@Override
public void deleteSingleVolumeSnapshot(
StorageSystem storage, URI snapshot, TaskCompleter taskCompleter)
throws DeviceControllerException {
try {
BlockSnapshot snap = _dbClient.queryObject(BlockSnapshot.class, snapshot);
VNXeApiClient apiClient = getVnxeClient(storage);
VNXeLunSnap lunSnap = apiClient.getLunSnapshot(snap.getNativeId());
if (lunSnap != null) {
VNXeCommandJob job = apiClient.deleteLunSnap(lunSnap.getId());
if (job != null) {
ControllerServiceImpl.enqueueJob(
new QueueJob(
new VNXeBlockDeleteSnapshotJob(job.getId(), storage.getId(), taskCompleter)));
}
} else {
// Perhaps, it's already been deleted or was deleted on the array.
// In that case, we'll just say all is well, so that this operation
// is idempotent.
snap.setInactive(true);
snap.setIsSyncActive(false);
_dbClient.updateObject(snap);
taskCompleter.ready(_dbClient);
}
} catch (VNXeException e) {
_log.error("Delete volume snapshot got the exception", e);
taskCompleter.error(_dbClient, e);
} catch (Exception ex) {
_log.error("Delete volume snapshot got the exception", ex);
ServiceError error = DeviceControllerErrors.vnxe.jobFailed("DeleteSnapshot", ex.getMessage());
taskCompleter.error(_dbClient, error);
}
}
@Override
public void detachSingleVolumeMirror(
StorageSystem storage, URI mirror, TaskCompleter taskCompleter)
throws DeviceControllerException {
_log.info("detachSingleVolumeMirror operation START");
try {
BlockMirror mirrorObj = _dbClient.queryObject(BlockMirror.class, mirror);
CIMArgument[] inArgs = _helper.getDetachSynchronizationInputArguments(storage, mirrorObj);
CIMArgument[] outArgs = new CIMArgument[5];
// Invoke method to detach the local mirror
UnsignedInteger32 result =
(UnsignedInteger32) _helper.callModifyReplica(storage, inArgs, outArgs);
if (JOB_COMPLETED_NO_ERROR.equals(result)) {
taskCompleter.ready(_dbClient);
} else {
String msg = String.format("SMI-S call returned unsuccessfully: %s", result);
taskCompleter.error(_dbClient, DeviceControllerException.errors.smis.jobFailed(msg));
}
} catch (Exception e) {
_log.error("Problem making SMI-S call: ", e);
ServiceError serviceError = DeviceControllerException.errors.jobFailed(e);
taskCompleter.error(_dbClient, serviceError);
}
}
/*
* (non-Javadoc)
*
* @see com.emc.storageos.volumecontroller.BlockStorageDevice#doExpandVolume(com.emc.storageos.db.client.model.StorageSystem,
* com.emc.storageos.db.client.model.StoragePool, com.emc.storageos.db.client.model.Volume, java.lang.Long,
* com.emc.storageos.volumecontroller.TaskCompleter)
*/
@Override
public void doExpandVolume(
StorageSystem storageSystem,
StoragePool storagePool,
Volume volume,
Long size,
TaskCompleter taskCompleter)
throws DeviceControllerException {
log.info(
String.format(
"Expand Volume Start - Array: %s, Pool: %s, Volume: %s, New size: %d",
storageSystem.getSerialNumber(), storagePool.getNativeGuid(), volume.getLabel(), size));
try {
HDSApiClient hdsApiClient =
hdsApiFactory.getClient(
HDSUtils.getHDSServerManagementServerInfo(storageSystem),
storageSystem.getSmisUserName(),
storageSystem.getSmisPassword());
String systemObjectID = HDSUtils.getSystemObjectID(storageSystem);
String asyncTaskMessageId = null;
if (volume.getThinlyProvisioned()) {
asyncTaskMessageId =
hdsApiClient.modifyThinVolume(
systemObjectID,
HDSUtils.getLogicalUnitObjectId(volume.getNativeId(), storageSystem),
size);
}
if (null != asyncTaskMessageId) {
HDSJob expandVolumeJob =
new HDSVolumeExpandJob(
asyncTaskMessageId,
storageSystem.getId(),
storagePool.getId(),
taskCompleter,
"ExpandVolume");
ControllerServiceImpl.enqueueJob(new QueueJob(expandVolumeJob));
}
} catch (final InternalException e) {
log.error("Problem in doExpandVolume: ", e);
taskCompleter.error(dbClient, e);
} catch (final Exception e) {
log.error("Problem in doExpandVolume: ", e);
ServiceError serviceError =
DeviceControllerErrors.hds.methodFailed("doExpandVolume", e.getMessage());
taskCompleter.error(dbClient, serviceError);
}
log.info(
String.format(
"Expand Volume End - Array: %s, Pool: %s, Volume: %s",
storageSystem.getSerialNumber(), storagePool.getNativeGuid(), volume.getLabel()));
}
@Override
public void deleteGroupSnapshots(StorageSystem storage, URI snapshot, TaskCompleter taskCompleter)
throws DeviceControllerException {
try {
List<BlockSnapshot> snapshots =
_dbClient.queryObject(BlockSnapshot.class, Arrays.asList(snapshot));
BlockSnapshot snapshotObj = snapshots.get(0);
VNXeApiClient apiClient = getVnxeClient(storage);
VNXeLunGroupSnap lunGroupSnap =
apiClient.getLunGroupSnapshot(snapshotObj.getReplicationGroupInstance());
if (lunGroupSnap != null) {
VNXeCommandJob job = apiClient.deleteLunGroupSnap(lunGroupSnap.getId());
if (job != null) {
ControllerServiceImpl.enqueueJob(
new QueueJob(
new VNXeBlockDeleteSnapshotJob(job.getId(), storage.getId(), taskCompleter)));
} else {
// Should not take this path, but treat as an error if we do
// happen to get a null job due to some error in the client.
_log.error("Unexpected null job from VNXe client call to delete group snapshot.");
ServiceCoded sc =
DeviceControllerExceptions.vnxe.nullJobForDeleteGroupSnapshot(
snapshotObj.forDisplay(), snapshotObj.getReplicationGroupInstance());
taskCompleter.error(_dbClient, sc);
}
} else {
// Treat as in the single volume snapshot case and presume
// the group snapshot has already been deleted.
