldResync
r.clock = c.clock
c.reflectorMutex.Lock()
c.reflector = r
c.reflectorMutex.Unlock()
var wg wait.Group
defer wg.Wait()
wg.StartWithChannel(stopCh, r.Run)
wait.Until(c.processLoop, time.Second, stopCh)
}
// Returns true once this controller has completed an initial resource listing
func (c *controller) HasSynced() bool {
return c.config.Queue.HasSynced()
}
func (c *controller) LastSyncResourceVersion() string {
if c.reflector == nil {
return ""
}
return c.reflector.LastSyncResourceVersion()
}
// processLoop drains the work queue.
// TODO: Consider doing the processing in parallel. This will require a little thought
// to make sure that we don't end up processing the same object multiple times
// concurrently.
//
// TODO: Plumb through the stopCh here (and down to the queue) so that this can
// actually exit when the controller is stopped. Or just give up on this stuff
// ever being stoppable. Converting this whole package to use Context would
// also be helpful.
func (c *controller) processLoop() {
for {
obj, err := c.config.Queue.Pop(PopProcessFunc(c.config.Process))
if err != nil {
if err == FIFOClosedError {
return
}
if c.config.RetryOnError {
// This is the safe way to re-enqueue.
c.config.Queue.AddIfNotPresent(obj)
}
}
}
}
// ResourceEventHandler can handle notifications for events that happen to a
// resource. The events are informational only, so you can't return an
// error.
// * OnAdd is called when an object is added.
// * OnUpdate is called when an object is modified. Note that oldObj is the
// last known state of the object-- it is possible that several changes
// were combined together, so you can't use this to see every single
// change. OnUpdate is also called when a re-list happens, and it will
// get called even if nothing changed. This is useful for periodically
// evaluating or syncing something.
// * OnDelete will get the final state of the item if it is known, otherwise
// it will get an object of type DeletedFinalStateUnknown. This can
// happen if the watch is closed and misses the delete event and we don't
// notice the deletion until the subsequent re-list.
type ResourceEventHandler interface {
OnAdd(obj interface{})
OnUpdate(oldObj, newObj interface{})
OnDelete(obj interface{})
}
// ResourceEventHandlerFuncs is an adaptor to let you easily specify as many or
// as few of the notification functions as you want while still implementing
// ResourceEventHandler.
type ResourceEventHandlerFuncs struct {
AddFunc func(obj interface{})
UpdateFunc func(oldObj, newObj interface{})
DeleteFunc func(obj interface{})
}
// OnAdd calls AddFunc if it's not nil.
func (r ResourceEventHandlerFuncs) OnAdd(obj interface{}) {
if r.AddFunc != nil {
r.AddFunc(obj)
}
}
// OnUpdate calls UpdateFunc if it's not nil.
func (r ResourceEventHandlerFuncs) OnUpdate(oldObj, newObj interface{}) {
if r.UpdateFunc != nil {
r.UpdateFunc(oldObj, newObj)
}
}
// OnDelete calls DeleteFunc if it's not nil.
func (r ResourceEventHandlerFuncs) OnDelete(obj interface{}) {
if r.DeleteFunc != nil {
r.DeleteFunc(obj)
}
}
// FilteringResourceEventHandler applies the provided filter to all events coming
// in, ensuring the appropriate nested handler method is invoked. An object
// that starts passing the filter after an update is considered an add, and an
// object that stops passing the filter after an update is considered a delete.
type FilteringResourceEventHandler struct {
FilterFunc func(obj interface{}) bool
Handler ResourceEventHandler
}
// OnAdd calls the nested handler only if the filter succeeds
func (r FilteringResourceEventHandler) OnAdd(obj interface{}) {
if !r.FilterFunc(obj) {
return
}
r.Handler.OnAdd(obj)
}
// OnUpdate ensures the proper handler is called depending on whether the filter matches
func (r FilteringResourceEventHandler) OnUpdate(oldObj, newObj interface{}) {
newer := r.FilterFunc(newObj)
older := r.FilterFunc(oldObj)
switch {
case newer && older:
r.Handler.OnUpdate(oldObj, newObj)
case newer && !older:
r.Handler.OnAdd(newObj)
case !newer && older:
r.Handler.OnDelete(oldObj)
default:
// do nothing
}
}
// OnDelete calls the nested handler only if the filter succeeds
func (r FilteringResourceEventHandler) OnDelete(obj interface{}) {
if !r.FilterFunc(obj) {
return
}
r.Handler.OnDelete(obj)
}
// DeletionHandlingMetaNamespaceKeyFunc checks for
// DeletedFinalStateUnknown objects before calling
// MetaNamespaceKeyFunc.
func DeletionHandlingMetaNamespaceKeyFunc(obj interface{}) (string, error) {
if d, ok := obj.(DeletedFinalStateUnknown); ok {
return d.Key, nil
}
return MetaNamespaceKeyFunc(obj)
}
// NewInformer returns a Store and a controller for populating the store
// while also providing event notifications. You should only used the returned
// Store for Get/List operations; Add/Modify/Deletes will cause the event
// notifications to be faulty.
//
// Parameters:
// * lw is list and watch functions for the source of the resource you want to
// be informed of.
// * objType is an object of the type that you expect to receive.
// * resyncPeriod: if non-zero, will re-list this often (you will get OnUpdate
// calls, even if nothing changed). Otherwise, re-list will be delayed as
// long as possible (until the upstream source closes the watch or times out,
// or you stop the controller).
// * h is the object you want notifications sent to.
//
func NewInformer(
lw ListerWatcher,
objType runtime.Object,
resyncPeriod time.Duration,
h ResourceEventHandler,
) (Store, Controller) {
// This will hold the client state, as we know it.
clientState := NewStore(DeletionHandlingMetaNamespaceKeyFunc)
// This will hold incoming changes. Note how we pass clientState in as a
// KeyLister, that way resync operations will result in the correct set
// of update/delete deltas.
fifo := NewDeltaFIFO(MetaNamespaceKeyFunc, clientState)
cfg := &Config{
Queue: fifo,
ListerWatcher: lw,
ObjectType: objType,
FullResyncPeriod: resyncPeriod,
RetryOnError: false,
Process: func(obj interface{}) error {
// from oldest to newest
for _, d := range obj.(Deltas) {
switch d.Type {
case Sync, Added, Updated:
if old, exists, err := clientState.Get(d.Object); err == nil && exists {
if err := clientState.Update(d.Object); err != nil {
return err
}
h.OnUpdate(old, d.Object)
} else {
if err := clientState.Add(d.Object); err != nil {
return err
}
h.OnAdd(d.Object)
}
case Deleted:
if err := clientState.Delete(d.Object); err != nil {
return err
}
h.OnDelete(d.Object)
}
}
return nil
},
}
return clientState, New(cfg)
}
// NewIndexerInformer returns a Indexer and a controller for populating the index
// while also providing event notifications. You should only used the returned
// Index for Get/List operations; Add/Modify/Deletes will cause the event
// notifications to be faulty.
//
// Parameters:
// * lw is list and watch functions for the source of the resource you want to
// be informed of.
// * objType is an object of the type that you expect to receive.
// * resyncPeriod: if non-zero, will re-list this often (you will get OnUpdate
// calls, even if nothing changed). Otherwise, re-list will be delayed as
// long as possible (until the upstream source closes the watch or times out,
// or you stop the controller).
// * h is the object you want notifications sent to.
// * indexers is the indexer for the received object type.
//
func NewIndexerInformer(
lw ListerWatcher,
objType runtime.Object,
resyncPeriod time.Duration,
h ResourceEventHandler,
indexers Indexers,
) (Indexer, Controller) {
// This will hold the client state, as we know it.
clientState := NewIndexer(DeletionHandlingMetaNamespaceKeyFunc, indexers)
// This will hold incoming changes. Note how we pass clientState in as a
// KeyLister, that way resync operations will result in the correct set
// of update/delete deltas.
fifo := NewDeltaFIFO(MetaNamespaceKeyFunc, clientState)
cfg := &Config{
Queue: fifo,
ListerWatcher: lw,
ObjectType: objType,
FullResyncPeriod: resyncPeriod,
RetryOnError: false,
Process: func(obj interface{}) error {
// from oldest to newest
for _, d := range obj.(Deltas) {
switch d.Type {
case Sync, Added, Updated:
if old, exists, err := clientState.Get(d.Object); err == nil && exists {
if err := clientState.Update(d.Object); err != nil {
return err
}
h.OnUpdate(old, d.Object)
} else {
if err := clientState.Add(d.Object); err != nil {
return err
}
h.OnAdd(d.Object)
}
case Deleted:
if err := clientState.Delete(d.Object); err != nil {
return err
}
h.OnDelete(d.Object)
}
}
return nil
},
}
return clientState, New(cfg)
}

659
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/delta_fifo.go generated vendored Normal file
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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 cache
import (
"errors"
"fmt"
"sync"
"k8s.io/apimachinery/pkg/util/sets"
"github.com/golang/glog"
)
// NewDeltaFIFO returns a Store which can be used process changes to items.
//
// keyFunc is used to figure out what key an object should have. (It's
// exposed in the returned DeltaFIFO's KeyOf() method, with bonus features.)
//
// 'keyLister' is expected to return a list of keys that the consumer of
// this queue "knows about". It is used to decide which items are missing
// when Replace() is called; 'Deleted' deltas are produced for these items.
// It may be nil if you don't need to detect all deletions.
// TODO: consider merging keyLister with this object, tracking a list of
// "known" keys when Pop() is called. Have to think about how that
// affects error retrying.
// NOTE: It is possible to misuse this and cause a race when using an
// external known object source.
// Whether there is a potential race depends on how the comsumer
// modifies knownObjects. In Pop(), process function is called under
// lock, so it is safe to update data structures in it that need to be
// in sync with the queue (e.g. knownObjects).
//
// Example:
// In case of sharedIndexInformer being a consumer
// (https://github.com/kubernetes/kubernetes/blob/0cdd940f/staging/
// src/k8s.io/client-go/tools/cache/shared_informer.go#L192),
// there is no race as knownObjects (s.indexer) is modified safely
// under DeltaFIFO's lock. The only exceptions are GetStore() and
// GetIndexer() methods, which expose ways to modify the underlying
// storage. Currently these two methods are used for creating Lister
// and internal tests.
//
// Also see the comment on DeltaFIFO.
func NewDeltaFIFO(keyFunc KeyFunc, knownObjects KeyListerGetter) *DeltaFIFO {
f := &DeltaFIFO{
items: map[string]Deltas{},
queue: []string{},
keyFunc: keyFunc,
knownObjects: knownObjects,
}
f.cond.L = &f.lock
return f
}
// DeltaFIFO is like FIFO, but allows you to process deletes.
//
// DeltaFIFO is a producer-consumer queue, where a Reflector is
// intended to be the producer, and the consumer is whatever calls
// the Pop() method.
//
// DeltaFIFO solves this use case:
// * You want to process every object change (delta) at most once.
// * When you process an object, you want to see everything
// that's happened to it since you last processed it.
// * You want to process the deletion of objects.
// * You might want to periodically reprocess objects.
//
// DeltaFIFO's Pop(), Get(), and GetByKey() methods return
// interface{} to satisfy the Store/Queue interfaces, but it
// will always return an object of type Deltas.
//
// A note on threading: If you call Pop() in parallel from multiple
// threads, you could end up with multiple threads processing slightly
// different versions of the same object.
//
// A note on the KeyLister used by the DeltaFIFO: It's main purpose is
// to list keys that are "known", for the purpose of figuring out which
// items have been deleted when Replace() or Delete() are called. The deleted
// object will be included in the DeleteFinalStateUnknown markers. These objects
// could be stale.
type DeltaFIFO struct {
// lock/cond protects access to 'items' and 'queue'.
lock sync.RWMutex
cond sync.Cond
// We depend on the property that items in the set are in
// the queue and vice versa, and that all Deltas in this
// map have at least one Delta.
items map[string]Deltas
queue []string
// populated is true if the first batch of items inserted by Replace() has been populated
// or Delete/Add/Update was called first.
populated bool
// initialPopulationCount is the number of items inserted by the first call of Replace()
initialPopulationCount int
// keyFunc is used to make the key used for queued item
// insertion and retrieval, and should be deterministic.
keyFunc KeyFunc
// knownObjects list keys that are "known", for the
// purpose of figuring out which items have been deleted
// when Replace() or Delete() is called.
knownObjects KeyListerGetter
// Indication the queue is closed.
// Used to indicate a queue is closed so a control loop can exit when a queue is empty.
// Currently, not used to gate any of CRED operations.
closed bool
closedLock sync.Mutex
}
var (
_ = Queue(&DeltaFIFO{}) // DeltaFIFO is a Queue
)
var (
// ErrZeroLengthDeltasObject is returned in a KeyError if a Deltas
// object with zero length is encountered (should be impossible,
// but included for completeness).
ErrZeroLengthDeltasObject = errors.New("0 length Deltas object; can't get key")
)
// Close the queue.
func (f *DeltaFIFO) Close() {
f.closedLock.Lock()
defer f.closedLock.Unlock()
f.closed = true
f.cond.Broadcast()
}
// KeyOf exposes f's keyFunc, but also detects the key of a Deltas object or
// DeletedFinalStateUnknown objects.
func (f *DeltaFIFO) KeyOf(obj interface{}) (string, error) {
if d, ok := obj.(Deltas); ok {
if len(d) == 0 {
return "", KeyError{obj, ErrZeroLengthDeltasObject}
}
obj = d.Newest().Object
}
if d, ok := obj.(DeletedFinalStateUnknown); ok {
return d.Key, nil
}
return f.keyFunc(obj)
}
// Return true if an Add/Update/Delete/AddIfNotPresent are called first,
// or an Update called first but the first batch of items inserted by Replace() has been popped
func (f *DeltaFIFO) HasSynced() bool {
f.lock.Lock()
defer f.lock.Unlock()
return f.populated && f.initialPopulationCount == 0
}
// Add inserts an item, and puts it in the queue. The item is only enqueued
// if it doesn't already exist in the set.
func (f *DeltaFIFO) Add(obj interface{}) error {
f.lock.Lock()
defer f.lock.Unlock()
f.populated = true
return f.queueActionLocked(Added, obj)
}
// Update is just like Add, but makes an Updated Delta.
func (f *DeltaFIFO) Update(obj interface{}) error {
f.lock.Lock()
defer f.lock.Unlock()
f.populated = true
return f.queueActionLocked(Updated, obj)
}
// Delete is just like Add, but makes an Deleted Delta. If the item does not
// already exist, it will be ignored. (It may have already been deleted by a
// Replace (re-list), for example.
func (f *DeltaFIFO) Delete(obj interface{}) error {
id, err := f.KeyOf(obj)
if err != nil {
return KeyError{obj, err}
}
f.lock.Lock()
defer f.lock.Unlock()
f.populated = true
if f.knownObjects == nil {
if _, exists := f.items[id]; !exists {
// Presumably, this was deleted when a relist happened.
// Don't provide a second report of the same deletion.
return nil
}
} else {
// We only want to skip the "deletion" action if the object doesn't
// exist in knownObjects and it doesn't have corresponding item in items.
// Note that even if there is a "deletion" action in items, we can ignore it,
// because it will be deduped automatically in "queueActionLocked"
_, exists, err := f.knownObjects.GetByKey(id)
_, itemsExist := f.items[id]
if err == nil && !exists && !itemsExist {
// Presumably, this was deleted when a relist happened.
// Don't provide a second report of the same deletion.
return nil
}
}
return f.queueActionLocked(Deleted, obj)
}
// AddIfNotPresent inserts an item, and puts it in the queue. If the item is already
// present in the set, it is neither enqueued nor added to the set.
//
// This is useful in a single producer/consumer scenario so that the consumer can
// safely retry items without contending with the producer and potentially enqueueing
// stale items.
//
// Important: obj must be a Deltas (the output of the Pop() function). Yes, this is
// different from the Add/Update/Delete functions.
func (f *DeltaFIFO) AddIfNotPresent(obj interface{}) error {
deltas, ok := obj.(Deltas)
if !ok {
return fmt.Errorf("object must be of type deltas, but got: %#v", obj)
}
id, err := f.KeyOf(deltas.Newest().Object)
if err != nil {
return KeyError{obj, err}
}
f.lock.Lock()
defer f.lock.Unlock()
f.addIfNotPresent(id, deltas)
return nil
}
// addIfNotPresent inserts deltas under id if it does not exist, and assumes the caller
// already holds the fifo lock.
func (f *DeltaFIFO) addIfNotPresent(id string, deltas Deltas) {
f.populated = true
if _, exists := f.items[id]; exists {
return
}
f.queue = append(f.queue, id)
f.items[id] = deltas
f.cond.Broadcast()
}
// re-listing and watching can deliver the same update multiple times in any
// order. This will combine the most recent two deltas if they are the same.
func dedupDeltas(deltas Deltas) Deltas {
n := len(deltas)
if n < 2 {
return deltas
}
a := &deltas[n-1]
b := &deltas[n-2]
if out := isDup(a, b); out != nil {
d := append(Deltas{}, deltas[:n-2]...)
return append(d, *out)
}
return deltas
}
// If a & b represent the same event, returns the delta that ought to be kept.
// Otherwise, returns nil.
// TODO: is there anything other than deletions that need deduping?
func isDup(a, b *Delta) *Delta {
if out := isDeletionDup(a, b); out != nil {
return out
}
// TODO: Detect other duplicate situations? Are there any?
return nil
}
// keep the one with the most information if both are deletions.
func isDeletionDup(a, b *Delta) *Delta {
if b.Type != Deleted || a.Type != Deleted {
return nil
}
// Do more sophisticated checks, or is this sufficient?
if _, ok := b.Object.(DeletedFinalStateUnknown); ok {
return a
}
return b
}
// willObjectBeDeletedLocked returns true only if the last delta for the
// given object is Delete. Caller must lock first.
func (f *DeltaFIFO) willObjectBeDeletedLocked(id string) bool {
deltas := f.items[id]
return len(deltas) > 0 && deltas[len(deltas)-1].Type == Deleted
}
// queueActionLocked appends to the delta list for the object.
// Caller must lock first.
func (f *DeltaFIFO) queueActionLocked(actionType DeltaType, obj interface{}) error {
id, err := f.KeyOf(obj)
if err != nil {
return KeyError{obj, err}
}
// If object is supposed to be deleted (last event is Deleted),
// then we should ignore Sync events, because it would result in
// recreation of this object.
if actionType == Sync && f.willObjectBeDeletedLocked(id) {
return nil
}
newDeltas := append(f.items[id], Delta{actionType, obj})
newDeltas = dedupDeltas(newDeltas)
_, exists := f.items[id]
if len(newDeltas) > 0 {
if !exists {
f.queue = append(f.queue, id)
}
f.items[id] = newDeltas
f.cond.Broadcast()
} else if exists {
// We need to remove this from our map (extra items
// in the queue are ignored if they are not in the
// map).
delete(f.items, id)
}
return nil
}
// List returns a list of all the items; it returns the object
// from the most recent Delta.
// You should treat the items returned inside the deltas as immutable.
func (f *DeltaFIFO) List() []interface{} {
f.lock.RLock()
defer f.lock.RUnlock()
return f.listLocked()
}
func (f *DeltaFIFO) listLocked() []interface{} {
list := make([]interface{}, 0, len(f.items))
for _, item := range f.items {
// Copy item's slice so operations on this slice
// won't interfere with the object we return.
item = copyDeltas(item)
list = append(list, item.Newest().Object)
}
return list
}
// ListKeys returns a list of all the keys of the objects currently
// in the FIFO.
func (f *DeltaFIFO) ListKeys() []string {
f.lock.RLock()
defer f.lock.RUnlock()
list := make([]string, 0, len(f.items))
for key := range f.items {
list = append(list, key)
}
return list
}
// Get returns the complete list of deltas for the requested item,
// or sets exists=false.
// You should treat the items returned inside the deltas as immutable.
func (f *DeltaFIFO) Get(obj interface{}) (item interface{}, exists bool, err error) {
key, err := f.KeyOf(obj)
if err != nil {
return nil, false, KeyError{obj, err}
}
return f.GetByKey(key)
}
// GetByKey returns the complete list of deltas for the requested item,
// setting exists=false if that list is empty.
// You should treat the items returned inside the deltas as immutable.
func (f *DeltaFIFO) GetByKey(key string) (item interface{}, exists bool, err error) {
f.lock.RLock()
defer f.lock.RUnlock()
d, exists := f.items[key]
if exists {
// Copy item's slice so operations on this slice
// won't interfere with the object we return.
d = copyDeltas(d)
}
return d, exists, nil
}
// Checks if the queue is closed
func (f *DeltaFIFO) IsClosed() bool {
f.closedLock.Lock()
defer f.closedLock.Unlock()
if f.closed {
return true
}
return false
}
// Pop blocks until an item is added to the queue, and then returns it. If
// multiple items are ready, they are returned in the order in which they were
// added/updated. The item is removed from the queue (and the store) before it
// is returned, so if you don't successfully process it, you need to add it back
// with AddIfNotPresent().
// process function is called under lock, so it is safe update data structures
// in it that need to be in sync with the queue (e.g. knownKeys). The PopProcessFunc
// may return an instance of ErrRequeue with a nested error to indicate the current
// item should be requeued (equivalent to calling AddIfNotPresent under the lock).
//
// Pop returns a 'Deltas', which has a complete list of all the things
// that happened to the object (deltas) while it was sitting in the queue.
func (f *DeltaFIFO) Pop(process PopProcessFunc) (interface{}, error) {
f.lock.Lock()
defer f.lock.Unlock()
for {
for len(f.queue) == 0 {
// When the queue is empty, invocation of Pop() is blocked until new item is enqueued.
// When Close() is called, the f.closed is set and the condition is broadcasted.
// Which causes this loop to continue and return from the Pop().
if f.IsClosed() {
return nil, FIFOClosedError
}
f.cond.Wait()
}
id := f.queue[0]
f.queue = f.queue[1:]
item, ok := f.items[id]
if f.initialPopulationCount > 0 {
f.initialPopulationCount--
}
if !ok {
// Item may have been deleted subsequently.
continue
}
delete(f.items, id)
err := process(item)
if e, ok := err.(ErrRequeue); ok {
f.addIfNotPresent(id, item)
err = e.Err
}
// Don't need to copyDeltas here, because we're transferring
// ownership to the caller.
return item, err
}
}
// Replace will delete the contents of 'f', using instead the given map.
// 'f' takes ownership of the map, you should not reference the map again
// after calling this function. f's queue is reset, too; upon return, it
// will contain the items in the map, in no particular order.
func (f *DeltaFIFO) Replace(list []interface{}, resourceVersion string) error {
f.lock.Lock()
defer f.lock.Unlock()
keys := make(sets.String, len(list))
for _, item := range list {
key, err := f.KeyOf(item)
if err != nil {
return KeyError{item, err}
}
keys.Insert(key)
if err := f.queueActionLocked(Sync, item); err != nil {
return fmt.Errorf("couldn't enqueue object: %v", err)
}
}
if f.knownObjects == nil {
// Do deletion detection against our own list.
for k, oldItem := range f.items {
if keys.Has(k) {
continue
}
var deletedObj interface{}
if n := oldItem.Newest(); n != nil {
deletedObj = n.Object
}
if err := f.queueActionLocked(Deleted, DeletedFinalStateUnknown{k, deletedObj}); err != nil {
return err
}
}
if !f.populated {
f.populated = true
f.initialPopulationCount = len(list)
}
return nil
}
// Detect deletions not already in the queue.
knownKeys := f.knownObjects.ListKeys()
queuedDeletions := 0
for _, k := range knownKeys {
if keys.Has(k) {
continue
}
deletedObj, exists, err := f.knownObjects.GetByKey(k)
if err != nil {
deletedObj = nil
glog.Errorf("Unexpected error %v during lookup of key %v, placing DeleteFinalStateUnknown marker without object", err, k)
} else if !exists {
deletedObj = nil
glog.Infof("Key %v does not exist in known objects store, placing DeleteFinalStateUnknown marker without object", k)
}
queuedDeletions++
if err := f.queueActionLocked(Deleted, DeletedFinalStateUnknown{k, deletedObj}); err != nil {
return err
}
}
if !f.populated {
f.populated = true
f.initialPopulationCount = len(list) + queuedDeletions
}
return nil
}
// Resync will send a sync event for each item
func (f *DeltaFIFO) Resync() error {
f.lock.Lock()
defer f.lock.Unlock()
if f.knownObjects == nil {
return nil
}
keys := f.knownObjects.ListKeys()
for _, k := range keys {
if err := f.syncKeyLocked(k); err != nil {
return err
}
}
return nil
}
func (f *DeltaFIFO) syncKey(key string) error {
f.lock.Lock()
defer f.lock.Unlock()
return f.syncKeyLocked(key)
}
func (f *DeltaFIFO) syncKeyLocked(key string) error {
obj, exists, err := f.knownObjects.GetByKey(key)
if err != nil {
glog.Errorf("Unexpected error %v during lookup of key %v, unable to queue object for sync", err, key)
return nil
} else if !exists {
glog.Infof("Key %v does not exist in known objects store, unable to queue object for sync", key)
return nil
}
// If we are doing Resync() and there is already an event queued for that object,
// we ignore the Resync for it. This is to avoid the race, in which the resync
// comes with the previous value of object (since queueing an event for the object
// doesn't trigger changing the underlying store <knownObjects>.
id, err := f.KeyOf(obj)
if err != nil {
return KeyError{obj, err}
}
if len(f.items[id]) > 0 {
return nil
}
if err := f.queueActionLocked(Sync, obj); err != nil {
return fmt.Errorf("couldn't queue object: %v", err)
}
return nil
}
// A KeyListerGetter is anything that knows how to list its keys and look up by key.
type KeyListerGetter interface {
KeyLister
KeyGetter
}
// A KeyLister is anything that knows how to list its keys.
type KeyLister interface {
ListKeys() []string
}
// A KeyGetter is anything that knows how to get the value stored under a given key.
type KeyGetter interface {
GetByKey(key string) (interface{}, bool, error)
}
// DeltaType is the type of a change (addition, deletion, etc)
type DeltaType string
const (
Added DeltaType = "Added"
Updated DeltaType = "Updated"
Deleted DeltaType = "Deleted"
// The other types are obvious. You'll get Sync deltas when:
// * A watch expires/errors out and a new list/watch cycle is started.
// * You've turned on periodic syncs.
// (Anything that trigger's DeltaFIFO's Replace() method.)
Sync DeltaType = "Sync"
)
// Delta is the type stored by a DeltaFIFO. It tells you what change
// happened, and the object's state after* that change.
//
// [*] Unless the change is a deletion, and then you'll get the final
// state of the object before it was deleted.
type Delta struct {
Type DeltaType
Object interface{}
}
// Deltas is a list of one or more 'Delta's to an individual object.
// The oldest delta is at index 0, the newest delta is the last one.
type Deltas []Delta
// Oldest is a convenience function that returns the oldest delta, or
// nil if there are no deltas.
func (d Deltas) Oldest() *Delta {
if len(d) > 0 {
return &d[0]
}
return nil
}
// Newest is a convenience function that returns the newest delta, or
// nil if there are no deltas.
func (d Deltas) Newest() *Delta {
if n := len(d); n > 0 {
return &d[n-1]
}
return nil
}
// copyDeltas returns a shallow copy of d; that is, it copies the slice but not
// the objects in the slice. This allows Get/List to return an object that we
// know won't be clobbered by a subsequent modifications.
func copyDeltas(d Deltas) Deltas {
d2 := make(Deltas, len(d))
copy(d2, d)
return d2
}
// DeletedFinalStateUnknown is placed into a DeltaFIFO in the case where
// an object was deleted but the watch deletion event was missed. In this
// case we don't know the final "resting" state of the object, so there's
// a chance the included `Obj` is stale.
type DeletedFinalStateUnknown struct {
Key string
Obj interface{}
}

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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 cache is a client-side caching mechanism. It is useful for
// reducing the number of server calls you'd otherwise need to make.
// Reflector watches a server and updates a Store. Two stores are provided;
// one that simply caches objects (for example, to allow a scheduler to
// list currently available nodes), and one that additionally acts as
// a FIFO queue (for example, to allow a scheduler to process incoming
// pods).
package cache // import "k8s.io/client-go/tools/cache"

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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 cache
import (
"sync"
"time"
"github.com/golang/glog"
"k8s.io/apimachinery/pkg/util/clock"
)
// ExpirationCache implements the store interface
// 1. All entries are automatically time stamped on insert
// a. The key is computed based off the original item/keyFunc
// b. The value inserted under that key is the timestamped item
// 2. Expiration happens lazily on read based on the expiration policy
// a. No item can be inserted into the store while we're expiring
// *any* item in the cache.
// 3. Time-stamps are stripped off unexpired entries before return
// Note that the ExpirationCache is inherently slower than a normal
// threadSafeStore because it takes a write lock every time it checks if
// an item has expired.
type ExpirationCache struct {
cacheStorage ThreadSafeStore
keyFunc KeyFunc
clock clock.Clock
expirationPolicy ExpirationPolicy
// expirationLock is a write lock used to guarantee that we don't clobber
// newly inserted objects because of a stale expiration timestamp comparison
expirationLock sync.Mutex
}
// ExpirationPolicy dictates when an object expires. Currently only abstracted out
// so unittests don't rely on the system clock.
type ExpirationPolicy interface {
IsExpired(obj *timestampedEntry) bool
}
// TTLPolicy implements a ttl based ExpirationPolicy.
type TTLPolicy struct {
// >0: Expire entries with an age > ttl
// <=0: Don't expire any entry
Ttl time.Duration
// Clock used to calculate ttl expiration
Clock clock.Clock
}
// IsExpired returns true if the given object is older than the ttl, or it can't
// determine its age.
func (p *TTLPolicy) IsExpired(obj *timestampedEntry) bool {
return p.Ttl > 0 && p.Clock.Since(obj.timestamp) > p.Ttl
}
// timestampedEntry is the only type allowed in a ExpirationCache.
type timestampedEntry struct {
obj interface{}
timestamp time.Time
}
// getTimestampedEntry returns the timestampedEntry stored under the given key.
func (c *ExpirationCache) getTimestampedEntry(key string) (*timestampedEntry, bool) {
item, _ := c.cacheStorage.Get(key)
if tsEntry, ok := item.(*timestampedEntry); ok {
return tsEntry, true
}
return nil, false
}
// getOrExpire retrieves the object from the timestampedEntry if and only if it hasn't
// already expired. It holds a write lock across deletion.
func (c *ExpirationCache) getOrExpire(key string) (interface{}, bool) {
// Prevent all inserts from the time we deem an item as "expired" to when we
// delete it, so an un-expired item doesn't sneak in under the same key, just
// before the Delete.
c.expirationLock.Lock()
defer c.expirationLock.Unlock()
timestampedItem, exists := c.getTimestampedEntry(key)
if !exists {
return nil, false
}
if c.expirationPolicy.IsExpired(timestampedItem) {
glog.V(4).Infof("Entry %v: %+v has expired", key, timestampedItem.obj)
c.cacheStorage.Delete(key)
return nil, false
}
return timestampedItem.obj, true
}
// GetByKey returns the item stored under the key, or sets exists=false.
func (c *ExpirationCache) GetByKey(key string) (interface{}, bool, error) {
obj, exists := c.getOrExpire(key)
return obj, exists, nil
}
// Get returns unexpired items. It purges the cache of expired items in the
// process.
func (c *ExpirationCache) Get(obj interface{}) (interface{}, bool, error) {
key, err := c.keyFunc(obj)
if err != nil {
return nil, false, KeyError{obj, err}
}
obj, exists := c.getOrExpire(key)
return obj, exists, nil
}
// List retrieves a list of unexpired items. It purges the cache of expired
// items in the process.
func (c *ExpirationCache) List() []interface{} {
items := c.cacheStorage.List()
list := make([]interface{}, 0, len(items))
for _, item := range items {
obj := item.(*timestampedEntry).obj
if key, err := c.keyFunc(obj); err != nil {
list = append(list, obj)
} else if obj, exists := c.getOrExpire(key); exists {
list = append(list, obj)
}
}
return list
}
// ListKeys returns a list of all keys in the expiration cache.
func (c *ExpirationCache) ListKeys() []string {
return c.cacheStorage.ListKeys()
}
// Add timestamps an item and inserts it into the cache, overwriting entries
// that might exist under the same key.
func (c *ExpirationCache) Add(obj interface{}) error {
c.expirationLock.Lock()
defer c.expirationLock.Unlock()
key, err := c.keyFunc(obj)
if err != nil {
return KeyError{obj, err}
}
c.cacheStorage.Add(key, &timestampedEntry{obj, c.clock.Now()})
return nil
}
// Update has not been implemented yet for lack of a use case, so this method
// simply calls `Add`. This effectively refreshes the timestamp.
func (c *ExpirationCache) Update(obj interface{}) error {
return c.Add(obj)
}
// Delete removes an item from the cache.
func (c *ExpirationCache) Delete(obj interface{}) error {
c.expirationLock.Lock()
defer c.expirationLock.Unlock()
key, err := c.keyFunc(obj)
if err != nil {
return KeyError{obj, err}
}
c.cacheStorage.Delete(key)
return nil
}
// Replace will convert all items in the given list to TimestampedEntries
// before attempting the replace operation. The replace operation will
// delete the contents of the ExpirationCache `c`.
func (c *ExpirationCache) Replace(list []interface{}, resourceVersion string) error {
c.expirationLock.Lock()
defer c.expirationLock.Unlock()
items := map[string]interface{}{}
ts := c.clock.Now()
for _, item := range list {
key, err := c.keyFunc(item)
if err != nil {
return KeyError{item, err}
}
items[key] = &timestampedEntry{item, ts}
}
c.cacheStorage.Replace(items, resourceVersion)
return nil
}
// Resync will touch all objects to put them into the processing queue
func (c *ExpirationCache) Resync() error {
return c.cacheStorage.Resync()
}
// NewTTLStore creates and returns a ExpirationCache with a TTLPolicy
func NewTTLStore(keyFunc KeyFunc, ttl time.Duration) Store {
return &ExpirationCache{
cacheStorage: NewThreadSafeStore(Indexers{}, Indices{}),
keyFunc: keyFunc,
clock: clock.RealClock{},
expirationPolicy: &TTLPolicy{ttl, clock.RealClock{}},
}
}

