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/ *
Copyright 2019 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 helpers
import (
"fmt"
"hash/fnv"
"math/rand"
"strconv"
"strings"
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v1 "k8s.io/api/core/v1"
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"k8s.io/apimachinery/pkg/util/sets"
cloudvolume "k8s.io/cloud-provider/volume"
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"k8s.io/klog/v2"
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)
// LabelZonesToSet converts a PV label value from string containing a delimited list of zones to set
func LabelZonesToSet ( labelZonesValue string ) ( sets . String , error ) {
return stringToSet ( labelZonesValue , cloudvolume . LabelMultiZoneDelimiter )
}
// ZonesSetToLabelValue converts zones set to label value
func ZonesSetToLabelValue ( strSet sets . String ) string {
return strings . Join ( strSet . UnsortedList ( ) , cloudvolume . LabelMultiZoneDelimiter )
}
// ZonesToSet converts a string containing a comma separated list of zones to set
func ZonesToSet ( zonesString string ) ( sets . String , error ) {
zones , err := stringToSet ( zonesString , "," )
if err != nil {
return nil , fmt . Errorf ( "error parsing zones %s, must be strings separated by commas: %v" , zonesString , err )
}
return zones , nil
}
// StringToSet converts a string containing list separated by specified delimiter to a set
func stringToSet ( str , delimiter string ) ( sets . String , error ) {
zonesSlice := strings . Split ( str , delimiter )
zonesSet := make ( sets . String )
for _ , zone := range zonesSlice {
trimmedZone := strings . TrimSpace ( zone )
if trimmedZone == "" {
return make ( sets . String ) , fmt . Errorf (
"%q separated list (%q) must not contain an empty string" ,
delimiter ,
str )
}
zonesSet . Insert ( trimmedZone )
}
return zonesSet , nil
}
// LabelZonesToList converts a PV label value from string containing a delimited list of zones to list
func LabelZonesToList ( labelZonesValue string ) ( [ ] string , error ) {
return stringToList ( labelZonesValue , cloudvolume . LabelMultiZoneDelimiter )
}
// StringToList converts a string containing list separated by specified delimiter to a list
func stringToList ( str , delimiter string ) ( [ ] string , error ) {
zonesSlice := make ( [ ] string , 0 )
for _ , zone := range strings . Split ( str , delimiter ) {
trimmedZone := strings . TrimSpace ( zone )
if trimmedZone == "" {
return nil , fmt . Errorf (
"%q separated list (%q) must not contain an empty string" ,
delimiter ,
str )
}
zonesSlice = append ( zonesSlice , trimmedZone )
}
return zonesSlice , nil
}
// SelectZoneForVolume is a wrapper around SelectZonesForVolume
// to select a single zone for a volume based on parameters
func SelectZoneForVolume ( zoneParameterPresent , zonesParameterPresent bool , zoneParameter string , zonesParameter , zonesWithNodes sets . String , node * v1 . Node , allowedTopologies [ ] v1 . TopologySelectorTerm , pvcName string ) ( string , error ) {
zones , err := SelectZonesForVolume ( zoneParameterPresent , zonesParameterPresent , zoneParameter , zonesParameter , zonesWithNodes , node , allowedTopologies , pvcName , 1 )
if err != nil {
return "" , err
}
zone , ok := zones . PopAny ( )
if ! ok {
return "" , fmt . Errorf ( "could not determine a zone to provision volume in" )
}
return zone , nil
}
// SelectZonesForVolume selects zones for a volume based on several factors:
// node.zone, allowedTopologies, zone/zones parameters from storageclass,
// zones with active nodes from the cluster. The number of zones = replicas.