List<BlockSnapshot> grpSnapshots =
ControllerUtils.getSnapshotsPartOfReplicationGroup(snapshotObj, _dbClient);
for (BlockSnapshot grpSnapshot : grpSnapshots) {
grpSnapshot.setInactive(true);
grpSnapshot.setIsSyncActive(false);
}
_dbClient.updateObject(grpSnapshots);
taskCompleter.ready(_dbClient);
}
} catch (VNXeException e) {
_log.error("Delete group snapshot got the exception", e);
taskCompleter.error(_dbClient, e);
} catch (Exception ex) {
_log.error("Delete group snapshot got the exception", ex);
ServiceError error =
DeviceControllerErrors.vnxe.jobFailed("DeletGroupSnapshot", ex.getMessage());
taskCompleter.error(_dbClient, error);
}
}
@Override
public void fractureSingleVolumeMirror(
StorageSystem storage, URI mirror, Boolean sync, TaskCompleter taskCompleter)
throws DeviceControllerException {
_log.info("fractureSingleVolumeMirror operation START");
CloseableIterator<CIMObjectPath> storageSyncRefs = null;
try {
BlockMirror mirrorObj = _dbClient.queryObject(BlockMirror.class, mirror);
CIMObjectPath mirrorPath = _cimPath.getBlockObjectPath(storage, mirrorObj);
// Get reference to the CIM_StorageSynchronized instance
storageSyncRefs =
_helper.getReference(storage, mirrorPath, SmisConstants.CIM_STORAGE_SYNCHRONIZED, null);
boolean isVmax3 = storage.checkIfVmax3();
while (storageSyncRefs.hasNext()) {
CIMObjectPath storageSync = storageSyncRefs.next();
CIMArgument[] inArgs =
isVmax3
? _helper.getFractureMirrorInputArgumentsWithCopyState(storageSync, sync)
: _helper.getFractureMirrorInputArguments(storageSync, sync);
CIMArgument[] outArgs = new CIMArgument[5];
// Invoke method to fracture the synchronization
_helper.callModifyReplica(storage, inArgs, outArgs);
taskCompleter.ready(_dbClient);
}
} catch (Exception e) {
_log.info("Problem making SMI-S call", e);
ServiceError serviceError = DeviceControllerException.errors.jobFailed(e);
taskCompleter.error(_dbClient, serviceError);
} finally {
if (storageSyncRefs != null) {
storageSyncRefs.close();
}
}
}
@Override
public void removeInitiator(
StorageSystem storage,
URI exportMaskId,
List<Initiator> initiators,
List<URI> targets,
TaskCompleter taskCompleter)
throws DeviceControllerException {
log.info("{} removeInitiator START...", storage.getSerialNumber());
log.info("Export mask id: {}", exportMaskId);
log.info("removeInitiator: initiators : {}", initiators);
log.info("removeInitiator: targets : {}", targets);
try {
ExportMask exportMask = dbClient.queryObject(ExportMask.class, exportMaskId);
List<Volume> volumeList = new ArrayList<Volume>();
StringMap volumes = exportMask.getUserAddedVolumes();
for (String vol : volumes.values()) {
Volume volume = dbClient.queryObject(Volume.class, URI.create(vol));
volumeList.add(volume);
}
detachVolumesFromInitiators(storage, volumeList, initiators);
taskCompleter.ready(dbClient);
} catch (final Exception ex) {
log.error("Problem in RemoveInitiators: ", ex);
ServiceError serviceError =
DeviceControllerErrors.cinder.operationFailed("doRemoveInitiators", ex.getMessage());
taskCompleter.error(dbClient, serviceError);
}
log.info("{} removeInitiator END...", storage.getSerialNumber());
}
@Override
public void addVolume(
StorageSystem storage,
URI exportMaskId,
VolumeURIHLU[] volumeURIHLUs,
TaskCompleter taskCompleter)
throws DeviceControllerException {
log.info("{} addVolume START...", storage.getSerialNumber());
log.info("Export mask id: {}", exportMaskId);
log.info("addVolume: volume-HLU pairs: {}", volumeURIHLUs);
log.info("User assigned HLUs will be ignored as Cinder does not support it.");
try {
ExportMask exportMask = dbClient.queryObject(ExportMask.class, exportMaskId);
List<Volume> volumes = new ArrayList<Volume>();
List<Initiator> initiatorList = new ArrayList<Initiator>();
// map to store target LUN id generated for each volume
Map<URI, Integer> volumeToTargetLunMap = new HashMap<URI, Integer>();
StringMap initiators = exportMask.getUserAddedInitiators();
for (VolumeURIHLU volumeURIHLU : volumeURIHLUs) {
URI volumeURI = volumeURIHLU.getVolumeURI();
Volume volume = dbClient.queryObject(Volume.class, volumeURI);
volumes.add(volume);
}
for (String ini : initiators.values()) {
Initiator initiator = dbClient.queryObject(Initiator.class, URI.create(ini));
initiatorList.add(initiator);
}
// Map to store volume to initiatorTargetMap
Map<Volume, Map<String, List<String>>> volumeToFCInitiatorTargetMap =
new HashMap<Volume, Map<String, List<String>>>();
attachVolumesToInitiators(
storage,
volumes,
initiatorList,
volumeToTargetLunMap,
volumeToFCInitiatorTargetMap,
exportMask);
// Update targets in the export mask
if (!volumeToFCInitiatorTargetMap.isEmpty()) {
updateTargetsInExportMask(
storage, volumes.get(0), volumeToFCInitiatorTargetMap, initiatorList, exportMask);
}
updateTargetLunIdInExportMask(volumeToTargetLunMap, exportMask);
dbClient.updateAndReindexObject(exportMask);
taskCompleter.ready(dbClient);
} catch (final Exception ex) {
log.error("Problem in AddVolumes: ", ex);
ServiceError serviceError =
DeviceControllerErrors.cinder.operationFailed("doAddVolumes", ex.getMessage());
taskCompleter.error(dbClient, serviceError);
}
log.info("{} addVolume END...", storage.getSerialNumber());
}
@Override
public void deleteSingleVolumeMirror(
StorageSystem storage, URI mirror, TaskCompleter taskCompleter)
throws DeviceControllerException {
_log.info("deleteSingleVolumeMirror operation START");
try {
BlockMirror mirrorObj = _dbClient.queryObject(BlockMirror.class, mirror);
if (storage.checkIfVmax3()) {
_helper.removeVolumeFromParkingSLOStorageGroup(storage, mirrorObj.getNativeId(), false);
_log.info(
"Done invoking remove volume {} from parking SLO storage group",
mirrorObj.getNativeId());
}
CIMObjectPath mirrorPath = _cimPath.getBlockObjectPath(storage, mirrorObj);
CIMObjectPath configSvcPath = _cimPath.getConfigSvcPath(storage);
CIMArgument[] inArgs = _helper.getDeleteMirrorInputArguments(storage, mirrorPath);
CIMArgument[] outArgs = new CIMArgument[5];
_helper.invokeMethod(
storage, configSvcPath, SmisConstants.RETURN_TO_STORAGE_POOL, inArgs, outArgs);
CIMObjectPath job = _cimPath.getCimObjectPathFromOutputArgs(outArgs, SmisConstants.JOB);
if (job != null) {
ControllerServiceImpl.enqueueJob(
new QueueJob(new SmisBlockDeleteMirrorJob(job, storage.getId(), taskCompleter)));
}
} catch (Exception e) {
_log.info("Problem making SMI-S call: ", e);
ServiceError serviceError =
DeviceControllerErrors.smis.unableToCallStorageProvider(e.getMessage());
taskCompleter.error(_dbClient, serviceError);
}
}
/*
* (non-Javadoc)
*
* @see
* com.emc.storageos.volumecontroller.BlockStorageDevice#doWaitForSynchronized
* (java.lang.Class, com.emc.storageos.db.client.model.StorageSystem,
* java.net.URI, com.emc.storageos.volumecontroller.TaskCompleter)
*/
@Override
public void doWaitForSynchronized(
Class<? extends BlockObject> clazz,
StorageSystem storageObj,
URI target,
TaskCompleter completer) {
log.info("START waitForSynchronized for {}", target);
try {
Volume targetObj = dbClient.queryObject(Volume.class, target);
// Source could be either Volume or BlockSnapshot
BlockObject sourceObj = BlockObject.fetch(dbClient, targetObj.getAssociatedSourceVolume());
// We split the pair which causes the data to be synchronized.