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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 cache
import (
"k8s.io/apimachinery/pkg/util/clock"
"k8s.io/apimachinery/pkg/util/sets"
)
type fakeThreadSafeMap struct {
ThreadSafeStore
deletedKeys chan<- string
}
func (c *fakeThreadSafeMap) Delete(key string) {
if c.deletedKeys != nil {
c.ThreadSafeStore.Delete(key)
c.deletedKeys <- key
}
}
type FakeExpirationPolicy struct {
NeverExpire sets.String
RetrieveKeyFunc KeyFunc
}
func (p *FakeExpirationPolicy) IsExpired(obj *timestampedEntry) bool {
key, _ := p.RetrieveKeyFunc(obj)
return !p.NeverExpire.Has(key)
}
func NewFakeExpirationStore(keyFunc KeyFunc, deletedKeys chan<- string, expirationPolicy ExpirationPolicy, cacheClock clock.Clock) Store {
cacheStorage := NewThreadSafeStore(Indexers{}, Indices{})
return &ExpirationCache{
cacheStorage: &fakeThreadSafeMap{cacheStorage, deletedKeys},
keyFunc: keyFunc,
clock: cacheClock,
expirationPolicy: expirationPolicy,
}
}

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/*
Copyright 2016 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 cache
// FakeStore lets you define custom functions for store operations
type FakeCustomStore struct {
AddFunc func(obj interface{}) error
UpdateFunc func(obj interface{}) error
DeleteFunc func(obj interface{}) error
ListFunc func() []interface{}
ListKeysFunc func() []string
GetFunc func(obj interface{}) (item interface{}, exists bool, err error)
GetByKeyFunc func(key string) (item interface{}, exists bool, err error)
ReplaceFunc func(list []interface{}, resourceVerion string) error
ResyncFunc func() error
}
// Add calls the custom Add function if defined
func (f *FakeCustomStore) Add(obj interface{}) error {
if f.AddFunc != nil {
return f.AddFunc(obj)
}
return nil
}
// Update calls the custom Update function if defined
func (f *FakeCustomStore) Update(obj interface{}) error {
if f.UpdateFunc != nil {
return f.Update(obj)
}
return nil
}
// Delete calls the custom Delete function if defined
func (f *FakeCustomStore) Delete(obj interface{}) error {
if f.DeleteFunc != nil {
return f.DeleteFunc(obj)
}
return nil
}
// List calls the custom List function if defined
func (f *FakeCustomStore) List() []interface{} {
if f.ListFunc != nil {
return f.ListFunc()
}
return nil
}
// ListKeys calls the custom ListKeys function if defined
func (f *FakeCustomStore) ListKeys() []string {
if f.ListKeysFunc != nil {
return f.ListKeysFunc()
}
return nil
}
// Get calls the custom Get function if defined
func (f *FakeCustomStore) Get(obj interface{}) (item interface{}, exists bool, err error) {
if f.GetFunc != nil {
return f.GetFunc(obj)
}
return nil, false, nil
}
// GetByKey calls the custom GetByKey function if defined
func (f *FakeCustomStore) GetByKey(key string) (item interface{}, exists bool, err error) {
if f.GetByKeyFunc != nil {
return f.GetByKeyFunc(key)
}
return nil, false, nil
}
// Replace calls the custom Replace function if defined
func (f *FakeCustomStore) Replace(list []interface{}, resourceVersion string) error {
if f.ReplaceFunc != nil {
return f.ReplaceFunc(list, resourceVersion)
}
return nil
}
// Resync calls the custom Resync function if defined
func (f *FakeCustomStore) Resync() error {
if f.ResyncFunc != nil {
return f.ResyncFunc()
}
return nil
}

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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 cache
import (
"errors"
"sync"
"k8s.io/apimachinery/pkg/util/sets"
)
// PopProcessFunc is passed to Pop() method of Queue interface.
// It is supposed to process the element popped from the queue.
type PopProcessFunc func(interface{}) error
// ErrRequeue may be returned by a PopProcessFunc to safely requeue
// the current item. The value of Err will be returned from Pop.
type ErrRequeue struct {
// Err is returned by the Pop function
Err error
}
var FIFOClosedError error = errors.New("DeltaFIFO: manipulating with closed queue")
func (e ErrRequeue) Error() string {
if e.Err == nil {
return "the popped item should be requeued without returning an error"
}
return e.Err.Error()
}
// Queue is exactly like a Store, but has a Pop() method too.
type Queue interface {
Store
// Pop blocks until it has something to process.
// It returns the object that was process and the result of processing.
// The PopProcessFunc may return an ErrRequeue{...} to indicate the item
// should be requeued before releasing the lock on the queue.
Pop(PopProcessFunc) (interface{}, error)
// AddIfNotPresent adds a value previously
// returned by Pop back into the queue as long
// as nothing else (presumably more recent)
// has since been added.
AddIfNotPresent(interface{}) error
// HasSynced returns true if the first batch of items has been popped
HasSynced() bool
// Close queue
Close()
}
// Helper function for popping from Queue.
// WARNING: Do NOT use this function in non-test code to avoid races
// unless you really really really really know what you are doing.
func Pop(queue Queue) interface{} {
var result interface{}
queue.Pop(func(obj interface{}) error {
result = obj
return nil
})
return result
}
// FIFO receives adds and updates from a Reflector, and puts them in a queue for
// FIFO order processing. If multiple adds/updates of a single item happen while
// an item is in the queue before it has been processed, it will only be
// processed once, and when it is processed, the most recent version will be
// processed. This can't be done with a channel.
//
// FIFO solves this use case:
// * You want to process every object (exactly) once.
// * You want to process the most recent version of the object when you process it.
// * You do not want to process deleted objects, they should be removed from the queue.
// * You do not want to periodically reprocess objects.
// Compare with DeltaFIFO for other use cases.
type FIFO struct {
lock sync.RWMutex
cond sync.Cond
// We depend on the property that items in the set are in the queue and vice versa.
items map[string]interface{}
queue []string
// populated is true if the first batch of items inserted by Replace() has been populated
// or Delete/Add/Update was called first.
populated bool
// initialPopulationCount is the number of items inserted by the first call of Replace()
initialPopulationCount int
// keyFunc is used to make the key used for queued item insertion and retrieval, and
// should be deterministic.
keyFunc KeyFunc
// Indication the queue is closed.
// Used to indicate a queue is closed so a control loop can exit when a queue is empty.
// Currently, not used to gate any of CRED operations.
closed bool
closedLock sync.Mutex
}
var (
_ = Queue(&FIFO{}) // FIFO is a Queue
)
// Close the queue.
func (f *FIFO) Close() {
f.closedLock.Lock()
defer f.closedLock.Unlock()
f.closed = true
f.cond.Broadcast()
}
// Return true if an Add/Update/Delete/AddIfNotPresent are called first,
// or an Update called first but the first batch of items inserted by Replace() has been popped
func (f *FIFO) HasSynced() bool {
f.lock.Lock()
defer f.lock.Unlock()
return f.populated && f.initialPopulationCount == 0
}
// Add inserts an item, and puts it in the queue. The item is only enqueued
// if it doesn't already exist in the set.
func (f *FIFO) Add(obj interface{}) error {
id, err := f.keyFunc(obj)
if err != nil {
return KeyError{obj, err}
}
f.lock.Lock()
defer f.lock.Unlock()
f.populated = true
if _, exists := f.items[id]; !exists {
f.queue = append(f.queue, id)
}
f.items[id] = obj
f.cond.Broadcast()
return nil
}
// AddIfNotPresent inserts an item, and puts it in the queue. If the item is already
// present in the set, it is neither enqueued nor added to the set.
//
// This is useful in a single producer/consumer scenario so that the consumer can
// safely retry items without contending with the producer and potentially enqueueing
// stale items.
func (f *FIFO) AddIfNotPresent(obj interface{}) error {
id, err := f.keyFunc(obj)
if err != nil {
return KeyError{obj, err}
}
f.lock.Lock()
defer f.lock.Unlock()
f.addIfNotPresent(id, obj)
return nil
}
// addIfNotPresent assumes the fifo lock is already held and adds the provided
// item to the queue under id if it does not already exist.
func (f *FIFO) addIfNotPresent(id string, obj interface{}) {
f.populated = true
if _, exists := f.items[id]; exists {
return
}
f.queue = append(f.queue, id)
f.items[id] = obj
f.cond.Broadcast()
}
// Update is the same as Add in this implementation.
func (f *FIFO) Update(obj interface{}) error {
return f.Add(obj)
}
// Delete removes an item. It doesn't add it to the queue, because
// this implementation assumes the consumer only cares about the objects,
// not the order in which they were created/added.
func (f *FIFO) Delete(obj interface{}) error {
id, err := f.keyFunc(obj)
if err != nil {
return KeyError{obj, err}
}
f.lock.Lock()
defer f.lock.Unlock()
f.populated = true
delete(f.items, id)
return err
}
// List returns a list of all the items.
func (f *FIFO) List() []interface{} {
f.lock.RLock()
defer f.lock.RUnlock()
list := make([]interface{}, 0, len(f.items))
for _, item := range f.items {
list = append(list, item)
}
return list
}
// ListKeys returns a list of all the keys of the objects currently
// in the FIFO.
func (f *FIFO) ListKeys() []string {
f.lock.RLock()
defer f.lock.RUnlock()
list := make([]string, 0, len(f.items))
for key := range f.items {
list = append(list, key)
}
return list
}
// Get returns the requested item, or sets exists=false.
func (f *FIFO) Get(obj interface{}) (item interface{}, exists bool, err error) {
key, err := f.keyFunc(obj)
if err != nil {
return nil, false, KeyError{obj, err}
}
return f.GetByKey(key)
}
// GetByKey returns the requested item, or sets exists=false.
func (f *FIFO) GetByKey(key string) (item interface{}, exists bool, err error) {
f.lock.RLock()
defer f.lock.RUnlock()
item, exists = f.items[key]
return item, exists, nil
}
// Checks if the queue is closed
func (f *FIFO) IsClosed() bool {
f.closedLock.Lock()
defer f.closedLock.Unlock()
if f.closed {
return true
}
return false
}
// Pop waits until an item is ready and processes it. If multiple items are
// ready, they are returned in the order in which they were added/updated.
// The item is removed from the queue (and the store) before it is processed,
// so if you don't successfully process it, it should be added back with
// AddIfNotPresent(). process function is called under lock, so it is safe
// update data structures in it that need to be in sync with the queue.
func (f *FIFO) Pop(process PopProcessFunc) (interface{}, error) {
f.lock.Lock()
defer f.lock.Unlock()
for {
for len(f.queue) == 0 {
// When the queue is empty, invocation of Pop() is blocked until new item is enqueued.
// When Close() is called, the f.closed is set and the condition is broadcasted.
// Which causes this loop to continue and return from the Pop().
if f.IsClosed() {
return nil, FIFOClosedError
}
f.cond.Wait()
}
id := f.queue[0]
f.queue = f.queue[1:]
if f.initialPopulationCount > 0 {
f.initialPopulationCount--
}
item, ok := f.items[id]
if !ok {
// Item may have been deleted subsequently.
continue
}
delete(f.items, id)
err := process(item)
if e, ok := err.(ErrRequeue); ok {
f.addIfNotPresent(id, item)
err = e.Err
}
return item, err
}
}
// Replace will delete the contents of 'f', using instead the given map.
// 'f' takes ownership of the map, you should not reference the map again
// after calling this function. f's queue is reset, too; upon return, it
// will contain the items in the map, in no particular order.
func (f *FIFO) Replace(list []interface{}, resourceVersion string) error {
items := map[string]interface{}{}
for _, item := range list {
key, err := f.keyFunc(item)
if err != nil {
return KeyError{item, err}
}
items[key] = item
}
f.lock.Lock()
defer f.lock.Unlock()
if !f.populated {
f.populated = true
f.initialPopulationCount = len(items)
}
f.items = items
f.queue = f.queue[:0]
for id := range items {
f.queue = append(f.queue, id)
}
if len(f.queue) > 0 {
f.cond.Broadcast()
}
return nil
}
// Resync will touch all objects to put them into the processing queue
func (f *FIFO) Resync() error {
f.lock.Lock()
defer f.lock.Unlock()
inQueue := sets.NewString()
for _, id := range f.queue {
inQueue.Insert(id)
}
for id := range f.items {
if !inQueue.Has(id) {
f.queue = append(f.queue, id)
}
}
if len(f.queue) > 0 {
f.cond.Broadcast()
}
return nil
}
// NewFIFO returns a Store which can be used to queue up items to
// process.
func NewFIFO(keyFunc KeyFunc) *FIFO {
f := &FIFO{
items: map[string]interface{}{},
queue: []string{},
keyFunc: keyFunc,
}
f.cond.L = &f.lock
return f
}

323
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/heap.go generated vendored Normal file
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/*
Copyright 2017 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.
*/
// This file implements a heap data structure.
package cache
import (
"container/heap"
"fmt"
"sync"
)
const (
closedMsg = "heap is closed"
)
type LessFunc func(interface{}, interface{}) bool
type heapItem struct {
obj interface{} // The object which is stored in the heap.
index int // The index of the object's key in the Heap.queue.
}
type itemKeyValue struct {
key string
obj interface{}
}
// heapData is an internal struct that implements the standard heap interface
// and keeps the data stored in the heap.
type heapData struct {
// items is a map from key of the objects to the objects and their index.
// We depend on the property that items in the map are in the queue and vice versa.
items map[string]*heapItem
// queue implements a heap data structure and keeps the order of elements
// according to the heap invariant. The queue keeps the keys of objects stored
// in "items".
queue []string
// keyFunc is used to make the key used for queued item insertion and retrieval, and
// should be deterministic.
keyFunc KeyFunc
// lessFunc is used to compare two objects in the heap.
lessFunc LessFunc
}
var (
_ = heap.Interface(&heapData{}) // heapData is a standard heap
)
// Less compares two objects and returns true if the first one should go
// in front of the second one in the heap.
func (h *heapData) Less(i, j int) bool {
if i > len(h.queue) || j > len(h.queue) {
return false
}
itemi, ok := h.items[h.queue[i]]
if !ok {
return false
}
itemj, ok := h.items[h.queue[j]]
if !ok {
return false
}
return h.lessFunc(itemi.obj, itemj.obj)
}
// Len returns the number of items in the Heap.
func (h *heapData) Len() int { return len(h.queue) }
// Swap implements swapping of two elements in the heap. This is a part of standard
// heap interface and should never be called directly.
func (h *heapData) Swap(i, j int) {
h.queue[i], h.queue[j] = h.queue[j], h.queue[i]
item := h.items[h.queue[i]]
item.index = i
item = h.items[h.queue[j]]
item.index = j
}
// Push is supposed to be called by heap.Push only.
func (h *heapData) Push(kv interface{}) {
keyValue := kv.(*itemKeyValue)
n := len(h.queue)
h.items[keyValue.key] = &heapItem{keyValue.obj, n}
h.queue = append(h.queue, keyValue.key)
}
// Pop is supposed to be called by heap.Pop only.
func (h *heapData) Pop() interface{} {
key := h.queue[len(h.queue)-1]
h.queue = h.queue[0 : len(h.queue)-1]
item, ok := h.items[key]
if !ok {
// This is an error
return nil
}
delete(h.items, key)
return item.obj
}
// Heap is a thread-safe producer/consumer queue that implements a heap data structure.
// It can be used to implement priority queues and similar data structures.
type Heap struct {
lock sync.RWMutex
cond sync.Cond
// data stores objects and has a queue that keeps their ordering according
// to the heap invariant.
data *heapData
// closed indicates that the queue is closed.
// It is mainly used to let Pop() exit its control loop while waiting for an item.
closed bool
}
// Close the Heap and signals condition variables that may be waiting to pop
// items from the heap.
func (h *Heap) Close() {
h.lock.Lock()
defer h.lock.Unlock()
h.closed = true
h.cond.Broadcast()
}
// Add inserts an item, and puts it in the queue. The item is updated if it
// already exists.
func (h *Heap) Add(obj interface{}) error {
key, err := h.data.keyFunc(obj)
if err != nil {
return KeyError{obj, err}
}
h.lock.Lock()
defer h.lock.Unlock()
if h.closed {
return fmt.Errorf(closedMsg)
}
if _, exists := h.data.items[key]; exists {
h.data.items[key].obj = obj
heap.Fix(h.data, h.data.items[key].index)
} else {
h.addIfNotPresentLocked(key, obj)
}
h.cond.Broadcast()
return nil
}
// Adds all the items in the list to the queue and then signals the condition
// variable. It is useful when the caller would like to add all of the items
// to the queue before consumer starts processing them.
func (h *Heap) BulkAdd(list []interface{}) error {
h.lock.Lock()
defer h.lock.Unlock()
if h.closed {
return fmt.Errorf(closedMsg)
}
for _, obj := range list {
key, err := h.data.keyFunc(obj)
if err != nil {
return KeyError{obj, err}
}
if _, exists := h.data.items[key]; exists {
h.data.items[key].obj = obj
heap.Fix(h.data, h.data.items[key].index)
} else {
h.addIfNotPresentLocked(key, obj)
}
}
h.cond.Broadcast()
return nil
}
// AddIfNotPresent inserts an item, and puts it in the queue. If an item with
// the key is present in the map, no changes is made to the item.
//
// This is useful in a single producer/consumer scenario so that the consumer can
// safely retry items without contending with the producer and potentially enqueueing
// stale items.
func (h *Heap) AddIfNotPresent(obj interface{}) error {
id, err := h.data.keyFunc(obj)
if err != nil {
return KeyError{obj, err}
}
h.lock.Lock()
defer h.lock.Unlock()
if h.closed {
return fmt.Errorf(closedMsg)
}
h.addIfNotPresentLocked(id, obj)
h.cond.Broadcast()
return nil
}
// addIfNotPresentLocked assumes the lock is already held and adds the the provided
// item to the queue if it does not already exist.
func (h *Heap) addIfNotPresentLocked(key string, obj interface{}) {
if _, exists := h.data.items[key]; exists {
return
}
heap.Push(h.data, &itemKeyValue{key, obj})
}
// Update is the same as Add in this implementation. When the item does not
// exist, it is added.
func (h *Heap) Update(obj interface{}) error {
return h.Add(obj)
}
// Delete removes an item.
func (h *Heap) Delete(obj interface{}) error {
key, err := h.data.keyFunc(obj)
if err != nil {
return KeyError{obj, err}
}
h.lock.Lock()
defer h.lock.Unlock()
if item, ok := h.data.items[key]; ok {
heap.Remove(h.data, item.index)
return nil
}
return fmt.Errorf("object not found")
}
// Pop waits until an item is ready. If multiple items are
// ready, they are returned in the order given by Heap.data.lessFunc.
func (h *Heap) Pop() (interface{}, error) {
h.lock.Lock()
defer h.lock.Unlock()
for len(h.data.queue) == 0 {
// When the queue is empty, invocation of Pop() is blocked until new item is enqueued.
// When Close() is called, the h.closed is set and the condition is broadcast,
// which causes this loop to continue and return from the Pop().
if h.closed {
return nil, fmt.Errorf("heap is closed")
}
h.cond.Wait()
}
obj := heap.Pop(h.data)
if obj != nil {
return obj, nil
} else {
return nil, fmt.Errorf("object was removed from heap data")
}
}
// List returns a list of all the items.
func (h *Heap) List() []interface{} {
h.lock.RLock()
defer h.lock.RUnlock()
list := make([]interface{}, 0, len(h.data.items))
for _, item := range h.data.items {
list = append(list, item.obj)
}
return list
}
// ListKeys returns a list of all the keys of the objects currently in the Heap.
func (h *Heap) ListKeys() []string {
h.lock.RLock()
defer h.lock.RUnlock()
list := make([]string, 0, len(h.data.items))
for key := range h.data.items {
list = append(list, key)
}
return list
}
// Get returns the requested item, or sets exists=false.
func (h *Heap) Get(obj interface{}) (interface{}, bool, error) {
key, err := h.data.keyFunc(obj)
if err != nil {
return nil, false, KeyError{obj, err}
}
return h.GetByKey(key)
}
// GetByKey returns the requested item, or sets exists=false.
func (h *Heap) GetByKey(key string) (interface{}, bool, error) {
h.lock.RLock()
defer h.lock.RUnlock()
item, exists := h.data.items[key]
if !exists {
return nil, false, nil
}
return item.obj, true, nil
}
// IsClosed returns true if the queue is closed.
func (h *Heap) IsClosed() bool {
h.lock.RLock()
defer h.lock.RUnlock()
if h.closed {
return true
}
return false
}
// NewHeap returns a Heap which can be used to queue up items to process.
func NewHeap(keyFn KeyFunc, lessFn LessFunc) *Heap {
h := &Heap{
data: &heapData{
items: map[string]*heapItem{},
queue: []string{},
keyFunc: keyFn,
lessFunc: lessFn,
},
}
h.cond.L = &h.lock
return h
}

87
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/index.go generated vendored Normal file
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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 cache
import (
"fmt"
"k8s.io/apimachinery/pkg/api/meta"
"k8s.io/apimachinery/pkg/util/sets"
)
// Indexer is a storage interface that lets you list objects using multiple indexing functions
type Indexer interface {
Store
// Retrieve list of objects that match on the named indexing function
Index(indexName string, obj interface{}) ([]interface{}, error)
// IndexKeys returns the set of keys that match on the named indexing function.
IndexKeys(indexName, indexKey string) ([]string, error)
// ListIndexFuncValues returns the list of generated values of an Index func
ListIndexFuncValues(indexName string) []string
// ByIndex lists object that match on the named indexing function with the exact key
ByIndex(indexName, indexKey string) ([]interface{}, error)
// GetIndexer return the indexers
GetIndexers() Indexers
// AddIndexers adds more indexers to this store. If you call this after you already have data
// in the store, the results are undefined.
AddIndexers(newIndexers Indexers) error
}
// IndexFunc knows how to provide an indexed value for an object.
type IndexFunc func(obj interface{}) ([]string, error)
// IndexFuncToKeyFuncAdapter adapts an indexFunc to a keyFunc. This is only useful if your index function returns
// unique values for every object. This is conversion can create errors when more than one key is found. You
// should prefer to make proper key and index functions.
func IndexFuncToKeyFuncAdapter(indexFunc IndexFunc) KeyFunc {
return func(obj interface{}) (string, error) {
indexKeys, err := indexFunc(obj)
if err != nil {
return "", err
}
if len(indexKeys) > 1 {
return "", fmt.Errorf("too many keys: %v", indexKeys)
}
if len(indexKeys) == 0 {
return "", fmt.Errorf("unexpected empty indexKeys")
}
return indexKeys[0], nil
}
}
const (
NamespaceIndex string = "namespace"
)
// MetaNamespaceIndexFunc is a default index function that indexes based on an object's namespace
func MetaNamespaceIndexFunc(obj interface{}) ([]string, error) {
meta, err := meta.Accessor(obj)
if err != nil {
return []string{""}, fmt.Errorf("object has no meta: %v", err)
}
return []string{meta.GetNamespace()}, nil
}
// Index maps the indexed value to a set of keys in the store that match on that value
type Index map[string]sets.String
// Indexers maps a name to a IndexFunc
type Indexers map[string]IndexFunc
// Indices maps a name to an Index
type Indices map[string]Index

160
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/listers.go generated vendored Normal file
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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 cache
import (
"github.com/golang/glog"
"k8s.io/apimachinery/pkg/api/errors"
"k8s.io/apimachinery/pkg/api/meta"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/labels"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/runtime/schema"
)
// AppendFunc is used to add a matching item to whatever list the caller is using
type AppendFunc func(interface{})
func ListAll(store Store, selector labels.Selector, appendFn AppendFunc) error {
for _, m := range store.List() {
metadata, err := meta.Accessor(m)
if err != nil {
return err
}
if selector.Matches(labels.Set(metadata.GetLabels())) {
appendFn(m)
}
}
return nil
}
func ListAllByNamespace(indexer Indexer, namespace string, selector labels.Selector, appendFn AppendFunc) error {
if namespace == metav1.NamespaceAll {
for _, m := range indexer.List() {
metadata, err := meta.Accessor(m)
if err != nil {
return err
}
if selector.Matches(labels.Set(metadata.GetLabels())) {
appendFn(m)
}
}
return nil
}
items, err := indexer.Index(NamespaceIndex, &metav1.ObjectMeta{Namespace: namespace})
if err != nil {
// Ignore error; do slow search without index.
glog.Warningf("can not retrieve list of objects using index : %v", err)
for _, m := range indexer.List() {
metadata, err := meta.Accessor(m)
if err != nil {
return err
}
if metadata.GetNamespace() == namespace && selector.Matches(labels.Set(metadata.GetLabels())) {
appendFn(m)
}
}
return nil
}
for _, m := range items {
metadata, err := meta.Accessor(m)
if err != nil {
return err
}
if selector.Matches(labels.Set(metadata.GetLabels())) {
appendFn(m)
}
}
return nil
}
// GenericLister is a lister skin on a generic Indexer
type GenericLister interface {
// List will return all objects across namespaces
List(selector labels.Selector) (ret []runtime.Object, err error)
// Get will attempt to retrieve assuming that name==key
Get(name string) (runtime.Object, error)
// ByNamespace will give you a GenericNamespaceLister for one namespace
ByNamespace(namespace string) GenericNamespaceLister
}
// GenericNamespaceLister is a lister skin on a generic Indexer
type GenericNamespaceLister interface {
// List will return all objects in this namespace
List(selector labels.Selector) (ret []runtime.Object, err error)
// Get will attempt to retrieve by namespace and name
Get(name string) (runtime.Object, error)
}
func NewGenericLister(indexer Indexer, resource schema.GroupResource) GenericLister {
return &genericLister{indexer: indexer, resource: resource}
}
type genericLister struct {
indexer Indexer
resource schema.GroupResource
}
func (s *genericLister) List(selector labels.Selector) (ret []runtime.Object, err error) {
err = ListAll(s.indexer, selector, func(m interface{}) {
ret = append(ret, m.(runtime.Object))
})
return ret, err
}
func (s *genericLister) ByNamespace(namespace string) GenericNamespaceLister {
return &genericNamespaceLister{indexer: s.indexer, namespace: namespace, resource: s.resource}
}
func (s *genericLister) Get(name string) (runtime.Object, error) {
obj, exists, err := s.indexer.GetByKey(name)
if err != nil {
return nil, err
}
if !exists {
return nil, errors.NewNotFound(s.resource, name)
}
return obj.(runtime.Object), nil
}
type genericNamespaceLister struct {
indexer Indexer
namespace string
resource schema.GroupResource
}
func (s *genericNamespaceLister) List(selector labels.Selector) (ret []runtime.Object, err error) {
err = ListAllByNamespace(s.indexer, s.namespace, selector, func(m interface{}) {
ret = append(ret, m.(runtime.Object))
})
return ret, err
}
func (s *genericNamespaceLister) Get(name string) (runtime.Object, error) {
obj, exists, err := s.indexer.GetByKey(s.namespace + "/" + name)
if err != nil {
return nil, err
}
if !exists {
return nil, errors.NewNotFound(s.resource, name)
}
return obj.(runtime.Object), nil
}

187
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/listwatch.go generated vendored Normal file
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/*
Copyright 2015 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 cache
import (
"context"
"time"
"k8s.io/apimachinery/pkg/api/meta"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/fields"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/util/wait"
"k8s.io/apimachinery/pkg/watch"
restclient "k8s.io/client-go/rest"
"k8s.io/client-go/tools/pager"
)
// ListerWatcher is any object that knows how to perform an initial list and start a watch on a resource.
type ListerWatcher interface {
// List should return a list type object; the Items field will be extracted, and the
// ResourceVersion field will be used to start the watch in the right place.
List(options metav1.ListOptions) (runtime.Object, error)
// Watch should begin a watch at the specified version.
Watch(options metav1.ListOptions) (watch.Interface, error)
}
// ListFunc knows how to list resources
type ListFunc func(options metav1.ListOptions) (runtime.Object, error)
// WatchFunc knows how to watch resources
type WatchFunc func(options metav1.ListOptions) (watch.Interface, error)
// ListWatch knows how to list and watch a set of apiserver resources. It satisfies the ListerWatcher interface.
// It is a convenience function for users of NewReflector, etc.
// ListFunc and WatchFunc must not be nil
type ListWatch struct {
ListFunc ListFunc
WatchFunc WatchFunc
// DisableChunking requests no chunking for this list watcher.
DisableChunking bool
}
// Getter interface knows how to access Get method from RESTClient.
type Getter interface {
Get() *restclient.Request
}
// NewListWatchFromClient creates a new ListWatch from the specified client, resource, namespace and field selector.
func NewListWatchFromClient(c Getter, resource string, namespace string, fieldSelector fields.Selector) *ListWatch {
optionsModifier := func(options *metav1.ListOptions) {
options.FieldSelector = fieldSelector.String()
}
return NewFilteredListWatchFromClient(c, resource, namespace, optionsModifier)
}
// NewFilteredListWatchFromClient creates a new ListWatch from the specified client, resource, namespace, and option modifier.
// Option modifier is a function takes a ListOptions and modifies the consumed ListOptions. Provide customized modifier function
// to apply modification to ListOptions with a field selector, a label selector, or any other desired options.
func NewFilteredListWatchFromClient(c Getter, resource string, namespace string, optionsModifier func(options *metav1.ListOptions)) *ListWatch {
listFunc := func(options metav1.ListOptions) (runtime.Object, error) {
optionsModifier(&options)
return c.Get().
Namespace(namespace).
Resource(resource).
VersionedParams(&options, metav1.ParameterCodec).
Do().
Get()
}
watchFunc := func(options metav1.ListOptions) (watch.Interface, error) {
options.Watch = true
optionsModifier(&options)
return c.Get().
Namespace(namespace).
Resource(resource).
VersionedParams(&options, metav1.ParameterCodec).
Watch()
}
return &ListWatch{ListFunc: listFunc, WatchFunc: watchFunc}
}
func timeoutFromListOptions(options metav1.ListOptions) time.Duration {
if options.TimeoutSeconds != nil {
return time.Duration(*options.TimeoutSeconds) * time.Second
}
return 0
}
// List a set of apiserver resources
func (lw *ListWatch) List(options metav1.ListOptions) (runtime.Object, error) {
if !lw.DisableChunking {
return pager.New(pager.SimplePageFunc(lw.ListFunc)).List(context.TODO(), options)
}
return lw.ListFunc(options)
}
// Watch a set of apiserver resources
func (lw *ListWatch) Watch(options metav1.ListOptions) (watch.Interface, error) {
return lw.WatchFunc(options)
}
// ListWatchUntil checks the provided conditions against the items returned by the list watcher, returning wait.ErrWaitTimeout
// if timeout is exceeded without all conditions returning true, or an error if an error occurs.
// TODO: check for watch expired error and retry watch from latest point? Same issue exists for Until.
func ListWatchUntil(timeout time.Duration, lw ListerWatcher, conditions ...watch.ConditionFunc) (*watch.Event, error) {
if len(conditions) == 0 {
return nil, nil
}
list, err := lw.List(metav1.ListOptions{})
if err != nil {
return nil, err
}
initialItems, err := meta.ExtractList(list)
if err != nil {
return nil, err
}
// use the initial items as simulated "adds"
var lastEvent *watch.Event
currIndex := 0
passedConditions := 0
for _, condition := range conditions {
// check the next condition against the previous event and short circuit waiting for the next watch
if lastEvent != nil {
done, err := condition(*lastEvent)
if err != nil {
return lastEvent, err
}
if done {
passedConditions = passedConditions + 1
continue
}
}
ConditionSucceeded:
for currIndex < len(initialItems) {
lastEvent = &watch.Event{Type: watch.Added, Object: initialItems[currIndex]}
currIndex++
done, err := condition(*lastEvent)
if err != nil {
return lastEvent, err
}
if done {
passedConditions = passedConditions + 1
break ConditionSucceeded
}
}
}
if passedConditions == len(conditions) {
return lastEvent, nil
}
remainingConditions := conditions[passedConditions:]
metaObj, err := meta.ListAccessor(list)
if err != nil {
return nil, err
}
currResourceVersion := metaObj.GetResourceVersion()
watchInterface, err := lw.Watch(metav1.ListOptions{ResourceVersion: currResourceVersion})
if err != nil {
return nil, err
}
evt, err := watch.Until(timeout, watchInterface, remainingConditions...)
if err == watch.ErrWatchClosed {
// present a consistent error interface to callers
err = wait.ErrWaitTimeout
}
return evt, err
}

