mirror of
https://github.com/ceph/ceph-csi.git
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6d00b39886
Moving the log functions into its own internal/util/log package makes it possible to split out the humongous internal/util packages in further smaller pieces. This reduces the inter-dependencies between utility functions and components, preventing circular dependencies which are not allowed in Go. Updates: #852 Signed-off-by: Niels de Vos <ndevos@redhat.com>
248 lines
8.3 KiB
Go
248 lines
8.3 KiB
Go
/*
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Copyright 2019 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package util
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import (
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"fmt"
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"sync"
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"github.com/ceph/ceph-csi/internal/util/log"
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"k8s.io/apimachinery/pkg/util/sets"
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)
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const (
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// VolumeOperationAlreadyExistsFmt string format to return for concurrent operation.
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VolumeOperationAlreadyExistsFmt = "an operation with the given Volume ID %s already exists"
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// SnapshotOperationAlreadyExistsFmt string format to return for concurrent operation.
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SnapshotOperationAlreadyExistsFmt = "an operation with the given Snapshot ID %s already exists"
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)
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// VolumeLocks implements a map with atomic operations. It stores a set of all volume IDs
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// with an ongoing operation.
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type VolumeLocks struct {
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locks sets.String
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mux sync.Mutex
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}
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// NewVolumeLocks returns new VolumeLocks.
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func NewVolumeLocks() *VolumeLocks {
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return &VolumeLocks{
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locks: sets.NewString(),
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}
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}
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// TryAcquire tries to acquire the lock for operating on volumeID and returns true if successful.
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// If another operation is already using volumeID, returns false.
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func (vl *VolumeLocks) TryAcquire(volumeID string) bool {
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vl.mux.Lock()
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defer vl.mux.Unlock()
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if vl.locks.Has(volumeID) {
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return false
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}
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vl.locks.Insert(volumeID)
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return true
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}
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// Release deletes the lock on volumeID.
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func (vl *VolumeLocks) Release(volumeID string) {
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vl.mux.Lock()
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defer vl.mux.Unlock()
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vl.locks.Delete(volumeID)
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}
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type operation string
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const (
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createOp operation = "create"
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deleteOp operation = "delete"
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cloneOpt operation = "clone"
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restoreOp operation = "restore"
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expandOp operation = "expand"
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)
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// OperationLock implements a map with atomic operations.
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type OperationLock struct {
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// lock is a map of map, internal key is the list of id and its counters
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// and the outer map key is the operation type it will be one of the above
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// const
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//
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// example map[restore][xxx-xxx-xxx-xxx]1
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// map[restore][xxx-xxx-xxx-xxx]2
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// the counter value will be increased for allowed parallel operations and
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// it will be decreased when the operation is completed, when the counter
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// value goes to zero the `xxx-xxx-xxx` key will be removed from the
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// operation map.
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locks map[operation]map[string]int
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// lock to avoid concurrent operation on map
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mux sync.Mutex
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}
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// NewOperationLock returns new OperationLock.
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func NewOperationLock() *OperationLock {
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lock := make(map[operation]map[string]int)
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lock[createOp] = make(map[string]int)
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lock[deleteOp] = make(map[string]int)
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lock[cloneOpt] = make(map[string]int)
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lock[restoreOp] = make(map[string]int)
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lock[expandOp] = make(map[string]int)
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return &OperationLock{
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locks: lock,
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}
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}
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// tryAcquire tries to acquire the lock for operating on volumeID and returns true if successful.
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// If another operation is already using volumeID, returns false.
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func (ol *OperationLock) tryAcquire(op operation, volumeID string) error {
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ol.mux.Lock()
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defer ol.mux.Unlock()
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switch op {
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case createOp:
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// snapshot controller make sure the pvc which is the source for the
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// snapshot request won't get deleted while snapshot is getting created,
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// so we dont need to check for any ongoing delete operation here on the
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// volume.
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// increment the counter for snapshot create operation
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val := ol.locks[createOp][volumeID]
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ol.locks[createOp][volumeID] = val + 1
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case cloneOpt:
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// During clone operation, controller make sure no pvc deletion happens on the
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// referred PVC datasource, so we are safe from source PVC delete.
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// Check any expand operation is going on for given volume ID.
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// if yes we need to return an error to avoid issues.