// When the split is complete that data is synchronized.
HDSApiClient hdsApiClient =
hdsApiFactory.getClient(
HDSUtils.getHDSServerManagementServerInfo(storageObj),
storageObj.getSmisUserName(),
storageObj.getSmisPassword());
HDSApiProtectionManager hdsApiProtectionManager = hdsApiClient.getHdsApiProtectionManager();
String replicationGroupObjectID = hdsApiProtectionManager.getReplicationGroupObjectId();
ReplicationInfo replicationInfo =
hdsApiProtectionManager.getReplicationInfoFromSystem(
sourceObj.getNativeId(), targetObj.getNativeId())
.first;
hdsApiProtectionManager.modifyShadowImagePair(
replicationGroupObjectID,
replicationInfo.getObjectID(),
HDSApiProtectionManager.ShadowImageOperationType.split);
// Update state in case we are waiting for synchronization
// after creation of a new full copy that was not created
// inactive.
String state = targetObj.getReplicaState();
if (!ReplicationState.SYNCHRONIZED.name().equals(state)) {
targetObj.setSyncActive(true);
targetObj.setReplicaState(ReplicationState.SYNCHRONIZED.name());
dbClient.persistObject(targetObj);
}
// Queue job to wait for replication status to move to split.
ControllerServiceImpl.enqueueJob(
new QueueJob(
new HDSReplicationSyncJob(
storageObj.getId(),
sourceObj.getNativeId(),
targetObj.getNativeId(),
ReplicationStatus.SPLIT,
completer)));
} catch (Exception e) {
log.error("Exception occurred while waiting for synchronization", e);
ServiceError serviceError = DeviceControllerException.errors.jobFailed(e);
completer.error(dbClient, serviceError);
}
log.info("completed doWaitForSynchronized");
}
@Override
public void addInitiator(
StorageSystem storage,
URI exportMaskId,
List<Initiator> initiators,
List<URI> targets,
TaskCompleter taskCompleter)
throws DeviceControllerException {
log.info("{} addInitiator START...", storage.getSerialNumber());
log.info("Export mask id: {}", exportMaskId);
log.info("addInitiator: initiators : {}", initiators);
log.info("addInitiator: targets : {}", targets);
try {
ExportMask exportMask = dbClient.queryObject(ExportMask.class, exportMaskId);
List<Volume> volumeList = new ArrayList<Volume>();
// map to store target LUN id generated for each volume
Map<URI, Integer> volumeToTargetLunMap = new HashMap<URI, Integer>();
StringMap volumes = exportMask.getUserAddedVolumes();
for (String vol : volumes.values()) {
Volume volume = dbClient.queryObject(Volume.class, URI.create(vol));
volumeList.add(volume);
}
// Map to store volume to initiatorTargetMap
Map<Volume, Map<String, List<String>>> volumeToFCInitiatorTargetMap =
new HashMap<Volume, Map<String, List<String>>>();
attachVolumesToInitiators(
storage,
volumeList,
initiators,
volumeToTargetLunMap,
volumeToFCInitiatorTargetMap,
exportMask);
// Update targets in the export mask
if (!volumeToFCInitiatorTargetMap.isEmpty()) {
updateTargetsInExportMask(
storage, volumeList.get(0), volumeToFCInitiatorTargetMap, initiators, exportMask);
dbClient.updateAndReindexObject(exportMask);
}
// TODO : update volumeToTargetLunMap in export mask.?
// Do we get different LUN ID for the new initiators from the same Host.?
taskCompleter.ready(dbClient);
} catch (final Exception ex) {
log.error("Problem in AddInitiators: ", ex);
ServiceError serviceError =
DeviceControllerErrors.cinder.operationFailed("doAddInitiators", ex.getMessage());
taskCompleter.error(dbClient, serviceError);
}
log.info("{} addInitiator END...", storage.getSerialNumber());
}
@Override
public void createGroupSnapshots(
StorageSystem storage,
List<URI> snapshotList,
Boolean createInactive,
Boolean readOnly,
TaskCompleter taskCompleter)
throws DeviceControllerException {
try {
URI snapshot = snapshotList.get(0);
BlockSnapshot snapshotObj = _dbClient.queryObject(BlockSnapshot.class, snapshot);
Volume volume = _dbClient.queryObject(Volume.class, snapshotObj.getParent());
TenantOrg tenant = _dbClient.queryObject(TenantOrg.class, volume.getTenant().getURI());
String tenantName = tenant.getLabel();
String snapLabelToUse =
_nameGenerator.generate(
tenantName,
snapshotObj.getLabel(),
snapshot.toString(),
'-',
SmisConstants.MAX_SNAPSHOT_NAME_LENGTH);
String groupName = getConsistencyGroupName(snapshotObj);
VNXeApiClient apiClient = getVnxeClient(storage);
VNXeCommandJob job = apiClient.createLunGroupSnap(groupName, snapLabelToUse);
if (job != null) {
ControllerServiceImpl.enqueueJob(
new QueueJob(
new VNXeBlockCreateCGSnapshotJob(
job.getId(), storage.getId(), !createInactive, taskCompleter)));
}
} catch (VNXeException e) {
_log.error("Create volume snapshot got the exception", e);
taskCompleter.error(_dbClient, e);
} catch (Exception ex) {
_log.error("Create volume snapshot got the exception", ex);
ServiceError error =
DeviceControllerErrors.vnxe.jobFailed("CreateCGSnapshot", ex.getMessage());
taskCompleter.error(_dbClient, error);
}
}
@Override
public void deleteExportMask(
StorageSystem storage,
URI exportMaskId,
List<URI> volumeURIList,
List<URI> targetURIList,
List<Initiator> initiatorList,
TaskCompleter taskCompleter)
throws DeviceControllerException {
log.info("{} deleteExportMask START...", storage.getSerialNumber());
log.info("Export mask id: {}", exportMaskId);
try {
// There is no masking concept on Cinder to delete the export mask.