261
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/mutation_cache.go generated vendored Normal file
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/*
Copyright 2017 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 cache
import (
"fmt"
"strconv"
"sync"
"time"
"github.com/golang/glog"
"k8s.io/apimachinery/pkg/api/meta"
"k8s.io/apimachinery/pkg/runtime"
utilcache "k8s.io/apimachinery/pkg/util/cache"
utilruntime "k8s.io/apimachinery/pkg/util/runtime"
"k8s.io/apimachinery/pkg/util/sets"
)
// MutationCache is able to take the result of update operations and stores them in an LRU
// that can be used to provide a more current view of a requested object. It requires interpreting
// resourceVersions for comparisons.
// Implementations must be thread-safe.
// TODO find a way to layer this into an informer/lister
type MutationCache interface {
GetByKey(key string) (interface{}, bool, error)
ByIndex(indexName, indexKey string) ([]interface{}, error)
Mutation(interface{})
}
type ResourceVersionComparator interface {
CompareResourceVersion(lhs, rhs runtime.Object) int
}
// NewIntegerResourceVersionMutationCache returns a MutationCache that understands how to
// deal with objects that have a resource version that:
//
// - is an integer
// - increases when updated
// - is comparable across the same resource in a namespace
//
// Most backends will have these semantics. Indexer may be nil. ttl controls how long an item
// remains in the mutation cache before it is removed.
//
// If includeAdds is true, objects in the mutation cache will be returned even if they don't exist
// in the underlying store. This is only safe if your use of the cache can handle mutation entries
// remaining in the cache for up to ttl when mutations and deletes occur very closely in time.
func NewIntegerResourceVersionMutationCache(backingCache Store, indexer Indexer, ttl time.Duration, includeAdds bool) MutationCache {
return &mutationCache{
backingCache: backingCache,
indexer: indexer,
mutationCache: utilcache.NewLRUExpireCache(100),
comparator: etcdObjectVersioner{},
ttl: ttl,
includeAdds: includeAdds,
}
}
// mutationCache doesn't guarantee that it returns values added via Mutation since they can page out and
// since you can't distinguish between, "didn't observe create" and "was deleted after create",
// if the key is missing from the backing cache, we always return it as missing
type mutationCache struct {
lock sync.Mutex
backingCache Store
indexer Indexer
mutationCache *utilcache.LRUExpireCache
includeAdds bool
ttl time.Duration
comparator ResourceVersionComparator
}
// GetByKey is never guaranteed to return back the value set in Mutation. It could be paged out, it could
// be older than another copy, the backingCache may be more recent or, you might have written twice into the same key.
// You get a value that was valid at some snapshot of time and will always return the newer of backingCache and mutationCache.
func (c *mutationCache) GetByKey(key string) (interface{}, bool, error) {
c.lock.Lock()
defer c.lock.Unlock()
obj, exists, err := c.backingCache.GetByKey(key)
if err != nil {
return nil, false, err
}
if !exists {
if !c.includeAdds {
// we can't distinguish between, "didn't observe create" and "was deleted after create", so
// if the key is missing, we always return it as missing
return nil, false, nil
}
obj, exists = c.mutationCache.Get(key)
if !exists {
return nil, false, nil
}
}
objRuntime, ok := obj.(runtime.Object)
if !ok {
return obj, true, nil
}
return c.newerObject(key, objRuntime), true, nil
}
// ByIndex returns the newer objects that match the provided index and indexer key.
// Will return an error if no indexer was provided.
func (c *mutationCache) ByIndex(name string, indexKey string) ([]interface{}, error) {
c.lock.Lock()
defer c.lock.Unlock()
if c.indexer == nil {
return nil, fmt.Errorf("no indexer has been provided to the mutation cache")
}
keys, err := c.indexer.IndexKeys(name, indexKey)
if err != nil {
return nil, err
}
var items []interface{}
keySet := sets.NewString()
for _, key := range keys {
keySet.Insert(key)
obj, exists, err := c.indexer.GetByKey(key)
if err != nil {
return nil, err
}
if !exists {
continue
}
if objRuntime, ok := obj.(runtime.Object); ok {
items = append(items, c.newerObject(key, objRuntime))
} else {
items = append(items, obj)
}
}
if c.includeAdds {
fn := c.indexer.GetIndexers()[name]
// Keys() is returned oldest to newest, so full traversal does not alter the LRU behavior
for _, key := range c.mutationCache.Keys() {
updated, ok := c.mutationCache.Get(key)
if !ok {
continue
}
if keySet.Has(key.(string)) {
continue
}
elements, err := fn(updated)
if err != nil {
glog.V(4).Infof("Unable to calculate an index entry for mutation cache entry %s: %v", key, err)
continue
}
for _, inIndex := range elements {
if inIndex != indexKey {
continue
}
items = append(items, updated)
break
}
}
}
return items, nil
}
// newerObject checks the mutation cache for a newer object and returns one if found. If the
// mutated object is older than the backing object, it is removed from the Must be
// called while the lock is held.
func (c *mutationCache) newerObject(key string, backing runtime.Object) runtime.Object {
mutatedObj, exists := c.mutationCache.Get(key)
if !exists {
return backing
}
mutatedObjRuntime, ok := mutatedObj.(runtime.Object)
if !ok {
return backing
}
if c.comparator.CompareResourceVersion(backing, mutatedObjRuntime) >= 0 {
c.mutationCache.Remove(key)
return backing
}
return mutatedObjRuntime
}
// Mutation adds a change to the cache that can be returned in GetByKey if it is newer than the backingCache
// copy. If you call Mutation twice with the same object on different threads, one will win, but its not defined
// which one. This doesn't affect correctness, since the GetByKey guaranteed of "later of these two caches" is
// preserved, but you may not get the version of the object you want. The object you get is only guaranteed to
// "one that was valid at some point in time", not "the one that I want".
func (c *mutationCache) Mutation(obj interface{}) {
c.lock.Lock()
defer c.lock.Unlock()
key, err := DeletionHandlingMetaNamespaceKeyFunc(obj)
if err != nil {
// this is a "nice to have", so failures shouldn't do anything weird
utilruntime.HandleError(err)
return
}
if objRuntime, ok := obj.(runtime.Object); ok {
if mutatedObj, exists := c.mutationCache.Get(key); exists {
if mutatedObjRuntime, ok := mutatedObj.(runtime.Object); ok {
if c.comparator.CompareResourceVersion(objRuntime, mutatedObjRuntime) < 0 {
return
}
}
}
}
c.mutationCache.Add(key, obj, c.ttl)
}
// etcdObjectVersioner implements versioning and extracting etcd node information
// for objects that have an embedded ObjectMeta or ListMeta field.
type etcdObjectVersioner struct{}
// ObjectResourceVersion implements Versioner
func (a etcdObjectVersioner) ObjectResourceVersion(obj runtime.Object) (uint64, error) {
accessor, err := meta.Accessor(obj)
if err != nil {
return 0, err
}
version := accessor.GetResourceVersion()
if len(version) == 0 {
return 0, nil
}
return strconv.ParseUint(version, 10, 64)
}
// CompareResourceVersion compares etcd resource versions. Outside this API they are all strings,
// but etcd resource versions are special, they're actually ints, so we can easily compare them.
func (a etcdObjectVersioner) CompareResourceVersion(lhs, rhs runtime.Object) int {
lhsVersion, err := a.ObjectResourceVersion(lhs)
if err != nil {
// coder error
panic(err)
}
rhsVersion, err := a.ObjectResourceVersion(rhs)
if err != nil {
// coder error
panic(err)
}
if lhsVersion == rhsVersion {
return 0
}
if lhsVersion < rhsVersion {
return -1
}
return 1
}

130
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/mutation_detector.go generated vendored Normal file
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/*
Copyright 2016 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 cache
import (
"fmt"
"os"
"reflect"
"strconv"
"sync"
"time"
"github.com/golang/glog"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/util/diff"
)
var mutationDetectionEnabled = false
func init() {
mutationDetectionEnabled, _ = strconv.ParseBool(os.Getenv("KUBE_CACHE_MUTATION_DETECTOR"))
}
type CacheMutationDetector interface {
AddObject(obj interface{})
Run(stopCh <-chan struct{})
}
func NewCacheMutationDetector(name string) CacheMutationDetector {
if !mutationDetectionEnabled {
return dummyMutationDetector{}
}
glog.Warningln("Mutation detector is enabled, this will result in memory leakage.")
return &defaultCacheMutationDetector{name: name, period: 1 * time.Second}
}
type dummyMutationDetector struct{}
func (dummyMutationDetector) Run(stopCh <-chan struct{}) {
}
func (dummyMutationDetector) AddObject(obj interface{}) {
}
// defaultCacheMutationDetector gives a way to detect if a cached object has been mutated
// It has a list of cached objects and their copies. I haven't thought of a way
// to see WHO is mutating it, just that it's getting mutated.
type defaultCacheMutationDetector struct {
name string
period time.Duration
lock sync.Mutex
cachedObjs []cacheObj
// failureFunc is injectable for unit testing. If you don't have it, the process will panic.
// This panic is intentional, since turning on this detection indicates you want a strong
// failure signal. This failure is effectively a p0 bug and you can't trust process results
// after a mutation anyway.
failureFunc func(message string)
}
// cacheObj holds the actual object and a copy
type cacheObj struct {
cached interface{}
copied interface{}
}
func (d *defaultCacheMutationDetector) Run(stopCh <-chan struct{}) {
// we DON'T want protection from panics. If we're running this code, we want to die
for {
d.CompareObjects()
select {
case <-stopCh:
return
case <-time.After(d.period):
}
}
}
// AddObject makes a deep copy of the object for later comparison. It only works on runtime.Object
// but that covers the vast majority of our cached objects
func (d *defaultCacheMutationDetector) AddObject(obj interface{}) {
if _, ok := obj.(DeletedFinalStateUnknown); ok {
return
}
if obj, ok := obj.(runtime.Object); ok {
copiedObj := obj.DeepCopyObject()
d.lock.Lock()
defer d.lock.Unlock()
d.cachedObjs = append(d.cachedObjs, cacheObj{cached: obj, copied: copiedObj})
}
}
func (d *defaultCacheMutationDetector) CompareObjects() {
d.lock.Lock()
defer d.lock.Unlock()
altered := false
for i, obj := range d.cachedObjs {
if !reflect.DeepEqual(obj.cached, obj.copied) {
fmt.Printf("CACHE %s[%d] ALTERED!\n%v\n", d.name, i, diff.ObjectDiff(obj.cached, obj.copied))
altered = true
}
}
if altered {
msg := fmt.Sprintf("cache %s modified", d.name)
if d.failureFunc != nil {
d.failureFunc(msg)
return
}
panic(msg)
}
}

449
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/reflector.go generated vendored Normal file
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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 cache
import (
"errors"
"fmt"
"io"
"math/rand"
"net"
"net/url"
"reflect"
"regexp"
goruntime "runtime"
"runtime/debug"
"strconv"
"strings"
"sync"
"sync/atomic"
"syscall"
"time"
"github.com/golang/glog"
apierrs "k8s.io/apimachinery/pkg/api/errors"
"k8s.io/apimachinery/pkg/api/meta"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/util/clock"
utilruntime "k8s.io/apimachinery/pkg/util/runtime"
"k8s.io/apimachinery/pkg/util/wait"
"k8s.io/apimachinery/pkg/watch"
)
// Reflector watches a specified resource and causes all changes to be reflected in the given store.
type Reflector struct {
// name identifies this reflector. By default it will be a file:line if possible.
name string
// metrics tracks basic metric information about the reflector
metrics *reflectorMetrics
// The type of object we expect to place in the store.
expectedType reflect.Type
// The destination to sync up with the watch source
store Store
// listerWatcher is used to perform lists and watches.
listerWatcher ListerWatcher
// period controls timing between one watch ending and
// the beginning of the next one.
period time.Duration
resyncPeriod time.Duration
ShouldResync func() bool
// clock allows tests to manipulate time
clock clock.Clock
// lastSyncResourceVersion is the resource version token last
// observed when doing a sync with the underlying store
// it is thread safe, but not synchronized with the underlying store
lastSyncResourceVersion string
// lastSyncResourceVersionMutex guards read/write access to lastSyncResourceVersion
lastSyncResourceVersionMutex sync.RWMutex
}
var (
// We try to spread the load on apiserver by setting timeouts for
// watch requests - it is random in [minWatchTimeout, 2*minWatchTimeout].
// However, it can be modified to avoid periodic resync to break the
// TCP connection.
minWatchTimeout = 5 * time.Minute
)
// NewNamespaceKeyedIndexerAndReflector creates an Indexer and a Reflector
// The indexer is configured to key on namespace
func NewNamespaceKeyedIndexerAndReflector(lw ListerWatcher, expectedType interface{}, resyncPeriod time.Duration) (indexer Indexer, reflector *Reflector) {
indexer = NewIndexer(MetaNamespaceKeyFunc, Indexers{"namespace": MetaNamespaceIndexFunc})
reflector = NewReflector(lw, expectedType, indexer, resyncPeriod)
return indexer, reflector
}
// NewReflector creates a new Reflector object which will keep the given store up to
// date with the server's contents for the given resource. Reflector promises to
// only put things in the store that have the type of expectedType, unless expectedType
// is nil. If resyncPeriod is non-zero, then lists will be executed after every
// resyncPeriod, so that you can use reflectors to periodically process everything as
// well as incrementally processing the things that change.
func NewReflector(lw ListerWatcher, expectedType interface{}, store Store, resyncPeriod time.Duration) *Reflector {
return NewNamedReflector(getDefaultReflectorName(internalPackages...), lw, expectedType, store, resyncPeriod)
}
// reflectorDisambiguator is used to disambiguate started reflectors.
// initialized to an unstable value to ensure meaning isn't attributed to the suffix.
var reflectorDisambiguator = int64(time.Now().UnixNano() % 12345)
// NewNamedReflector same as NewReflector, but with a specified name for logging
func NewNamedReflector(name string, lw ListerWatcher, expectedType interface{}, store Store, resyncPeriod time.Duration) *Reflector {
reflectorSuffix := atomic.AddInt64(&reflectorDisambiguator, 1)
r := &Reflector{
name: name,
// we need this to be unique per process (some names are still the same) but obvious who it belongs to
metrics: newReflectorMetrics(makeValidPrometheusMetricLabel(fmt.Sprintf("reflector_"+name+"_%d", reflectorSuffix))),
listerWatcher: lw,
store: store,
expectedType: reflect.TypeOf(expectedType),
period: time.Second,
resyncPeriod: resyncPeriod,
clock: &clock.RealClock{},
}
return r
}
func makeValidPrometheusMetricLabel(in string) string {
// this isn't perfect, but it removes our common characters
return strings.NewReplacer("/", "_", ".", "_", "-", "_", ":", "_").Replace(in)
}
// internalPackages are packages that ignored when creating a default reflector name. These packages are in the common
// call chains to NewReflector, so they'd be low entropy names for reflectors
var internalPackages = []string{"client-go/tools/cache/", "/runtime/asm_"}
// getDefaultReflectorName walks back through the call stack until we find a caller from outside of the ignoredPackages
// it returns back a shortpath/filename:line to aid in identification of this reflector when it starts logging
func getDefaultReflectorName(ignoredPackages ...string) string {
name := "????"
const maxStack = 10
for i := 1; i < maxStack; i++ {
_, file, line, ok := goruntime.Caller(i)
if !ok {
file, line, ok = extractStackCreator()
if !ok {
break
}
i += maxStack
}
if hasPackage(file, ignoredPackages) {
continue
}
file = trimPackagePrefix(file)
name = fmt.Sprintf("%s:%d", file, line)
break
}
return name
}
// hasPackage returns true if the file is in one of the ignored packages.
func hasPackage(file string, ignoredPackages []string) bool {
for _, ignoredPackage := range ignoredPackages {
if strings.Contains(file, ignoredPackage) {
return true
}
}
return false
}
// trimPackagePrefix reduces duplicate values off the front of a package name.
func trimPackagePrefix(file string) string {
if l := strings.LastIndex(file, "k8s.io/client-go/pkg/"); l >= 0 {
return file[l+len("k8s.io/client-go/"):]
}
if l := strings.LastIndex(file, "/src/"); l >= 0 {
return file[l+5:]
}
if l := strings.LastIndex(file, "/pkg/"); l >= 0 {
return file[l+1:]
}
return file
}
var stackCreator = regexp.MustCompile(`(?m)^created by (.*)\n\s+(.*):(\d+) \+0x[[:xdigit:]]+$`)
// extractStackCreator retrieves the goroutine file and line that launched this stack. Returns false
// if the creator cannot be located.
// TODO: Go does not expose this via runtime https://github.com/golang/go/issues/11440
func extractStackCreator() (string, int, bool) {
stack := debug.Stack()
matches := stackCreator.FindStringSubmatch(string(stack))
if matches == nil || len(matches) != 4 {
return "", 0, false
}
line, err := strconv.Atoi(matches[3])
if err != nil {
return "", 0, false
}
return matches[2], line, true
}
// Run starts a watch and handles watch events. Will restart the watch if it is closed.
// Run will exit when stopCh is closed.
func (r *Reflector) Run(stopCh <-chan struct{}) {
glog.V(3).Infof("Starting reflector %v (%s) from %s", r.expectedType, r.resyncPeriod, r.name)
wait.Until(func() {
if err := r.ListAndWatch(stopCh); err != nil {
utilruntime.HandleError(err)
}
}, r.period, stopCh)
}
var (
// nothing will ever be sent down this channel
neverExitWatch <-chan time.Time = make(chan time.Time)
// Used to indicate that watching stopped so that a resync could happen.
errorResyncRequested = errors.New("resync channel fired")
// Used to indicate that watching stopped because of a signal from the stop
// channel passed in from a client of the reflector.
errorStopRequested = errors.New("Stop requested")
)
// resyncChan returns a channel which will receive something when a resync is
// required, and a cleanup function.
func (r *Reflector) resyncChan() (<-chan time.Time, func() bool) {
if r.resyncPeriod == 0 {
return neverExitWatch, func() bool { return false }
}
// The cleanup function is required: imagine the scenario where watches
// always fail so we end up listing frequently. Then, if we don't
// manually stop the timer, we could end up with many timers active
// concurrently.
t := r.clock.NewTimer(r.resyncPeriod)
return t.C(), t.Stop
}
// ListAndWatch first lists all items and get the resource version at the moment of call,
// and then use the resource version to watch.
// It returns error if ListAndWatch didn't even try to initialize watch.
func (r *Reflector) ListAndWatch(stopCh <-chan struct{}) error {
glog.V(3).Infof("Listing and watching %v from %s", r.expectedType, r.name)
var resourceVersion string
// Explicitly set "0" as resource version - it's fine for the List()
// to be served from cache and potentially be delayed relative to
// etcd contents. Reflector framework will catch up via Watch() eventually.
options := metav1.ListOptions{ResourceVersion: "0"}
r.metrics.numberOfLists.Inc()
start := r.clock.Now()
list, err := r.listerWatcher.List(options)
if err != nil {
return fmt.Errorf("%s: Failed to list %v: %v", r.name, r.expectedType, err)
}
r.metrics.listDuration.Observe(time.Since(start).Seconds())
listMetaInterface, err := meta.ListAccessor(list)
if err != nil {
return fmt.Errorf("%s: Unable to understand list result %#v: %v", r.name, list, err)
}
resourceVersion = listMetaInterface.GetResourceVersion()
items, err := meta.ExtractList(list)
if err != nil {
return fmt.Errorf("%s: Unable to understand list result %#v (%v)", r.name, list, err)
}
r.metrics.numberOfItemsInList.Observe(float64(len(items)))
if err := r.syncWith(items, resourceVersion); err != nil {
return fmt.Errorf("%s: Unable to sync list result: %v", r.name, err)
}
r.setLastSyncResourceVersion(resourceVersion)
resyncerrc := make(chan error, 1)
cancelCh := make(chan struct{})
defer close(cancelCh)
go func() {
resyncCh, cleanup := r.resyncChan()
defer func() {
cleanup() // Call the last one written into cleanup
}()
for {
select {
case <-resyncCh:
case <-stopCh:
return
case <-cancelCh:
return
}
if r.ShouldResync == nil || r.ShouldResync() {
glog.V(4).Infof("%s: forcing resync", r.name)
if err := r.store.Resync(); err != nil {
resyncerrc <- err
return
}
}
cleanup()
resyncCh, cleanup = r.resyncChan()
}
}()
for {
// give the stopCh a chance to stop the loop, even in case of continue statements further down on errors
select {
case <-stopCh:
return nil
default:
}
timeoutSeconds := int64(minWatchTimeout.Seconds() * (rand.Float64() + 1.0))
options = metav1.ListOptions{
ResourceVersion: resourceVersion,
// We want to avoid situations of hanging watchers. Stop any wachers that do not
// receive any events within the timeout window.
TimeoutSeconds: &timeoutSeconds,
}
r.metrics.numberOfWatches.Inc()
w, err := r.listerWatcher.Watch(options)
if err != nil {
switch err {
case io.EOF:
// watch closed normally
case io.ErrUnexpectedEOF:
glog.V(1).Infof("%s: Watch for %v closed with unexpected EOF: %v", r.name, r.expectedType, err)
default:
utilruntime.HandleError(fmt.Errorf("%s: Failed to watch %v: %v", r.name, r.expectedType, err))
}
// If this is "connection refused" error, it means that most likely apiserver is not responsive.
// It doesn't make sense to re-list all objects because most likely we will be able to restart
// watch where we ended.
// If that's the case wait and resend watch request.
if urlError, ok := err.(*url.Error); ok {
if opError, ok := urlError.Err.(*net.OpError); ok {
if errno, ok := opError.Err.(syscall.Errno); ok && errno == syscall.ECONNREFUSED {
time.Sleep(time.Second)
continue
}
}
}
return nil
}
if err := r.watchHandler(w, &resourceVersion, resyncerrc, stopCh); err != nil {
if err != errorStopRequested {
glog.Warningf("%s: watch of %v ended with: %v", r.name, r.expectedType, err)
}
return nil
}
}
}
// syncWith replaces the store's items with the given list.
func (r *Reflector) syncWith(items []runtime.Object, resourceVersion string) error {
found := make([]interface{}, 0, len(items))
for _, item := range items {
found = append(found, item)
}
return r.store.Replace(found, resourceVersion)
}
// watchHandler watches w and keeps *resourceVersion up to date.
func (r *Reflector) watchHandler(w watch.Interface, resourceVersion *string, errc chan error, stopCh <-chan struct{}) error {
start := r.clock.Now()
eventCount := 0
// Stopping the watcher should be idempotent and if we return from this function there's no way
// we're coming back in with the same watch interface.
defer w.Stop()
// update metrics
defer func() {
r.metrics.numberOfItemsInWatch.Observe(float64(eventCount))
r.metrics.watchDuration.Observe(time.Since(start).Seconds())
}()
loop:
for {
select {
case <-stopCh:
return errorStopRequested
case err := <-errc:
return err
case event, ok := <-w.ResultChan():
if !ok {
break loop
}
if event.Type == watch.Error {
return apierrs.FromObject(event.Object)
}
if e, a := r.expectedType, reflect.TypeOf(event.Object); e != nil && e != a {
utilruntime.HandleError(fmt.Errorf("%s: expected type %v, but watch event object had type %v", r.name, e, a))
continue
}
meta, err := meta.Accessor(event.Object)
if err != nil {
utilruntime.HandleError(fmt.Errorf("%s: unable to understand watch event %#v", r.name, event))
continue
}
newResourceVersion := meta.GetResourceVersion()
switch event.Type {
case watch.Added:
err := r.store.Add(event.Object)
if err != nil {
utilruntime.HandleError(fmt.Errorf("%s: unable to add watch event object (%#v) to store: %v", r.name, event.Object, err))
}
case watch.Modified:
err := r.store.Update(event.Object)
if err != nil {
utilruntime.HandleError(fmt.Errorf("%s: unable to update watch event object (%#v) to store: %v", r.name, event.Object, err))
}
case watch.Deleted:
// TODO: Will any consumers need access to the "last known
// state", which is passed in event.Object? If so, may need
// to change this.
err := r.store.Delete(event.Object)
if err != nil {
utilruntime.HandleError(fmt.Errorf("%s: unable to delete watch event object (%#v) from store: %v", r.name, event.Object, err))
}
default:
utilruntime.HandleError(fmt.Errorf("%s: unable to understand watch event %#v", r.name, event))
}
*resourceVersion = newResourceVersion
r.setLastSyncResourceVersion(newResourceVersion)
eventCount++
}
}
watchDuration := r.clock.Now().Sub(start)
if watchDuration < 1*time.Second && eventCount == 0 {
r.metrics.numberOfShortWatches.Inc()
return fmt.Errorf("very short watch: %s: Unexpected watch close - watch lasted less than a second and no items received", r.name)
}
glog.V(4).Infof("%s: Watch close - %v total %v items received", r.name, r.expectedType, eventCount)
return nil
}
// LastSyncResourceVersion is the resource version observed when last sync with the underlying store
// The value returned is not synchronized with access to the underlying store and is not thread-safe
func (r *Reflector) LastSyncResourceVersion() string {
r.lastSyncResourceVersionMutex.RLock()
defer r.lastSyncResourceVersionMutex.RUnlock()
return r.lastSyncResourceVersion
}
func (r *Reflector) setLastSyncResourceVersion(v string) {
r.lastSyncResourceVersionMutex.Lock()
defer r.lastSyncResourceVersionMutex.Unlock()
r.lastSyncResourceVersion = v
rv, err := strconv.Atoi(v)
if err == nil {
r.metrics.lastResourceVersion.Set(float64(rv))
}
}

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gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/reflector_metrics.go generated vendored Normal file
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/*
Copyright 2016 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.
*/
// This file provides abstractions for setting the provider (e.g., prometheus)
// of metrics.
package cache
import (
"sync"
)
// GaugeMetric represents a single numerical value that can arbitrarily go up
// and down.
type GaugeMetric interface {
Set(float64)
}
// CounterMetric represents a single numerical value that only ever
// goes up.
type CounterMetric interface {
Inc()
}
// SummaryMetric captures individual observations.
type SummaryMetric interface {
Observe(float64)
}
type noopMetric struct{}
func (noopMetric) Inc() {}
func (noopMetric) Dec() {}
func (noopMetric) Observe(float64) {}
func (noopMetric) Set(float64) {}
type reflectorMetrics struct {
numberOfLists CounterMetric
listDuration SummaryMetric
numberOfItemsInList SummaryMetric
numberOfWatches CounterMetric
numberOfShortWatches CounterMetric
watchDuration SummaryMetric
numberOfItemsInWatch SummaryMetric
lastResourceVersion GaugeMetric
}
// MetricsProvider generates various metrics used by the reflector.
type MetricsProvider interface {
NewListsMetric(name string) CounterMetric
NewListDurationMetric(name string) SummaryMetric
NewItemsInListMetric(name string) SummaryMetric
NewWatchesMetric(name string) CounterMetric
NewShortWatchesMetric(name string) CounterMetric
NewWatchDurationMetric(name string) SummaryMetric
NewItemsInWatchMetric(name string) SummaryMetric
NewLastResourceVersionMetric(name string) GaugeMetric
}
type noopMetricsProvider struct{}
func (noopMetricsProvider) NewListsMetric(name string) CounterMetric { return noopMetric{} }
func (noopMetricsProvider) NewListDurationMetric(name string) SummaryMetric { return noopMetric{} }
func (noopMetricsProvider) NewItemsInListMetric(name string) SummaryMetric { return noopMetric{} }
func (noopMetricsProvider) NewWatchesMetric(name string) CounterMetric { return noopMetric{} }
func (noopMetricsProvider) NewShortWatchesMetric(name string) CounterMetric { return noopMetric{} }
func (noopMetricsProvider) NewWatchDurationMetric(name string) SummaryMetric { return noopMetric{} }
func (noopMetricsProvider) NewItemsInWatchMetric(name string) SummaryMetric { return noopMetric{} }
func (noopMetricsProvider) NewLastResourceVersionMetric(name string) GaugeMetric {
return noopMetric{}
}
var metricsFactory = struct {
metricsProvider MetricsProvider
setProviders sync.Once
}{
metricsProvider: noopMetricsProvider{},
}
func newReflectorMetrics(name string) *reflectorMetrics {
var ret *reflectorMetrics
if len(name) == 0 {
return ret
}
return &reflectorMetrics{
numberOfLists: metricsFactory.metricsProvider.NewListsMetric(name),
listDuration: metricsFactory.metricsProvider.NewListDurationMetric(name),
numberOfItemsInList: metricsFactory.metricsProvider.NewItemsInListMetric(name),
numberOfWatches: metricsFactory.metricsProvider.NewWatchesMetric(name),
numberOfShortWatches: metricsFactory.metricsProvider.NewShortWatchesMetric(name),
watchDuration: metricsFactory.metricsProvider.NewWatchDurationMetric(name),
numberOfItemsInWatch: metricsFactory.metricsProvider.NewItemsInWatchMetric(name),
lastResourceVersion: metricsFactory.metricsProvider.NewLastResourceVersionMetric(name),
}
}
// SetReflectorMetricsProvider sets the metrics provider
func SetReflectorMetricsProvider(metricsProvider MetricsProvider) {
metricsFactory.setProviders.Do(func() {
metricsFactory.metricsProvider = metricsProvider
})
}

