@Override public void processResult(Operation operation, Object resultObj, Map<String, Object> keyMap) throws BaseCollectionException { EnumerateResponse<CIMInstance> volumeInstanceChunks = (EnumerateResponse<CIMInstance>) resultObj; WBEMClient client = SMICommunicationInterface.getCIMClient(keyMap); _dbClient = (DbClient) keyMap.get(Constants.dbClient); _updateVolumes = new ArrayList<Volume>(); _updateSnapShots = new ArrayList<BlockSnapshot>(); _updateMirrors = new ArrayList<BlockMirror>(); CloseableIterator<CIMInstance> volumeInstances = null; try { _metaVolumeViewPaths = (List<CIMObjectPath>) keyMap.get(Constants.META_VOLUMES_VIEWS); if (_metaVolumeViewPaths == null) { _metaVolumeViewPaths = new ArrayList<CIMObjectPath>(); keyMap.put(Constants.META_VOLUMES_VIEWS, _metaVolumeViewPaths); } // create empty place holder list for meta volume paths (cannot define this in xml) List<CIMObjectPath> metaVolumePaths = (List<CIMObjectPath>) keyMap.get(Constants.META_VOLUMES); if (metaVolumePaths == null) { keyMap.put(Constants.META_VOLUMES, new ArrayList<CIMObjectPath>()); } CIMObjectPath storagePoolPath = getObjectPathfromCIMArgument(_args); volumeInstances = volumeInstanceChunks.getResponses(); processVolumes(volumeInstances, keyMap); while (!volumeInstanceChunks.isEnd()) { _logger.info("Processing Next Volume Chunk of size {}", BATCH_SIZE); volumeInstanceChunks = client.getInstancesWithPath( storagePoolPath, volumeInstanceChunks.getContext(), new UnsignedInteger32(BATCH_SIZE)); processVolumes(volumeInstanceChunks.getResponses(), keyMap); } // if list empty, this method returns back immediately. // partition size might not be used in this context, as batch size < partition size. // TODO metering might need some extra work to push volumes in batches, hence not changing // this method // signature _partitionManager.updateInBatches( _updateVolumes, getPartitionSize(keyMap), _dbClient, VOLUME); _partitionManager.updateInBatches( _updateSnapShots, getPartitionSize(keyMap), _dbClient, BLOCK_SNAPSHOT); _partitionManager.updateInBatches( _updateMirrors, getPartitionSize(keyMap), _dbClient, BLOCK_MIRROR); } catch (Exception e) { _logger.error("Processing Volumes and Snapshots failed", e); } finally { _updateVolumes = null; _updateSnapShots = null; _updateMirrors = null; if (null != volumeInstances) { volumeInstances.close(); } } }
// For VMAX V3 only for now public CIMInstance getDefaultReplicationSettingData(StorageSystem storage) throws WBEMException { CIMInstance defaultInstance = null; CloseableIterator<CIMInstance> repSvcCapIter = null; try { repSvcCapIter = _helper.getAssociatorInstances( storage, _cimPath.getControllerReplicationSvcPath(storage), null, _cimPath.prefixWithParamName(SmisConstants.REPLICATION_SERVICE_CAPABILTIES), null, null, null); if (repSvcCapIter != null && repSvcCapIter.hasNext()) { CIMInstance instance = repSvcCapIter.next(); CIMArgument[] in = _helper.getDefaultReplicationSettingDataInputArgumentsForLocalMirror(); CIMArgument[] out = new CIMArgument[5]; _helper.invokeMethod( storage, instance.getObjectPath(), SmisConstants.GET_DEFAULT_REPLICATION_SETTING_DATA, in, out); defaultInstance = (CIMInstance) _cimPath.getFromOutputArgs(out, SmisConstants.DEFAULT_INSTANCE); } } finally { if (repSvcCapIter != null) { repSvcCapIter.close(); } } return defaultInstance; }