// But before marking the task completer as ready,
// detach the volumes from the initiators that are there in the export mask.
ExportMask exportMask = dbClient.queryObject(ExportMask.class, exportMaskId);
List<Volume> volumeList = new ArrayList<Volume>();
StringMap volumes = exportMask.getUserAddedVolumes();
StringMap initiators = exportMask.getUserAddedInitiators();
if (volumes != null) {
for (String vol : volumes.values()) {
URI volumeURI = URI.create(vol);
volumeURIList.add(volumeURI);
Volume volume = dbClient.queryObject(Volume.class, volumeURI);
volumeList.add(volume);
}
}
if (initiators != null) {
for (String ini : initiators.values()) {
Initiator initiatorObj = dbClient.queryObject(Initiator.class, URI.create(ini));
initiatorList.add(initiatorObj);
}
}
log.info("deleteExportMask: volumes: {}", volumeURIList);
log.info("deleteExportMask: assignments: {}", targetURIList);
log.info("deleteExportMask: initiators: {}", initiatorList);
detachVolumesFromInitiators(storage, volumeList, initiatorList);
taskCompleter.ready(dbClient);
} catch (final Exception ex) {
log.error("Problem in DetachVolumes: ", ex);
ServiceError serviceError =
DeviceControllerErrors.cinder.operationFailed("doDetachVolumes", ex.getMessage());
taskCompleter.error(dbClient, serviceError);
}
log.info("{} deleteExportMask END...", storage.getSerialNumber());
}
@Override
public void restoreGroupSnapshots(
StorageSystem storage, URI volume, URI snapshot, TaskCompleter taskCompleter)
throws DeviceControllerException {
try {
BlockSnapshot snapshotObj = _dbClient.queryObject(BlockSnapshot.class, snapshot);
VNXeApiClient apiClient = getVnxeClient(storage);
VNXeLunGroupSnap lunGroupSnap =
apiClient.getLunGroupSnapshot(snapshotObj.getReplicationGroupInstance());
// Error out if the snapshot is attached
if (lunGroupSnap.getIsAttached()) {
_log.error(
"Snapshot {})is attached and cannot be used for restore", snapshotObj.getLabel());
ServiceError error =
DeviceControllerErrors.vnxe.cannotRestoreAttachedSnapshot(snapshot.toString());
taskCompleter.error(_dbClient, error);
}
VNXeCommandJob job = apiClient.restoreLunGroupSnap(lunGroupSnap.getId());
if (job != null) {
ControllerServiceImpl.enqueueJob(
new QueueJob(
new VNXeBlockRestoreSnapshotJob(job.getId(), storage.getId(), taskCompleter)));
}
} catch (VNXeException e) {
_log.error("Restore group snapshot got the exception", e);
taskCompleter.error(_dbClient, e);
} catch (Exception ex) {
_log.error("Restore group snapshot got the exception", ex);
ServiceError error =
DeviceControllerErrors.vnxe.jobFailed("RestoreSnapshotJob", ex.getMessage());
taskCompleter.error(_dbClient, error);
}
}
@Override
public void resumeSingleVolumeMirror(
StorageSystem storage, URI mirror, TaskCompleter taskCompleter)
throws DeviceControllerException {
_log.info("resumeSingleVolumeMirror operation START");
CloseableIterator<CIMObjectPath> storageSyncRefs = null;
try {
BlockMirror mirrorObj = _dbClient.queryObject(BlockMirror.class, mirror);
CIMObjectPath mirrorPath = _cimPath.getBlockObjectPath(storage, mirrorObj);
// Get reference to the CIM_StorageSynchronized instance
storageSyncRefs =
_helper.getReference(storage, mirrorPath, SmisConstants.CIM_STORAGE_SYNCHRONIZED, null);
if (!storageSyncRefs.hasNext()) {
_log.error("No synchronization instance found for {}", mirror);
taskCompleter.error(
_dbClient, DeviceControllerException.exceptions.resumeVolumeMirrorFailed(mirror));
return;
}
boolean isVmax3 = storage.checkIfVmax3();
while (storageSyncRefs.hasNext()) {
CIMObjectPath storageSync = storageSyncRefs.next();
_log.debug(storageSync.toString());
/**
* JIRA CTRL-11855 User created mirror and did pause operation using SMI 4.6.2. Then He
* upgraded to SMI 8.0.3. While doing mirror resume getting exception from SMI because of
* the existing mirrorObj.getSynchronizedInstance() contains
* SystemName=\"SYMMETRIX+000195701573\"" This is wrong with 8.0.3 as
* SystemName=\"SYMMETRIX-+-000195701573\"". To resolve this issue setting new value
* collected from current smis provider here.