597
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/shared_informer.go generated vendored Normal file
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/*
Copyright 2015 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 cache
import (
"fmt"
"sync"
"time"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/util/clock"
utilruntime "k8s.io/apimachinery/pkg/util/runtime"
"k8s.io/apimachinery/pkg/util/wait"
"k8s.io/client-go/util/buffer"
"k8s.io/client-go/util/retry"
"github.com/golang/glog"
)
// SharedInformer has a shared data cache and is capable of distributing notifications for changes
// to the cache to multiple listeners who registered via AddEventHandler. If you use this, there is
// one behavior change compared to a standard Informer. When you receive a notification, the cache
// will be AT LEAST as fresh as the notification, but it MAY be more fresh. You should NOT depend
// on the contents of the cache exactly matching the notification you've received in handler
// functions. If there was a create, followed by a delete, the cache may NOT have your item. This
// has advantages over the broadcaster since it allows us to share a common cache across many
// controllers. Extending the broadcaster would have required us keep duplicate caches for each
// watch.
type SharedInformer interface {
// AddEventHandler adds an event handler to the shared informer using the shared informer's resync
// period. Events to a single handler are delivered sequentially, but there is no coordination
// between different handlers.
AddEventHandler(handler ResourceEventHandler)
// AddEventHandlerWithResyncPeriod adds an event handler to the shared informer using the
// specified resync period. Events to a single handler are delivered sequentially, but there is
// no coordination between different handlers.
AddEventHandlerWithResyncPeriod(handler ResourceEventHandler, resyncPeriod time.Duration)
// GetStore returns the Store.
GetStore() Store
// GetController gives back a synthetic interface that "votes" to start the informer
GetController() Controller
// Run starts the shared informer, which will be stopped when stopCh is closed.
Run(stopCh <-chan struct{})
// HasSynced returns true if the shared informer's store has synced.
HasSynced() bool
// LastSyncResourceVersion is the resource version observed when last synced with the underlying
// store. The value returned is not synchronized with access to the underlying store and is not
// thread-safe.
LastSyncResourceVersion() string
}
type SharedIndexInformer interface {
SharedInformer
// AddIndexers add indexers to the informer before it starts.
AddIndexers(indexers Indexers) error
GetIndexer() Indexer
}
// NewSharedInformer creates a new instance for the listwatcher.
func NewSharedInformer(lw ListerWatcher, objType runtime.Object, resyncPeriod time.Duration) SharedInformer {
return NewSharedIndexInformer(lw, objType, resyncPeriod, Indexers{})
}
// NewSharedIndexInformer creates a new instance for the listwatcher.
func NewSharedIndexInformer(lw ListerWatcher, objType runtime.Object, defaultEventHandlerResyncPeriod time.Duration, indexers Indexers) SharedIndexInformer {
realClock := &clock.RealClock{}
sharedIndexInformer := &sharedIndexInformer{
processor: &sharedProcessor{clock: realClock},
indexer: NewIndexer(DeletionHandlingMetaNamespaceKeyFunc, indexers),
listerWatcher: lw,
objectType: objType,
resyncCheckPeriod: defaultEventHandlerResyncPeriod,
defaultEventHandlerResyncPeriod: defaultEventHandlerResyncPeriod,
cacheMutationDetector: NewCacheMutationDetector(fmt.Sprintf("%T", objType)),
clock: realClock,
}
return sharedIndexInformer
}
// InformerSynced is a function that can be used to determine if an informer has synced. This is useful for determining if caches have synced.
type InformerSynced func() bool
const (
// syncedPollPeriod controls how often you look at the status of your sync funcs
syncedPollPeriod = 100 * time.Millisecond
// initialBufferSize is the initial number of event notifications that can be buffered.
initialBufferSize = 1024
)
// WaitForCacheSync waits for caches to populate. It returns true if it was successful, false
// if the controller should shutdown
func WaitForCacheSync(stopCh <-chan struct{}, cacheSyncs ...InformerSynced) bool {
err := wait.PollUntil(syncedPollPeriod,
func() (bool, error) {
for _, syncFunc := range cacheSyncs {
if !syncFunc() {
return false, nil
}
}
return true, nil
},
stopCh)
if err != nil {
glog.V(2).Infof("stop requested")
return false
}
glog.V(4).Infof("caches populated")
return true
}
type sharedIndexInformer struct {
indexer Indexer
controller Controller
processor *sharedProcessor
cacheMutationDetector CacheMutationDetector
// This block is tracked to handle late initialization of the controller
listerWatcher ListerWatcher
objectType runtime.Object
// resyncCheckPeriod is how often we want the reflector's resync timer to fire so it can call
// shouldResync to check if any of our listeners need a resync.
resyncCheckPeriod time.Duration
// defaultEventHandlerResyncPeriod is the default resync period for any handlers added via
// AddEventHandler (i.e. they don't specify one and just want to use the shared informer's default
// value).
defaultEventHandlerResyncPeriod time.Duration
// clock allows for testability
clock clock.Clock
started, stopped bool
startedLock sync.Mutex
// blockDeltas gives a way to stop all event distribution so that a late event handler
// can safely join the shared informer.
blockDeltas sync.Mutex
}
// dummyController hides the fact that a SharedInformer is different from a dedicated one
// where a caller can `Run`. The run method is disconnected in this case, because higher
// level logic will decide when to start the SharedInformer and related controller.
// Because returning information back is always asynchronous, the legacy callers shouldn't
// notice any change in behavior.
type dummyController struct {
informer *sharedIndexInformer
}
func (v *dummyController) Run(stopCh <-chan struct{}) {
}
func (v *dummyController) HasSynced() bool {
return v.informer.HasSynced()
}
func (c *dummyController) LastSyncResourceVersion() string {
return ""
}
type updateNotification struct {
oldObj interface{}
newObj interface{}
}
type addNotification struct {
newObj interface{}
}
type deleteNotification struct {
oldObj interface{}
}
func (s *sharedIndexInformer) Run(stopCh <-chan struct{}) {
defer utilruntime.HandleCrash()
fifo := NewDeltaFIFO(MetaNamespaceKeyFunc, s.indexer)
cfg := &Config{
Queue: fifo,
ListerWatcher: s.listerWatcher,
ObjectType: s.objectType,
FullResyncPeriod: s.resyncCheckPeriod,
RetryOnError: false,
ShouldResync: s.processor.shouldResync,
Process: s.HandleDeltas,
}
func() {
s.startedLock.Lock()
defer s.startedLock.Unlock()
s.controller = New(cfg)
s.controller.(*controller).clock = s.clock
s.started = true
}()
// Separate stop channel because Processor should be stopped strictly after controller
processorStopCh := make(chan struct{})
var wg wait.Group
defer wg.Wait() // Wait for Processor to stop
defer close(processorStopCh) // Tell Processor to stop
wg.StartWithChannel(processorStopCh, s.cacheMutationDetector.Run)
wg.StartWithChannel(processorStopCh, s.processor.run)
defer func() {
s.startedLock.Lock()
defer s.startedLock.Unlock()
s.stopped = true // Don't want any new listeners
}()
s.controller.Run(stopCh)
}
func (s *sharedIndexInformer) HasSynced() bool {
s.startedLock.Lock()
defer s.startedLock.Unlock()
if s.controller == nil {
return false
}
return s.controller.HasSynced()
}
func (s *sharedIndexInformer) LastSyncResourceVersion() string {
s.startedLock.Lock()
defer s.startedLock.Unlock()
if s.controller == nil {
return ""
}
return s.controller.LastSyncResourceVersion()
}
func (s *sharedIndexInformer) GetStore() Store {
return s.indexer
}
func (s *sharedIndexInformer) GetIndexer() Indexer {
return s.indexer
}
func (s *sharedIndexInformer) AddIndexers(indexers Indexers) error {
s.startedLock.Lock()
defer s.startedLock.Unlock()
if s.started {
return fmt.Errorf("informer has already started")
}
return s.indexer.AddIndexers(indexers)
}
func (s *sharedIndexInformer) GetController() Controller {
return &dummyController{informer: s}
}
func (s *sharedIndexInformer) AddEventHandler(handler ResourceEventHandler) {
s.AddEventHandlerWithResyncPeriod(handler, s.defaultEventHandlerResyncPeriod)
}
func determineResyncPeriod(desired, check time.Duration) time.Duration {
if desired == 0 {
return desired
}
if check == 0 {
glog.Warningf("The specified resyncPeriod %v is invalid because this shared informer doesn't support resyncing", desired)
return 0
}
if desired < check {
glog.Warningf("The specified resyncPeriod %v is being increased to the minimum resyncCheckPeriod %v", desired, check)
return check
}
return desired
}
const minimumResyncPeriod = 1 * time.Second
func (s *sharedIndexInformer) AddEventHandlerWithResyncPeriod(handler ResourceEventHandler, resyncPeriod time.Duration) {
s.startedLock.Lock()
defer s.startedLock.Unlock()
if s.stopped {
glog.V(2).Infof("Handler %v was not added to shared informer because it has stopped already", handler)
return
}
if resyncPeriod > 0 {
if resyncPeriod < minimumResyncPeriod {
glog.Warningf("resyncPeriod %d is too small. Changing it to the minimum allowed value of %d", resyncPeriod, minimumResyncPeriod)
resyncPeriod = minimumResyncPeriod
}
if resyncPeriod < s.resyncCheckPeriod {
if s.started {
glog.Warningf("resyncPeriod %d is smaller than resyncCheckPeriod %d and the informer has already started. Changing it to %d", resyncPeriod, s.resyncCheckPeriod, s.resyncCheckPeriod)
resyncPeriod = s.resyncCheckPeriod
} else {
// if the event handler's resyncPeriod is smaller than the current resyncCheckPeriod, update
// resyncCheckPeriod to match resyncPeriod and adjust the resync periods of all the listeners
// accordingly
s.resyncCheckPeriod = resyncPeriod
s.processor.resyncCheckPeriodChanged(resyncPeriod)
}
}
}
listener := newProcessListener(handler, resyncPeriod, determineResyncPeriod(resyncPeriod, s.resyncCheckPeriod), s.clock.Now(), initialBufferSize)
if !s.started {
s.processor.addListener(listener)
return
}
// in order to safely join, we have to
// 1. stop sending add/update/delete notifications
// 2. do a list against the store
// 3. send synthetic "Add" events to the new handler
// 4. unblock
s.blockDeltas.Lock()
defer s.blockDeltas.Unlock()
s.processor.addListener(listener)
for _, item := range s.indexer.List() {
listener.add(addNotification{newObj: item})
}
}
func (s *sharedIndexInformer) HandleDeltas(obj interface{}) error {
s.blockDeltas.Lock()
defer s.blockDeltas.Unlock()
// from oldest to newest
for _, d := range obj.(Deltas) {
switch d.Type {
case Sync, Added, Updated:
isSync := d.Type == Sync
s.cacheMutationDetector.AddObject(d.Object)
if old, exists, err := s.indexer.Get(d.Object); err == nil && exists {
if err := s.indexer.Update(d.Object); err != nil {
return err
}
s.processor.distribute(updateNotification{oldObj: old, newObj: d.Object}, isSync)
} else {
if err := s.indexer.Add(d.Object); err != nil {
return err
}
s.processor.distribute(addNotification{newObj: d.Object}, isSync)
}
case Deleted:
if err := s.indexer.Delete(d.Object); err != nil {
return err
}
s.processor.distribute(deleteNotification{oldObj: d.Object}, false)
}
}
return nil
}
type sharedProcessor struct {
listenersStarted bool
listenersLock sync.RWMutex
listeners []*processorListener
syncingListeners []*processorListener
clock clock.Clock
wg wait.Group
}
func (p *sharedProcessor) addListener(listener *processorListener) {
p.listenersLock.Lock()
defer p.listenersLock.Unlock()
p.addListenerLocked(listener)
if p.listenersStarted {
p.wg.Start(listener.run)
p.wg.Start(listener.pop)
}
}
func (p *sharedProcessor) addListenerLocked(listener *processorListener) {
p.listeners = append(p.listeners, listener)
p.syncingListeners = append(p.syncingListeners, listener)
}
func (p *sharedProcessor) distribute(obj interface{}, sync bool) {
p.listenersLock.RLock()
defer p.listenersLock.RUnlock()
if sync {
for _, listener := range p.syncingListeners {
listener.add(obj)
}
} else {
for _, listener := range p.listeners {
listener.add(obj)
}
}
}
func (p *sharedProcessor) run(stopCh <-chan struct{}) {
func() {
p.listenersLock.RLock()
defer p.listenersLock.RUnlock()
for _, listener := range p.listeners {
p.wg.Start(listener.run)
p.wg.Start(listener.pop)
}
p.listenersStarted = true
}()
<-stopCh
p.listenersLock.RLock()
defer p.listenersLock.RUnlock()
for _, listener := range p.listeners {
close(listener.addCh) // Tell .pop() to stop. .pop() will tell .run() to stop
}
p.wg.Wait() // Wait for all .pop() and .run() to stop
}
// shouldResync queries every listener to determine if any of them need a resync, based on each
// listener's resyncPeriod.
func (p *sharedProcessor) shouldResync() bool {
p.listenersLock.Lock()
defer p.listenersLock.Unlock()
p.syncingListeners = []*processorListener{}
resyncNeeded := false
now := p.clock.Now()
for _, listener := range p.listeners {
// need to loop through all the listeners to see if they need to resync so we can prepare any
// listeners that are going to be resyncing.
if listener.shouldResync(now) {
resyncNeeded = true
p.syncingListeners = append(p.syncingListeners, listener)
listener.determineNextResync(now)
}
}
return resyncNeeded
}
func (p *sharedProcessor) resyncCheckPeriodChanged(resyncCheckPeriod time.Duration) {
p.listenersLock.RLock()
defer p.listenersLock.RUnlock()
for _, listener := range p.listeners {
resyncPeriod := determineResyncPeriod(listener.requestedResyncPeriod, resyncCheckPeriod)
listener.setResyncPeriod(resyncPeriod)
}
}
type processorListener struct {
nextCh chan interface{}
addCh chan interface{}
handler ResourceEventHandler
// pendingNotifications is an unbounded ring buffer that holds all notifications not yet distributed.
// There is one per listener, but a failing/stalled listener will have infinite pendingNotifications
// added until we OOM.
// TODO: This is no worse than before, since reflectors were backed by unbounded DeltaFIFOs, but
// we should try to do something better.
pendingNotifications buffer.RingGrowing
// requestedResyncPeriod is how frequently the listener wants a full resync from the shared informer
requestedResyncPeriod time.Duration
// resyncPeriod is how frequently the listener wants a full resync from the shared informer. This
// value may differ from requestedResyncPeriod if the shared informer adjusts it to align with the
// informer's overall resync check period.
resyncPeriod time.Duration
// nextResync is the earliest time the listener should get a full resync
nextResync time.Time
// resyncLock guards access to resyncPeriod and nextResync
resyncLock sync.Mutex
}
func newProcessListener(handler ResourceEventHandler, requestedResyncPeriod, resyncPeriod time.Duration, now time.Time, bufferSize int) *processorListener {
ret := &processorListener{
nextCh: make(chan interface{}),
addCh: make(chan interface{}),
handler: handler,
pendingNotifications: *buffer.NewRingGrowing(bufferSize),
requestedResyncPeriod: requestedResyncPeriod,
resyncPeriod: resyncPeriod,
}
ret.determineNextResync(now)
return ret
}
func (p *processorListener) add(notification interface{}) {
p.addCh <- notification
}
func (p *processorListener) pop() {
defer utilruntime.HandleCrash()
defer close(p.nextCh) // Tell .run() to stop
var nextCh chan<- interface{}
var notification interface{}
for {
select {
case nextCh <- notification:
// Notification dispatched
var ok bool
notification, ok = p.pendingNotifications.ReadOne()
if !ok { // Nothing to pop
nextCh = nil // Disable this select case
}
case notificationToAdd, ok := <-p.addCh:
if !ok {
return
}
if notification == nil { // No notification to pop (and pendingNotifications is empty)
// Optimize the case - skip adding to pendingNotifications
notification = notificationToAdd
nextCh = p.nextCh
} else { // There is already a notification waiting to be dispatched
p.pendingNotifications.WriteOne(notificationToAdd)
}
}
}
}
func (p *processorListener) run() {
// this call blocks until the channel is closed. When a panic happens during the notification
// we will catch it, **the offending item will be skipped!**, and after a short delay (one second)
// the next notification will be attempted. This is usually better than the alternative of never
// delivering again.
stopCh := make(chan struct{})
wait.Until(func() {
// this gives us a few quick retries before a long pause and then a few more quick retries
err := wait.ExponentialBackoff(retry.DefaultRetry, func() (bool, error) {
for next := range p.nextCh {
switch notification := next.(type) {
case updateNotification:
p.handler.OnUpdate(notification.oldObj, notification.newObj)
case addNotification:
p.handler.OnAdd(notification.newObj)
case deleteNotification:
p.handler.OnDelete(notification.oldObj)
default:
utilruntime.HandleError(fmt.Errorf("unrecognized notification: %#v", next))
}
}
// the only way to get here is if the p.nextCh is empty and closed
return true, nil
})
// the only way to get here is if the p.nextCh is empty and closed
if err == nil {
close(stopCh)
}
}, 1*time.Minute, stopCh)
}
// shouldResync deterimines if the listener needs a resync. If the listener's resyncPeriod is 0,
// this always returns false.
func (p *processorListener) shouldResync(now time.Time) bool {
p.resyncLock.Lock()
defer p.resyncLock.Unlock()
if p.resyncPeriod == 0 {
return false
}
return now.After(p.nextResync) || now.Equal(p.nextResync)
}
func (p *processorListener) determineNextResync(now time.Time) {
p.resyncLock.Lock()
defer p.resyncLock.Unlock()
p.nextResync = now.Add(p.resyncPeriod)
}
func (p *processorListener) setResyncPeriod(resyncPeriod time.Duration) {
p.resyncLock.Lock()
defer p.resyncLock.Unlock()
p.resyncPeriod = resyncPeriod
}

244
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/store.go generated vendored Normal file
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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 cache
import (
"fmt"
"strings"
"k8s.io/apimachinery/pkg/api/meta"
)
// Store is a generic object storage interface. Reflector knows how to watch a server
// and update a store. A generic store is provided, which allows Reflector to be used
// as a local caching system, and an LRU store, which allows Reflector to work like a
// queue of items yet to be processed.
//
// Store makes no assumptions about stored object identity; it is the responsibility
// of a Store implementation to provide a mechanism to correctly key objects and to
// define the contract for obtaining objects by some arbitrary key type.
type Store interface {
Add(obj interface{}) error
Update(obj interface{}) error
Delete(obj interface{}) error
List() []interface{}
ListKeys() []string
Get(obj interface{}) (item interface{}, exists bool, err error)
GetByKey(key string) (item interface{}, exists bool, err error)
// Replace will delete the contents of the store, using instead the
// given list. Store takes ownership of the list, you should not reference
// it after calling this function.
Replace([]interface{}, string) error
Resync() error
}
// KeyFunc knows how to make a key from an object. Implementations should be deterministic.
type KeyFunc func(obj interface{}) (string, error)
// KeyError will be returned any time a KeyFunc gives an error; it includes the object
// at fault.
type KeyError struct {
Obj interface{}
Err error
}
// Error gives a human-readable description of the error.
func (k KeyError) Error() string {
return fmt.Sprintf("couldn't create key for object %+v: %v", k.Obj, k.Err)
}
// ExplicitKey can be passed to MetaNamespaceKeyFunc if you have the key for
// the object but not the object itself.
type ExplicitKey string
// MetaNamespaceKeyFunc is a convenient default KeyFunc which knows how to make
// keys for API objects which implement meta.Interface.
// The key uses the format <namespace>/<name> unless <namespace> is empty, then
// it's just <name>.
//
// TODO: replace key-as-string with a key-as-struct so that this
// packing/unpacking won't be necessary.
func MetaNamespaceKeyFunc(obj interface{}) (string, error) {
if key, ok := obj.(ExplicitKey); ok {
return string(key), nil
}
meta, err := meta.Accessor(obj)
if err != nil {
return "", fmt.Errorf("object has no meta: %v", err)
}
if len(meta.GetNamespace()) > 0 {
return meta.GetNamespace() + "/" + meta.GetName(), nil
}
return meta.GetName(), nil
}
// SplitMetaNamespaceKey returns the namespace and name that
// MetaNamespaceKeyFunc encoded into key.
//
// TODO: replace key-as-string with a key-as-struct so that this
// packing/unpacking won't be necessary.
func SplitMetaNamespaceKey(key string) (namespace, name string, err error) {
parts := strings.Split(key, "/")
switch len(parts) {
case 1:
// name only, no namespace
return "", parts[0], nil
case 2:
// namespace and name
return parts[0], parts[1], nil
}
return "", "", fmt.Errorf("unexpected key format: %q", key)
}
// cache responsibilities are limited to:
// 1. Computing keys for objects via keyFunc
// 2. Invoking methods of a ThreadSafeStorage interface
type cache struct {
// cacheStorage bears the burden of thread safety for the cache
cacheStorage ThreadSafeStore
// keyFunc is used to make the key for objects stored in and retrieved from items, and
// should be deterministic.
keyFunc KeyFunc
}
var _ Store = &cache{}
// Add inserts an item into the cache.
func (c *cache) Add(obj interface{}) error {
key, err := c.keyFunc(obj)
if err != nil {
return KeyError{obj, err}
}
c.cacheStorage.Add(key, obj)
return nil
}
// Update sets an item in the cache to its updated state.
func (c *cache) Update(obj interface{}) error {
key, err := c.keyFunc(obj)
if err != nil {
return KeyError{obj, err}
}
c.cacheStorage.Update(key, obj)
return nil
}
// Delete removes an item from the cache.
func (c *cache) Delete(obj interface{}) error {
key, err := c.keyFunc(obj)
if err != nil {
return KeyError{obj, err}
}
c.cacheStorage.Delete(key)
return nil
}
// List returns a list of all the items.
// List is completely threadsafe as long as you treat all items as immutable.
func (c *cache) List() []interface{} {
return c.cacheStorage.List()
}
// ListKeys returns a list of all the keys of the objects currently
// in the cache.
func (c *cache) ListKeys() []string {
return c.cacheStorage.ListKeys()
}
// GetIndexers returns the indexers of cache
func (c *cache) GetIndexers() Indexers {
return c.cacheStorage.GetIndexers()
}
// Index returns a list of items that match on the index function
// Index is thread-safe so long as you treat all items as immutable
func (c *cache) Index(indexName string, obj interface{}) ([]interface{}, error) {
return c.cacheStorage.Index(indexName, obj)
}
func (c *cache) IndexKeys(indexName, indexKey string) ([]string, error) {
return c.cacheStorage.IndexKeys(indexName, indexKey)
}
// ListIndexFuncValues returns the list of generated values of an Index func
func (c *cache) ListIndexFuncValues(indexName string) []string {
return c.cacheStorage.ListIndexFuncValues(indexName)
}
func (c *cache) ByIndex(indexName, indexKey string) ([]interface{}, error) {
return c.cacheStorage.ByIndex(indexName, indexKey)
}
func (c *cache) AddIndexers(newIndexers Indexers) error {
return c.cacheStorage.AddIndexers(newIndexers)
}
// Get returns the requested item, or sets exists=false.
// Get is completely threadsafe as long as you treat all items as immutable.
func (c *cache) Get(obj interface{}) (item interface{}, exists bool, err error) {
key, err := c.keyFunc(obj)
if err != nil {
return nil, false, KeyError{obj, err}
}
return c.GetByKey(key)
}
// GetByKey returns the request item, or exists=false.
// GetByKey is completely threadsafe as long as you treat all items as immutable.
func (c *cache) GetByKey(key string) (item interface{}, exists bool, err error) {
item, exists = c.cacheStorage.Get(key)
return item, exists, nil
}
// Replace will delete the contents of 'c', using instead the given list.
// 'c' takes ownership of the list, you should not reference the list again
// after calling this function.
func (c *cache) Replace(list []interface{}, resourceVersion string) error {
items := map[string]interface{}{}
for _, item := range list {
key, err := c.keyFunc(item)
if err != nil {
return KeyError{item, err}
}
items[key] = item
}
c.cacheStorage.Replace(items, resourceVersion)
return nil
}
// Resync touches all items in the store to force processing
func (c *cache) Resync() error {
return c.cacheStorage.Resync()
}
// NewStore returns a Store implemented simply with a map and a lock.
func NewStore(keyFunc KeyFunc) Store {
return &cache{
cacheStorage: NewThreadSafeStore(Indexers{}, Indices{}),
keyFunc: keyFunc,
}
}
// NewIndexer returns an Indexer implemented simply with a map and a lock.
func NewIndexer(keyFunc KeyFunc, indexers Indexers) Indexer {
return &cache{
cacheStorage: NewThreadSafeStore(indexers, Indices{}),
keyFunc: keyFunc,
}
}

304
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/thread_safe_store.go generated vendored Normal file
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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 cache
import (
"fmt"
"sync"
"k8s.io/apimachinery/pkg/util/sets"
)
// ThreadSafeStore is an interface that allows concurrent access to a storage backend.
// TL;DR caveats: you must not modify anything returned by Get or List as it will break
// the indexing feature in addition to not being thread safe.
//
// The guarantees of thread safety provided by List/Get are only valid if the caller
// treats returned items as read-only. For example, a pointer inserted in the store
// through `Add` will be returned as is by `Get`. Multiple clients might invoke `Get`
// on the same key and modify the pointer in a non-thread-safe way. Also note that
// modifying objects stored by the indexers (if any) will *not* automatically lead
// to a re-index. So it's not a good idea to directly modify the objects returned by
// Get/List, in general.
type ThreadSafeStore interface {
Add(key string, obj interface{})
Update(key string, obj interface{})
Delete(key string)
Get(key string) (item interface{}, exists bool)
List() []interface{}
ListKeys() []string
Replace(map[string]interface{}, string)
Index(indexName string, obj interface{}) ([]interface{}, error)
IndexKeys(indexName, indexKey string) ([]string, error)
ListIndexFuncValues(name string) []string
ByIndex(indexName, indexKey string) ([]interface{}, error)
GetIndexers() Indexers
// AddIndexers adds more indexers to this store. If you call this after you already have data
// in the store, the results are undefined.
AddIndexers(newIndexers Indexers) error
Resync() error
}
// threadSafeMap implements ThreadSafeStore
type threadSafeMap struct {
lock sync.RWMutex
items map[string]interface{}
// indexers maps a name to an IndexFunc
indexers Indexers
// indices maps a name to an Index
indices Indices
}
func (c *threadSafeMap) Add(key string, obj interface{}) {
c.lock.Lock()
defer c.lock.Unlock()
oldObject := c.items[key]
c.items[key] = obj
c.updateIndices(oldObject, obj, key)
}
func (c *threadSafeMap) Update(key string, obj interface{}) {
c.lock.Lock()
defer c.lock.Unlock()
oldObject := c.items[key]
c.items[key] = obj
c.updateIndices(oldObject, obj, key)
}
func (c *threadSafeMap) Delete(key string) {
c.lock.Lock()
defer c.lock.Unlock()
if obj, exists := c.items[key]; exists {
c.deleteFromIndices(obj, key)
delete(c.items, key)
}
}
func (c *threadSafeMap) Get(key string) (item interface{}, exists bool) {
c.lock.RLock()
defer c.lock.RUnlock()
item, exists = c.items[key]
return item, exists
}
func (c *threadSafeMap) List() []interface{} {
c.lock.RLock()
defer c.lock.RUnlock()
list := make([]interface{}, 0, len(c.items))
for _, item := range c.items {
list = append(list, item)
}
return list
}
// ListKeys returns a list of all the keys of the objects currently
// in the threadSafeMap.
func (c *threadSafeMap) ListKeys() []string {
c.lock.RLock()
defer c.lock.RUnlock()
list := make([]string, 0, len(c.items))
for key := range c.items {
list = append(list, key)
}
return list
}
func (c *threadSafeMap) Replace(items map[string]interface{}, resourceVersion string) {
c.lock.Lock()
defer c.lock.Unlock()
c.items = items
// rebuild any index
c.indices = Indices{}
for key, item := range c.items {
c.updateIndices(nil, item, key)
}
}
// Index returns a list of items that match on the index function
// Index is thread-safe so long as you treat all items as immutable
func (c *threadSafeMap) Index(indexName string, obj interface{}) ([]interface{}, error) {
c.lock.RLock()
defer c.lock.RUnlock()
indexFunc := c.indexers[indexName]
if indexFunc == nil {
return nil, fmt.Errorf("Index with name %s does not exist", indexName)
}
indexKeys, err := indexFunc(obj)
if err != nil {
return nil, err
}
index := c.indices[indexName]
// need to de-dupe the return list. Since multiple keys are allowed, this can happen.
returnKeySet := sets.String{}
for _, indexKey := range indexKeys {
set := index[indexKey]
for _, key := range set.UnsortedList() {
returnKeySet.Insert(key)
}
}
list := make([]interface{}, 0, returnKeySet.Len())
for absoluteKey := range returnKeySet {
list = append(list, c.items[absoluteKey])
}
return list, nil
}
// ByIndex returns a list of items that match an exact value on the index function
func (c *threadSafeMap) ByIndex(indexName, indexKey string) ([]interface{}, error) {
c.lock.RLock()
defer c.lock.RUnlock()
indexFunc := c.indexers[indexName]
if indexFunc == nil {
return nil, fmt.Errorf("Index with name %s does not exist", indexName)
}
index := c.indices[indexName]
set := index[indexKey]
list := make([]interface{}, 0, set.Len())
for _, key := range set.List() {
list = append(list, c.items[key])
}
return list, nil
}
// IndexKeys returns a list of keys that match on the index function.
// IndexKeys is thread-safe so long as you treat all items as immutable.
func (c *threadSafeMap) IndexKeys(indexName, indexKey string) ([]string, error) {
c.lock.RLock()
defer c.lock.RUnlock()
indexFunc := c.indexers[indexName]
if indexFunc == nil {
return nil, fmt.Errorf("Index with name %s does not exist", indexName)
}
index := c.indices[indexName]
set := index[indexKey]
return set.List(), nil
}
func (c *threadSafeMap) ListIndexFuncValues(indexName string) []string {
c.lock.RLock()
defer c.lock.RUnlock()
index := c.indices[indexName]
names := make([]string, 0, len(index))
for key := range index {
names = append(names, key)
}
return names
}
func (c *threadSafeMap) GetIndexers() Indexers {
return c.indexers
}
func (c *threadSafeMap) AddIndexers(newIndexers Indexers) error {
c.lock.Lock()
defer c.lock.Unlock()
if len(c.items) > 0 {
return fmt.Errorf("cannot add indexers to running index")
}
oldKeys := sets.StringKeySet(c.indexers)
newKeys := sets.StringKeySet(newIndexers)
if oldKeys.HasAny(newKeys.List()...) {
return fmt.Errorf("indexer conflict: %v", oldKeys.Intersection(newKeys))
}
for k, v := range newIndexers {
c.indexers[k] = v
}
return nil
}
// updateIndices modifies the objects location in the managed indexes, if this is an update, you must provide an oldObj
// updateIndices must be called from a function that already has a lock on the cache
func (c *threadSafeMap) updateIndices(oldObj interface{}, newObj interface{}, key string) {
// if we got an old object, we need to remove it before we add it again
if oldObj != nil {
c.deleteFromIndices(oldObj, key)
}
for name, indexFunc := range c.indexers {
indexValues, err := indexFunc(newObj)
if err != nil {
panic(fmt.Errorf("unable to calculate an index entry for key %q on index %q: %v", key, name, err))
}
index := c.indices[name]
if index == nil {
index = Index{}
c.indices[name] = index
}
for _, indexValue := range indexValues {
set := index[indexValue]
if set == nil {
set = sets.String{}
index[indexValue] = set
}
set.Insert(key)
}
}
}
// deleteFromIndices removes the object from each of the managed indexes
// it is intended to be called from a function that already has a lock on the cache
func (c *threadSafeMap) deleteFromIndices(obj interface{}, key string) {
for name, indexFunc := range c.indexers {
indexValues, err := indexFunc(obj)
if err != nil {
panic(fmt.Errorf("unable to calculate an index entry for key %q on index %q: %v", key, name, err))
}
index := c.indices[name]
if index == nil {
continue
}
for _, indexValue := range indexValues {
set := index[indexValue]
if set != nil {
set.Delete(key)
}
}
}
}
func (c *threadSafeMap) Resync() error {
// Nothing to do
return nil
}
func NewThreadSafeStore(indexers Indexers, indices Indices) ThreadSafeStore {
return &threadSafeMap{
items: map[string]interface{}{},
indexers: indexers,
indices: indices,
}
}

83
gpushare-device-plugin/vendor/k8s.io/client-go/tools/cache/undelta_store.go generated vendored Normal file
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/*
Copyright 2015 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 cache
// UndeltaStore listens to incremental updates and sends complete state on every change.
// It implements the Store interface so that it can receive a stream of mirrored objects
// from Reflector. Whenever it receives any complete (Store.Replace) or incremental change
// (Store.Add, Store.Update, Store.Delete), it sends the complete state by calling PushFunc.
// It is thread-safe. It guarantees that every change (Add, Update, Replace, Delete) results
// in one call to PushFunc, but sometimes PushFunc may be called twice with the same values.
// PushFunc should be thread safe.
type UndeltaStore struct {
Store
PushFunc func([]interface{})
}
// Assert that it implements the Store interface.
var _ Store = &UndeltaStore{}
// Note about thread safety. The Store implementation (cache.cache) uses a lock for all methods.
// In the functions below, the lock gets released and reacquired betweend the {Add,Delete,etc}
// and the List. So, the following can happen, resulting in two identical calls to PushFunc.
// time thread 1 thread 2
// 0 UndeltaStore.Add(a)
// 1 UndeltaStore.Add(b)
// 2 Store.Add(a)
// 3 Store.Add(b)
// 4 Store.List() -> [a,b]
// 5 Store.List() -> [a,b]
func (u *UndeltaStore) Add(obj interface{}) error {
if err := u.Store.Add(obj); err != nil {
return err
}
u.PushFunc(u.Store.List())
return nil
}
func (u *UndeltaStore) Update(obj interface{}) error {
if err := u.Store.Update(obj); err != nil {
return err
}
u.PushFunc(u.Store.List())
return nil
}
func (u *UndeltaStore) Delete(obj interface{}) error {
if err := u.Store.Delete(obj); err != nil {
return err
}
u.PushFunc(u.Store.List())
return nil
}
func (u *UndeltaStore) Replace(list []interface{}, resourceVersion string) error {
if err := u.Store.Replace(list, resourceVersion); err != nil {
return err
}
u.PushFunc(u.Store.List())
return nil
}
// NewUndeltaStore returns an UndeltaStore implemented with a Store.
func NewUndeltaStore(pushFunc func([]interface{}), keyFunc KeyFunc) *UndeltaStore {
return &UndeltaStore{
Store: NewStore(keyFunc),
PushFunc: pushFunc,
}
}

18
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/api/doc.go generated vendored Normal file
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@@ -0,0 +1,18 @@
/*
Copyright 2015 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.
*/
// +k8s:deepcopy-gen=package
package api

183
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/api/helpers.go generated vendored Normal file
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@@ -0,0 +1,183 @@
/*
Copyright 2015 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 api
import (
"encoding/base64"
"errors"
"fmt"
"io/ioutil"
"os"
"path"
"path/filepath"
)
func init() {
sDec, _ := base64.StdEncoding.DecodeString("REDACTED+")
redactedBytes = []byte(string(sDec))
}
// IsConfigEmpty returns true if the config is empty.
func IsConfigEmpty(config *Config) bool {
return len(config.AuthInfos) == 0 && len(config.Clusters) == 0 && len(config.Contexts) == 0 &&
len(config.CurrentContext) == 0 &&
len(config.Preferences.Extensions) == 0 && !config.Preferences.Colors &&
len(config.Extensions) == 0
}
// MinifyConfig read the current context and uses that to keep only the relevant pieces of config
// This is useful for making secrets based on kubeconfig files
func MinifyConfig(config *Config) error {
if len(config.CurrentContext) == 0 {
return errors.New("current-context must exist in order to minify")
}
currContext, exists := config.Contexts[config.CurrentContext]
if !exists {
return fmt.Errorf("cannot locate context %v", config.CurrentContext)
}
newContexts := map[string]*Context{}
newContexts[config.CurrentContext] = currContext
newClusters := map[string]*Cluster{}
if len(currContext.Cluster) > 0 {
if _, exists := config.Clusters[currContext.Cluster]; !exists {
return fmt.Errorf("cannot locate cluster %v", currContext.Cluster)
}
newClusters[currContext.Cluster] = config.Clusters[currContext.Cluster]
}
newAuthInfos := map[string]*AuthInfo{}
if len(currContext.AuthInfo) > 0 {
if _, exists := config.AuthInfos[currContext.AuthInfo]; !exists {
return fmt.Errorf("cannot locate user %v", currContext.AuthInfo)
}
newAuthInfos[currContext.AuthInfo] = config.AuthInfos[currContext.AuthInfo]
}
config.AuthInfos = newAuthInfos
config.Clusters = newClusters
config.Contexts = newContexts
return nil
}
var redactedBytes []byte
// Flatten redacts raw data entries from the config object for a human-readable view.
func ShortenConfig(config *Config) {
// trick json encoder into printing a human readable string in the raw data
// by base64 decoding what we want to print. Relies on implementation of
// http://golang.org/pkg/encoding/json/#Marshal using base64 to encode []byte
for key, authInfo := range config.AuthInfos {
if len(authInfo.ClientKeyData) > 0 {
authInfo.ClientKeyData = redactedBytes
}
if len(authInfo.ClientCertificateData) > 0 {
authInfo.ClientCertificateData = redactedBytes
}
config.AuthInfos[key] = authInfo
}
for key, cluster := range config.Clusters {
if len(cluster.CertificateAuthorityData) > 0 {
cluster.CertificateAuthorityData = redactedBytes
}
config.Clusters[key] = cluster
}
}
// Flatten changes the config object into a self contained config (useful for making secrets)
func FlattenConfig(config *Config) error {
for key, authInfo := range config.AuthInfos {
baseDir, err := MakeAbs(path.Dir(authInfo.LocationOfOrigin), "")
if err != nil {
return err
}
if err := FlattenContent(&authInfo.ClientCertificate, &authInfo.ClientCertificateData, baseDir); err != nil {
return err
}
if err := FlattenContent(&authInfo.ClientKey, &authInfo.ClientKeyData, baseDir); err != nil {
return err
}
config.AuthInfos[key] = authInfo
}
for key, cluster := range config.Clusters {
baseDir, err := MakeAbs(path.Dir(cluster.LocationOfOrigin), "")
if err != nil {
return err
}
if err := FlattenContent(&cluster.CertificateAuthority, &cluster.CertificateAuthorityData, baseDir); err != nil {
return err
}
config.Clusters[key] = cluster
}
return nil
}
func FlattenContent(path *string, contents *[]byte, baseDir string) error {
if len(*path) != 0 {
if len(*contents) > 0 {
return errors.New("cannot have values for both path and contents")
}
var err error
absPath := ResolvePath(*path, baseDir)
*contents, err = ioutil.ReadFile(absPath)
if err != nil {
return err
}
*path = ""
}
return nil
}
// ResolvePath returns the path as an absolute paths, relative to the given base directory
func ResolvePath(path string, base string) string {
// Don't resolve empty paths
if len(path) > 0 {
// Don't resolve absolute paths
if !filepath.IsAbs(path) {
return filepath.Join(base, path)
}
}
return path
}
func MakeAbs(path, base string) (string, error) {
if filepath.IsAbs(path) {
return path, nil
}
if len(base) == 0 {
cwd, err := os.Getwd()
if err != nil {
return "", err
}
base = cwd
}
return filepath.Join(base, path), nil
}