func SelectZonesForVolume ( zoneParameterPresent , zonesParameterPresent bool , zoneParameter string , zonesParameter , zonesWithNodes sets . String , node * v1 . Node , allowedTopologies [ ] v1 . TopologySelectorTerm , pvcName string , numReplicas uint32 ) ( sets . String , error ) {
if zoneParameterPresent && zonesParameterPresent {
return nil , fmt . Errorf ( "both zone and zones StorageClass parameters must not be used at the same time" )
}
var zoneFromNode string
// pick one zone from node if present
if node != nil {
// VolumeScheduling implicit since node is not nil
if zoneParameterPresent || zonesParameterPresent {
return nil , fmt . Errorf ( "zone[s] cannot be specified in StorageClass if VolumeBindingMode is set to WaitForFirstConsumer. Please specify allowedTopologies in StorageClass for constraining zones" )
}
// pick node's zone for one of the replicas
var ok bool
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zoneFromNode , ok = node . ObjectMeta . Labels [ v1 . LabelTopologyZone ]
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if ! ok {
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zoneFromNode , ok = node . ObjectMeta . Labels [ v1 . LabelFailureDomainBetaZone ]
if ! ok {
return nil , fmt . Errorf ( "Either %s or %s Label for node missing" , v1 . LabelTopologyZone , v1 . LabelFailureDomainBetaZone )
}
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}
// if single replica volume and node with zone found, return immediately
if numReplicas == 1 {
return sets . NewString ( zoneFromNode ) , nil
}
}
// pick zone from allowedZones if specified
allowedZones , err := ZonesFromAllowedTopologies ( allowedTopologies )
if err != nil {
return nil , err
}
if ( len ( allowedTopologies ) > 0 ) && ( allowedZones . Len ( ) == 0 ) {
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return nil , fmt . Errorf ( "no matchLabelExpressions with %s key found in allowedTopologies. Please specify matchLabelExpressions with %s key" , v1 . LabelTopologyZone , v1 . LabelTopologyZone )
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}
if allowedZones . Len ( ) > 0 {
// VolumeScheduling implicit since allowedZones present
if zoneParameterPresent || zonesParameterPresent {
return nil , fmt . Errorf ( "zone[s] cannot be specified in StorageClass if allowedTopologies specified" )
}
// scheduler will guarantee if node != null above, zoneFromNode is member of allowedZones.
// so if zoneFromNode != "", we can safely assume it is part of allowedZones.
zones , err := chooseZonesForVolumeIncludingZone ( allowedZones , pvcName , zoneFromNode , numReplicas )
if err != nil {
return nil , fmt . Errorf ( "cannot process zones in allowedTopologies: %v" , err )
}
return zones , nil
}
// pick zone from parameters if present
if zoneParameterPresent {
if numReplicas > 1 {
return nil , fmt . Errorf ( "zone cannot be specified if desired number of replicas for pv is greather than 1. Please specify zones or allowedTopologies to specify desired zones" )
}
return sets . NewString ( zoneParameter ) , nil
}
if zonesParameterPresent {
if uint32 ( zonesParameter . Len ( ) ) < numReplicas {
return nil , fmt . Errorf ( "not enough zones found in zones parameter to provision a volume with %d replicas. Found %d zones, need %d zones" , numReplicas , zonesParameter . Len ( ) , numReplicas )
}
// directly choose from zones parameter; no zone from node need to be considered
return ChooseZonesForVolume ( zonesParameter , pvcName , numReplicas ) , nil
}
// pick zone from zones with nodes
if zonesWithNodes . Len ( ) > 0 {
// If node != null (and thus zoneFromNode != ""), zoneFromNode will be member of zonesWithNodes
zones , err := chooseZonesForVolumeIncludingZone ( zonesWithNodes , pvcName , zoneFromNode , numReplicas )
if err != nil {
return nil , fmt . Errorf ( "cannot process zones where nodes exist in the cluster: %v" , err )
}
return zones , nil
}
return nil , fmt . Errorf ( "cannot determine zones to provision volume in" )
}
// ZonesFromAllowedTopologies returns a list of zones specified in allowedTopologies
func ZonesFromAllowedTopologies ( allowedTopologies [ ] v1 . TopologySelectorTerm ) ( sets . String , error ) {
zones := make ( sets . String )
for _ , term := range allowedTopologies {
for _ , exp := range term . MatchLabelExpressions {
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if exp . Key == v1 . LabelTopologyZone || exp . Key == v1 . LabelFailureDomainBetaZone {
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for _ , value := range exp . Values {
zones . Insert ( value )
}
} else {
return nil , fmt . Errorf ( "unsupported key found in matchLabelExpressions: %s" , exp . Key )
}
}
}
return zones , nil
}
// chooseZonesForVolumeIncludingZone is a wrapper around ChooseZonesForVolume that ensures zoneToInclude is chosen
// zoneToInclude can either be empty in which case it is ignored. If non-empty, zoneToInclude is expected to be member of zones.