*/
mirrorObj.setSynchronizedInstance(storageSync.toString());
_dbClient.persistObject(mirrorObj);
CIMArgument[] inArgs =
isVmax3
? _helper.getResumeSynchronizationInputArgumentsWithCopyState(storageSync)
: _helper.getResumeSynchronizationInputArguments(storageSync);
CIMArgument[] outArgs = new CIMArgument[5];
_helper.callModifyReplica(storage, inArgs, outArgs);
CIMObjectPath job = _cimPath.getCimObjectPathFromOutputArgs(outArgs, SmisConstants.JOB);
if (job != null) {
ControllerServiceImpl.enqueueJob(
new QueueJob(new SmisBlockResumeMirrorJob(job, storage.getId(), taskCompleter)));
} else {
CIMInstance syncObject =
_helper.getInstance(
storage, storageSync, false, false, new String[] {SmisConstants.CP_SYNC_STATE});
mirrorObj.setSyncState(
CIMPropertyFactory.getPropertyValue(syncObject, SmisConstants.CP_SYNC_STATE));
_dbClient.persistObject(mirrorObj);
taskCompleter.ready(_dbClient);
}
}
} catch (Exception e) {
_log.error("Failed to resume single volume mirror: {}", mirror);
ServiceError serviceError = DeviceControllerException.errors.jobFailed(e);
taskCompleter.error(_dbClient, serviceError);
} finally {
if (storageSyncRefs != null) {
storageSyncRefs.close();
}
}
}
private void createOrUpdateVcenterCluster(
boolean createCluster,
AsyncTask task,
URI clusterUri,
URI[] addHostUris,
URI[] removeHostUris,
URI[] volumeUris)
throws InternalException {
TaskCompleter completer = null;
try {
_log.info(
"createOrUpdateVcenterCluster "
+ createCluster
+ " "
+ task
+ " "
+ clusterUri
+ " "
+ addHostUris
+ " "
+ removeHostUris);
if (task == null) {
_log.error("AsyncTask is null");
throw new Exception("AsyncTask is null");
}
URI vcenterDataCenterId = task._id;
VcenterDataCenter vcenterDataCenter =
_dbClient.queryObject(VcenterDataCenter.class, vcenterDataCenterId);
if (clusterUri == null) {
_log.error("Cluster URI is null");
throw new Exception("Cluster URI is null");
}
Cluster cluster = _dbClient.queryObject(Cluster.class, clusterUri);
Vcenter vcenter = _dbClient.queryObject(Vcenter.class, vcenterDataCenter.getVcenter());
_log.info(
"Request to create or update cluster "
+ vcenter.getIpAddress()
+ "/"
+ vcenterDataCenter.getLabel()
+ "/"
+ cluster.getLabel());
Collection<Host> addHosts = new ArrayList<Host>();
if (addHostUris == null || addHostUris.length == 0) {
_log.info("Add host URIs is null or empty - Cluster will be created without hosts");
} else {
for (URI hostUri : addHostUris) {
_log.info("createOrUpdateVcenterCluster " + clusterUri + " with add host " + hostUri);
}
addHosts = _dbClient.queryObject(Host.class, addHostUris);
}
Collection<Host> removeHosts = new ArrayList<Host>();
if (removeHostUris == null || removeHostUris.length == 0) {
_log.info("Remove host URIs is null or empty - Cluster will have no removed hosts");
} else {
for (URI hostUri : removeHostUris) {
_log.info("createOrUpdateVcenterCluster " + clusterUri + " with remove host " + hostUri);
}
removeHosts = _dbClient.queryObject(Host.class, removeHostUris);
}
Collection<Volume> volumes = new ArrayList<Volume>();
if (volumeUris == null || volumeUris.length == 0) {
_log.info("Volume URIs is null or empty - Cluster will be created without datastores");
} else {
for (URI volumeUri : volumeUris) {
_log.info("createOrUpdateVcenterCluster " + clusterUri + " with volume " + volumeUri);
}
volumes = _dbClient.queryObject(Volume.class, volumeUris);
}
completer =
new VcenterClusterCompleter(
vcenterDataCenterId,
task._opId,
OperationTypeEnum.CREATE_UPDATE_VCENTER_CLUSTER,
"VCENTER_CONTROLLER");
Workflow workflow =
_workflowService.getNewWorkflow(
this, "CREATE_UPDATE_VCENTER_CLUSTER_WORKFLOW", true, task._opId);
String clusterStep =
workflow.createStep(
"CREATE_UPDATE_VCENTER_CLUSTER_STEP",
String.format(
"vCenter cluster operation in vCenter datacenter %s", vcenterDataCenterId),
null,
vcenterDataCenterId,
vcenterDataCenterId.toString(),
this.getClass(),
new Workflow.Method(
"createUpdateVcenterClusterOperation",
createCluster,
vcenter.getId(),
vcenterDataCenter.getId(),
cluster.getId()),
null,
null);
String lastStep = clusterStep;
if (removeHosts.size() > 0) {
for (Host host : removeHosts) {
String hostStep =
workflow.createStep(
"VCENTER_CLUSTER_REMOVE_HOST",
String.format("vCenter cluster remove host operation %s", host.getId()),
clusterStep,
vcenterDataCenterId,
vcenterDataCenterId.toString(),
this.getClass(),
new Workflow.Method(
"vcenterClusterRemoveHostOperation",
vcenter.getId(),
vcenterDataCenter.getId(),
cluster.getId(),
host.getId()),
null,
null);
lastStep = hostStep; // add host will wait on last of these
}
}
if (addHosts.size() > 0) {
for (Host host : addHosts) {
String hostStep =
workflow.createStep(
"VCENTER_CLUSTER_ADD_HOST",
String.format("vCenter cluster add host operation %s", host.getId()),
lastStep,
vcenterDataCenterId,
vcenterDataCenterId.toString(),
this.getClass(),
new Workflow.Method(
"vcenterClusterAddHostOperation",
vcenter.getId(),
vcenterDataCenter.getId(),
cluster.getId(),
host.getId()),
null,
null);
}
if (volumes.size() > 0) {
// Once all hosts in cluster select a host to use for shared storage operations
String selectHostForStorageOperationsStep =
workflow.createStep(
"VCENTER_CLUSTER_SELECT_HOST",
String.format(
"vCenter cluster select host for storage operations operation vCenter datacenter %s",
vcenterDataCenterId),
"VCENTER_CLUSTER_ADD_HOST",
vcenterDataCenterId,
vcenterDataCenterId.toString(),
this.getClass(),
new Workflow.Method(
"vcenterClusterSelectHostOperation",
vcenter.getId(),
vcenterDataCenter.getId(),
cluster.getId(),
addHostUris),
null,
null);
// Do not run datastore creation in parallel
// First datastore waits on selectHostForStorageOperationsStep step then next wait on the
// previous datastore operation
String volumeStep = null;
for (Volume volume : volumes) {
volumeStep =
workflow.createStep(
"VCENTER_CLUSTER_CREATE_DATASTORE",
String.format("vCenter cluster create datastore operation %s", volume.getId()),
volumeStep == null ? selectHostForStorageOperationsStep : volumeStep,
vcenterDataCenterId,
vcenterDataCenterId.toString(),
this.getClass(),
new Workflow.Method(
"vcenterClusterCreateDatastoreOperation",
vcenter.getId(),
vcenterDataCenter.getId(),
cluster.getId(),
volume.getId(),
selectHostForStorageOperationsStep),
null,
null);
}
}
}
workflow.executePlan(completer, "Success");
} catch (Exception e) {
_log.error("createOrUpdateVcenterCluster caught an exception.", e);
ServiceError serviceError = DeviceControllerException.errors.jobFailed(e);
completer.error(_dbClient, serviceError);
}
}
/*
* (non-Javadoc)
*
* @see com.emc.storageos.volumecontroller.BlockStorageDevice#doDeleteVolumes(com.emc.storageos.db.client.model.StorageSystem,
* java.lang.String, java.util.List, com.emc.storageos.volumecontroller.TaskCompleter)
*/
@Override
public void doDeleteVolumes(
StorageSystem storageSystem, String opId, List<Volume> volumes, TaskCompleter taskCompleter)
throws DeviceControllerException {
try {
StringBuilder logMsgBuilder =
new StringBuilder(
String.format("Delete Volume Start - Array:%s", storageSystem.getSerialNumber()));
MultiVolumeTaskCompleter multiVolumeTaskCompleter = (MultiVolumeTaskCompleter) taskCompleter;
Set<String> thickLogicalUnitIdList = new HashSet<String>();
Set<String> thinLogicalUnitIdList = new HashSet<String>();
HDSApiClient hdsApiClient =
hdsApiFactory.getClient(
HDSUtils.getHDSServerManagementServerInfo(storageSystem),
storageSystem.getSmisUserName(),
storageSystem.getSmisPassword());
String systemObjectId = HDSUtils.getSystemObjectID(storageSystem);
log.info("volumes size: {}", volumes.size());
for (Volume volume : volumes) {
logMsgBuilder.append(String.format("%nVolume:%s", volume.getLabel()));
String logicalUnitObjectId =
HDSUtils.getLogicalUnitObjectId(volume.getNativeId(), storageSystem);
LogicalUnit logicalUnit =
hdsApiClient.getLogicalUnitInfo(systemObjectId, logicalUnitObjectId);
if (logicalUnit == null) {
// related volume state (if any) has been deleted. skip
// processing, if already deleted from array.