@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 processResult(Operation operation, Object resultObj, Map<String, Object> keyMap) throws BaseCollectionException { CloseableIterator<CIMInstance> volumeInstances = null; try { _dbClient = (DbClient) keyMap.get(Constants.dbClient); WBEMClient client = (WBEMClient) keyMap.get(Constants._cimClient); _unManagedVolumesUpdate = new ArrayList<UnManagedVolume>(); CIMObjectPath storagePoolPath = getObjectPathfromCIMArgument(_args); String poolNativeGuid = NativeGUIDGenerator.generateNativeGuidForPool(storagePoolPath); StoragePool pool = checkStoragePoolExistsInDB(poolNativeGuid, _dbClient); if (pool == null) { _logger.error( "Skipping unmanaged volume discovery of Access Sattes as the storage pool with path {} doesn't exist in ViPR", storagePoolPath.toString()); return; } EnumerateResponse<CIMInstance> volumeInstanceChunks = (EnumerateResponse<CIMInstance>) resultObj; volumeInstances = volumeInstanceChunks.getResponses(); processVolumes(volumeInstances, keyMap, operation); while (!volumeInstanceChunks.isEnd()) { _logger.debug("Processing Next Volume Chunk of size {}", BATCH_SIZE); volumeInstanceChunks = client.getInstancesWithPath( storagePoolPath, volumeInstanceChunks.getContext(), new UnsignedInteger32(BATCH_SIZE)); processVolumes(volumeInstanceChunks.getResponses(), keyMap, operation); } if (null != _unManagedVolumesUpdate && _unManagedVolumesUpdate.size() > 0) { _partitionManager.updateInBatches( _unManagedVolumesUpdate, getPartitionSize(keyMap), _dbClient, "UnManagedVolume"); } } catch (Exception e) { _logger.error("Discovering Access States of unManaged Volumes failed", e); } finally { volumeInstances.close(); } }
private String[] getVMAX3PoolDriveTypes(StorageSystem storageDevice, CIMInstance poolInstance) { Set<String> driveTypes = new HashSet<String>(); CloseableIterator<CIMInstance> virtualProvisioningPoolItr = null; _logger.info( "Trying to get all VirtualProvisioningPools for storage pool {}", poolInstance.getProperty(SmisConstants.CP_INSTANCE_ID).toString()); CIMObjectPath poolPath = poolInstance.getObjectPath(); try { virtualProvisioningPoolItr = getAssociatorInstances( poolPath, null, SmisConstants.SYMM_VIRTUAL_PROVISIONING_POOL, null, null, SmisConstants.PS_V3_VIRTUAL_PROVISIONING_POOL_PROPERTIES); while (virtualProvisioningPoolItr != null && virtualProvisioningPoolItr.hasNext()) { CIMInstance virtualProvisioningPoolInstance = virtualProvisioningPoolItr.next(); String diskDriveType = CIMPropertyFactory.getPropertyValue( virtualProvisioningPoolInstance, SmisConstants.CP_DISK_DRIVE_TYPE); if (diskDriveType != null) { driveTypes.add(diskDriveType); } } } catch (WBEMException e) { _logger.error("Error getting VirtualProvisioningPools", e); } finally { if (virtualProvisioningPoolItr != null) { virtualProvisioningPoolItr.close(); } } String[] driveTypesArr = driveTypes.toArray(new String[driveTypes.size()]); return driveTypesArr; }
@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(); } } }