66
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/api/latest/latest.go generated vendored Normal file
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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 latest
import (
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/runtime/schema"
"k8s.io/apimachinery/pkg/runtime/serializer/json"
"k8s.io/apimachinery/pkg/runtime/serializer/versioning"
"k8s.io/client-go/tools/clientcmd/api"
"k8s.io/client-go/tools/clientcmd/api/v1"
)
// Version is the string that represents the current external default version.
const Version = "v1"
var ExternalVersion = schema.GroupVersion{Group: "", Version: "v1"}
// OldestVersion is the string that represents the oldest server version supported,
// for client code that wants to hardcode the lowest common denominator.
const OldestVersion = "v1"
// Versions is the list of versions that are recognized in code. The order provided
// may be assumed to be least feature rich to most feature rich, and clients may
// choose to prefer the latter items in the list over the former items when presented
// with a set of versions to choose.
var Versions = []string{"v1"}
var (
Codec runtime.Codec
Scheme *runtime.Scheme
)
func init() {
Scheme = runtime.NewScheme()
if err := api.AddToScheme(Scheme); err != nil {
// Programmer error, detect immediately
panic(err)
}
if err := v1.AddToScheme(Scheme); err != nil {
// Programmer error, detect immediately
panic(err)
}
yamlSerializer := json.NewYAMLSerializer(json.DefaultMetaFactory, Scheme, Scheme)
Codec = versioning.NewDefaultingCodecForScheme(
Scheme,
yamlSerializer,
yamlSerializer,
schema.GroupVersion{Version: Version},
runtime.InternalGroupVersioner,
)
}

46
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/api/register.go generated vendored Normal file
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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 api
import (
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/runtime/schema"
)
// SchemeGroupVersion is group version used to register these objects
// TODO this should be in the "kubeconfig" group
var SchemeGroupVersion = schema.GroupVersion{Group: "", Version: runtime.APIVersionInternal}
var (
SchemeBuilder = runtime.NewSchemeBuilder(addKnownTypes)
AddToScheme = SchemeBuilder.AddToScheme
)
func addKnownTypes(scheme *runtime.Scheme) error {
scheme.AddKnownTypes(SchemeGroupVersion,
&Config{},
)
return nil
}
func (obj *Config) GetObjectKind() schema.ObjectKind { return obj }
func (obj *Config) SetGroupVersionKind(gvk schema.GroupVersionKind) {
obj.APIVersion, obj.Kind = gvk.ToAPIVersionAndKind()
}
func (obj *Config) GroupVersionKind() schema.GroupVersionKind {
return schema.FromAPIVersionAndKind(obj.APIVersion, obj.Kind)
}

218
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/api/types.go generated vendored Normal file
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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 api
import (
"k8s.io/apimachinery/pkg/runtime"
)
// Where possible, json tags match the cli argument names.
// Top level config objects and all values required for proper functioning are not "omitempty". Any truly optional piece of config is allowed to be omitted.
// Config holds the information needed to build connect to remote kubernetes clusters as a given user
// IMPORTANT if you add fields to this struct, please update IsConfigEmpty()
// +k8s:deepcopy-gen:interfaces=k8s.io/apimachinery/pkg/runtime.Object
type Config struct {
// Legacy field from pkg/api/types.go TypeMeta.
// TODO(jlowdermilk): remove this after eliminating downstream dependencies.
// +optional
Kind string `json:"kind,omitempty"`
// Legacy field from pkg/api/types.go TypeMeta.
// TODO(jlowdermilk): remove this after eliminating downstream dependencies.
// +optional
APIVersion string `json:"apiVersion,omitempty"`
// Preferences holds general information to be use for cli interactions
Preferences Preferences `json:"preferences"`
// Clusters is a map of referencable names to cluster configs
Clusters map[string]*Cluster `json:"clusters"`
// AuthInfos is a map of referencable names to user configs
AuthInfos map[string]*AuthInfo `json:"users"`
// Contexts is a map of referencable names to context configs
Contexts map[string]*Context `json:"contexts"`
// CurrentContext is the name of the context that you would like to use by default
CurrentContext string `json:"current-context"`
// Extensions holds additional information. This is useful for extenders so that reads and writes don't clobber unknown fields
// +optional
Extensions map[string]runtime.Object `json:"extensions,omitempty"`
}
// IMPORTANT if you add fields to this struct, please update IsConfigEmpty()
type Preferences struct {
// +optional
Colors bool `json:"colors,omitempty"`
// Extensions holds additional information. This is useful for extenders so that reads and writes don't clobber unknown fields
// +optional
Extensions map[string]runtime.Object `json:"extensions,omitempty"`
}
// Cluster contains information about how to communicate with a kubernetes cluster
type Cluster struct {
// LocationOfOrigin indicates where this object came from. It is used for round tripping config post-merge, but never serialized.
LocationOfOrigin string
// Server is the address of the kubernetes cluster (https://hostname:port).
Server string `json:"server"`
// InsecureSkipTLSVerify skips the validity check for the server's certificate. This will make your HTTPS connections insecure.
// +optional
InsecureSkipTLSVerify bool `json:"insecure-skip-tls-verify,omitempty"`
// CertificateAuthority is the path to a cert file for the certificate authority.
// +optional
CertificateAuthority string `json:"certificate-authority,omitempty"`
// CertificateAuthorityData contains PEM-encoded certificate authority certificates. Overrides CertificateAuthority
// +optional
CertificateAuthorityData []byte `json:"certificate-authority-data,omitempty"`
// Extensions holds additional information. This is useful for extenders so that reads and writes don't clobber unknown fields
// +optional
Extensions map[string]runtime.Object `json:"extensions,omitempty"`
}
// AuthInfo contains information that describes identity information. This is use to tell the kubernetes cluster who you are.
type AuthInfo struct {
// LocationOfOrigin indicates where this object came from. It is used for round tripping config post-merge, but never serialized.
LocationOfOrigin string
// ClientCertificate is the path to a client cert file for TLS.
// +optional
ClientCertificate string `json:"client-certificate,omitempty"`
// ClientCertificateData contains PEM-encoded data from a client cert file for TLS. Overrides ClientCertificate
// +optional
ClientCertificateData []byte `json:"client-certificate-data,omitempty"`
// ClientKey is the path to a client key file for TLS.
// +optional
ClientKey string `json:"client-key,omitempty"`
// ClientKeyData contains PEM-encoded data from a client key file for TLS. Overrides ClientKey
// +optional
ClientKeyData []byte `json:"client-key-data,omitempty"`
// Token is the bearer token for authentication to the kubernetes cluster.
// +optional
Token string `json:"token,omitempty"`
// TokenFile is a pointer to a file that contains a bearer token (as described above). If both Token and TokenFile are present, Token takes precedence.
// +optional
TokenFile string `json:"tokenFile,omitempty"`
// Impersonate is the username to act-as.
// +optional
Impersonate string `json:"act-as,omitempty"`
// ImpersonateGroups is the groups to imperonate.
// +optional
ImpersonateGroups []string `json:"act-as-groups,omitempty"`
// ImpersonateUserExtra contains additional information for impersonated user.
// +optional
ImpersonateUserExtra map[string][]string `json:"act-as-user-extra,omitempty"`
// Username is the username for basic authentication to the kubernetes cluster.
// +optional
Username string `json:"username,omitempty"`
// Password is the password for basic authentication to the kubernetes cluster.
// +optional
Password string `json:"password,omitempty"`
// AuthProvider specifies a custom authentication plugin for the kubernetes cluster.
// +optional
AuthProvider *AuthProviderConfig `json:"auth-provider,omitempty"`
// Exec specifies a custom exec-based authentication plugin for the kubernetes cluster.
// +optional
Exec *ExecConfig `json:"exec,omitempty"`
// Extensions holds additional information. This is useful for extenders so that reads and writes don't clobber unknown fields
// +optional
Extensions map[string]runtime.Object `json:"extensions,omitempty"`
}
// Context is a tuple of references to a cluster (how do I communicate with a kubernetes cluster), a user (how do I identify myself), and a namespace (what subset of resources do I want to work with)
type Context struct {
// LocationOfOrigin indicates where this object came from. It is used for round tripping config post-merge, but never serialized.
LocationOfOrigin string
// Cluster is the name of the cluster for this context
Cluster string `json:"cluster"`
// AuthInfo is the name of the authInfo for this context
AuthInfo string `json:"user"`
// Namespace is the default namespace to use on unspecified requests
// +optional
Namespace string `json:"namespace,omitempty"`
// Extensions holds additional information. This is useful for extenders so that reads and writes don't clobber unknown fields
// +optional
Extensions map[string]runtime.Object `json:"extensions,omitempty"`
}
// AuthProviderConfig holds the configuration for a specified auth provider.
type AuthProviderConfig struct {
Name string `json:"name"`
// +optional
Config map[string]string `json:"config,omitempty"`
}
// ExecConfig specifies a command to provide client credentials. The command is exec'd
// and outputs structured stdout holding credentials.
//
// See the client.authentiction.k8s.io API group for specifications of the exact input
// and output format
type ExecConfig struct {
// Command to execute.
Command string `json:"command"`
// Arguments to pass to the command when executing it.
// +optional
Args []string `json:"args"`
// Env defines additional environment variables to expose to the process. These
// are unioned with the host's environment, as well as variables client-go uses
// to pass argument to the plugin.
// +optional
Env []ExecEnvVar `json:"env"`
// Preferred input version of the ExecInfo. The returned ExecCredentials MUST use
// the same encoding version as the input.
APIVersion string `json:"apiVersion,omitempty"`
}
// ExecEnvVar is used for setting environment variables when executing an exec-based
// credential plugin.
type ExecEnvVar struct {
Name string `json:"name"`
Value string `json:"value"`
}
// NewConfig is a convenience function that returns a new Config object with non-nil maps
func NewConfig() *Config {
return &Config{
Preferences: *NewPreferences(),
Clusters: make(map[string]*Cluster),
AuthInfos: make(map[string]*AuthInfo),
Contexts: make(map[string]*Context),
Extensions: make(map[string]runtime.Object),
}
}
// NewContext is a convenience function that returns a new Context
// object with non-nil maps
func NewContext() *Context {
return &Context{Extensions: make(map[string]runtime.Object)}
}
// NewCluster is a convenience function that returns a new Cluster
// object with non-nil maps
func NewCluster() *Cluster {
return &Cluster{Extensions: make(map[string]runtime.Object)}
}
// NewAuthInfo is a convenience function that returns a new AuthInfo
// object with non-nil maps
func NewAuthInfo() *AuthInfo {
return &AuthInfo{
Extensions: make(map[string]runtime.Object),
ImpersonateUserExtra: make(map[string][]string),
}
}
// NewPreferences is a convenience function that returns a new
// Preferences object with non-nil maps
func NewPreferences() *Preferences {
return &Preferences{Extensions: make(map[string]runtime.Object)}
}

244
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/api/v1/conversion.go generated vendored Normal file
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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 v1
import (
"fmt"
"sort"
"k8s.io/apimachinery/pkg/conversion"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/client-go/tools/clientcmd/api"
)
func addConversionFuncs(scheme *runtime.Scheme) error {
return scheme.AddConversionFuncs(
func(in *Cluster, out *api.Cluster, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *api.Cluster, out *Cluster, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *Preferences, out *api.Preferences, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *api.Preferences, out *Preferences, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *AuthInfo, out *api.AuthInfo, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *api.AuthInfo, out *AuthInfo, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *Context, out *api.Context, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *api.Context, out *Context, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *Config, out *api.Config, s conversion.Scope) error {
out.CurrentContext = in.CurrentContext
if err := s.Convert(&in.Preferences, &out.Preferences, 0); err != nil {
return err
}
out.Clusters = make(map[string]*api.Cluster)
if err := s.Convert(&in.Clusters, &out.Clusters, 0); err != nil {
return err
}
out.AuthInfos = make(map[string]*api.AuthInfo)
if err := s.Convert(&in.AuthInfos, &out.AuthInfos, 0); err != nil {
return err
}
out.Contexts = make(map[string]*api.Context)
if err := s.Convert(&in.Contexts, &out.Contexts, 0); err != nil {
return err
}
out.Extensions = make(map[string]runtime.Object)
if err := s.Convert(&in.Extensions, &out.Extensions, 0); err != nil {
return err
}
return nil
},
func(in *api.Config, out *Config, s conversion.Scope) error {
out.CurrentContext = in.CurrentContext
if err := s.Convert(&in.Preferences, &out.Preferences, 0); err != nil {
return err
}
out.Clusters = make([]NamedCluster, 0, 0)
if err := s.Convert(&in.Clusters, &out.Clusters, 0); err != nil {
return err
}
out.AuthInfos = make([]NamedAuthInfo, 0, 0)
if err := s.Convert(&in.AuthInfos, &out.AuthInfos, 0); err != nil {
return err
}
out.Contexts = make([]NamedContext, 0, 0)
if err := s.Convert(&in.Contexts, &out.Contexts, 0); err != nil {
return err
}
out.Extensions = make([]NamedExtension, 0, 0)
if err := s.Convert(&in.Extensions, &out.Extensions, 0); err != nil {
return err
}
return nil
},
func(in *[]NamedCluster, out *map[string]*api.Cluster, s conversion.Scope) error {
for _, curr := range *in {
newCluster := api.NewCluster()
if err := s.Convert(&curr.Cluster, newCluster, 0); err != nil {
return err
}
if (*out)[curr.Name] == nil {
(*out)[curr.Name] = newCluster
} else {
return fmt.Errorf("error converting *[]NamedCluster into *map[string]*api.Cluster: duplicate name \"%v\" in list: %v", curr.Name, *in)
}
}
return nil
},
func(in *map[string]*api.Cluster, out *[]NamedCluster, s conversion.Scope) error {
allKeys := make([]string, 0, len(*in))
for key := range *in {
allKeys = append(allKeys, key)
}
sort.Strings(allKeys)
for _, key := range allKeys {
newCluster := (*in)[key]
oldCluster := &Cluster{}
if err := s.Convert(newCluster, oldCluster, 0); err != nil {
return err
}
namedCluster := NamedCluster{key, *oldCluster}
*out = append(*out, namedCluster)
}
return nil
},
func(in *[]NamedAuthInfo, out *map[string]*api.AuthInfo, s conversion.Scope) error {
for _, curr := range *in {
newAuthInfo := api.NewAuthInfo()
if err := s.Convert(&curr.AuthInfo, newAuthInfo, 0); err != nil {
return err
}
if (*out)[curr.Name] == nil {
(*out)[curr.Name] = newAuthInfo
} else {
return fmt.Errorf("error converting *[]NamedAuthInfo into *map[string]*api.AuthInfo: duplicate name \"%v\" in list: %v", curr.Name, *in)
}
}
return nil
},
func(in *map[string]*api.AuthInfo, out *[]NamedAuthInfo, s conversion.Scope) error {
allKeys := make([]string, 0, len(*in))
for key := range *in {
allKeys = append(allKeys, key)
}
sort.Strings(allKeys)
for _, key := range allKeys {
newAuthInfo := (*in)[key]
oldAuthInfo := &AuthInfo{}
if err := s.Convert(newAuthInfo, oldAuthInfo, 0); err != nil {
return err
}
namedAuthInfo := NamedAuthInfo{key, *oldAuthInfo}
*out = append(*out, namedAuthInfo)
}
return nil
},
func(in *[]NamedContext, out *map[string]*api.Context, s conversion.Scope) error {
for _, curr := range *in {
newContext := api.NewContext()
if err := s.Convert(&curr.Context, newContext, 0); err != nil {
return err
}
if (*out)[curr.Name] == nil {
(*out)[curr.Name] = newContext
} else {
return fmt.Errorf("error converting *[]NamedContext into *map[string]*api.Context: duplicate name \"%v\" in list: %v", curr.Name, *in)
}
}
return nil
},
func(in *map[string]*api.Context, out *[]NamedContext, s conversion.Scope) error {
allKeys := make([]string, 0, len(*in))
for key := range *in {
allKeys = append(allKeys, key)
}
sort.Strings(allKeys)
for _, key := range allKeys {
newContext := (*in)[key]
oldContext := &Context{}
if err := s.Convert(newContext, oldContext, 0); err != nil {
return err
}
namedContext := NamedContext{key, *oldContext}
*out = append(*out, namedContext)
}
return nil
},
func(in *[]NamedExtension, out *map[string]runtime.Object, s conversion.Scope) error {
for _, curr := range *in {
var newExtension runtime.Object
if err := s.Convert(&curr.Extension, &newExtension, 0); err != nil {
return err
}
if (*out)[curr.Name] == nil {
(*out)[curr.Name] = newExtension
} else {
return fmt.Errorf("error converting *[]NamedExtension into *map[string]runtime.Object: duplicate name \"%v\" in list: %v", curr.Name, *in)
}
}
return nil
},
func(in *map[string]runtime.Object, out *[]NamedExtension, s conversion.Scope) error {
allKeys := make([]string, 0, len(*in))
for key := range *in {
allKeys = append(allKeys, key)
}
sort.Strings(allKeys)
for _, key := range allKeys {
newExtension := (*in)[key]
oldExtension := &runtime.RawExtension{}
if err := s.Convert(newExtension, oldExtension, 0); err != nil {
return err
}
namedExtension := NamedExtension{key, *oldExtension}
*out = append(*out, namedExtension)
}
return nil
},
)
}

18
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/api/v1/doc.go generated vendored Normal file
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@@ -0,0 +1,18 @@
/*
Copyright 2015 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.
*/
// +k8s:deepcopy-gen=package
package v1

56
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/api/v1/register.go generated vendored Normal file
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@@ -0,0 +1,56 @@
/*
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 v1
import (
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/runtime/schema"
)
// SchemeGroupVersion is group version used to register these objects
// TODO this should be in the "kubeconfig" group
var SchemeGroupVersion = schema.GroupVersion{Group: "", Version: "v1"}
var (
// TODO: move SchemeBuilder with zz_generated.deepcopy.go to k8s.io/api.
// localSchemeBuilder and AddToScheme will stay in k8s.io/kubernetes.
SchemeBuilder runtime.SchemeBuilder
localSchemeBuilder = &SchemeBuilder
AddToScheme = localSchemeBuilder.AddToScheme
)
func init() {
// We only register manually written functions here. The registration of the
// generated functions takes place in the generated files. The separation
// makes the code compile even when the generated files are missing.
localSchemeBuilder.Register(addKnownTypes, addConversionFuncs)
}
func addKnownTypes(scheme *runtime.Scheme) error {
scheme.AddKnownTypes(SchemeGroupVersion,
&Config{},
)
return nil
}
func (obj *Config) GetObjectKind() schema.ObjectKind { return obj }
func (obj *Config) SetGroupVersionKind(gvk schema.GroupVersionKind) {
obj.APIVersion, obj.Kind = gvk.ToAPIVersionAndKind()
}
func (obj *Config) GroupVersionKind() schema.GroupVersionKind {
return schema.FromAPIVersionAndKind(obj.APIVersion, obj.Kind)
}

203
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/api/v1/types.go generated vendored Normal file
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@@ -0,0 +1,203 @@
/*
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 v1
import (
"k8s.io/apimachinery/pkg/runtime"
)
// Where possible, json tags match the cli argument names.
// Top level config objects and all values required for proper functioning are not "omitempty". Any truly optional piece of config is allowed to be omitted.
// Config holds the information needed to build connect to remote kubernetes clusters as a given user
// +k8s:deepcopy-gen:interfaces=k8s.io/apimachinery/pkg/runtime.Object
type Config struct {
// Legacy field from pkg/api/types.go TypeMeta.
// TODO(jlowdermilk): remove this after eliminating downstream dependencies.
// +optional
Kind string `json:"kind,omitempty"`
// Legacy field from pkg/api/types.go TypeMeta.
// TODO(jlowdermilk): remove this after eliminating downstream dependencies.
// +optional
APIVersion string `json:"apiVersion,omitempty"`
// Preferences holds general information to be use for cli interactions
Preferences Preferences `json:"preferences"`
// Clusters is a map of referencable names to cluster configs
Clusters []NamedCluster `json:"clusters"`
// AuthInfos is a map of referencable names to user configs
AuthInfos []NamedAuthInfo `json:"users"`
// Contexts is a map of referencable names to context configs
Contexts []NamedContext `json:"contexts"`
// CurrentContext is the name of the context that you would like to use by default
CurrentContext string `json:"current-context"`
// Extensions holds additional information. This is useful for extenders so that reads and writes don't clobber unknown fields
// +optional
Extensions []NamedExtension `json:"extensions,omitempty"`
}
type Preferences struct {
// +optional
Colors bool `json:"colors,omitempty"`
// Extensions holds additional information. This is useful for extenders so that reads and writes don't clobber unknown fields
// +optional
Extensions []NamedExtension `json:"extensions,omitempty"`
}
// Cluster contains information about how to communicate with a kubernetes cluster
type Cluster struct {
// Server is the address of the kubernetes cluster (https://hostname:port).
Server string `json:"server"`
// InsecureSkipTLSVerify skips the validity check for the server's certificate. This will make your HTTPS connections insecure.
// +optional
InsecureSkipTLSVerify bool `json:"insecure-skip-tls-verify,omitempty"`
// CertificateAuthority is the path to a cert file for the certificate authority.
// +optional
CertificateAuthority string `json:"certificate-authority,omitempty"`
// CertificateAuthorityData contains PEM-encoded certificate authority certificates. Overrides CertificateAuthority
// +optional
CertificateAuthorityData []byte `json:"certificate-authority-data,omitempty"`
// Extensions holds additional information. This is useful for extenders so that reads and writes don't clobber unknown fields
// +optional
Extensions []NamedExtension `json:"extensions,omitempty"`
}
// AuthInfo contains information that describes identity information. This is use to tell the kubernetes cluster who you are.
type AuthInfo struct {
// ClientCertificate is the path to a client cert file for TLS.
// +optional
ClientCertificate string `json:"client-certificate,omitempty"`
// ClientCertificateData contains PEM-encoded data from a client cert file for TLS. Overrides ClientCertificate
// +optional
ClientCertificateData []byte `json:"client-certificate-data,omitempty"`
// ClientKey is the path to a client key file for TLS.
// +optional
ClientKey string `json:"client-key,omitempty"`
// ClientKeyData contains PEM-encoded data from a client key file for TLS. Overrides ClientKey
// +optional
ClientKeyData []byte `json:"client-key-data,omitempty"`
// Token is the bearer token for authentication to the kubernetes cluster.
// +optional
Token string `json:"token,omitempty"`
// TokenFile is a pointer to a file that contains a bearer token (as described above). If both Token and TokenFile are present, Token takes precedence.
// +optional
TokenFile string `json:"tokenFile,omitempty"`
// Impersonate is the username to imperonate. The name matches the flag.
// +optional
Impersonate string `json:"as,omitempty"`
// ImpersonateGroups is the groups to imperonate.
// +optional
ImpersonateGroups []string `json:"as-groups,omitempty"`
// ImpersonateUserExtra contains additional information for impersonated user.
// +optional
ImpersonateUserExtra map[string][]string `json:"as-user-extra,omitempty"`
// Username is the username for basic authentication to the kubernetes cluster.
// +optional
Username string `json:"username,omitempty"`
// Password is the password for basic authentication to the kubernetes cluster.
// +optional
Password string `json:"password,omitempty"`
// AuthProvider specifies a custom authentication plugin for the kubernetes cluster.
// +optional
AuthProvider *AuthProviderConfig `json:"auth-provider,omitempty"`
// Exec specifies a custom exec-based authentication plugin for the kubernetes cluster.
// +optional
Exec *ExecConfig `json:"exec,omitempty"`
// Extensions holds additional information. This is useful for extenders so that reads and writes don't clobber unknown fields
// +optional
Extensions []NamedExtension `json:"extensions,omitempty"`
}
// Context is a tuple of references to a cluster (how do I communicate with a kubernetes cluster), a user (how do I identify myself), and a namespace (what subset of resources do I want to work with)
type Context struct {
// Cluster is the name of the cluster for this context
Cluster string `json:"cluster"`
// AuthInfo is the name of the authInfo for this context
AuthInfo string `json:"user"`
// Namespace is the default namespace to use on unspecified requests
// +optional
Namespace string `json:"namespace,omitempty"`
// Extensions holds additional information. This is useful for extenders so that reads and writes don't clobber unknown fields
// +optional
Extensions []NamedExtension `json:"extensions,omitempty"`
}
// NamedCluster relates nicknames to cluster information
type NamedCluster struct {
// Name is the nickname for this Cluster
Name string `json:"name"`
// Cluster holds the cluster information
Cluster Cluster `json:"cluster"`
}
// NamedContext relates nicknames to context information
type NamedContext struct {
// Name is the nickname for this Context
Name string `json:"name"`
// Context holds the context information
Context Context `json:"context"`
}
// NamedAuthInfo relates nicknames to auth information
type NamedAuthInfo struct {
// Name is the nickname for this AuthInfo
Name string `json:"name"`
// AuthInfo holds the auth information
AuthInfo AuthInfo `json:"user"`
}
// NamedExtension relates nicknames to extension information
type NamedExtension struct {
// Name is the nickname for this Extension
Name string `json:"name"`
// Extension holds the extension information
Extension runtime.RawExtension `json:"extension"`
}
// AuthProviderConfig holds the configuration for a specified auth provider.
type AuthProviderConfig struct {
Name string `json:"name"`
Config map[string]string `json:"config"`
}
// ExecConfig specifies a command to provide client credentials. The command is exec'd
// and outputs structured stdout holding credentials.
//
// See the client.authentiction.k8s.io API group for specifications of the exact input
// and output format
type ExecConfig struct {
// Command to execute.
Command string `json:"command"`
// Arguments to pass to the command when executing it.
// +optional
Args []string `json:"args"`
// Env defines additional environment variables to expose to the process. These
// are unioned with the host's environment, as well as variables client-go uses
// to pass argument to the plugin.
// +optional
Env []ExecEnvVar `json:"env"`
// Preferred input version of the ExecInfo. The returned ExecCredentials MUST use
// the same encoding version as the input.
APIVersion string `json:"apiVersion,omitempty"`
}
// ExecEnvVar is used for setting environment variables when executing an exec-based
// credential plugin.
type ExecEnvVar struct {
Name string `json:"name"`
Value string `json:"value"`
}

353
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/api/v1/zz_generated.deepcopy.go generated vendored Normal file
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@@ -0,0 +1,353 @@
// +build !ignore_autogenerated
/*
Copyright 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.
*/
// Code generated by deepcopy-gen. DO NOT EDIT.
package v1
import (
runtime "k8s.io/apimachinery/pkg/runtime"
)
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *AuthInfo) DeepCopyInto(out *AuthInfo) {
*out = *in
if in.ClientCertificateData != nil {
in, out := &in.ClientCertificateData, &out.ClientCertificateData
*out = make([]byte, len(*in))
copy(*out, *in)
}
if in.ClientKeyData != nil {
in, out := &in.ClientKeyData, &out.ClientKeyData
*out = make([]byte, len(*in))
copy(*out, *in)
}
if in.ImpersonateGroups != nil {
in, out := &in.ImpersonateGroups, &out.ImpersonateGroups
*out = make([]string, len(*in))
copy(*out, *in)
}
if in.ImpersonateUserExtra != nil {
in, out := &in.ImpersonateUserExtra, &out.ImpersonateUserExtra
*out = make(map[string][]string, len(*in))
for key, val := range *in {
if val == nil {
(*out)[key] = nil
} else {
(*out)[key] = make([]string, len(val))
copy((*out)[key], val)
}
}
}
if in.AuthProvider != nil {
in, out := &in.AuthProvider, &out.AuthProvider
if *in == nil {
*out = nil
} else {
*out = new(AuthProviderConfig)
(*in).DeepCopyInto(*out)
}
}
if in.Exec != nil {
in, out := &in.Exec, &out.Exec
if *in == nil {
*out = nil
} else {
*out = new(ExecConfig)
(*in).DeepCopyInto(*out)
}
}
if in.Extensions != nil {
in, out := &in.Extensions, &out.Extensions
*out = make([]NamedExtension, len(*in))
for i := range *in {
(*in)[i].DeepCopyInto(&(*out)[i])
}
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new AuthInfo.
func (in *AuthInfo) DeepCopy() *AuthInfo {
if in == nil {
return nil
}
out := new(AuthInfo)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *AuthProviderConfig) DeepCopyInto(out *AuthProviderConfig) {
*out = *in
if in.Config != nil {
in, out := &in.Config, &out.Config
*out = make(map[string]string, len(*in))
for key, val := range *in {
(*out)[key] = val
}
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new AuthProviderConfig.
func (in *AuthProviderConfig) DeepCopy() *AuthProviderConfig {
if in == nil {
return nil
}
out := new(AuthProviderConfig)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *Cluster) DeepCopyInto(out *Cluster) {
*out = *in
if in.CertificateAuthorityData != nil {
in, out := &in.CertificateAuthorityData, &out.CertificateAuthorityData
*out = make([]byte, len(*in))
copy(*out, *in)
}
if in.Extensions != nil {
in, out := &in.Extensions, &out.Extensions
*out = make([]NamedExtension, len(*in))
for i := range *in {
(*in)[i].DeepCopyInto(&(*out)[i])
}
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new Cluster.
func (in *Cluster) DeepCopy() *Cluster {
if in == nil {
return nil
}
out := new(Cluster)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *Config) DeepCopyInto(out *Config) {
*out = *in
in.Preferences.DeepCopyInto(&out.Preferences)
if in.Clusters != nil {
in, out := &in.Clusters, &out.Clusters
*out = make([]NamedCluster, len(*in))
for i := range *in {
(*in)[i].DeepCopyInto(&(*out)[i])
}
}
if in.AuthInfos != nil {
in, out := &in.AuthInfos, &out.AuthInfos
*out = make([]NamedAuthInfo, len(*in))
for i := range *in {
(*in)[i].DeepCopyInto(&(*out)[i])
}
}
if in.Contexts != nil {
in, out := &in.Contexts, &out.Contexts
*out = make([]NamedContext, len(*in))
for i := range *in {
(*in)[i].DeepCopyInto(&(*out)[i])
}
}
if in.Extensions != nil {
in, out := &in.Extensions, &out.Extensions
*out = make([]NamedExtension, len(*in))
for i := range *in {
(*in)[i].DeepCopyInto(&(*out)[i])
}
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new Config.
func (in *Config) DeepCopy() *Config {
if in == nil {
return nil
}
out := new(Config)
in.DeepCopyInto(out)
return out
}
// DeepCopyObject is an autogenerated deepcopy function, copying the receiver, creating a new runtime.Object.
func (in *Config) DeepCopyObject() runtime.Object {
if c := in.DeepCopy(); c != nil {
return c
}
return nil
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *Context) DeepCopyInto(out *Context) {
*out = *in
if in.Extensions != nil {
in, out := &in.Extensions, &out.Extensions
*out = make([]NamedExtension, len(*in))
for i := range *in {
(*in)[i].DeepCopyInto(&(*out)[i])
}
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new Context.
func (in *Context) DeepCopy() *Context {
if in == nil {
return nil
}
out := new(Context)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *ExecConfig) DeepCopyInto(out *ExecConfig) {
*out = *in
if in.Args != nil {
in, out := &in.Args, &out.Args
*out = make([]string, len(*in))
copy(*out, *in)
}
if in.Env != nil {
in, out := &in.Env, &out.Env
*out = make([]ExecEnvVar, len(*in))
copy(*out, *in)
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new ExecConfig.
func (in *ExecConfig) DeepCopy() *ExecConfig {
if in == nil {
return nil
}
out := new(ExecConfig)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *ExecEnvVar) DeepCopyInto(out *ExecEnvVar) {
*out = *in
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new ExecEnvVar.
func (in *ExecEnvVar) DeepCopy() *ExecEnvVar {
if in == nil {
return nil
}
out := new(ExecEnvVar)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *NamedAuthInfo) DeepCopyInto(out *NamedAuthInfo) {
*out = *in
in.AuthInfo.DeepCopyInto(&out.AuthInfo)
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new NamedAuthInfo.
func (in *NamedAuthInfo) DeepCopy() *NamedAuthInfo {
if in == nil {
return nil
}
out := new(NamedAuthInfo)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *NamedCluster) DeepCopyInto(out *NamedCluster) {
*out = *in
in.Cluster.DeepCopyInto(&out.Cluster)
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new NamedCluster.
func (in *NamedCluster) DeepCopy() *NamedCluster {
if in == nil {
return nil
}
out := new(NamedCluster)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *NamedContext) DeepCopyInto(out *NamedContext) {
*out = *in
in.Context.DeepCopyInto(&out.Context)
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new NamedContext.
func (in *NamedContext) DeepCopy() *NamedContext {
if in == nil {
return nil
}
out := new(NamedContext)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *NamedExtension) DeepCopyInto(out *NamedExtension) {
*out = *in
in.Extension.DeepCopyInto(&out.Extension)
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new NamedExtension.
func (in *NamedExtension) DeepCopy() *NamedExtension {
if in == nil {
return nil
}
out := new(NamedExtension)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *Preferences) DeepCopyInto(out *Preferences) {
*out = *in
if in.Extensions != nil {
in, out := &in.Extensions, &out.Extensions
*out = make([]NamedExtension, len(*in))
for i := range *in {
(*in)[i].DeepCopyInto(&(*out)[i])
}
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new Preferences.
func (in *Preferences) DeepCopy() *Preferences {
if in == nil {
return nil
}
out := new(Preferences)
in.DeepCopyInto(out)
return out
}