log.info(String.format("Volume %s already deleted: ", volume.getNativeId()));
volume.setInactive(true);
dbClient.persistObject(volume);
VolumeTaskCompleter deleteTaskCompleter =
multiVolumeTaskCompleter.skipTaskCompleter(volume.getId());
deleteTaskCompleter.ready(dbClient);
continue;
}
if (volume.getThinlyProvisioned()) {
thinLogicalUnitIdList.add(logicalUnitObjectId);
} else {
thickLogicalUnitIdList.add(logicalUnitObjectId);
}
}
log.info(logMsgBuilder.toString());
if (!multiVolumeTaskCompleter.isVolumeTaskCompletersEmpty()) {
if (null != thickLogicalUnitIdList && !thickLogicalUnitIdList.isEmpty()) {
String asyncThickLUsJobId =
hdsApiClient.deleteThickLogicalUnits(systemObjectId, thickLogicalUnitIdList);
if (null != asyncThickLUsJobId) {
ControllerServiceImpl.enqueueJob(
new QueueJob(
new HDSDeleteVolumeJob(
asyncThickLUsJobId, volumes.get(0).getStorageController(), taskCompleter)));
}
}
if (null != thinLogicalUnitIdList && !thinLogicalUnitIdList.isEmpty()) {
String asyncThinHDSJobId =
hdsApiClient.deleteThinLogicalUnits(systemObjectId, thinLogicalUnitIdList);
// Not sure whether this really works as tracking two jobs
// in single operation.
if (null != asyncThinHDSJobId) {
ControllerServiceImpl.enqueueJob(
new QueueJob(
new HDSDeleteVolumeJob(
asyncThinHDSJobId, volumes.get(0).getStorageController(), taskCompleter)));
}
}
} else {
// If we are here, there are no volumes to delete, we have
// invoked ready() for the VolumeDeleteCompleter, and told
// the multiVolumeTaskCompleter to skip these completers.
// In this case, the multiVolumeTaskCompleter complete()
// method will not be invoked and the result is that the
// workflow that initiated this delete request will never
// be updated. So, here we just call complete() on the
// multiVolumeTaskCompleter to ensure the workflow status is
// updated.
multiVolumeTaskCompleter.ready(dbClient);
}
} catch (Exception e) {
log.error("Problem in doDeleteVolume: ", e);
ServiceError error =
DeviceControllerErrors.hds.methodFailed("doDeleteVolume", e.getMessage());
taskCompleter.error(dbClient, error);
}
StringBuilder logMsgBuilder =
new StringBuilder(
String.format("Delete Volume End - Array: %s", storageSystem.getSerialNumber()));
for (Volume volume : volumes) {
logMsgBuilder.append(String.format("%nVolume:%s", volume.getLabel()));
}
log.info(logMsgBuilder.toString());
}
/*
* (non-Javadoc)
*
* @see com.emc.storageos.volumecontroller.BlockStorageDevice#doCreateVolumes(com.emc.storageos.db.client.model.StorageSystem,
* com.emc.storageos.db.client.model.StoragePool, java.lang.String, java.util.List,
* com.emc.storageos.volumecontroller.impl.utils.VirtualPoolCapabilityValuesWrapper, com.emc.storageos.volumecontroller.TaskCompleter)
*/
@Override
public void doCreateVolumes(
StorageSystem storageSystem,
StoragePool storagePool,
String opId,
List<Volume> volumes,
VirtualPoolCapabilityValuesWrapper capabilities,
TaskCompleter taskCompleter)
throws DeviceControllerException {
String label = null;
Long capacity = null;
boolean isThinVolume = false;
boolean opCreationFailed = false;
StringBuilder logMsgBuilder =
new StringBuilder(
String.format(
"Create Volume Start - Array:%s, Pool:%s",
storageSystem.getSerialNumber(), storagePool.getNativeGuid()));
for (Volume volume : volumes) {
logMsgBuilder.append(
String.format(
"%nVolume:%s , IsThinlyProvisioned: %s",
volume.getLabel(), volume.getThinlyProvisioned()));
if ((label == null) && (volumes.size() == 1)) {
String tenantName = "";
try {
TenantOrg tenant = dbClient.queryObject(TenantOrg.class, volume.getTenant().getURI());
tenantName = tenant.getLabel();
} catch (DatabaseException e) {
log.error("Error lookup TenantOrb object", e);
}
label =
nameGenerator.generate(
tenantName,
volume.getLabel(),
volume.getId().toString(),
'-',
HDSConstants.MAX_VOLUME_NAME_LENGTH);
}
if (capacity == null) {
capacity = volume.getCapacity();
}
isThinVolume = volume.getThinlyProvisioned();
}
log.info(logMsgBuilder.toString());
try {
multiVolumeCheckForHitachiModel(volumes, storageSystem);
HDSApiClient hdsApiClient =
hdsApiFactory.getClient(
HDSUtils.getHDSServerManagementServerInfo(storageSystem),
storageSystem.getSmisUserName(),
storageSystem.getSmisPassword());
String systemObjectID = HDSUtils.getSystemObjectID(storageSystem);
String poolObjectID = HDSUtils.getPoolObjectID(storagePool);
String asyncTaskMessageId = null;
// isThinVolume = true, creates VirtualVolumes
// isThinVolume = false, creates LogicalUnits
if (isThinVolume) {
asyncTaskMessageId =
hdsApiClient.createThinVolumes(
systemObjectID,
storagePool.getNativeId(),
capacity,
volumes.size(),
label,
QUICK_FORMAT_TYPE,
storageSystem.getModel());
} else if (!isThinVolume) {
asyncTaskMessageId =
hdsApiClient.createThickVolumes(
systemObjectID,
poolObjectID,
capacity,
volumes.size(),
label,
null,
storageSystem.getModel(),
null);
}
if (asyncTaskMessageId != null) {
HDSJob createHDSJob =
(volumes.size() > 1)
? new HDSCreateMultiVolumeJob(
asyncTaskMessageId,
volumes.get(0).getStorageController(),
storagePool.getId(),
volumes.size(),
taskCompleter)
: new HDSCreateVolumeJob(
asyncTaskMessageId,
volumes.get(0).getStorageController(),
storagePool.getId(),
taskCompleter);
ControllerServiceImpl.enqueueJob(new QueueJob(createHDSJob));
}
} catch (final InternalException e) {
log.error("Problem in doCreateVolumes: ", e);
opCreationFailed = true;
taskCompleter.error(dbClient, e);
} catch (final Exception e) {
log.error("Problem in doCreateVolumes: ", e);