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if _, ok := ol.locks[expandOp][volumeID]; ok {
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return fmt.Errorf("an Expand operation with given id %s already exists", volumeID)
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}
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// increment the counter for clone operation
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val := ol.locks[cloneOpt][volumeID]
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ol.locks[cloneOpt][volumeID] = val + 1
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case deleteOp:
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// During delete operation the volume should not be under expand,
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// check any expand operation is going on for given volume ID
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if _, ok := ol.locks[expandOp][volumeID]; ok {
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return fmt.Errorf("an Expand operation with given id %s already exists", volumeID)
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}
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// check any restore operation is going on for given volume ID
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if _, ok := ol.locks[restoreOp][volumeID]; ok {
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return fmt.Errorf("a Restore operation with given id %s already exists", volumeID)
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}
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ol.locks[deleteOp][volumeID] = 1
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case restoreOp:
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// During restore operation the volume should not be deleted
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// check any delete operation is going on for given volume ID
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if _, ok := ol.locks[deleteOp][volumeID]; ok {
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return fmt.Errorf("a Delete operation with given id %s already exists", volumeID)
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}
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// increment the counter for restore operation
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val := ol.locks[restoreOp][volumeID]
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ol.locks[restoreOp][volumeID] = val + 1
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case expandOp:
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// During expand operation the volume should not be deleted or cloned
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// and there should not be a create operation also.
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// check any delete operation is going on for given volume ID
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if _, ok := ol.locks[deleteOp][volumeID]; ok {
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return fmt.Errorf("a Delete operation with given id %s already exists", volumeID)
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}
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// check any clone operation is going on for given volume ID
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if _, ok := ol.locks[cloneOpt][volumeID]; ok {
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return fmt.Errorf("a Clone operation with given id %s already exists", volumeID)
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}
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// check any delete operation is going on for given volume ID
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if _, ok := ol.locks[createOp][volumeID]; ok {
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return fmt.Errorf("a Create operation with given id %s already exists", volumeID)
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}
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ol.locks[expandOp][volumeID] = 1
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default:
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return fmt.Errorf("%v operation not supported", op)
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}
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return nil
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}
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// GetSnapshotCreateLock gets the snapshot lock on given volumeID.
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func (ol *OperationLock) GetSnapshotCreateLock(volumeID string) error {
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return ol.tryAcquire(createOp, volumeID)
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}
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// GetCloneLock gets the clone lock on given volumeID.
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func (ol *OperationLock) GetCloneLock(volumeID string) error {
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return ol.tryAcquire(cloneOpt, volumeID)
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}
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// GetDeleteLock gets the delete lock on given volumeID,ensures that there is
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// no clone,restore and expand operation on given volumeID.
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func (ol *OperationLock) GetDeleteLock(volumeID string) error {
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return ol.tryAcquire(deleteOp, volumeID)
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}
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// GetRestoreLock gets the restore lock on given volumeID,ensures that there is
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// no delete operation on given volumeID.
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func (ol *OperationLock) GetRestoreLock(volumeID string) error {
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return ol.tryAcquire(restoreOp, volumeID)
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}
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// GetExpandLock gets the expand lock on given volumeID,ensures that there is
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// no delete and clone operation on given volumeID.
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func (ol *OperationLock) GetExpandLock(volumeID string) error {
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return ol.tryAcquire(expandOp, volumeID)
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}
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// ReleaseSnapshotCreateLock releases the create lock on given volumeID.
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func (ol *OperationLock) ReleaseSnapshotCreateLock(volumeID string) {
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ol.release(createOp, volumeID)
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}
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// ReleaseCloneLock releases the clone lock on given volumeID.
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func (ol *OperationLock) ReleaseCloneLock(volumeID string) {
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ol.release(cloneOpt, volumeID)
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}
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// ReleaseDeleteLock releases the delete lock on given volumeID.
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func (ol *OperationLock) ReleaseDeleteLock(volumeID string) {
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ol.release(deleteOp, volumeID)
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}
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// ReleaseRestoreLock releases the restore lock on given volumeID.
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func (ol *OperationLock) ReleaseRestoreLock(volumeID string) {
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ol.release(restoreOp, volumeID)
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}
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// ReleaseExpandLock releases the expand lock on given volumeID.
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func (ol *OperationLock) ReleaseExpandLock(volumeID string) {
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ol.release(expandOp, volumeID)
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}
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// release deletes the lock on volumeID.
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func (ol *OperationLock) release(op operation, volumeID string) {
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ol.mux.Lock()
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defer ol.mux.Unlock()
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switch op {
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case cloneOpt, createOp, expandOp, restoreOp, deleteOp:
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if val, ok := ol.locks[op][volumeID]; ok {
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// decrement the counter for operation
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ol.locks[op][volumeID] = val - 1
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if ol.locks[op][volumeID] == 0 {
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delete(ol.locks[op], volumeID)
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}
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}
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default:
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log.ErrorLogMsg("%v operation not supported", op)
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}
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}
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