320
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/api/zz_generated.deepcopy.go generated vendored Normal file
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@@ -0,0 +1,320 @@
// +build !ignore_autogenerated
/*
Copyright 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.
*/
// Code generated by deepcopy-gen. DO NOT EDIT.
package api
import (
runtime "k8s.io/apimachinery/pkg/runtime"
)
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *AuthInfo) DeepCopyInto(out *AuthInfo) {
*out = *in
if in.ClientCertificateData != nil {
in, out := &in.ClientCertificateData, &out.ClientCertificateData
*out = make([]byte, len(*in))
copy(*out, *in)
}
if in.ClientKeyData != nil {
in, out := &in.ClientKeyData, &out.ClientKeyData
*out = make([]byte, len(*in))
copy(*out, *in)
}
if in.ImpersonateGroups != nil {
in, out := &in.ImpersonateGroups, &out.ImpersonateGroups
*out = make([]string, len(*in))
copy(*out, *in)
}
if in.ImpersonateUserExtra != nil {
in, out := &in.ImpersonateUserExtra, &out.ImpersonateUserExtra
*out = make(map[string][]string, len(*in))
for key, val := range *in {
if val == nil {
(*out)[key] = nil
} else {
(*out)[key] = make([]string, len(val))
copy((*out)[key], val)
}
}
}
if in.AuthProvider != nil {
in, out := &in.AuthProvider, &out.AuthProvider
if *in == nil {
*out = nil
} else {
*out = new(AuthProviderConfig)
(*in).DeepCopyInto(*out)
}
}
if in.Exec != nil {
in, out := &in.Exec, &out.Exec
if *in == nil {
*out = nil
} else {
*out = new(ExecConfig)
(*in).DeepCopyInto(*out)
}
}
if in.Extensions != nil {
in, out := &in.Extensions, &out.Extensions
*out = make(map[string]runtime.Object, len(*in))
for key, val := range *in {
if val == nil {
(*out)[key] = nil
} else {
(*out)[key] = val.DeepCopyObject()
}
}
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new AuthInfo.
func (in *AuthInfo) DeepCopy() *AuthInfo {
if in == nil {
return nil
}
out := new(AuthInfo)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *AuthProviderConfig) DeepCopyInto(out *AuthProviderConfig) {
*out = *in
if in.Config != nil {
in, out := &in.Config, &out.Config
*out = make(map[string]string, len(*in))
for key, val := range *in {
(*out)[key] = val
}
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new AuthProviderConfig.
func (in *AuthProviderConfig) DeepCopy() *AuthProviderConfig {
if in == nil {
return nil
}
out := new(AuthProviderConfig)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *Cluster) DeepCopyInto(out *Cluster) {
*out = *in
if in.CertificateAuthorityData != nil {
in, out := &in.CertificateAuthorityData, &out.CertificateAuthorityData
*out = make([]byte, len(*in))
copy(*out, *in)
}
if in.Extensions != nil {
in, out := &in.Extensions, &out.Extensions
*out = make(map[string]runtime.Object, len(*in))
for key, val := range *in {
if val == nil {
(*out)[key] = nil
} else {
(*out)[key] = val.DeepCopyObject()
}
}
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new Cluster.
func (in *Cluster) DeepCopy() *Cluster {
if in == nil {
return nil
}
out := new(Cluster)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *Config) DeepCopyInto(out *Config) {
*out = *in
in.Preferences.DeepCopyInto(&out.Preferences)
if in.Clusters != nil {
in, out := &in.Clusters, &out.Clusters
*out = make(map[string]*Cluster, len(*in))
for key, val := range *in {
if val == nil {
(*out)[key] = nil
} else {
(*out)[key] = new(Cluster)
val.DeepCopyInto((*out)[key])
}
}
}
if in.AuthInfos != nil {
in, out := &in.AuthInfos, &out.AuthInfos
*out = make(map[string]*AuthInfo, len(*in))
for key, val := range *in {
if val == nil {
(*out)[key] = nil
} else {
(*out)[key] = new(AuthInfo)
val.DeepCopyInto((*out)[key])
}
}
}
if in.Contexts != nil {
in, out := &in.Contexts, &out.Contexts
*out = make(map[string]*Context, len(*in))
for key, val := range *in {
if val == nil {
(*out)[key] = nil
} else {
(*out)[key] = new(Context)
val.DeepCopyInto((*out)[key])
}
}
}
if in.Extensions != nil {
in, out := &in.Extensions, &out.Extensions
*out = make(map[string]runtime.Object, len(*in))
for key, val := range *in {
if val == nil {
(*out)[key] = nil
} else {
(*out)[key] = val.DeepCopyObject()
}
}
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new Config.
func (in *Config) DeepCopy() *Config {
if in == nil {
return nil
}
out := new(Config)
in.DeepCopyInto(out)
return out
}
// DeepCopyObject is an autogenerated deepcopy function, copying the receiver, creating a new runtime.Object.
func (in *Config) DeepCopyObject() runtime.Object {
if c := in.DeepCopy(); c != nil {
return c
}
return nil
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *Context) DeepCopyInto(out *Context) {
*out = *in
if in.Extensions != nil {
in, out := &in.Extensions, &out.Extensions
*out = make(map[string]runtime.Object, len(*in))
for key, val := range *in {
if val == nil {
(*out)[key] = nil
} else {
(*out)[key] = val.DeepCopyObject()
}
}
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new Context.
func (in *Context) DeepCopy() *Context {
if in == nil {
return nil
}
out := new(Context)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *ExecConfig) DeepCopyInto(out *ExecConfig) {
*out = *in
if in.Args != nil {
in, out := &in.Args, &out.Args
*out = make([]string, len(*in))
copy(*out, *in)
}
if in.Env != nil {
in, out := &in.Env, &out.Env
*out = make([]ExecEnvVar, len(*in))
copy(*out, *in)
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new ExecConfig.
func (in *ExecConfig) DeepCopy() *ExecConfig {
if in == nil {
return nil
}
out := new(ExecConfig)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *ExecEnvVar) DeepCopyInto(out *ExecEnvVar) {
*out = *in
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new ExecEnvVar.
func (in *ExecEnvVar) DeepCopy() *ExecEnvVar {
if in == nil {
return nil
}
out := new(ExecEnvVar)
in.DeepCopyInto(out)
return out
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *Preferences) DeepCopyInto(out *Preferences) {
*out = *in
if in.Extensions != nil {
in, out := &in.Extensions, &out.Extensions
*out = make(map[string]runtime.Object, len(*in))
for key, val := range *in {
if val == nil {
(*out)[key] = nil
} else {
(*out)[key] = val.DeepCopyObject()
}
}
}
return
}
// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new Preferences.
func (in *Preferences) DeepCopy() *Preferences {
if in == nil {
return nil
}
out := new(Preferences)
in.DeepCopyInto(out)
return out
}

111
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/auth_loaders.go generated vendored Normal file
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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 clientcmd
import (
"encoding/json"
"fmt"
"io"
"io/ioutil"
"os"
"golang.org/x/crypto/ssh/terminal"
clientauth "k8s.io/client-go/tools/auth"
)
// AuthLoaders are used to build clientauth.Info objects.
type AuthLoader interface {
// LoadAuth takes a path to a config file and can then do anything it needs in order to return a valid clientauth.Info
LoadAuth(path string) (*clientauth.Info, error)
}
// default implementation of an AuthLoader
type defaultAuthLoader struct{}
// LoadAuth for defaultAuthLoader simply delegates to clientauth.LoadFromFile
func (*defaultAuthLoader) LoadAuth(path string) (*clientauth.Info, error) {
return clientauth.LoadFromFile(path)
}
type PromptingAuthLoader struct {
reader io.Reader
}
// LoadAuth parses an AuthInfo object from a file path. It prompts user and creates file if it doesn't exist.
func (a *PromptingAuthLoader) LoadAuth(path string) (*clientauth.Info, error) {
// Prompt for user/pass and write a file if none exists.
if _, err := os.Stat(path); os.IsNotExist(err) {
authPtr, err := a.Prompt()
auth := *authPtr
if err != nil {
return nil, err
}
data, err := json.Marshal(auth)
if err != nil {
return &auth, err
}
err = ioutil.WriteFile(path, data, 0600)
return &auth, err
}
authPtr, err := clientauth.LoadFromFile(path)
if err != nil {
return nil, err
}
return authPtr, nil
}
// Prompt pulls the user and password from a reader
func (a *PromptingAuthLoader) Prompt() (*clientauth.Info, error) {
var err error
auth := &clientauth.Info{}
auth.User, err = promptForString("Username", a.reader, true)
if err != nil {
return nil, err
}
auth.Password, err = promptForString("Password", nil, false)
if err != nil {
return nil, err
}
return auth, nil
}
func promptForString(field string, r io.Reader, show bool) (result string, err error) {
fmt.Printf("Please enter %s: ", field)
if show {
_, err = fmt.Fscan(r, &result)
} else {
var data []byte
if terminal.IsTerminal(int(os.Stdin.Fd())) {
data, err = terminal.ReadPassword(int(os.Stdin.Fd()))
result = string(data)
} else {
return "", fmt.Errorf("error reading input for %s", field)
}
}
return result, err
}
// NewPromptingAuthLoader is an AuthLoader that parses an AuthInfo object from a file path. It prompts user and creates file if it doesn't exist.
func NewPromptingAuthLoader(reader io.Reader) *PromptingAuthLoader {
return &PromptingAuthLoader{reader}
}
// NewDefaultAuthLoader returns a default implementation of an AuthLoader that only reads from a config file
func NewDefaultAuthLoader() AuthLoader {
return &defaultAuthLoader{}
}

572
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/client_config.go generated vendored Normal file
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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 clientcmd
import (
"fmt"
"io"
"io/ioutil"
"net/url"
"os"
"strings"
"github.com/golang/glog"
"github.com/imdario/mergo"
restclient "k8s.io/client-go/rest"
clientauth "k8s.io/client-go/tools/auth"
clientcmdapi "k8s.io/client-go/tools/clientcmd/api"
)
var (
// ClusterDefaults has the same behavior as the old EnvVar and DefaultCluster fields
// DEPRECATED will be replaced
ClusterDefaults = clientcmdapi.Cluster{Server: getDefaultServer()}
// DefaultClientConfig represents the legacy behavior of this package for defaulting
// DEPRECATED will be replace
DefaultClientConfig = DirectClientConfig{*clientcmdapi.NewConfig(), "", &ConfigOverrides{
ClusterDefaults: ClusterDefaults,
}, nil, NewDefaultClientConfigLoadingRules(), promptedCredentials{}}
)
// getDefaultServer returns a default setting for DefaultClientConfig
// DEPRECATED
func getDefaultServer() string {
if server := os.Getenv("KUBERNETES_MASTER"); len(server) > 0 {
return server
}
return "http://localhost:8080"
}
// ClientConfig is used to make it easy to get an api server client
type ClientConfig interface {
// RawConfig returns the merged result of all overrides
RawConfig() (clientcmdapi.Config, error)
// ClientConfig returns a complete client config
ClientConfig() (*restclient.Config, error)
// Namespace returns the namespace resulting from the merged
// result of all overrides and a boolean indicating if it was
// overridden
Namespace() (string, bool, error)
// ConfigAccess returns the rules for loading/persisting the config.
ConfigAccess() ConfigAccess
}
type PersistAuthProviderConfigForUser func(user string) restclient.AuthProviderConfigPersister
type promptedCredentials struct {
username string
password string
}
// DirectClientConfig is a ClientConfig interface that is backed by a clientcmdapi.Config, options overrides, and an optional fallbackReader for auth information
type DirectClientConfig struct {
config clientcmdapi.Config
contextName string
overrides *ConfigOverrides
fallbackReader io.Reader
configAccess ConfigAccess
// promptedCredentials store the credentials input by the user
promptedCredentials promptedCredentials
}
// NewDefaultClientConfig creates a DirectClientConfig using the config.CurrentContext as the context name
func NewDefaultClientConfig(config clientcmdapi.Config, overrides *ConfigOverrides) ClientConfig {
return &DirectClientConfig{config, config.CurrentContext, overrides, nil, NewDefaultClientConfigLoadingRules(), promptedCredentials{}}
}
// NewNonInteractiveClientConfig creates a DirectClientConfig using the passed context name and does not have a fallback reader for auth information
func NewNonInteractiveClientConfig(config clientcmdapi.Config, contextName string, overrides *ConfigOverrides, configAccess ConfigAccess) ClientConfig {
return &DirectClientConfig{config, contextName, overrides, nil, configAccess, promptedCredentials{}}
}
// NewInteractiveClientConfig creates a DirectClientConfig using the passed context name and a reader in case auth information is not provided via files or flags
func NewInteractiveClientConfig(config clientcmdapi.Config, contextName string, overrides *ConfigOverrides, fallbackReader io.Reader, configAccess ConfigAccess) ClientConfig {
return &DirectClientConfig{config, contextName, overrides, fallbackReader, configAccess, promptedCredentials{}}
}
// NewClientConfigFromBytes takes your kubeconfig and gives you back a ClientConfig
func NewClientConfigFromBytes(configBytes []byte) (ClientConfig, error) {
config, err := Load(configBytes)
if err != nil {
return nil, err
}
return &DirectClientConfig{*config, "", &ConfigOverrides{}, nil, nil, promptedCredentials{}}, nil
}
// RESTConfigFromKubeConfig is a convenience method to give back a restconfig from your kubeconfig bytes.
// For programmatic access, this is what you want 80% of the time
func RESTConfigFromKubeConfig(configBytes []byte) (*restclient.Config, error) {
clientConfig, err := NewClientConfigFromBytes(configBytes)
if err != nil {
return nil, err
}
return clientConfig.ClientConfig()
}
func (config *DirectClientConfig) RawConfig() (clientcmdapi.Config, error) {
return config.config, nil
}
// ClientConfig implements ClientConfig
func (config *DirectClientConfig) ClientConfig() (*restclient.Config, error) {
// check that getAuthInfo, getContext, and getCluster do not return an error.
// Do this before checking if the current config is usable in the event that an
// AuthInfo, Context, or Cluster config with user-defined names are not found.
// This provides a user with the immediate cause for error if one is found
configAuthInfo, err := config.getAuthInfo()
if err != nil {
return nil, err
}
_, err = config.getContext()
if err != nil {
return nil, err
}
configClusterInfo, err := config.getCluster()
if err != nil {
return nil, err
}
if err := config.ConfirmUsable(); err != nil {
return nil, err
}
clientConfig := &restclient.Config{}
clientConfig.Host = configClusterInfo.Server
if len(config.overrides.Timeout) > 0 {
timeout, err := ParseTimeout(config.overrides.Timeout)
if err != nil {
return nil, err
}
clientConfig.Timeout = timeout
}
if u, err := url.ParseRequestURI(clientConfig.Host); err == nil && u.Opaque == "" && len(u.Path) > 1 {
u.RawQuery = ""
u.Fragment = ""
clientConfig.Host = u.String()
}
if len(configAuthInfo.Impersonate) > 0 {
clientConfig.Impersonate = restclient.ImpersonationConfig{
UserName: configAuthInfo.Impersonate,
Groups: configAuthInfo.ImpersonateGroups,
Extra: configAuthInfo.ImpersonateUserExtra,
}
}
// only try to read the auth information if we are secure
if restclient.IsConfigTransportTLS(*clientConfig) {
var err error
// mergo is a first write wins for map value and a last writing wins for interface values
// NOTE: This behavior changed with https://github.com/imdario/mergo/commit/d304790b2ed594794496464fadd89d2bb266600a.
// Our mergo.Merge version is older than this change.
var persister restclient.AuthProviderConfigPersister
if config.configAccess != nil {
authInfoName, _ := config.getAuthInfoName()
persister = PersisterForUser(config.configAccess, authInfoName)
}
userAuthPartialConfig, err := config.getUserIdentificationPartialConfig(configAuthInfo, config.fallbackReader, persister)
if err != nil {
return nil, err
}
mergo.Merge(clientConfig, userAuthPartialConfig)
serverAuthPartialConfig, err := getServerIdentificationPartialConfig(configAuthInfo, configClusterInfo)
if err != nil {
return nil, err
}
mergo.Merge(clientConfig, serverAuthPartialConfig)
}
return clientConfig, nil
}
// clientauth.Info object contain both user identification and server identification. We want different precedence orders for
// both, so we have to split the objects and merge them separately
// we want this order of precedence for the server identification
// 1. configClusterInfo (the final result of command line flags and merged .kubeconfig files)
// 2. configAuthInfo.auth-path (this file can contain information that conflicts with #1, and we want #1 to win the priority)
// 3. load the ~/.kubernetes_auth file as a default
func getServerIdentificationPartialConfig(configAuthInfo clientcmdapi.AuthInfo, configClusterInfo clientcmdapi.Cluster) (*restclient.Config, error) {
mergedConfig := &restclient.Config{}
// configClusterInfo holds the information identify the server provided by .kubeconfig
configClientConfig := &restclient.Config{}
configClientConfig.CAFile = configClusterInfo.CertificateAuthority
configClientConfig.CAData = configClusterInfo.CertificateAuthorityData
configClientConfig.Insecure = configClusterInfo.InsecureSkipTLSVerify
mergo.Merge(mergedConfig, configClientConfig)
return mergedConfig, nil
}
// clientauth.Info object contain both user identification and server identification. We want different precedence orders for
// both, so we have to split the objects and merge them separately
// we want this order of precedence for user identification
// 1. configAuthInfo minus auth-path (the final result of command line flags and merged .kubeconfig files)
// 2. configAuthInfo.auth-path (this file can contain information that conflicts with #1, and we want #1 to win the priority)
// 3. if there is not enough information to identify the user, load try the ~/.kubernetes_auth file
// 4. if there is not enough information to identify the user, prompt if possible
func (config *DirectClientConfig) getUserIdentificationPartialConfig(configAuthInfo clientcmdapi.AuthInfo, fallbackReader io.Reader, persistAuthConfig restclient.AuthProviderConfigPersister) (*restclient.Config, error) {
mergedConfig := &restclient.Config{}
// blindly overwrite existing values based on precedence
if len(configAuthInfo.Token) > 0 {
mergedConfig.BearerToken = configAuthInfo.Token
} else if len(configAuthInfo.TokenFile) > 0 {
tokenBytes, err := ioutil.ReadFile(configAuthInfo.TokenFile)
if err != nil {
return nil, err
}
mergedConfig.BearerToken = string(tokenBytes)
}
if len(configAuthInfo.Impersonate) > 0 {
mergedConfig.Impersonate = restclient.ImpersonationConfig{
UserName: configAuthInfo.Impersonate,
Groups: configAuthInfo.ImpersonateGroups,
Extra: configAuthInfo.ImpersonateUserExtra,
}
}
if len(configAuthInfo.ClientCertificate) > 0 || len(configAuthInfo.ClientCertificateData) > 0 {
mergedConfig.CertFile = configAuthInfo.ClientCertificate
mergedConfig.CertData = configAuthInfo.ClientCertificateData
mergedConfig.KeyFile = configAuthInfo.ClientKey
mergedConfig.KeyData = configAuthInfo.ClientKeyData
}
if len(configAuthInfo.Username) > 0 || len(configAuthInfo.Password) > 0 {
mergedConfig.Username = configAuthInfo.Username
mergedConfig.Password = configAuthInfo.Password
}
if configAuthInfo.AuthProvider != nil {
mergedConfig.AuthProvider = configAuthInfo.AuthProvider
mergedConfig.AuthConfigPersister = persistAuthConfig
}
if configAuthInfo.Exec != nil {
mergedConfig.ExecProvider = configAuthInfo.Exec
}
// if there still isn't enough information to authenticate the user, try prompting
if !canIdentifyUser(*mergedConfig) && (fallbackReader != nil) {
if len(config.promptedCredentials.username) > 0 && len(config.promptedCredentials.password) > 0 {
mergedConfig.Username = config.promptedCredentials.username
mergedConfig.Password = config.promptedCredentials.password
return mergedConfig, nil
}
prompter := NewPromptingAuthLoader(fallbackReader)
promptedAuthInfo, err := prompter.Prompt()
if err != nil {
return nil, err
}
promptedConfig := makeUserIdentificationConfig(*promptedAuthInfo)
previouslyMergedConfig := mergedConfig
mergedConfig = &restclient.Config{}
mergo.Merge(mergedConfig, promptedConfig)
mergo.Merge(mergedConfig, previouslyMergedConfig)
config.promptedCredentials.username = mergedConfig.Username
config.promptedCredentials.password = mergedConfig.Password
}
return mergedConfig, nil
}
// makeUserIdentificationFieldsConfig returns a client.Config capable of being merged using mergo for only user identification information
func makeUserIdentificationConfig(info clientauth.Info) *restclient.Config {
config := &restclient.Config{}
config.Username = info.User
config.Password = info.Password
config.CertFile = info.CertFile
config.KeyFile = info.KeyFile
config.BearerToken = info.BearerToken
return config
}
// makeUserIdentificationFieldsConfig returns a client.Config capable of being merged using mergo for only server identification information
func makeServerIdentificationConfig(info clientauth.Info) restclient.Config {
config := restclient.Config{}
config.CAFile = info.CAFile
if info.Insecure != nil {
config.Insecure = *info.Insecure
}
return config
}
func canIdentifyUser(config restclient.Config) bool {
return len(config.Username) > 0 ||
(len(config.CertFile) > 0 || len(config.CertData) > 0) ||
len(config.BearerToken) > 0 ||
config.AuthProvider != nil ||
config.ExecProvider != nil
}
// Namespace implements ClientConfig
func (config *DirectClientConfig) Namespace() (string, bool, error) {
if config.overrides != nil && config.overrides.Context.Namespace != "" {
// In the event we have an empty config but we do have a namespace override, we should return
// the namespace override instead of having config.ConfirmUsable() return an error. This allows
// things like in-cluster clients to execute `kubectl get pods --namespace=foo` and have the
// --namespace flag honored instead of being ignored.
return config.overrides.Context.Namespace, true, nil
}
if err := config.ConfirmUsable(); err != nil {
return "", false, err
}
configContext, err := config.getContext()
if err != nil {
return "", false, err
}
if len(configContext.Namespace) == 0 {
return "default", false, nil
}
return configContext.Namespace, false, nil
}
// ConfigAccess implements ClientConfig
func (config *DirectClientConfig) ConfigAccess() ConfigAccess {
return config.configAccess
}
// ConfirmUsable looks a particular context and determines if that particular part of the config is useable. There might still be errors in the config,
// but no errors in the sections requested or referenced. It does not return early so that it can find as many errors as possible.
func (config *DirectClientConfig) ConfirmUsable() error {
validationErrors := make([]error, 0)
var contextName string
if len(config.contextName) != 0 {
contextName = config.contextName
} else {
contextName = config.config.CurrentContext
}
if len(contextName) > 0 {
_, exists := config.config.Contexts[contextName]
if !exists {
validationErrors = append(validationErrors, &errContextNotFound{contextName})
}
}
authInfoName, _ := config.getAuthInfoName()
authInfo, _ := config.getAuthInfo()
validationErrors = append(validationErrors, validateAuthInfo(authInfoName, authInfo)...)
clusterName, _ := config.getClusterName()
cluster, _ := config.getCluster()
validationErrors = append(validationErrors, validateClusterInfo(clusterName, cluster)...)
// when direct client config is specified, and our only error is that no server is defined, we should
// return a standard "no config" error
if len(validationErrors) == 1 && validationErrors[0] == ErrEmptyCluster {
return newErrConfigurationInvalid([]error{ErrEmptyConfig})
}
return newErrConfigurationInvalid(validationErrors)
}
// getContextName returns the default, or user-set context name, and a boolean that indicates
// whether the default context name has been overwritten by a user-set flag, or left as its default value
func (config *DirectClientConfig) getContextName() (string, bool) {
if len(config.overrides.CurrentContext) != 0 {
return config.overrides.CurrentContext, true
}
if len(config.contextName) != 0 {
return config.contextName, false
}
return config.config.CurrentContext, false
}
// getAuthInfoName returns a string containing the current authinfo name for the current context,
// and a boolean indicating whether the default authInfo name is overwritten by a user-set flag, or
// left as its default value
func (config *DirectClientConfig) getAuthInfoName() (string, bool) {
if len(config.overrides.Context.AuthInfo) != 0 {
return config.overrides.Context.AuthInfo, true
}
context, _ := config.getContext()
return context.AuthInfo, false
}
// getClusterName returns a string containing the default, or user-set cluster name, and a boolean
// indicating whether the default clusterName has been overwritten by a user-set flag, or left as
// its default value
func (config *DirectClientConfig) getClusterName() (string, bool) {
if len(config.overrides.Context.Cluster) != 0 {
return config.overrides.Context.Cluster, true
}
context, _ := config.getContext()
return context.Cluster, false
}
// getContext returns the clientcmdapi.Context, or an error if a required context is not found.
func (config *DirectClientConfig) getContext() (clientcmdapi.Context, error) {
contexts := config.config.Contexts
contextName, required := config.getContextName()
mergedContext := clientcmdapi.NewContext()
if configContext, exists := contexts[contextName]; exists {
mergo.Merge(mergedContext, configContext)
} else if required {
return clientcmdapi.Context{}, fmt.Errorf("context %q does not exist", contextName)
}
mergo.Merge(mergedContext, config.overrides.Context)
return *mergedContext, nil
}
// getAuthInfo returns the clientcmdapi.AuthInfo, or an error if a required auth info is not found.
func (config *DirectClientConfig) getAuthInfo() (clientcmdapi.AuthInfo, error) {
authInfos := config.config.AuthInfos
authInfoName, required := config.getAuthInfoName()
mergedAuthInfo := clientcmdapi.NewAuthInfo()
if configAuthInfo, exists := authInfos[authInfoName]; exists {
mergo.Merge(mergedAuthInfo, configAuthInfo)
} else if required {
return clientcmdapi.AuthInfo{}, fmt.Errorf("auth info %q does not exist", authInfoName)
}
mergo.Merge(mergedAuthInfo, config.overrides.AuthInfo)
return *mergedAuthInfo, nil
}
// getCluster returns the clientcmdapi.Cluster, or an error if a required cluster is not found.
func (config *DirectClientConfig) getCluster() (clientcmdapi.Cluster, error) {
clusterInfos := config.config.Clusters
clusterInfoName, required := config.getClusterName()
mergedClusterInfo := clientcmdapi.NewCluster()
mergo.Merge(mergedClusterInfo, config.overrides.ClusterDefaults)
if configClusterInfo, exists := clusterInfos[clusterInfoName]; exists {
mergo.Merge(mergedClusterInfo, configClusterInfo)
} else if required {
return clientcmdapi.Cluster{}, fmt.Errorf("cluster %q does not exist", clusterInfoName)
}
mergo.Merge(mergedClusterInfo, config.overrides.ClusterInfo)
// An override of --insecure-skip-tls-verify=true and no accompanying CA/CA data should clear already-set CA/CA data
// otherwise, a kubeconfig containing a CA reference would return an error that "CA and insecure-skip-tls-verify couldn't both be set"
caLen := len(config.overrides.ClusterInfo.CertificateAuthority)
caDataLen := len(config.overrides.ClusterInfo.CertificateAuthorityData)
if config.overrides.ClusterInfo.InsecureSkipTLSVerify && caLen == 0 && caDataLen == 0 {
mergedClusterInfo.CertificateAuthority = ""
mergedClusterInfo.CertificateAuthorityData = nil
}
return *mergedClusterInfo, nil
}
// inClusterClientConfig makes a config that will work from within a kubernetes cluster container environment.
// Can take options overrides for flags explicitly provided to the command inside the cluster container.
type inClusterClientConfig struct {
overrides *ConfigOverrides
inClusterConfigProvider func() (*restclient.Config, error)
}
var _ ClientConfig = &inClusterClientConfig{}
func (config *inClusterClientConfig) RawConfig() (clientcmdapi.Config, error) {
return clientcmdapi.Config{}, fmt.Errorf("inCluster environment config doesn't support multiple clusters")
}
func (config *inClusterClientConfig) ClientConfig() (*restclient.Config, error) {
if config.inClusterConfigProvider == nil {
config.inClusterConfigProvider = restclient.InClusterConfig
}
icc, err := config.inClusterConfigProvider()
if err != nil {
return nil, err
}
// in-cluster configs only takes a host, token, or CA file
// if any of them were individually provided, overwrite anything else
if config.overrides != nil {
if server := config.overrides.ClusterInfo.Server; len(server) > 0 {
icc.Host = server
}
if token := config.overrides.AuthInfo.Token; len(token) > 0 {
icc.BearerToken = token
}
if certificateAuthorityFile := config.overrides.ClusterInfo.CertificateAuthority; len(certificateAuthorityFile) > 0 {
icc.TLSClientConfig.CAFile = certificateAuthorityFile
}
}
return icc, err
}
func (config *inClusterClientConfig) Namespace() (string, bool, error) {
// This way assumes you've set the POD_NAMESPACE environment variable using the downward API.
// This check has to be done first for backwards compatibility with the way InClusterConfig was originally set up
if ns := os.Getenv("POD_NAMESPACE"); ns != "" {
return ns, false, nil
}
// Fall back to the namespace associated with the service account token, if available
if data, err := ioutil.ReadFile("/var/run/secrets/kubernetes.io/serviceaccount/namespace"); err == nil {
if ns := strings.TrimSpace(string(data)); len(ns) > 0 {
return ns, false, nil
}
}
return "default", false, nil
}
func (config *inClusterClientConfig) ConfigAccess() ConfigAccess {
return NewDefaultClientConfigLoadingRules()
}
// Possible returns true if loading an inside-kubernetes-cluster is possible.
func (config *inClusterClientConfig) Possible() bool {
fi, err := os.Stat("/var/run/secrets/kubernetes.io/serviceaccount/token")
return os.Getenv("KUBERNETES_SERVICE_HOST") != "" &&
os.Getenv("KUBERNETES_SERVICE_PORT") != "" &&
err == nil && !fi.IsDir()
}
// BuildConfigFromFlags is a helper function that builds configs from a master
// url or a kubeconfig filepath. These are passed in as command line flags for cluster
// components. Warnings should reflect this usage. If neither masterUrl or kubeconfigPath
// are passed in we fallback to inClusterConfig. If inClusterConfig fails, we fallback
// to the default config.
func BuildConfigFromFlags(masterUrl, kubeconfigPath string) (*restclient.Config, error) {
if kubeconfigPath == "" && masterUrl == "" {
glog.Warningf("Neither --kubeconfig nor --master was specified. Using the inClusterConfig. This might not work.")
kubeconfig, err := restclient.InClusterConfig()
if err == nil {
return kubeconfig, nil
}
glog.Warning("error creating inClusterConfig, falling back to default config: ", err)
}
return NewNonInteractiveDeferredLoadingClientConfig(
&ClientConfigLoadingRules{ExplicitPath: kubeconfigPath},
&ConfigOverrides{ClusterInfo: clientcmdapi.Cluster{Server: masterUrl}}).ClientConfig()
}
// BuildConfigFromKubeconfigGetter is a helper function that builds configs from a master
// url and a kubeconfigGetter.
func BuildConfigFromKubeconfigGetter(masterUrl string, kubeconfigGetter KubeconfigGetter) (*restclient.Config, error) {
// TODO: We do not need a DeferredLoader here. Refactor code and see if we can use DirectClientConfig here.
cc := NewNonInteractiveDeferredLoadingClientConfig(
&ClientConfigGetter{kubeconfigGetter: kubeconfigGetter},
&ConfigOverrides{ClusterInfo: clientcmdapi.Cluster{Server: masterUrl}})
return cc.ClientConfig()
}