@Override public void processResult(Operation operation, Object resultObj, Map<String, Object> keyMap) throws BaseCollectionException { CloseableIterator<CIMInstance> volumeInstances = null; EnumerateResponse<CIMInstance> volumeInstanceChunks = null; CIMObjectPath storagePoolPath = null; WBEMClient client = null; try { _dbClient = (DbClient) keyMap.get(Constants.dbClient); client = (WBEMClient) keyMap.get(Constants._cimClient); _profile = (AccessProfile) keyMap.get(Constants.ACCESSPROFILE); Map<String, VolHostIOObject> exportedVolumes = (Map<String, VolHostIOObject>) keyMap.get(Constants.EXPORTED_VOLUMES); Set<String> existingVolumesInCG = (Set<String>) keyMap.get(Constants.VOLUMES_PART_OF_CG); @SuppressWarnings("unchecked") Map<String, RemoteMirrorObject> volumeToRAGroupMap = (Map<String, RemoteMirrorObject>) keyMap.get(Constants.UN_VOLUME_RAGROUP_MAP); @SuppressWarnings("unchecked") Map<String, LocalReplicaObject> volumeToLocalReplicaMap = (Map<String, LocalReplicaObject>) keyMap.get(Constants.UN_VOLUME_LOCAL_REPLICA_MAP); @SuppressWarnings("unchecked") Map<String, Set<String>> vmax2ThinPoolToBoundVolumesMap = (Map<String, Set<String>>) keyMap.get(Constants.VMAX2_THIN_POOL_TO_BOUND_VOLUMES); Set<String> boundVolumes = null; storagePoolPath = getObjectPathfromCIMArgument(_args); String poolNativeGuid = NativeGUIDGenerator.generateNativeGuidForPool(storagePoolPath); StoragePool pool = checkStoragePoolExistsInDB(poolNativeGuid, _dbClient); if (pool == null) { _logger.error( "Skipping unmanaged volume discovery as the storage pool with path {} doesn't exist in ViPR", storagePoolPath.toString()); return; } StorageSystem system = _dbClient.queryObject(StorageSystem.class, _profile.getSystemId()); _unManagedVolumesInsert = new ArrayList<UnManagedVolume>(); _unManagedVolumesUpdate = new ArrayList<UnManagedVolume>(); _unManagedExportMasksUpdate = new ArrayList<UnManagedExportMask>(); // get bound volumes list for VMAX2 Thin pools boundVolumes = vmax2ThinPoolToBoundVolumesMap.get(storagePoolPath.toString()); Set<String> poolSupportedSLONames = (Set<String>) keyMap.get(poolNativeGuid); _logger.debug("Pool Supporting SLO Names:{}", poolSupportedSLONames); _metaVolumeViewPaths = (List<CIMObjectPath>) keyMap.get(Constants.META_VOLUMES_VIEWS); if (_metaVolumeViewPaths == null) { _metaVolumeViewPaths = new ArrayList<CIMObjectPath>(); keyMap.put(Constants.META_VOLUMES_VIEWS, _metaVolumeViewPaths); } // create empty place holder list for meta volume paths (cannot // define this in xml) _metaVolumePaths = (List<CIMObjectPath>) keyMap.get(Constants.META_VOLUMES); if (_metaVolumePaths == null) { _metaVolumePaths = new ArrayList<CIMObjectPath>(); keyMap.put(Constants.META_VOLUMES, _metaVolumePaths); } _volumeToSpaceConsumedMap = (Map<String, String>) keyMap.get(Constants.VOLUME_SPACE_CONSUMED_MAP); // get VolumeInfo Object and inject Fast Policy Name. volumeInstanceChunks = (EnumerateResponse<CIMInstance>) resultObj; volumeInstances = volumeInstanceChunks.getResponses(); processVolumes( volumeInstances, keyMap, operation, pool, system, exportedVolumes, existingVolumesInCG, volumeToRAGroupMap, volumeToLocalReplicaMap, poolSupportedSLONames, boundVolumes); while (!volumeInstanceChunks.isEnd()) { _logger.info("Processing Next Volume Chunk of size {}", BATCH_SIZE); volumeInstanceChunks = client.getInstancesWithPath( storagePoolPath, volumeInstanceChunks.getContext(), new UnsignedInteger32(BATCH_SIZE)); processVolumes( volumeInstanceChunks.getResponses(), keyMap, operation, pool, system, exportedVolumes, existingVolumesInCG, volumeToRAGroupMap, volumeToLocalReplicaMap, poolSupportedSLONames, boundVolumes); } if (null != _unManagedVolumesUpdate && _unManagedVolumesUpdate.size() > 0) { _partitionManager.updateInBatches( _unManagedVolumesUpdate, getPartitionSize(keyMap), _dbClient, UNMANAGED_VOLUME); } if (null != _unManagedVolumesInsert && _unManagedVolumesInsert.size() > 0) { _partitionManager.insertInBatches( _unManagedVolumesInsert, getPartitionSize(keyMap), _dbClient, UNMANAGED_VOLUME); } if (null != _unManagedExportMasksUpdate && _unManagedExportMasksUpdate.size() > 0) { _partitionManager.updateInBatches( _unManagedExportMasksUpdate, getPartitionSize(keyMap), _dbClient, UNMANAGED_EXPORT_MASK); } performStorageUnManagedVolumeBookKeeping(pool.getId()); } catch (Exception e) { _logger.error("Processing Storage Volume Information failed :", e); } finally { _unManagedVolumesInsert = null; _unManagedVolumesUpdate = null; if (null != volumeInstances) { volumeInstances.close(); } if (null != volumeInstanceChunks) { try { client.closeEnumeration(storagePoolPath, volumeInstanceChunks.getContext()); } catch (Exception e) { } } } }
/** * Called to update the job status when the volume expand job completes. * * @param jobContext The job context. */ public void updateStatus(JobContext jobContext) throws Exception { CloseableIterator<CIMObjectPath> associatorIterator = null; CloseableIterator<CIMInstance> instanceIterator = null; JobStatus jobStatus = getJobStatus(); try { if (jobStatus == JobStatus.IN_PROGRESS) { return; } DbClient dbClient = jobContext.getDbClient(); CIMConnectionFactory cimConnectionFactory = jobContext.getCimConnectionFactory(); WBEMClient client = getWBEMClient(dbClient, cimConnectionFactory); // If terminal state update storage pool capacity and remove reservation for volume capacity // from pool's reserved capacity map. if (jobStatus == JobStatus.SUCCESS || jobStatus == JobStatus.FAILED || jobStatus == JobStatus.FATAL_ERROR) { SmisUtils.updateStoragePoolCapacity(dbClient, client, _storagePoolURI); StoragePool pool = dbClient.queryObject(StoragePool.class, _storagePoolURI); StringMap reservationMap = pool.getReservedCapacityMap(); URI volumeId = getTaskCompleter().getId(); // remove from reservation map reservationMap.remove(volumeId.toString()); dbClient.persistObject(pool); } String opId = getTaskCompleter().getOpId(); StringBuilder logMsgBuilder = new StringBuilder( String.format( "Updating status of job %s to %s, task: %s", this.getJobName(), jobStatus.name(), opId)); if (jobStatus == JobStatus.SUCCESS) { VolumeExpandCompleter taskCompleter = (VolumeExpandCompleter) getTaskCompleter(); Volume volume = dbClient.queryObject(Volume.class, taskCompleter.getId()); // set requested capacity volume.setCapacity(taskCompleter.getSize()); // set meta related properties volume.setTotalMetaMemberCapacity(taskCompleter.getTotalMetaMembersSize()); volume.setMetaMemberCount(taskCompleter.getMetaMemberCount()); volume.setMetaMemberSize(taskCompleter.getMetaMemberSize()); volume.setIsComposite(taskCompleter.isComposite()); volume.setCompositionType(taskCompleter.getMetaVolumeType()); // set provisioned capacity associatorIterator = client.associatorNames(getCimJob(), null, SmisConstants.CIM_STORAGE_VOLUME, null, null); if (associatorIterator.hasNext()) { CIMObjectPath volumePath = associatorIterator.next(); CIMInstance volumeInstance = client.getInstance(volumePath, true, false, null); if (volumeInstance != null) { CIMProperty consumableBlocks = volumeInstance.getProperty(SmisConstants.CP_CONSUMABLE_BLOCKS); CIMProperty blockSize = volumeInstance.getProperty(SmisConstants.CP_BLOCK_SIZE); // calculate provisionedCapacity = consumableBlocks * block size Long provisionedCapacity = Long.valueOf(consumableBlocks.getValue().toString()) * Long.valueOf(blockSize.getValue().toString()); volume.setProvisionedCapacity(provisionedCapacity); } // set allocated capacity instanceIterator = client.referenceInstances( volumePath, SmisConstants.CIM_ALLOCATED_FROM_STORAGEPOOL, null, false, SmisConstants.PS_SPACE_CONSUMED); if (instanceIterator.hasNext()) { CIMInstance allocatedFromStoragePoolPath = instanceIterator.next(); CIMProperty spaceConsumed = allocatedFromStoragePoolPath.getProperty(SmisConstants.CP_SPACE_CONSUMED); if (null != spaceConsumed) { volume.setAllocatedCapacity(Long.valueOf(spaceConsumed.getValue().toString())); } } } logMsgBuilder.append( String.format( "%n Capacity: %s, Provisioned capacity: %s, Allocated Capacity: %s", volume.getCapacity(), volume.getProvisionedCapacity(), volume.getAllocatedCapacity())); if (volume.getIsComposite()) { logMsgBuilder.append( String.format( "%n Is Meta: %s, Total meta member capacity: %s, Meta member count %s, Meta member size: %s", volume.getIsComposite(), volume.getTotalMetaMemberCapacity(), volume.getMetaMemberCount(), volume.getMetaMemberSize())); } _log.info(logMsgBuilder.toString()); // Reset list of meta member volumes in the volume if (volume.getMetaVolumeMembers() != null) { volume.getMetaVolumeMembers().clear(); } StorageSystem storageSystem = dbClient.queryObject(StorageSystem.class, volume.getStorageController()); // set the RP tag on the volume if the volume is RP protected if (volume.checkForRp() && storageSystem.getSystemType() != null && storageSystem .getSystemType() .equalsIgnoreCase(DiscoveredDataObject.Type.vmax.toString())) { SmisCommandHelper helper = jobContext.getSmisCommandHelper(); List<CIMObjectPath> volumePathList = new ArrayList<CIMObjectPath>(); volumePathList.add(helper.getVolumeMember(storageSystem, volume)); helper.setRecoverPointTag(storageSystem, volumePathList, true); } dbClient.persistObject(volume); // Reset list of meta members native ids in WF data (when meta is created meta members are // removed from array) WorkflowService.getInstance().storeStepData(opId, new ArrayList<String>()); } } catch (Exception e) { _log.error("Caught an exception while trying to updateStatus for SmisVolumeExpandJob", e); setPostProcessingErrorStatus( "Encountered an internal error during volume expand job status processing : " + e.getMessage()); } finally { _metaVolumeTaskCompleter.setLastStepStatus(jobStatus); if (associatorIterator != null) { associatorIterator.close(); } if (instanceIterator != null) { instanceIterator.close(); } super.updateStatus(jobContext); } }
/** {@inheritDoc} */ @Override public void updateStatus(JobContext jobContext) throws Exception { JobStatus jobStatus = getJobStatus(); CloseableIterator<CIMObjectPath> volumeIter = null; try { DbClient dbClient = jobContext.getDbClient(); TaskCompleter completer = getTaskCompleter(); BlockSnapshot snapshot = dbClient.queryObject(BlockSnapshot.class, _snapshotURI); if (jobStatus == JobStatus.IN_PROGRESS) { return; } if (jobStatus == JobStatus.SUCCESS) { s_logger.info( "Post-processing successful link snapshot session target {} for task {}", snapshot.getId(), completer.getOpId()); // Get the snapshot session to which the target is being linked. BlockSnapshotSession snapSession = dbClient.queryObject(BlockSnapshotSession.class, completer.getId()); // Get