// numReplicas is expected to be > 0 and <= zones.Len()
func chooseZonesForVolumeIncludingZone ( zones sets . String , pvcName , zoneToInclude string , numReplicas uint32 ) ( sets . String , error ) {
if numReplicas == 0 {
return nil , fmt . Errorf ( "invalid number of replicas passed" )
}
if uint32 ( zones . Len ( ) ) < numReplicas {
return nil , fmt . Errorf ( "not enough zones found to provision a volume with %d replicas. Need at least %d distinct zones for a volume with %d replicas" , numReplicas , numReplicas , numReplicas )
}
if zoneToInclude != "" && ! zones . Has ( zoneToInclude ) {
return nil , fmt . Errorf ( "zone to be included: %s needs to be member of set: %v" , zoneToInclude , zones )
}
if uint32 ( zones . Len ( ) ) == numReplicas {
return zones , nil
}
if zoneToInclude != "" {
zones . Delete ( zoneToInclude )
numReplicas = numReplicas - 1
}
zonesChosen := ChooseZonesForVolume ( zones , pvcName , numReplicas )
if zoneToInclude != "" {
zonesChosen . Insert ( zoneToInclude )
}
return zonesChosen , nil
}
// ChooseZonesForVolume is identical to ChooseZoneForVolume, but selects a multiple zones, for multi-zone disks.
func ChooseZonesForVolume ( zones sets . String , pvcName string , numZones uint32 ) sets . String {
// No zones available, return empty set.
replicaZones := sets . NewString ( )
if zones . Len ( ) == 0 {
return replicaZones
}
// We create the volume in a zone determined by the name
// Eventually the scheduler will coordinate placement into an available zone
hash , index := getPVCNameHashAndIndexOffset ( pvcName )
// Zones.List returns zones in a consistent order (sorted)
// We do have a potential failure case where volumes will not be properly spread,
// if the set of zones changes during StatefulSet volume creation. However, this is
// probably relatively unlikely because we expect the set of zones to be essentially
// static for clusters.
// Hopefully we can address this problem if/when we do full scheduler integration of
// PVC placement (which could also e.g. avoid putting volumes in overloaded or
// unhealthy zones)
zoneSlice := zones . List ( )
startingIndex := index * numZones
for index = startingIndex ; index < startingIndex + numZones ; index ++ {
zone := zoneSlice [ ( hash + index ) % uint32 ( len ( zoneSlice ) ) ]
replicaZones . Insert ( zone )
}
klog . V ( 2 ) . Infof ( "Creating volume for replicated PVC %q; chosen zones=%q from zones=%q" ,
pvcName , replicaZones . UnsortedList ( ) , zoneSlice )
return replicaZones
}
func getPVCNameHashAndIndexOffset ( pvcName string ) ( hash uint32 , index uint32 ) {
if pvcName == "" {
// We should always be called with a name; this shouldn't happen
klog . Warningf ( "No name defined during volume create; choosing random zone" )
hash = rand . Uint32 ( )
} else {
hashString := pvcName
// Heuristic to make sure that volumes in a StatefulSet are spread across zones
// StatefulSet PVCs are (currently) named ClaimName-StatefulSetName-Id,
// where Id is an integer index.
// Note though that if a StatefulSet pod has multiple claims, we need them to be
// in the same zone, because otherwise the pod will be unable to mount both volumes,
// and will be unschedulable. So we hash _only_ the "StatefulSetName" portion when
// it looks like `ClaimName-StatefulSetName-Id`.
// We continue to round-robin volume names that look like `Name-Id` also; this is a useful
// feature for users that are creating statefulset-like functionality without using statefulsets.
lastDash := strings . LastIndexByte ( pvcName , '-' )
if lastDash != - 1 {
statefulsetIDString := pvcName [ lastDash + 1 : ]
statefulsetID , err := strconv . ParseUint ( statefulsetIDString , 10 , 32 )
if err == nil {
// Offset by the statefulsetID, so we round-robin across zones
index = uint32 ( statefulsetID )
// We still hash the volume name, but only the prefix
hashString = pvcName [ : lastDash ]
// In the special case where it looks like `ClaimName-StatefulSetName-Id`,
// hash only the StatefulSetName, so that different claims on the same StatefulSet
// member end up in the same zone.
// Note that StatefulSetName (and ClaimName) might themselves both have dashes.
// We actually just take the portion after the final - of ClaimName-StatefulSetName.
// For our purposes it doesn't much matter (just suboptimal spreading).
lastDash := strings . LastIndexByte ( hashString , '-' )
if lastDash != - 1 {
hashString = hashString [ lastDash + 1 : ]
}
klog . V ( 2 ) . Infof ( "Detected StatefulSet-style volume name %q; index=%d" , pvcName , index )
}
}
// We hash the (base) volume name, so we don't bias towards the first N zones
h := fnv . New32 ( )
h . Write ( [ ] byte ( hashString ) )
hash = h . Sum32 ( )
}
return hash , index
}