474
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/config.go generated vendored Normal file
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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 clientcmd
import (
"errors"
"os"
"path"
"path/filepath"
"reflect"
"sort"
"github.com/golang/glog"
restclient "k8s.io/client-go/rest"
clientcmdapi "k8s.io/client-go/tools/clientcmd/api"
)
// ConfigAccess is used by subcommands and methods in this package to load and modify the appropriate config files
type ConfigAccess interface {
// GetLoadingPrecedence returns the slice of files that should be used for loading and inspecting the config
GetLoadingPrecedence() []string
// GetStartingConfig returns the config that subcommands should being operating against. It may or may not be merged depending on loading rules
GetStartingConfig() (*clientcmdapi.Config, error)
// GetDefaultFilename returns the name of the file you should write into (create if necessary), if you're trying to create a new stanza as opposed to updating an existing one.
GetDefaultFilename() string
// IsExplicitFile indicates whether or not this command is interested in exactly one file. This implementation only ever does that via a flag, but implementations that handle local, global, and flags may have more
IsExplicitFile() bool
// GetExplicitFile returns the particular file this command is operating against. This implementation only ever has one, but implementations that handle local, global, and flags may have more
GetExplicitFile() string
}
type PathOptions struct {
// GlobalFile is the full path to the file to load as the global (final) option
GlobalFile string
// EnvVar is the env var name that points to the list of kubeconfig files to load
EnvVar string
// ExplicitFileFlag is the name of the flag to use for prompting for the kubeconfig file
ExplicitFileFlag string
// GlobalFileSubpath is an optional value used for displaying help
GlobalFileSubpath string
LoadingRules *ClientConfigLoadingRules
}
func (o *PathOptions) GetEnvVarFiles() []string {
if len(o.EnvVar) == 0 {
return []string{}
}
envVarValue := os.Getenv(o.EnvVar)
if len(envVarValue) == 0 {
return []string{}
}
fileList := filepath.SplitList(envVarValue)
// prevent the same path load multiple times
return deduplicate(fileList)
}
func (o *PathOptions) GetLoadingPrecedence() []string {
if envVarFiles := o.GetEnvVarFiles(); len(envVarFiles) > 0 {
return envVarFiles
}
return []string{o.GlobalFile}
}
func (o *PathOptions) GetStartingConfig() (*clientcmdapi.Config, error) {
// don't mutate the original
loadingRules := *o.LoadingRules
loadingRules.Precedence = o.GetLoadingPrecedence()
clientConfig := NewNonInteractiveDeferredLoadingClientConfig(&loadingRules, &ConfigOverrides{})
rawConfig, err := clientConfig.RawConfig()
if os.IsNotExist(err) {
return clientcmdapi.NewConfig(), nil
}
if err != nil {
return nil, err
}
return &rawConfig, nil
}
func (o *PathOptions) GetDefaultFilename() string {
if o.IsExplicitFile() {
return o.GetExplicitFile()
}
if envVarFiles := o.GetEnvVarFiles(); len(envVarFiles) > 0 {
if len(envVarFiles) == 1 {
return envVarFiles[0]
}
// if any of the envvar files already exists, return it
for _, envVarFile := range envVarFiles {
if _, err := os.Stat(envVarFile); err == nil {
return envVarFile
}
}
// otherwise, return the last one in the list
return envVarFiles[len(envVarFiles)-1]
}
return o.GlobalFile
}
func (o *PathOptions) IsExplicitFile() bool {
if len(o.LoadingRules.ExplicitPath) > 0 {
return true
}
return false
}
func (o *PathOptions) GetExplicitFile() string {
return o.LoadingRules.ExplicitPath
}
func NewDefaultPathOptions() *PathOptions {
ret := &PathOptions{
GlobalFile: RecommendedHomeFile,
EnvVar: RecommendedConfigPathEnvVar,
ExplicitFileFlag: RecommendedConfigPathFlag,
GlobalFileSubpath: path.Join(RecommendedHomeDir, RecommendedFileName),
LoadingRules: NewDefaultClientConfigLoadingRules(),
}
ret.LoadingRules.DoNotResolvePaths = true
return ret
}
// ModifyConfig takes a Config object, iterates through Clusters, AuthInfos, and Contexts, uses the LocationOfOrigin if specified or
// uses the default destination file to write the results into. This results in multiple file reads, but it's very easy to follow.
// Preferences and CurrentContext should always be set in the default destination file. Since we can't distinguish between empty and missing values
// (no nil strings), we're forced have separate handling for them. In the kubeconfig cases, newConfig should have at most one difference,
// that means that this code will only write into a single file. If you want to relativizePaths, you must provide a fully qualified path in any
// modified element.
func ModifyConfig(configAccess ConfigAccess, newConfig clientcmdapi.Config, relativizePaths bool) error {
possibleSources := configAccess.GetLoadingPrecedence()
// sort the possible kubeconfig files so we always "lock" in the same order
// to avoid deadlock (note: this can fail w/ symlinks, but... come on).
sort.Strings(possibleSources)
for _, filename := range possibleSources {
if err := lockFile(filename); err != nil {
return err
}
defer unlockFile(filename)
}
startingConfig, err := configAccess.GetStartingConfig()
if err != nil {
return err
}
// We need to find all differences, locate their original files, read a partial config to modify only that stanza and write out the file.
// Special case the test for current context and preferences since those always write to the default file.
if reflect.DeepEqual(*startingConfig, newConfig) {
// nothing to do
return nil
}
if startingConfig.CurrentContext != newConfig.CurrentContext {
if err := writeCurrentContext(configAccess, newConfig.CurrentContext); err != nil {
return err
}
}
if !reflect.DeepEqual(startingConfig.Preferences, newConfig.Preferences) {
if err := writePreferences(configAccess, newConfig.Preferences); err != nil {
return err
}
}
// Search every cluster, authInfo, and context. First from new to old for differences, then from old to new for deletions
for key, cluster := range newConfig.Clusters {
startingCluster, exists := startingConfig.Clusters[key]
if !reflect.DeepEqual(cluster, startingCluster) || !exists {
destinationFile := cluster.LocationOfOrigin
if len(destinationFile) == 0 {
destinationFile = configAccess.GetDefaultFilename()
}
configToWrite, err := getConfigFromFile(destinationFile)
if err != nil {
return err
}
t := *cluster
configToWrite.Clusters[key] = &t
configToWrite.Clusters[key].LocationOfOrigin = destinationFile
if relativizePaths {
if err := RelativizeClusterLocalPaths(configToWrite.Clusters[key]); err != nil {
return err
}
}
if err := WriteToFile(*configToWrite, destinationFile); err != nil {
return err
}
}
}
for key, context := range newConfig.Contexts {
startingContext, exists := startingConfig.Contexts[key]
if !reflect.DeepEqual(context, startingContext) || !exists {
destinationFile := context.LocationOfOrigin
if len(destinationFile) == 0 {
destinationFile = configAccess.GetDefaultFilename()
}
configToWrite, err := getConfigFromFile(destinationFile)
if err != nil {
return err
}
configToWrite.Contexts[key] = context
if err := WriteToFile(*configToWrite, destinationFile); err != nil {
return err
}
}
}
for key, authInfo := range newConfig.AuthInfos {
startingAuthInfo, exists := startingConfig.AuthInfos[key]
if !reflect.DeepEqual(authInfo, startingAuthInfo) || !exists {
destinationFile := authInfo.LocationOfOrigin
if len(destinationFile) == 0 {
destinationFile = configAccess.GetDefaultFilename()
}
configToWrite, err := getConfigFromFile(destinationFile)
if err != nil {
return err
}
t := *authInfo
configToWrite.AuthInfos[key] = &t
configToWrite.AuthInfos[key].LocationOfOrigin = destinationFile
if relativizePaths {
if err := RelativizeAuthInfoLocalPaths(configToWrite.AuthInfos[key]); err != nil {
return err
}
}
if err := WriteToFile(*configToWrite, destinationFile); err != nil {
return err
}
}
}
for key, cluster := range startingConfig.Clusters {
if _, exists := newConfig.Clusters[key]; !exists {
destinationFile := cluster.LocationOfOrigin
if len(destinationFile) == 0 {
destinationFile = configAccess.GetDefaultFilename()
}
configToWrite, err := getConfigFromFile(destinationFile)
if err != nil {
return err
}
delete(configToWrite.Clusters, key)
if err := WriteToFile(*configToWrite, destinationFile); err != nil {
return err
}
}
}
for key, context := range startingConfig.Contexts {
if _, exists := newConfig.Contexts[key]; !exists {
destinationFile := context.LocationOfOrigin
if len(destinationFile) == 0 {
destinationFile = configAccess.GetDefaultFilename()
}
configToWrite, err := getConfigFromFile(destinationFile)
if err != nil {
return err
}
delete(configToWrite.Contexts, key)
if err := WriteToFile(*configToWrite, destinationFile); err != nil {
return err
}
}
}
for key, authInfo := range startingConfig.AuthInfos {
if _, exists := newConfig.AuthInfos[key]; !exists {
destinationFile := authInfo.LocationOfOrigin
if len(destinationFile) == 0 {
destinationFile = configAccess.GetDefaultFilename()
}
configToWrite, err := getConfigFromFile(destinationFile)
if err != nil {
return err
}
delete(configToWrite.AuthInfos, key)
if err := WriteToFile(*configToWrite, destinationFile); err != nil {
return err
}
}
}
return nil
}
func PersisterForUser(configAccess ConfigAccess, user string) restclient.AuthProviderConfigPersister {
return &persister{configAccess, user}
}
type persister struct {
configAccess ConfigAccess
user string
}
func (p *persister) Persist(config map[string]string) error {
newConfig, err := p.configAccess.GetStartingConfig()
if err != nil {
return err
}
authInfo, ok := newConfig.AuthInfos[p.user]
if ok && authInfo.AuthProvider != nil {
authInfo.AuthProvider.Config = config
ModifyConfig(p.configAccess, *newConfig, false)
}
return nil
}
// writeCurrentContext takes three possible paths.
// If newCurrentContext is the same as the startingConfig's current context, then we exit.
// If newCurrentContext has a value, then that value is written into the default destination file.
// If newCurrentContext is empty, then we find the config file that is setting the CurrentContext and clear the value from that file
func writeCurrentContext(configAccess ConfigAccess, newCurrentContext string) error {
if startingConfig, err := configAccess.GetStartingConfig(); err != nil {
return err
} else if startingConfig.CurrentContext == newCurrentContext {
return nil
}
if configAccess.IsExplicitFile() {
file := configAccess.GetExplicitFile()
currConfig, err := getConfigFromFile(file)
if err != nil {
return err
}
currConfig.CurrentContext = newCurrentContext
if err := WriteToFile(*currConfig, file); err != nil {
return err
}
return nil
}
if len(newCurrentContext) > 0 {
destinationFile := configAccess.GetDefaultFilename()
config, err := getConfigFromFile(destinationFile)
if err != nil {
return err
}
config.CurrentContext = newCurrentContext
if err := WriteToFile(*config, destinationFile); err != nil {
return err
}
return nil
}
// we're supposed to be clearing the current context. We need to find the first spot in the chain that is setting it and clear it
for _, file := range configAccess.GetLoadingPrecedence() {
if _, err := os.Stat(file); err == nil {
currConfig, err := getConfigFromFile(file)
if err != nil {
return err
}
if len(currConfig.CurrentContext) > 0 {
currConfig.CurrentContext = newCurrentContext
if err := WriteToFile(*currConfig, file); err != nil {
return err
}
return nil
}
}
}
return errors.New("no config found to write context")
}
func writePreferences(configAccess ConfigAccess, newPrefs clientcmdapi.Preferences) error {
if startingConfig, err := configAccess.GetStartingConfig(); err != nil {
return err
} else if reflect.DeepEqual(startingConfig.Preferences, newPrefs) {
return nil
}
if configAccess.IsExplicitFile() {
file := configAccess.GetExplicitFile()
currConfig, err := getConfigFromFile(file)
if err != nil {
return err
}
currConfig.Preferences = newPrefs
if err := WriteToFile(*currConfig, file); err != nil {
return err
}
return nil
}
for _, file := range configAccess.GetLoadingPrecedence() {
currConfig, err := getConfigFromFile(file)
if err != nil {
return err
}
if !reflect.DeepEqual(currConfig.Preferences, newPrefs) {
currConfig.Preferences = newPrefs
if err := WriteToFile(*currConfig, file); err != nil {
return err
}
return nil
}
}
return errors.New("no config found to write preferences")
}
// getConfigFromFile tries to read a kubeconfig file and if it can't, returns an error. One exception, missing files result in empty configs, not an error.
func getConfigFromFile(filename string) (*clientcmdapi.Config, error) {
config, err := LoadFromFile(filename)
if err != nil && !os.IsNotExist(err) {
return nil, err
}
if config == nil {
config = clientcmdapi.NewConfig()
}
return config, nil
}
// GetConfigFromFileOrDie tries to read a kubeconfig file and if it can't, it calls exit. One exception, missing files result in empty configs, not an exit
func GetConfigFromFileOrDie(filename string) *clientcmdapi.Config {
config, err := getConfigFromFile(filename)
if err != nil {
glog.FatalDepth(1, err)
}
return config
}

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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 clientcmd provides one stop shopping for building a working client from a fixed config,
from a .kubeconfig file, from command line flags, or from any merged combination.
Sample usage from merged .kubeconfig files (local directory, home directory)
loadingRules := clientcmd.NewDefaultClientConfigLoadingRules()
// if you want to change the loading rules (which files in which order), you can do so here
configOverrides := &clientcmd.ConfigOverrides{}
// if you want to change override values or bind them to flags, there are methods to help you
kubeConfig := clientcmd.NewNonInteractiveDeferredLoadingClientConfig(loadingRules, configOverrides)
config, err := kubeConfig.ClientConfig()
if err != nil {
// Do something
}
client, err := metav1.New(config)
// ...
*/
package clientcmd // import "k8s.io/client-go/tools/clientcmd"

49
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/*
Copyright 2017 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 clientcmd
// transformingStringValue implements pflag.Value to store string values,
// allowing transforming them while being set
type transformingStringValue struct {
target *string
transformer func(string) (string, error)
}
func newTransformingStringValue(val string, target *string, transformer func(string) (string, error)) *transformingStringValue {
*target = val
return &transformingStringValue{
target: target,
transformer: transformer,
}
}
func (t *transformingStringValue) Set(val string) error {
val, err := t.transformer(val)
if err != nil {
return err
}
*t.target = val
return nil
}
func (t *transformingStringValue) Type() string {
return "string"
}
func (t *transformingStringValue) String() string {
return string(*t.target)
}

35
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/*
Copyright 2016 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 clientcmd
import (
"fmt"
"strconv"
"time"
)
// ParseTimeout returns a parsed duration from a string
// A duration string value must be a positive integer, optionally followed by a corresponding time unit (s|m|h).
func ParseTimeout(duration string) (time.Duration, error) {
if i, err := strconv.ParseInt(duration, 10, 64); err == nil && i >= 0 {
return (time.Duration(i) * time.Second), nil
}
if requestTimeout, err := time.ParseDuration(duration); err == nil {
return requestTimeout, nil
}
return 0, fmt.Errorf("Invalid timeout value. Timeout must be a single integer in seconds, or an integer followed by a corresponding time unit (e.g. 1s | 2m | 3h)")
}

633
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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 clientcmd
import (
"fmt"
"io"
"io/ioutil"
"os"
"path"
"path/filepath"
"reflect"
goruntime "runtime"
"strings"
"github.com/golang/glog"
"github.com/imdario/mergo"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/runtime/schema"
utilerrors "k8s.io/apimachinery/pkg/util/errors"
restclient "k8s.io/client-go/rest"
clientcmdapi "k8s.io/client-go/tools/clientcmd/api"
clientcmdlatest "k8s.io/client-go/tools/clientcmd/api/latest"
"k8s.io/client-go/util/homedir"
)
const (
RecommendedConfigPathFlag = "kubeconfig"
RecommendedConfigPathEnvVar = "KUBECONFIG"
RecommendedHomeDir = ".kube"
RecommendedFileName = "config"
RecommendedSchemaName = "schema"
)
var (
RecommendedConfigDir = path.Join(homedir.HomeDir(), RecommendedHomeDir)
RecommendedHomeFile = path.Join(RecommendedConfigDir, RecommendedFileName)
RecommendedSchemaFile = path.Join(RecommendedConfigDir, RecommendedSchemaName)
)
// currentMigrationRules returns a map that holds the history of recommended home directories used in previous versions.
// Any future changes to RecommendedHomeFile and related are expected to add a migration rule here, in order to make
// sure existing config files are migrated to their new locations properly.
func currentMigrationRules() map[string]string {
oldRecommendedHomeFile := path.Join(os.Getenv("HOME"), "/.kube/.kubeconfig")
oldRecommendedWindowsHomeFile := path.Join(os.Getenv("HOME"), RecommendedHomeDir, RecommendedFileName)
migrationRules := map[string]string{}
migrationRules[RecommendedHomeFile] = oldRecommendedHomeFile
if goruntime.GOOS == "windows" {
migrationRules[RecommendedHomeFile] = oldRecommendedWindowsHomeFile
}
return migrationRules
}
type ClientConfigLoader interface {
ConfigAccess
// IsDefaultConfig returns true if the returned config matches the defaults.
IsDefaultConfig(*restclient.Config) bool
// Load returns the latest config
Load() (*clientcmdapi.Config, error)
}
type KubeconfigGetter func() (*clientcmdapi.Config, error)
type ClientConfigGetter struct {
kubeconfigGetter KubeconfigGetter
}
// ClientConfigGetter implements the ClientConfigLoader interface.
var _ ClientConfigLoader = &ClientConfigGetter{}
func (g *ClientConfigGetter) Load() (*clientcmdapi.Config, error) {
return g.kubeconfigGetter()
}
func (g *ClientConfigGetter) GetLoadingPrecedence() []string {
return nil
}
func (g *ClientConfigGetter) GetStartingConfig() (*clientcmdapi.Config, error) {
return g.kubeconfigGetter()
}
func (g *ClientConfigGetter) GetDefaultFilename() string {
return ""
}
func (g *ClientConfigGetter) IsExplicitFile() bool {
return false
}
func (g *ClientConfigGetter) GetExplicitFile() string {
return ""
}
func (g *ClientConfigGetter) IsDefaultConfig(config *restclient.Config) bool {
return false
}
// ClientConfigLoadingRules is an ExplicitPath and string slice of specific locations that are used for merging together a Config
// Callers can put the chain together however they want, but we'd recommend:
// EnvVarPathFiles if set (a list of files if set) OR the HomeDirectoryPath
// ExplicitPath is special, because if a user specifically requests a certain file be used and error is reported if this file is not present
type ClientConfigLoadingRules struct {
ExplicitPath string
Precedence []string
// MigrationRules is a map of destination files to source files. If a destination file is not present, then the source file is checked.
// If the source file is present, then it is copied to the destination file BEFORE any further loading happens.
MigrationRules map[string]string
// DoNotResolvePaths indicates whether or not to resolve paths with respect to the originating files. This is phrased as a negative so
// that a default object that doesn't set this will usually get the behavior it wants.
DoNotResolvePaths bool
// DefaultClientConfig is an optional field indicating what rules to use to calculate a default configuration.
// This should match the overrides passed in to ClientConfig loader.
DefaultClientConfig ClientConfig
}
// ClientConfigLoadingRules implements the ClientConfigLoader interface.
var _ ClientConfigLoader = &ClientConfigLoadingRules{}
// NewDefaultClientConfigLoadingRules returns a ClientConfigLoadingRules object with default fields filled in. You are not required to
// use this constructor
func NewDefaultClientConfigLoadingRules() *ClientConfigLoadingRules {
chain := []string{}
envVarFiles := os.Getenv(RecommendedConfigPathEnvVar)
if len(envVarFiles) != 0 {
fileList := filepath.SplitList(envVarFiles)
// prevent the same path load multiple times
chain = append(chain, deduplicate(fileList)...)
} else {
chain = append(chain, RecommendedHomeFile)
}
return &ClientConfigLoadingRules{
Precedence: chain,
MigrationRules: currentMigrationRules(),
}
}
// Load starts by running the MigrationRules and then
// takes the loading rules and returns a Config object based on following rules.
// if the ExplicitPath, return the unmerged explicit file
// Otherwise, return a merged config based on the Precedence slice
// A missing ExplicitPath file produces an error. Empty filenames or other missing files are ignored.
// Read errors or files with non-deserializable content produce errors.
// The first file to set a particular map key wins and map key's value is never changed.
// BUT, if you set a struct value that is NOT contained inside of map, the value WILL be changed.
// This results in some odd looking logic to merge in one direction, merge in the other, and then merge the two.
// It also means that if two files specify a "red-user", only values from the first file's red-user are used. Even
// non-conflicting entries from the second file's "red-user" are discarded.
// Relative paths inside of the .kubeconfig files are resolved against the .kubeconfig file's parent folder
// and only absolute file paths are returned.
func (rules *ClientConfigLoadingRules) Load() (*clientcmdapi.Config, error) {
if err := rules.Migrate(); err != nil {
return nil, err
}
errlist := []error{}
kubeConfigFiles := []string{}
// Make sure a file we were explicitly told to use exists
if len(rules.ExplicitPath) > 0 {
if _, err := os.Stat(rules.ExplicitPath); os.IsNotExist(err) {
return nil, err
}
kubeConfigFiles = append(kubeConfigFiles, rules.ExplicitPath)
} else {
kubeConfigFiles = append(kubeConfigFiles, rules.Precedence...)
}
kubeconfigs := []*clientcmdapi.Config{}
// read and cache the config files so that we only look at them once
for _, filename := range kubeConfigFiles {
if len(filename) == 0 {
// no work to do
continue
}
config, err := LoadFromFile(filename)
if os.IsNotExist(err) {
// skip missing files
continue
}
if err != nil {
errlist = append(errlist, fmt.Errorf("Error loading config file \"%s\": %v", filename, err))
continue
}
kubeconfigs = append(kubeconfigs, config)
}
// first merge all of our maps
mapConfig := clientcmdapi.NewConfig()
for _, kubeconfig := range kubeconfigs {
mergo.Merge(mapConfig, kubeconfig)
}
// merge all of the struct values in the reverse order so that priority is given correctly
// errors are not added to the list the second time
nonMapConfig := clientcmdapi.NewConfig()
for i := len(kubeconfigs) - 1; i >= 0; i-- {
kubeconfig := kubeconfigs[i]
mergo.Merge(nonMapConfig, kubeconfig)
}
// since values are overwritten, but maps values are not, we can merge the non-map config on top of the map config and
// get the values we expect.
config := clientcmdapi.NewConfig()
mergo.Merge(config, mapConfig)
mergo.Merge(config, nonMapConfig)
if rules.ResolvePaths() {
if err := ResolveLocalPaths(config); err != nil {
errlist = append(errlist, err)
}
}
return config, utilerrors.NewAggregate(errlist)
}
// Migrate uses the MigrationRules map. If a destination file is not present, then the source file is checked.
// If the source file is present, then it is copied to the destination file BEFORE any further loading happens.
func (rules *ClientConfigLoadingRules) Migrate() error {
if rules.MigrationRules == nil {
return nil
}
for destination, source := range rules.MigrationRules {
if _, err := os.Stat(destination); err == nil {
// if the destination already exists, do nothing
continue
} else if os.IsPermission(err) {
// if we can't access the file, skip it
continue
} else if !os.IsNotExist(err) {
// if we had an error other than non-existence, fail
return err
}
if sourceInfo, err := os.Stat(source); err != nil {
if os.IsNotExist(err) || os.IsPermission(err) {
// if the source file doesn't exist or we can't access it, there's no work to do.
continue
}
// if we had an error other than non-existence, fail
return err
} else if sourceInfo.IsDir() {
return fmt.Errorf("cannot migrate %v to %v because it is a directory", source, destination)
}
in, err := os.Open(source)
if err != nil {
return err
}
defer in.Close()
out, err := os.Create(destination)
if err != nil {
return err
}
defer out.Close()
if _, err = io.Copy(out, in); err != nil {
return err
}
}
return nil
}
// GetLoadingPrecedence implements ConfigAccess
func (rules *ClientConfigLoadingRules) GetLoadingPrecedence() []string {
return rules.Precedence
}
// GetStartingConfig implements ConfigAccess
func (rules *ClientConfigLoadingRules) GetStartingConfig() (*clientcmdapi.Config, error) {
clientConfig := NewNonInteractiveDeferredLoadingClientConfig(rules, &ConfigOverrides{})
rawConfig, err := clientConfig.RawConfig()
if os.IsNotExist(err) {
return clientcmdapi.NewConfig(), nil
}
if err != nil {
return nil, err
}
return &rawConfig, nil
}
// GetDefaultFilename implements ConfigAccess
func (rules *ClientConfigLoadingRules) GetDefaultFilename() string {
// Explicit file if we have one.
if rules.IsExplicitFile() {
return rules.GetExplicitFile()
}
// Otherwise, first existing file from precedence.
for _, filename := range rules.GetLoadingPrecedence() {
if _, err := os.Stat(filename); err == nil {
return filename
}
}
// If none exists, use the first from precedence.
if len(rules.Precedence) > 0 {
return rules.Precedence[0]
}
return ""
}
// IsExplicitFile implements ConfigAccess
func (rules *ClientConfigLoadingRules) IsExplicitFile() bool {
return len(rules.ExplicitPath) > 0
}
// GetExplicitFile implements ConfigAccess
func (rules *ClientConfigLoadingRules) GetExplicitFile() string {
return rules.ExplicitPath
}
// IsDefaultConfig returns true if the provided configuration matches the default
func (rules *ClientConfigLoadingRules) IsDefaultConfig(config *restclient.Config) bool {
if rules.DefaultClientConfig == nil {
return false
}
defaultConfig, err := rules.DefaultClientConfig.ClientConfig()
if err != nil {
return false
}
return reflect.DeepEqual(config, defaultConfig)
}
// LoadFromFile takes a filename and deserializes the contents into Config object
func LoadFromFile(filename string) (*clientcmdapi.Config, error) {
kubeconfigBytes, err := ioutil.ReadFile(filename)
if err != nil {
return nil, err
}
config, err := Load(kubeconfigBytes)
if err != nil {
return nil, err
}
glog.V(6).Infoln("Config loaded from file", filename)
// set LocationOfOrigin on every Cluster, User, and Context
for key, obj := range config.AuthInfos {
obj.LocationOfOrigin = filename
config.AuthInfos[key] = obj
}
for key, obj := range config.Clusters {
obj.LocationOfOrigin = filename
config.Clusters[key] = obj
}
for key, obj := range config.Contexts {
obj.LocationOfOrigin = filename
config.Contexts[key] = obj
}
if config.AuthInfos == nil {
config.AuthInfos = map[string]*clientcmdapi.AuthInfo{}
}
if config.Clusters == nil {
config.Clusters = map[string]*clientcmdapi.Cluster{}
}
if config.Contexts == nil {
config.Contexts = map[string]*clientcmdapi.Context{}
}
return config, nil
}
// Load takes a byte slice and deserializes the contents into Config object.
// Encapsulates deserialization without assuming the source is a file.
func Load(data []byte) (*clientcmdapi.Config, error) {
config := clientcmdapi.NewConfig()
// if there's no data in a file, return the default object instead of failing (DecodeInto reject empty input)
if len(data) == 0 {
return config, nil
}
decoded, _, err := clientcmdlatest.Codec.Decode(data, &schema.GroupVersionKind{Version: clientcmdlatest.Version, Kind: "Config"}, config)
if err != nil {
return nil, err
}
return decoded.(*clientcmdapi.Config), nil
}
// WriteToFile serializes the config to yaml and writes it out to a file. If not present, it creates the file with the mode 0600. If it is present
// it stomps the contents
func WriteToFile(config clientcmdapi.Config, filename string) error {
content, err := Write(config)
if err != nil {
return err
}
dir := filepath.Dir(filename)
if _, err := os.Stat(dir); os.IsNotExist(err) {
if err = os.MkdirAll(dir, 0755); err != nil {
return err
}
}
if err := ioutil.WriteFile(filename, content, 0600); err != nil {
return err
}
return nil
}
func lockFile(filename string) error {
// TODO: find a way to do this with actual file locks. Will
// probably need separate solution for windows and Linux.
// Make sure the dir exists before we try to create a lock file.
dir := filepath.Dir(filename)
if _, err := os.Stat(dir); os.IsNotExist(err) {
if err = os.MkdirAll(dir, 0755); err != nil {
return err
}
}
f, err := os.OpenFile(lockName(filename), os.O_CREATE|os.O_EXCL, 0)
if err != nil {
return err
}
f.Close()
return nil
}
func unlockFile(filename string) error {
return os.Remove(lockName(filename))
}
func lockName(filename string) string {
return filename + ".lock"
}
// Write serializes the config to yaml.
// Encapsulates serialization without assuming the destination is a file.
func Write(config clientcmdapi.Config) ([]byte, error) {
return runtime.Encode(clientcmdlatest.Codec, &config)
}
func (rules ClientConfigLoadingRules) ResolvePaths() bool {
return !rules.DoNotResolvePaths
}
// ResolveLocalPaths resolves all relative paths in the config object with respect to the stanza's LocationOfOrigin
// this cannot be done directly inside of LoadFromFile because doing so there would make it impossible to load a file without
// modification of its contents.
func ResolveLocalPaths(config *clientcmdapi.Config) error {
for _, cluster := range config.Clusters {
if len(cluster.LocationOfOrigin) == 0 {
continue
}
base, err := filepath.Abs(filepath.Dir(cluster.LocationOfOrigin))
if err != nil {
return fmt.Errorf("Could not determine the absolute path of config file %s: %v", cluster.LocationOfOrigin, err)
}
if err := ResolvePaths(GetClusterFileReferences(cluster), base); err != nil {
return err
}
}
for _, authInfo := range config.AuthInfos {
if len(authInfo.LocationOfOrigin) == 0 {
continue
}
base, err := filepath.Abs(filepath.Dir(authInfo.LocationOfOrigin))
if err != nil {
return fmt.Errorf("Could not determine the absolute path of config file %s: %v", authInfo.LocationOfOrigin, err)
}
if err := ResolvePaths(GetAuthInfoFileReferences(authInfo), base); err != nil {
return err
}
}
return nil
}
// RelativizeClusterLocalPaths first absolutizes the paths by calling ResolveLocalPaths. This assumes that any NEW path is already
// absolute, but any existing path will be resolved relative to LocationOfOrigin
func RelativizeClusterLocalPaths(cluster *clientcmdapi.Cluster) error {
if len(cluster.LocationOfOrigin) == 0 {
return fmt.Errorf("no location of origin for %s", cluster.Server)
}
base, err := filepath.Abs(filepath.Dir(cluster.LocationOfOrigin))
if err != nil {
return fmt.Errorf("could not determine the absolute path of config file %s: %v", cluster.LocationOfOrigin, err)
}
if err := ResolvePaths(GetClusterFileReferences(cluster), base); err != nil {
return err
}
if err := RelativizePathWithNoBacksteps(GetClusterFileReferences(cluster), base); err != nil {
return err
}
return nil
}
// RelativizeAuthInfoLocalPaths first absolutizes the paths by calling ResolveLocalPaths. This assumes that any NEW path is already
// absolute, but any existing path will be resolved relative to LocationOfOrigin
func RelativizeAuthInfoLocalPaths(authInfo *clientcmdapi.AuthInfo) error {
if len(authInfo.LocationOfOrigin) == 0 {
return fmt.Errorf("no location of origin for %v", authInfo)
}
base, err := filepath.Abs(filepath.Dir(authInfo.LocationOfOrigin))
if err != nil {
return fmt.Errorf("could not determine the absolute path of config file %s: %v", authInfo.LocationOfOrigin, err)
}
if err := ResolvePaths(GetAuthInfoFileReferences(authInfo), base); err != nil {
return err
}
if err := RelativizePathWithNoBacksteps(GetAuthInfoFileReferences(authInfo), base); err != nil {
return err
}
return nil
}
func RelativizeConfigPaths(config *clientcmdapi.Config, base string) error {
return RelativizePathWithNoBacksteps(GetConfigFileReferences(config), base)
}
func ResolveConfigPaths(config *clientcmdapi.Config, base string) error {
return ResolvePaths(GetConfigFileReferences(config), base)
}
func GetConfigFileReferences(config *clientcmdapi.Config) []*string {
refs := []*string{}
for _, cluster := range config.Clusters {
refs = append(refs, GetClusterFileReferences(cluster)...)
}
for _, authInfo := range config.AuthInfos {
refs = append(refs, GetAuthInfoFileReferences(authInfo)...)
}
return refs
}
func GetClusterFileReferences(cluster *clientcmdapi.Cluster) []*string {
return []*string{&cluster.CertificateAuthority}
}
func GetAuthInfoFileReferences(authInfo *clientcmdapi.AuthInfo) []*string {
s := []*string{&authInfo.ClientCertificate, &authInfo.ClientKey, &authInfo.TokenFile}
// Only resolve exec command if it isn't PATH based.
if authInfo.Exec != nil && strings.ContainsRune(authInfo.Exec.Command, filepath.Separator) {
s = append(s, &authInfo.Exec.Command)
}
return s
}
// ResolvePaths updates the given refs to be absolute paths, relative to the given base directory
func ResolvePaths(refs []*string, base string) error {
for _, ref := range refs {
// Don't resolve empty paths
if len(*ref) > 0 {
// Don't resolve absolute paths
if !filepath.IsAbs(*ref) {
*ref = filepath.Join(base, *ref)
}
}
}
return nil
}
// RelativizePathWithNoBacksteps updates the given refs to be relative paths, relative to the given base directory as long as they do not require backsteps.
// Any path requiring a backstep is left as-is as long it is absolute. Any non-absolute path that can't be relativized produces an error
func RelativizePathWithNoBacksteps(refs []*string, base string) error {
for _, ref := range refs {
// Don't relativize empty paths
if len(*ref) > 0 {
rel, err := MakeRelative(*ref, base)
if err != nil {
return err
}
// if we have a backstep, don't mess with the path
if strings.HasPrefix(rel, "../") {
if filepath.IsAbs(*ref) {
continue
}
return fmt.Errorf("%v requires backsteps and is not absolute", *ref)
}
*ref = rel
}
}
return nil
}
func MakeRelative(path, base string) (string, error) {
if len(path) > 0 {
rel, err := filepath.Rel(base, path)
if err != nil {
return path, err
}
return rel, nil
}
return path, nil
}
// deduplicate removes any duplicated values and returns a new slice, keeping the order unchanged
func deduplicate(s []string) []string {
encountered := map[string]bool{}
ret := make([]string, 0)
for i := range s {
if encountered[s[i]] {
continue
}
encountered[s[i]] = true
ret = append(ret, s[i])
}
return ret
}