opCreationFailed = true;
ServiceError serviceError =
DeviceControllerErrors.hds.methodFailed("doCreateVolumes", e.getMessage());
taskCompleter.error(dbClient, serviceError);
}
if (opCreationFailed) {
for (Volume vol : volumes) {
vol.setInactive(true);
dbClient.persistObject(vol);
}
}
logMsgBuilder =
new StringBuilder(
String.format(
"Create Volumes End - Array:%s, Pool:%s",
storageSystem.getSerialNumber(), storagePool.getNativeGuid()));
for (Volume volume : volumes) {
logMsgBuilder.append(String.format("%nVolume:%s", volume.getLabel()));
}
log.info(logMsgBuilder.toString());
}
/*
* (non-Javadoc)
*
* @see com.emc.storageos.volumecontroller.CloneOperations#createSingleClone(
* com.emc.storageos.db.client.model.StorageSystem, java.net.URI, java.net.URI,
* java.lang.Boolean,
* com.emc.storageos.volumecontroller.TaskCompleter)
*/
@Override
public void createSingleClone(
StorageSystem storageSystem,
URI sourceObject,
URI cloneVolume,
Boolean createInactive,
TaskCompleter taskCompleter) {
log.info("START createSingleClone operation");
boolean isVolumeClone = true;
try {
BlockObject sourceObj = BlockObject.fetch(dbClient, sourceObject);
URI tenantUri = null;
if (sourceObj
instanceof BlockSnapshot) { // In case of snapshot, get the tenant from its parent volume
NamedURI parentVolUri = ((BlockSnapshot) sourceObj).getParent();
Volume parentVolume = dbClient.queryObject(Volume.class, parentVolUri);
tenantUri = parentVolume.getTenant().getURI();
isVolumeClone = false;
} else { // This is a default flow
tenantUri = ((Volume) sourceObj).getTenant().getURI();
isVolumeClone = true;
}
Volume cloneObj = dbClient.queryObject(Volume.class, cloneVolume);
StoragePool targetPool = dbClient.queryObject(StoragePool.class, cloneObj.getPool());
TenantOrg tenantOrg = dbClient.queryObject(TenantOrg.class, tenantUri);
// String cloneLabel = generateLabel(tenantOrg, cloneObj);
CinderEndPointInfo ep =
CinderUtils.getCinderEndPoint(storageSystem.getActiveProviderURI(), dbClient);
log.info(
"Getting the cinder APi for the provider with id "
+ storageSystem.getActiveProviderURI());
CinderApi cinderApi = cinderApiFactory.getApi(storageSystem.getActiveProviderURI(), ep);
String volumeId = "";
if (isVolumeClone) {
volumeId =
cinderApi.cloneVolume(
cloneObj.getLabel(),
(cloneObj.getCapacity() / (1024 * 1024 * 1024)),
targetPool.getNativeId(),
sourceObj.getNativeId());
} else {
volumeId =
cinderApi.createVolumeFromSnapshot(
cloneObj.getLabel(),
(cloneObj.getCapacity() / (1024 * 1024 * 1024)),
targetPool.getNativeId(),
sourceObj.getNativeId());
}
log.debug("Creating volume with the id " + volumeId + " on Openstack cinder node");
if (volumeId != null) {
Map<String, URI> volumeIds = new HashMap<String, URI>();
volumeIds.put(volumeId, cloneObj.getId());
ControllerServiceImpl.enqueueJob(
new QueueJob(
new CinderSingleVolumeCreateJob(
volumeId,
cloneObj.getLabel(),
storageSystem.getId(),
CinderConstants.ComponentType.volume.name(),
ep,
taskCompleter,
targetPool.getId(),
volumeIds)));
}
} catch (InternalException e) {
String errorMsg = String.format(CREATE_ERROR_MSG_FORMAT, sourceObject, cloneVolume);
log.error(errorMsg, e);
taskCompleter.error(dbClient, e);
} catch (Exception e) {
String errorMsg = String.format(CREATE_ERROR_MSG_FORMAT, sourceObject, cloneVolume);
log.error(errorMsg, e);
ServiceError serviceError =
DeviceControllerErrors.cinder.operationFailed("createSingleClone", e.getMessage());
taskCompleter.error(dbClient, serviceError);
}
}
@Override
public void deleteGroupMirrors(
StorageSystem storage, List<URI> mirrorList, TaskCompleter taskCompleter)
throws DeviceControllerException {
_log.info("deleteGroupMirrors operation START");
if (!((storage.getUsingSmis80() && storage.deviceIsType(Type.vmax))
|| storage.deviceIsType(Type.vnxblock))) {
throw DeviceControllerException.exceptions.blockDeviceOperationNotSupported();
}
try {
String[] deviceIds = null;
BlockMirror firstMirror = _dbClient.queryObject(BlockMirror.class, mirrorList.get(0));
String repGroupName = firstMirror.getReplicationGroupInstance();
if (NullColumnValueGetter.isNotNullValue(repGroupName)) {
CIMObjectPath repGroupPath = _cimPath.getReplicationGroupPath(storage, repGroupName);
Set<String> deviceIdsSet =
_helper.getVolumeDeviceIdsFromStorageGroup(storage, repGroupPath);
deviceIds = deviceIdsSet.toArray(new String[deviceIdsSet.size()]);
// Delete replication group
ReplicationUtils.deleteReplicationGroup(
storage, repGroupName, _dbClient, _helper, _cimPath);
// Set mirrors replication group to null
List<BlockMirror> mirrors = _dbClient.queryObject(BlockMirror.class, mirrorList);
for (BlockMirror mirror : mirrors) {
mirror.setConsistencyGroup(NullColumnValueGetter.getNullURI());
mirror.setReplicationGroupInstance(NullColumnValueGetter.getNullStr());
}
_dbClient.persistObject(mirrors);
} else {
deviceIds = _helper.getBlockObjectNativeIds(mirrorList);
}
if (storage.checkIfVmax3()) {
for (String deviceId : deviceIds) {
_helper.removeVolumeFromParkingSLOStorageGroup(storage, deviceId, false);
_log.info("Done invoking remove volume {} from parking SLO storage group", deviceId);
}
}
CIMObjectPath[] mirrorPaths = _cimPath.getVolumePaths(storage, deviceIds);
CIMObjectPath configSvcPath = _cimPath.getConfigSvcPath(storage);
CIMArgument[] inArgs = null;
if (storage.deviceIsType(Type.vnxblock)) {
inArgs = _helper.getReturnElementsToStoragePoolArguments(mirrorPaths);
} else {
inArgs =
_helper.getReturnElementsToStoragePoolArguments(