the snapshot device ID and set it against the BlockSnapshot object. BlockObject sourceObj = BlockObject.fetch(dbClient, snapshot.getParent().getURI()); CIMConnectionFactory cimConnectionFactory = jobContext.getCimConnectionFactory(); WBEMClient client = getWBEMClient(dbClient, cimConnectionFactory); volumeIter = client.associatorNames(getCimJob(), null, SmisConstants.CIM_STORAGE_VOLUME, null, null); while (volumeIter.hasNext()) { // Get the sync volume native device id CIMObjectPath volumePath = volumeIter.next(); s_logger.info("volumePath: {}", volumePath.toString()); CIMInstance volume = client.getInstance(volumePath, false, false, null); String volumeDeviceId = volumePath.getKey(SmisConstants.CP_DEVICE_ID).getValue().toString(); s_logger.info("volumeDeviceId: {}", volumeDeviceId); if (volumeDeviceId.equals(sourceObj.getNativeId())) { // Don't want the source, we want the linked target. continue; } String volumeElementName = CIMPropertyFactory.getPropertyValue(volume, SmisConstants.CP_ELEMENT_NAME); s_logger.info("volumeElementName: {}", volumeElementName); String volumeWWN = CIMPropertyFactory.getPropertyValue(volume, SmisConstants.CP_WWN_NAME); s_logger.info("volumeWWN: {}", volumeWWN); String volumeAltName = CIMPropertyFactory.getPropertyValue(volume, SmisConstants.CP_NAME); s_logger.info("volumeAltName: {}", volumeAltName); StorageSystem system = dbClient.queryObject(StorageSystem.class, getStorageSystemURI()); snapshot.setNativeId(volumeDeviceId); snapshot.setNativeGuid(NativeGUIDGenerator.generateNativeGuid(system, snapshot)); snapshot.setDeviceLabel(volumeElementName); snapshot.setInactive(false); snapshot.setIsSyncActive(Boolean.TRUE); snapshot.setCreationTime(Calendar.getInstance()); snapshot.setWWN(volumeWWN.toUpperCase()); snapshot.setAlternateName(volumeAltName); snapshot.setSettingsInstance(snapSession.getSessionInstance()); commonSnapshotUpdate( snapshot, volume, client, system, sourceObj.getNativeId(), volumeDeviceId, false, dbClient); s_logger.info( String.format( "For target volume path %1$s, going to set blocksnapshot %2$s nativeId to %3$s (%4$s). Associated volume is %5$s (%6$s)", volumePath.toString(), snapshot.getId().toString(), volumeDeviceId, volumeElementName, sourceObj.getNativeId(), sourceObj.getDeviceLabel())); dbClient.updateObject(snapshot); } } else if (jobStatus == JobStatus.FAILED || jobStatus == JobStatus.FATAL_ERROR) { s_logger.info( "Failed to link snapshot session target {} for task {}", snapshot.getId(), completer.getOpId()); snapshot.setInactive(true); dbClient.updateObject(snapshot); } } catch (Exception e) { setPostProcessingErrorStatus( "Encountered an internal error in link snapshot session target job status processing: " + e.getMessage()); s_logger.error( "Encountered an internal error in link snapshot session target job status processing", e); } finally { if (volumeIter != null) { volumeIter.close(); } super.updateStatus(jobContext); } }