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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 clientcmd
import (
"io"
"sync"
"github.com/golang/glog"
restclient "k8s.io/client-go/rest"
clientcmdapi "k8s.io/client-go/tools/clientcmd/api"
)
// DeferredLoadingClientConfig is a ClientConfig interface that is backed by a client config loader.
// It is used in cases where the loading rules may change after you've instantiated them and you want to be sure that
// the most recent rules are used. This is useful in cases where you bind flags to loading rule parameters before
// the parse happens and you want your calling code to be ignorant of how the values are being mutated to avoid
// passing extraneous information down a call stack
type DeferredLoadingClientConfig struct {
loader ClientConfigLoader
overrides *ConfigOverrides
fallbackReader io.Reader
clientConfig ClientConfig
loadingLock sync.Mutex
// provided for testing
icc InClusterConfig
}
// InClusterConfig abstracts details of whether the client is running in a cluster for testing.
type InClusterConfig interface {
ClientConfig
Possible() bool
}
// NewNonInteractiveDeferredLoadingClientConfig creates a ConfigClientClientConfig using the passed context name
func NewNonInteractiveDeferredLoadingClientConfig(loader ClientConfigLoader, overrides *ConfigOverrides) ClientConfig {
return &DeferredLoadingClientConfig{loader: loader, overrides: overrides, icc: &inClusterClientConfig{overrides: overrides}}
}
// NewInteractiveDeferredLoadingClientConfig creates a ConfigClientClientConfig using the passed context name and the fallback auth reader
func NewInteractiveDeferredLoadingClientConfig(loader ClientConfigLoader, overrides *ConfigOverrides, fallbackReader io.Reader) ClientConfig {
return &DeferredLoadingClientConfig{loader: loader, overrides: overrides, icc: &inClusterClientConfig{overrides: overrides}, fallbackReader: fallbackReader}
}
func (config *DeferredLoadingClientConfig) createClientConfig() (ClientConfig, error) {
if config.clientConfig == nil {
config.loadingLock.Lock()
defer config.loadingLock.Unlock()
if config.clientConfig == nil {
mergedConfig, err := config.loader.Load()
if err != nil {
return nil, err
}
var mergedClientConfig ClientConfig
if config.fallbackReader != nil {
mergedClientConfig = NewInteractiveClientConfig(*mergedConfig, config.overrides.CurrentContext, config.overrides, config.fallbackReader, config.loader)
} else {
mergedClientConfig = NewNonInteractiveClientConfig(*mergedConfig, config.overrides.CurrentContext, config.overrides, config.loader)
}
config.clientConfig = mergedClientConfig
}
}
return config.clientConfig, nil
}
func (config *DeferredLoadingClientConfig) RawConfig() (clientcmdapi.Config, error) {
mergedConfig, err := config.createClientConfig()
if err != nil {
return clientcmdapi.Config{}, err
}
return mergedConfig.RawConfig()
}
// ClientConfig implements ClientConfig
func (config *DeferredLoadingClientConfig) ClientConfig() (*restclient.Config, error) {
mergedClientConfig, err := config.createClientConfig()
if err != nil {
return nil, err
}
// load the configuration and return on non-empty errors and if the
// content differs from the default config
mergedConfig, err := mergedClientConfig.ClientConfig()
switch {
case err != nil:
if !IsEmptyConfig(err) {
// return on any error except empty config
return nil, err
}
case mergedConfig != nil:
// the configuration is valid, but if this is equal to the defaults we should try
// in-cluster configuration
if !config.loader.IsDefaultConfig(mergedConfig) {
return mergedConfig, nil
}
}
// check for in-cluster configuration and use it
if config.icc.Possible() {
glog.V(4).Infof("Using in-cluster configuration")
return config.icc.ClientConfig()
}
// return the result of the merged client config
return mergedConfig, err
}
// Namespace implements KubeConfig
func (config *DeferredLoadingClientConfig) Namespace() (string, bool, error) {
mergedKubeConfig, err := config.createClientConfig()
if err != nil {
return "", false, err
}
ns, overridden, err := mergedKubeConfig.Namespace()
// if we get an error and it is not empty config, or if the merged config defined an explicit namespace, or
// if in-cluster config is not possible, return immediately
if (err != nil && !IsEmptyConfig(err)) || overridden || !config.icc.Possible() {
// return on any error except empty config
return ns, overridden, err
}
if len(ns) > 0 {
// if we got a non-default namespace from the kubeconfig, use it
if ns != "default" {
return ns, false, nil
}
// if we got a default namespace, determine whether it was explicit or implicit
if raw, err := mergedKubeConfig.RawConfig(); err == nil {
if context := raw.Contexts[raw.CurrentContext]; context != nil && len(context.Namespace) > 0 {
return ns, false, nil
}
}
}
glog.V(4).Infof("Using in-cluster namespace")
// allow the namespace from the service account token directory to be used.
return config.icc.Namespace()
}
// ConfigAccess implements ClientConfig
func (config *DeferredLoadingClientConfig) ConfigAccess() ConfigAccess {
return config.loader
}

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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 clientcmd
import (
"strconv"
"strings"
"github.com/spf13/pflag"
clientcmdapi "k8s.io/client-go/tools/clientcmd/api"
)
// ConfigOverrides holds values that should override whatever information is pulled from the actual Config object. You can't
// simply use an actual Config object, because Configs hold maps, but overrides are restricted to "at most one"
type ConfigOverrides struct {
AuthInfo clientcmdapi.AuthInfo
// ClusterDefaults are applied before the configured cluster info is loaded.
ClusterDefaults clientcmdapi.Cluster
ClusterInfo clientcmdapi.Cluster
Context clientcmdapi.Context
CurrentContext string
Timeout string
}
// ConfigOverrideFlags holds the flag names to be used for binding command line flags. Notice that this structure tightly
// corresponds to ConfigOverrides
type ConfigOverrideFlags struct {
AuthOverrideFlags AuthOverrideFlags
ClusterOverrideFlags ClusterOverrideFlags
ContextOverrideFlags ContextOverrideFlags
CurrentContext FlagInfo
Timeout FlagInfo
}
// AuthOverrideFlags holds the flag names to be used for binding command line flags for AuthInfo objects
type AuthOverrideFlags struct {
ClientCertificate FlagInfo
ClientKey FlagInfo
Token FlagInfo
Impersonate FlagInfo
ImpersonateGroups FlagInfo
Username FlagInfo
Password FlagInfo
}
// ContextOverrideFlags holds the flag names to be used for binding command line flags for Cluster objects
type ContextOverrideFlags struct {
ClusterName FlagInfo
AuthInfoName FlagInfo
Namespace FlagInfo
}
// ClusterOverride holds the flag names to be used for binding command line flags for Cluster objects
type ClusterOverrideFlags struct {
APIServer FlagInfo
APIVersion FlagInfo
CertificateAuthority FlagInfo
InsecureSkipTLSVerify FlagInfo
}
// FlagInfo contains information about how to register a flag. This struct is useful if you want to provide a way for an extender to
// get back a set of recommended flag names, descriptions, and defaults, but allow for customization by an extender. This makes for
// coherent extension, without full prescription
type FlagInfo struct {
// LongName is the long string for a flag. If this is empty, then the flag will not be bound
LongName string
// ShortName is the single character for a flag. If this is empty, then there will be no short flag
ShortName string
// Default is the default value for the flag
Default string
// Description is the description for the flag
Description string
}
// AddSecretAnnotation add secret flag to Annotation.
func (f FlagInfo) AddSecretAnnotation(flags *pflag.FlagSet) FlagInfo {
flags.SetAnnotation(f.LongName, "classified", []string{"true"})
return f
}
// BindStringFlag binds the flag based on the provided info. If LongName == "", nothing is registered
func (f FlagInfo) BindStringFlag(flags *pflag.FlagSet, target *string) FlagInfo {
// you can't register a flag without a long name
if len(f.LongName) > 0 {
flags.StringVarP(target, f.LongName, f.ShortName, f.Default, f.Description)
}
return f
}
// BindTransformingStringFlag binds the flag based on the provided info. If LongName == "", nothing is registered
func (f FlagInfo) BindTransformingStringFlag(flags *pflag.FlagSet, target *string, transformer func(string) (string, error)) FlagInfo {
// you can't register a flag without a long name
if len(f.LongName) > 0 {
flags.VarP(newTransformingStringValue(f.Default, target, transformer), f.LongName, f.ShortName, f.Description)
}
return f
}
// BindStringSliceFlag binds the flag based on the provided info. If LongName == "", nothing is registered
func (f FlagInfo) BindStringArrayFlag(flags *pflag.FlagSet, target *[]string) FlagInfo {
// you can't register a flag without a long name
if len(f.LongName) > 0 {
sliceVal := []string{}
if len(f.Default) > 0 {
sliceVal = []string{f.Default}
}
flags.StringArrayVarP(target, f.LongName, f.ShortName, sliceVal, f.Description)
}
return f
}
// BindBoolFlag binds the flag based on the provided info. If LongName == "", nothing is registered
func (f FlagInfo) BindBoolFlag(flags *pflag.FlagSet, target *bool) FlagInfo {
// you can't register a flag without a long name
if len(f.LongName) > 0 {
// try to parse Default as a bool. If it fails, assume false
boolVal, err := strconv.ParseBool(f.Default)
if err != nil {
boolVal = false
}
flags.BoolVarP(target, f.LongName, f.ShortName, boolVal, f.Description)
}
return f
}
const (
FlagClusterName = "cluster"
FlagAuthInfoName = "user"
FlagContext = "context"
FlagNamespace = "namespace"
FlagAPIServer = "server"
FlagInsecure = "insecure-skip-tls-verify"
FlagCertFile = "client-certificate"
FlagKeyFile = "client-key"
FlagCAFile = "certificate-authority"
FlagEmbedCerts = "embed-certs"
FlagBearerToken = "token"
FlagImpersonate = "as"
FlagImpersonateGroup = "as-group"
FlagUsername = "username"
FlagPassword = "password"
FlagTimeout = "request-timeout"
)
// RecommendedConfigOverrideFlags is a convenience method to return recommended flag names prefixed with a string of your choosing
func RecommendedConfigOverrideFlags(prefix string) ConfigOverrideFlags {
return ConfigOverrideFlags{
AuthOverrideFlags: RecommendedAuthOverrideFlags(prefix),
ClusterOverrideFlags: RecommendedClusterOverrideFlags(prefix),
ContextOverrideFlags: RecommendedContextOverrideFlags(prefix),
CurrentContext: FlagInfo{prefix + FlagContext, "", "", "The name of the kubeconfig context to use"},
Timeout: FlagInfo{prefix + FlagTimeout, "", "0", "The length of time to wait before giving up on a single server request. Non-zero values should contain a corresponding time unit (e.g. 1s, 2m, 3h). A value of zero means don't timeout requests."},
}
}
// RecommendedAuthOverrideFlags is a convenience method to return recommended flag names prefixed with a string of your choosing
func RecommendedAuthOverrideFlags(prefix string) AuthOverrideFlags {
return AuthOverrideFlags{
ClientCertificate: FlagInfo{prefix + FlagCertFile, "", "", "Path to a client certificate file for TLS"},
ClientKey: FlagInfo{prefix + FlagKeyFile, "", "", "Path to a client key file for TLS"},
Token: FlagInfo{prefix + FlagBearerToken, "", "", "Bearer token for authentication to the API server"},
Impersonate: FlagInfo{prefix + FlagImpersonate, "", "", "Username to impersonate for the operation"},
ImpersonateGroups: FlagInfo{prefix + FlagImpersonateGroup, "", "", "Group to impersonate for the operation, this flag can be repeated to specify multiple groups."},
Username: FlagInfo{prefix + FlagUsername, "", "", "Username for basic authentication to the API server"},
Password: FlagInfo{prefix + FlagPassword, "", "", "Password for basic authentication to the API server"},
}
}
// RecommendedClusterOverrideFlags is a convenience method to return recommended flag names prefixed with a string of your choosing
func RecommendedClusterOverrideFlags(prefix string) ClusterOverrideFlags {
return ClusterOverrideFlags{
APIServer: FlagInfo{prefix + FlagAPIServer, "", "", "The address and port of the Kubernetes API server"},
CertificateAuthority: FlagInfo{prefix + FlagCAFile, "", "", "Path to a cert file for the certificate authority"},
InsecureSkipTLSVerify: FlagInfo{prefix + FlagInsecure, "", "false", "If true, the server's certificate will not be checked for validity. This will make your HTTPS connections insecure"},
}
}
// RecommendedContextOverrideFlags is a convenience method to return recommended flag names prefixed with a string of your choosing
func RecommendedContextOverrideFlags(prefix string) ContextOverrideFlags {
return ContextOverrideFlags{
ClusterName: FlagInfo{prefix + FlagClusterName, "", "", "The name of the kubeconfig cluster to use"},
AuthInfoName: FlagInfo{prefix + FlagAuthInfoName, "", "", "The name of the kubeconfig user to use"},
Namespace: FlagInfo{prefix + FlagNamespace, "n", "", "If present, the namespace scope for this CLI request"},
}
}
// BindOverrideFlags is a convenience method to bind the specified flags to their associated variables
func BindOverrideFlags(overrides *ConfigOverrides, flags *pflag.FlagSet, flagNames ConfigOverrideFlags) {
BindAuthInfoFlags(&overrides.AuthInfo, flags, flagNames.AuthOverrideFlags)
BindClusterFlags(&overrides.ClusterInfo, flags, flagNames.ClusterOverrideFlags)
BindContextFlags(&overrides.Context, flags, flagNames.ContextOverrideFlags)
flagNames.CurrentContext.BindStringFlag(flags, &overrides.CurrentContext)
flagNames.Timeout.BindStringFlag(flags, &overrides.Timeout)
}
// BindAuthInfoFlags is a convenience method to bind the specified flags to their associated variables
func BindAuthInfoFlags(authInfo *clientcmdapi.AuthInfo, flags *pflag.FlagSet, flagNames AuthOverrideFlags) {
flagNames.ClientCertificate.BindStringFlag(flags, &authInfo.ClientCertificate).AddSecretAnnotation(flags)
flagNames.ClientKey.BindStringFlag(flags, &authInfo.ClientKey).AddSecretAnnotation(flags)
flagNames.Token.BindStringFlag(flags, &authInfo.Token).AddSecretAnnotation(flags)
flagNames.Impersonate.BindStringFlag(flags, &authInfo.Impersonate).AddSecretAnnotation(flags)
flagNames.ImpersonateGroups.BindStringArrayFlag(flags, &authInfo.ImpersonateGroups).AddSecretAnnotation(flags)
flagNames.Username.BindStringFlag(flags, &authInfo.Username).AddSecretAnnotation(flags)
flagNames.Password.BindStringFlag(flags, &authInfo.Password).AddSecretAnnotation(flags)
}
// BindClusterFlags is a convenience method to bind the specified flags to their associated variables
func BindClusterFlags(clusterInfo *clientcmdapi.Cluster, flags *pflag.FlagSet, flagNames ClusterOverrideFlags) {
flagNames.APIServer.BindStringFlag(flags, &clusterInfo.Server)
flagNames.CertificateAuthority.BindStringFlag(flags, &clusterInfo.CertificateAuthority)
flagNames.InsecureSkipTLSVerify.BindBoolFlag(flags, &clusterInfo.InsecureSkipTLSVerify)
}
// BindFlags is a convenience method to bind the specified flags to their associated variables
func BindContextFlags(contextInfo *clientcmdapi.Context, flags *pflag.FlagSet, flagNames ContextOverrideFlags) {
flagNames.ClusterName.BindStringFlag(flags, &contextInfo.Cluster)
flagNames.AuthInfoName.BindStringFlag(flags, &contextInfo.AuthInfo)
flagNames.Namespace.BindTransformingStringFlag(flags, &contextInfo.Namespace, RemoveNamespacesPrefix)
}
// RemoveNamespacesPrefix is a transformer that strips "ns/", "namespace/" and "namespaces/" prefixes case-insensitively
func RemoveNamespacesPrefix(value string) (string, error) {
for _, prefix := range []string{"namespaces/", "namespace/", "ns/"} {
if len(value) > len(prefix) && strings.EqualFold(value[0:len(prefix)], prefix) {
value = value[len(prefix):]
break
}
}
return value, nil
}

298
gpushare-device-plugin/vendor/k8s.io/client-go/tools/clientcmd/validation.go generated vendored Normal file
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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 clientcmd
import (
"errors"
"fmt"
"os"
"reflect"
"strings"
utilerrors "k8s.io/apimachinery/pkg/util/errors"
"k8s.io/apimachinery/pkg/util/validation"
clientcmdapi "k8s.io/client-go/tools/clientcmd/api"
)
var (
ErrNoContext = errors.New("no context chosen")
ErrEmptyConfig = errors.New("no configuration has been provided")
// message is for consistency with old behavior
ErrEmptyCluster = errors.New("cluster has no server defined")
)
type errContextNotFound struct {
ContextName string
}
func (e *errContextNotFound) Error() string {
return fmt.Sprintf("context was not found for specified context: %v", e.ContextName)
}
// IsContextNotFound returns a boolean indicating whether the error is known to
// report that a context was not found
func IsContextNotFound(err error) bool {
if err == nil {
return false
}
if _, ok := err.(*errContextNotFound); ok || err == ErrNoContext {
return true
}
return strings.Contains(err.Error(), "context was not found for specified context")
}
// IsEmptyConfig returns true if the provided error indicates the provided configuration
// is empty.
func IsEmptyConfig(err error) bool {
switch t := err.(type) {
case errConfigurationInvalid:
return len(t) == 1 && t[0] == ErrEmptyConfig
}
return err == ErrEmptyConfig
}
// errConfigurationInvalid is a set of errors indicating the configuration is invalid.
type errConfigurationInvalid []error
// errConfigurationInvalid implements error and Aggregate
var _ error = errConfigurationInvalid{}
var _ utilerrors.Aggregate = errConfigurationInvalid{}
func newErrConfigurationInvalid(errs []error) error {
switch len(errs) {
case 0:
return nil
default:
return errConfigurationInvalid(errs)
}
}
// Error implements the error interface
func (e errConfigurationInvalid) Error() string {
return fmt.Sprintf("invalid configuration: %v", utilerrors.NewAggregate(e).Error())
}
// Errors implements the AggregateError interface
func (e errConfigurationInvalid) Errors() []error {
return e
}
// IsConfigurationInvalid returns true if the provided error indicates the configuration is invalid.
func IsConfigurationInvalid(err error) bool {
switch err.(type) {
case *errContextNotFound, errConfigurationInvalid:
return true
}
return IsContextNotFound(err)
}
// Validate checks for errors in the Config. It does not return early so that it can find as many errors as possible.
func Validate(config clientcmdapi.Config) error {
validationErrors := make([]error, 0)
if clientcmdapi.IsConfigEmpty(&config) {
return newErrConfigurationInvalid([]error{ErrEmptyConfig})
}
if len(config.CurrentContext) != 0 {
if _, exists := config.Contexts[config.CurrentContext]; !exists {
validationErrors = append(validationErrors, &errContextNotFound{config.CurrentContext})
}
}
for contextName, context := range config.Contexts {
validationErrors = append(validationErrors, validateContext(contextName, *context, config)...)
}
for authInfoName, authInfo := range config.AuthInfos {
validationErrors = append(validationErrors, validateAuthInfo(authInfoName, *authInfo)...)
}
for clusterName, clusterInfo := range config.Clusters {
validationErrors = append(validationErrors, validateClusterInfo(clusterName, *clusterInfo)...)
}
return newErrConfigurationInvalid(validationErrors)
}
// ConfirmUsable looks a particular context and determines if that particular part of the config is useable. There might still be errors in the config,
// but no errors in the sections requested or referenced. It does not return early so that it can find as many errors as possible.
func ConfirmUsable(config clientcmdapi.Config, passedContextName string) error {
validationErrors := make([]error, 0)
if clientcmdapi.IsConfigEmpty(&config) {
return newErrConfigurationInvalid([]error{ErrEmptyConfig})
}
var contextName string
if len(passedContextName) != 0 {
contextName = passedContextName
} else {
contextName = config.CurrentContext
}
if len(contextName) == 0 {
return ErrNoContext
}
context, exists := config.Contexts[contextName]
if !exists {
validationErrors = append(validationErrors, &errContextNotFound{contextName})
}
if exists {
validationErrors = append(validationErrors, validateContext(contextName, *context, config)...)
validationErrors = append(validationErrors, validateAuthInfo(context.AuthInfo, *config.AuthInfos[context.AuthInfo])...)
validationErrors = append(validationErrors, validateClusterInfo(context.Cluster, *config.Clusters[context.Cluster])...)
}
return newErrConfigurationInvalid(validationErrors)
}
// validateClusterInfo looks for conflicts and errors in the cluster info
func validateClusterInfo(clusterName string, clusterInfo clientcmdapi.Cluster) []error {
validationErrors := make([]error, 0)
emptyCluster := clientcmdapi.NewCluster()
if reflect.DeepEqual(*emptyCluster, clusterInfo) {
return []error{ErrEmptyCluster}
}
if len(clusterInfo.Server) == 0 {
if len(clusterName) == 0 {
validationErrors = append(validationErrors, fmt.Errorf("default cluster has no server defined"))
} else {
validationErrors = append(validationErrors, fmt.Errorf("no server found for cluster %q", clusterName))
}
}
// Make sure CA data and CA file aren't both specified
if len(clusterInfo.CertificateAuthority) != 0 && len(clusterInfo.CertificateAuthorityData) != 0 {
validationErrors = append(validationErrors, fmt.Errorf("certificate-authority-data and certificate-authority are both specified for %v. certificate-authority-data will override.", clusterName))
}
if len(clusterInfo.CertificateAuthority) != 0 {
clientCertCA, err := os.Open(clusterInfo.CertificateAuthority)
defer clientCertCA.Close()
if err != nil {
validationErrors = append(validationErrors, fmt.Errorf("unable to read certificate-authority %v for %v due to %v", clusterInfo.CertificateAuthority, clusterName, err))
}
}
return validationErrors
}
// validateAuthInfo looks for conflicts and errors in the auth info
func validateAuthInfo(authInfoName string, authInfo clientcmdapi.AuthInfo) []error {
validationErrors := make([]error, 0)
usingAuthPath := false
methods := make([]string, 0, 3)
if len(authInfo.Token) != 0 {
methods = append(methods, "token")
}
if len(authInfo.Username) != 0 || len(authInfo.Password) != 0 {
methods = append(methods, "basicAuth")
}
if len(authInfo.ClientCertificate) != 0 || len(authInfo.ClientCertificateData) != 0 {
// Make sure cert data and file aren't both specified
if len(authInfo.ClientCertificate) != 0 && len(authInfo.ClientCertificateData) != 0 {
validationErrors = append(validationErrors, fmt.Errorf("client-cert-data and client-cert are both specified for %v. client-cert-data will override.", authInfoName))
}
// Make sure key data and file aren't both specified
if len(authInfo.ClientKey) != 0 && len(authInfo.ClientKeyData) != 0 {
validationErrors = append(validationErrors, fmt.Errorf("client-key-data and client-key are both specified for %v; client-key-data will override", authInfoName))
}
// Make sure a key is specified
if len(authInfo.ClientKey) == 0 && len(authInfo.ClientKeyData) == 0 {
validationErrors = append(validationErrors, fmt.Errorf("client-key-data or client-key must be specified for %v to use the clientCert authentication method.", authInfoName))
}
if len(authInfo.ClientCertificate) != 0 {
clientCertFile, err := os.Open(authInfo.ClientCertificate)
defer clientCertFile.Close()
if err != nil {
validationErrors = append(validationErrors, fmt.Errorf("unable to read client-cert %v for %v due to %v", authInfo.ClientCertificate, authInfoName, err))
}
}
if len(authInfo.ClientKey) != 0 {
clientKeyFile, err := os.Open(authInfo.ClientKey)
defer clientKeyFile.Close()
if err != nil {
validationErrors = append(validationErrors, fmt.Errorf("unable to read client-key %v for %v due to %v", authInfo.ClientKey, authInfoName, err))
}
}
}
if authInfo.Exec != nil {
if authInfo.AuthProvider != nil {
validationErrors = append(validationErrors, fmt.Errorf("authProvider cannot be provided in combination with an exec plugin for %s", authInfoName))
}
if len(authInfo.Exec.Command) == 0 {
validationErrors = append(validationErrors, fmt.Errorf("command must be specified for %v to use exec authentication plugin", authInfoName))
}
if len(authInfo.Exec.APIVersion) == 0 {
validationErrors = append(validationErrors, fmt.Errorf("apiVersion must be specified for %v to use exec authentication plugin", authInfoName))
}
for _, v := range authInfo.Exec.Env {
if len(v.Name) == 0 {
validationErrors = append(validationErrors, fmt.Errorf("env variable name must be specified for %v to use exec authentication plugin", authInfoName))
} else if len(v.Value) == 0 {
validationErrors = append(validationErrors, fmt.Errorf("env variable %s value must be specified for %v to use exec authentication plugin", v.Name, authInfoName))
}
}
}
// authPath also provides information for the client to identify the server, so allow multiple auth methods in that case
if (len(methods) > 1) && (!usingAuthPath) {
validationErrors = append(validationErrors, fmt.Errorf("more than one authentication method found for %v; found %v, only one is allowed", authInfoName, methods))
}
// ImpersonateGroups or ImpersonateUserExtra should be requested with a user
if (len(authInfo.ImpersonateGroups) > 0 || len(authInfo.ImpersonateUserExtra) > 0) && (len(authInfo.Impersonate) == 0) {
validationErrors = append(validationErrors, fmt.Errorf("requesting groups or user-extra for %v without impersonating a user", authInfoName))
}
return validationErrors
}
// validateContext looks for errors in the context. It is not transitive, so errors in the reference authInfo or cluster configs are not included in this return
func validateContext(contextName string, context clientcmdapi.Context, config clientcmdapi.Config) []error {
validationErrors := make([]error, 0)
if len(contextName) == 0 {
validationErrors = append(validationErrors, fmt.Errorf("empty context name for %#v is not allowed", context))
}
if len(context.AuthInfo) == 0 {
validationErrors = append(validationErrors, fmt.Errorf("user was not specified for context %q", contextName))
} else if _, exists := config.AuthInfos[context.AuthInfo]; !exists {
validationErrors = append(validationErrors, fmt.Errorf("user %q was not found for context %q", context.AuthInfo, contextName))
}
if len(context.Cluster) == 0 {
validationErrors = append(validationErrors, fmt.Errorf("cluster was not specified for context %q", contextName))
} else if _, exists := config.Clusters[context.Cluster]; !exists {
validationErrors = append(validationErrors, fmt.Errorf("cluster %q was not found for context %q", context.Cluster, contextName))
}
if len(context.Namespace) != 0 {
if len(validation.IsDNS1123Label(context.Namespace)) != 0 {
validationErrors = append(validationErrors, fmt.Errorf("namespace %q for context %q does not conform to the kubernetes DNS_LABEL rules", context.Namespace, contextName))
}
}
return validationErrors
}

7
gpushare-device-plugin/vendor/k8s.io/client-go/tools/metrics/OWNERS generated vendored Normal file
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reviewers:
- wojtek-t
- eparis
- krousey
- jayunit100
- fgrzadkowski
- tmrts

61
gpushare-device-plugin/vendor/k8s.io/client-go/tools/metrics/metrics.go generated vendored Normal file
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/*
Copyright 2015 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 metrics provides abstractions for registering which metrics
// to record.
package metrics
import (
"net/url"
"sync"
"time"
)
var registerMetrics sync.Once
// LatencyMetric observes client latency partitioned by verb and url.
type LatencyMetric interface {
Observe(verb string, u url.URL, latency time.Duration)
}
// ResultMetric counts response codes partitioned by method and host.
type ResultMetric interface {
Increment(code string, method string, host string)
}
var (
// RequestLatency is the latency metric that rest clients will update.
RequestLatency LatencyMetric = noopLatency{}
// RequestResult is the result metric that rest clients will update.
RequestResult ResultMetric = noopResult{}
)
// Register registers metrics for the rest client to use. This can
// only be called once.
func Register(lm LatencyMetric, rm ResultMetric) {
registerMetrics.Do(func() {
RequestLatency = lm
RequestResult = rm
})
}
type noopLatency struct{}
func (noopLatency) Observe(string, url.URL, time.Duration) {}
type noopResult struct{}
func (noopResult) Increment(string, string, string) {}

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gpushare-device-plugin/vendor/k8s.io/client-go/tools/pager/pager.go generated vendored Normal file
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/*
Copyright 2017 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 pager
import (
"context"
"fmt"
"k8s.io/apimachinery/pkg/api/errors"
"k8s.io/apimachinery/pkg/api/meta"
metainternalversion "k8s.io/apimachinery/pkg/apis/meta/internalversion"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime"
)
const defaultPageSize = 500
// ListPageFunc returns a list object for the given list options.
type ListPageFunc func(ctx context.Context, opts metav1.ListOptions) (runtime.Object, error)
// SimplePageFunc adapts a context-less list function into one that accepts a context.
func SimplePageFunc(fn func(opts metav1.ListOptions) (runtime.Object, error)) ListPageFunc {
return func(ctx context.Context, opts metav1.ListOptions) (runtime.Object, error) {
return fn(opts)
}
}
// ListPager assists client code in breaking large list queries into multiple
// smaller chunks of PageSize or smaller. PageFn is expected to accept a
// metav1.ListOptions that supports paging and return a list. The pager does
// not alter the field or label selectors on the initial options list.
type ListPager struct {
PageSize int64
PageFn ListPageFunc
FullListIfExpired bool
}
// New creates a new pager from the provided pager function using the default
// options. It will fall back to a full list if an expiration error is encountered
// as a last resort.
func New(fn ListPageFunc) *ListPager {
return &ListPager{
PageSize: defaultPageSize,
PageFn: fn,
FullListIfExpired: true,
}
}
// TODO: introduce other types of paging functions - such as those that retrieve from a list
// of namespaces.
// List returns a single list object, but attempts to retrieve smaller chunks from the
// server to reduce the impact on the server. If the chunk attempt fails, it will load
// the full list instead. The Limit field on options, if unset, will default to the page size.
func (p *ListPager) List(ctx context.Context, options metav1.ListOptions) (runtime.Object, error) {
if options.Limit == 0 {
options.Limit = p.PageSize
}
var list *metainternalversion.List
for {
obj, err := p.PageFn(ctx, options)
if err != nil {
if !errors.IsResourceExpired(err) || !p.FullListIfExpired {
return nil, err
}
// the list expired while we were processing, fall back to a full list
options.Limit = 0
options.Continue = ""
return p.PageFn(ctx, options)
}
m, err := meta.ListAccessor(obj)
if err != nil {
return nil, fmt.Errorf("returned object must be a list: %v", err)
}
// exit early and return the object we got if we haven't processed any pages
if len(m.GetContinue()) == 0 && list == nil {
return obj, nil
}
// initialize the list and fill its contents
if list == nil {
list = &metainternalversion.List{Items: make([]runtime.Object, 0, options.Limit+1)}
list.ResourceVersion = m.GetResourceVersion()
list.SelfLink = m.GetSelfLink()
}
if err := meta.EachListItem(obj, func(obj runtime.Object) error {
list.Items = append(list.Items, obj)
return nil
}); err != nil {
return nil, err
}
// if we have no more items, return the list
if len(m.GetContinue()) == 0 {
return list, nil
}
// set the next loop up
options.Continue = m.GetContinue()
}
}

126
gpushare-device-plugin/vendor/k8s.io/client-go/tools/reference/ref.go generated vendored Normal file
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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 reference
import (
"errors"
"fmt"
"net/url"
"strings"
"k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/api/meta"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime"
)
var (
// Errors that could be returned by GetReference.
ErrNilObject = errors.New("can't reference a nil object")
ErrNoSelfLink = errors.New("selfLink was empty, can't make reference")
)
// GetReference returns an ObjectReference which refers to the given
// object, or an error if the object doesn't follow the conventions
// that would allow this.
// TODO: should take a meta.Interface see http://issue.k8s.io/7127
func GetReference(scheme *runtime.Scheme, obj runtime.Object) (*v1.ObjectReference, error) {
if obj == nil {
return nil, ErrNilObject
}
if ref, ok := obj.(*v1.ObjectReference); ok {
// Don't make a reference to a reference.
return ref, nil
}
gvk := obj.GetObjectKind().GroupVersionKind()
// if the object referenced is actually persisted, we can just get kind from meta
// if we are building an object reference to something not yet persisted, we should fallback to scheme
kind := gvk.Kind
if len(kind) == 0 {
// TODO: this is wrong
gvks, _, err := scheme.ObjectKinds(obj)
if err != nil {
return nil, err
}
kind = gvks[0].Kind
}
// An object that implements only List has enough metadata to build a reference
var listMeta metav1.Common
objectMeta, err := meta.Accessor(obj)
if err != nil {
listMeta, err = meta.CommonAccessor(obj)
if err != nil {
return nil, err
}
} else {
listMeta = objectMeta
}
// if the object referenced is actually persisted, we can also get version from meta
version := gvk.GroupVersion().String()
if len(version) == 0 {
selfLink := listMeta.GetSelfLink()
if len(selfLink) == 0 {
return nil, ErrNoSelfLink
}
selfLinkUrl, err := url.Parse(selfLink)
if err != nil {
return nil, err
}
// example paths: /<prefix>/<version>/*
parts := strings.Split(selfLinkUrl.Path, "/")
if len(parts) < 4 {
return nil, fmt.Errorf("unexpected self link format: '%v'; got version '%v'", selfLink, version)
}
if parts[1] == "api" {
version = parts[2]
} else {
version = parts[2] + "/" + parts[3]
}
}
// only has list metadata
if objectMeta == nil {
return &v1.ObjectReference{
Kind: kind,
APIVersion: version,
ResourceVersion: listMeta.GetResourceVersion(),
}, nil
}
return &v1.ObjectReference{
Kind: kind,
APIVersion: version,
Name: objectMeta.GetName(),
Namespace: objectMeta.GetNamespace(),
UID: objectMeta.GetUID(),
ResourceVersion: objectMeta.GetResourceVersion(),
}, nil
}
// GetPartialReference is exactly like GetReference, but allows you to set the FieldPath.
func GetPartialReference(scheme *runtime.Scheme, obj runtime.Object, fieldPath string) (*v1.ObjectReference, error) {
ref, err := GetReference(scheme, obj)
if err != nil {
return nil, err
}
ref.FieldPath = fieldPath
return ref, nil
}