mirrorPaths, SmisConstants.CONTINUE_ON_NONEXISTENT_ELEMENT);
}
CIMArgument[] outArgs = new CIMArgument[5];
_helper.invokeMethod(
storage, configSvcPath, SmisConstants.RETURN_ELEMENTS_TO_STORAGE_POOL, inArgs, outArgs);
CIMObjectPath job = _cimPath.getCimObjectPathFromOutputArgs(outArgs, SmisConstants.JOB);
ControllerServiceImpl.enqueueJob(
new QueueJob(new SmisBlockDeleteCGMirrorJob(job, storage.getId(), taskCompleter)));
} catch (Exception e) {
_log.error("Problem making SMI-S call: ", e);
ServiceError serviceError =
DeviceControllerErrors.smis.unableToCallStorageProvider(e.getMessage());
taskCompleter.error(_dbClient, serviceError);
}
}
@Override
public void createSingleVolumeMirror(
StorageSystem storage, URI mirror, Boolean createInactive, TaskCompleter taskCompleter)
throws DeviceControllerException {
_log.info("createSingleVolumeMirror operation START");
try {
BlockMirror mirrorObj = _dbClient.queryObject(BlockMirror.class, mirror);
StoragePool targetPool = _dbClient.queryObject(StoragePool.class, mirrorObj.getPool());
Volume source = _dbClient.queryObject(Volume.class, mirrorObj.getSource());
TenantOrg tenant = _dbClient.queryObject(TenantOrg.class, source.getTenant().getURI());
String tenantName = tenant.getLabel();
String targetLabelToUse =
_nameGenerator.generate(
tenantName,
mirrorObj.getLabel(),
mirror.toString(),
'-',
SmisConstants.MAX_VOLUME_NAME_LENGTH);
CIMObjectPath replicationSvcPath = _cimPath.getControllerReplicationSvcPath(storage);
CIMArgument[] inArgs = null;
if (storage.checkIfVmax3()) {
CIMObjectPath volumeGroupPath = _helper.getVolumeGroupPath(storage, source, targetPool);
CIMInstance replicaSettingData = getDefaultReplicationSettingData(storage);
inArgs =
_helper.getCreateElementReplicaMirrorInputArguments(
storage,
source,
targetPool,
createInactive,
targetLabelToUse,
volumeGroupPath,
replicaSettingData);
} else {
inArgs =
_helper.getCreateElementReplicaMirrorInputArguments(
storage, source, targetPool, createInactive, targetLabelToUse);
}
CIMArgument[] outArgs = new CIMArgument[5];
_helper.invokeMethod(
storage, replicationSvcPath, SmisConstants.CREATE_ELEMENT_REPLICA, inArgs, outArgs);
CIMObjectPath job = _cimPath.getCimObjectPathFromOutputArgs(outArgs, SmisConstants.JOB);
if (job != null) {
ControllerServiceImpl.enqueueJob(
new QueueJob(
new SmisBlockCreateMirrorJob(
job, storage.getId(), !createInactive, taskCompleter)));
// Resynchronizing state applies to the initial copy as well as future
// re-synchronization's.
mirrorObj.setSyncState(SynchronizationState.RESYNCHRONIZING.toString());
_dbClient.persistObject(mirrorObj);
}
} catch (final InternalException e) {
_log.info("Problem making SMI-S call: ", e);
taskCompleter.error(_dbClient, e);
} catch (Exception e) {
_log.info("Problem making SMI-S call: ", e);
ServiceError serviceError =
DeviceControllerErrors.smis.unableToCallStorageProvider(e.getMessage());
taskCompleter.error(_dbClient, serviceError);
}
}
@Override
public void doModifyVolumes(
StorageSystem storage,
StoragePool storagePool,
String opId,
List<Volume> volumes,
TaskCompleter taskCompleter)
throws DeviceControllerException {
StringBuilder logMsgBuilder =
new StringBuilder(
String.format(
"Modify Volume Start - Array:%s, Pool:%s",
storage.getSerialNumber(), storagePool.getNativeGuid()));
String systemObjectID = HDSUtils.getSystemObjectID(storage);
for (Volume volume : volumes) {
try {
HDSApiClient hdsApiClient =
hdsApiFactory.getClient(
HDSUtils.getHDSServerManagementServerInfo(storage),
storage.getSmisUserName(),
storage.getSmisPassword());
logMsgBuilder.append(
String.format(
"%nVolume:%s , IsThinlyProvisioned: %s, tieringPolicy: %s",
volume.getLabel(),
volume.getThinlyProvisioned(),
volume.getAutoTieringPolicyUri()));
LogicalUnit logicalUnit =
hdsApiClient.getLogicalUnitInfo(
systemObjectID, HDSUtils.getLogicalUnitObjectId(volume.getNativeId(), storage));
String policyName = ControllerUtils.getAutoTieringPolicyName(volume.getId(), dbClient);
String autoTierPolicyName = null;
if (policyName.equals(Constants.NONE)) {
autoTierPolicyName = null;
} else {
autoTierPolicyName =
HitachiTieringPolicy.getPolicy(
policyName.replaceAll(
HDSConstants.SLASH_OPERATOR, HDSConstants.UNDERSCORE_OPERATOR))
.getKey();
}
if (null != logicalUnit
&& null != logicalUnit.getLdevList()
&& !logicalUnit.getLdevList().isEmpty()) {
Iterator<LDEV> ldevItr = logicalUnit.getLdevList().iterator();
if (ldevItr.hasNext()) {
LDEV ldev = ldevItr.next();
String asyncMessageId =
hdsApiClient.modifyThinVolumeTieringPolicy(
systemObjectID,
logicalUnit.getObjectID(),
ldev.getObjectID(),
autoTierPolicyName);
if (null != asyncMessageId) {
HDSJob modifyHDSJob =
new HDSModifyVolumeJob(
asyncMessageId,
volume.getStorageController(),
taskCompleter,
HDSModifyVolumeJob.VOLUME_MODIFY_JOB);
ControllerServiceImpl.enqueueJob(new QueueJob(modifyHDSJob));
}
}
} else {
String errorMsg = String.format("No LDEV's found for volume: %s", volume.getId());
log.info(errorMsg);
ServiceError serviceError =
DeviceControllerErrors.hds.methodFailed("doModifyVolumes", errorMsg);
taskCompleter.error(dbClient, serviceError);
}
} catch (final InternalException e) {
log.error("Problem in doModifyVolumes: ", e);
taskCompleter.error(dbClient, e);
} catch (final Exception e) {
log.error("Problem in doModifyVolumes: ", e);
ServiceError serviceError =
DeviceControllerErrors.hds.methodFailed("doModifyVolumes", e.getMessage());
taskCompleter.error(dbClient, serviceError);
}
}
}