private void processVolumes( CloseableIterator<CIMInstance> volumeInstances, Map<String, Object> keyMap) throws IOException { List<CIMObjectPath> metaVolumes = new ArrayList<>(); while (volumeInstances.hasNext()) { CIMInstance volumeViewInstance = volumeInstances.next(); String nativeGuid = getVolumeViewNativeGuid(volumeViewInstance.getObjectPath(), keyMap); if (isSnapShot(volumeViewInstance)) { BlockSnapshot snapShot = checkSnapShotExistsInDB(nativeGuid, _dbClient); if (null == snapShot || snapShot.getInactive()) { _logger.debug("Skipping Snapshot, as its not being managed in Bourne"); continue; } updateBlockSnapShot(volumeViewInstance, snapShot, keyMap); if (_updateSnapShots.size() > BATCH_SIZE) { _partitionManager.updateInBatches( _updateSnapShots, getPartitionSize(keyMap), _dbClient, BLOCK_SNAPSHOT); _updateSnapShots.clear(); } } else if (isMirror(volumeViewInstance)) { BlockMirror mirror = checkBlockMirrorExistsInDB(nativeGuid, _dbClient); if (null == mirror || mirror.getInactive()) { _logger.debug("Skipping Mirror, as its not being managed in Bourne"); continue; } updateBlockMirror(volumeViewInstance, mirror, keyMap); if (_updateMirrors.size() > BATCH_SIZE) { _partitionManager.updateInBatches( _updateMirrors, getPartitionSize(keyMap), _dbClient, BLOCK_MIRROR); _updateMirrors.clear(); } } else { Volume storageVolume = checkStorageVolumeExistsInDB(nativeGuid, _dbClient); if (null == storageVolume || storageVolume.getInactive()) { continue; } _logger.debug("Volume managed by Bourne :" + storageVolume.getNativeGuid()); updateStorageVolume(volumeViewInstance, storageVolume, keyMap); // Check if this is a meta volume and if we need to set missing meta volume related // properties. // This is applicable for meta volumes discovered as unmanaged volumes and ingested prior to // vipr controller 2.2 . if (storageVolume.getIsComposite() && (storageVolume.getCompositionType() == null || storageVolume.getCompositionType().isEmpty())) { // meta volume is missing meta related data. Need to discover this data and set in the // volume. metaVolumes.add(volumeViewInstance.getObjectPath()); _logger.info( "Found meta volume in vipr with missing data: {}, name: {}", volumeViewInstance.getObjectPath(), storageVolume.getLabel()); } } if (_updateVolumes.size() > BATCH_SIZE) { _partitionManager.updateInBatches( _updateVolumes, getPartitionSize(keyMap), _dbClient, VOLUME); _updateVolumes.clear(); } } // Add meta volumes to the keyMap try { if (metaVolumes != null && !metaVolumes.isEmpty()) { _metaVolumeViewPaths.addAll(metaVolumes); _logger.info("Added {} meta volumes.", metaVolumes.size()); } } catch (Exception ex) { _logger.error("Processing meta volumes.", ex); } }
/** * Adds the computer system to DB and determines what path to go based on the * CIM_ComputerSystem.dedicated * * @param cc * @param cim_class */ @SuppressWarnings("unchecked") public void getComputerSystem(WBEMClient cc, String cim_class, String namespace) { if (cc != null) { try { this.cim_DT = new CIM_DataTypes(); CIMObjectPath cop = new CIMObjectPath(cim_class, namespace); PerformanceMetrics pm = new PerformanceMetrics(); long statInstanceMean = pm.enumerationTime(cc, cop); CloseableIterator computerSystemEnum = cc.enumerateInstances(cop, true, false, false, null); while (computerSystemEnum.hasNext()) { this.cs = new CIM_ComputerSystem(); Calendar statCalBefore = Calendar.getInstance(); long msBeforeforTotalDisc = statCalBefore.getTimeInMillis(); this.cs.setInstanceTimeMean(Long.valueOf(statInstanceMean)); CIMInstance ci = (CIMInstance) computerSystemEnum.next(); int instancePropertySize = ci.getPropertyCount(); this.cs.setInstancePropertySize(instancePropertySize); CIMObjectPath instanceCOP = ci.getObjectPath(); CIMProperty cp = instanceCOP.getKey("Name"); this.enumerationNameKey = cp.getValue().toString(); // this.logger.info("Name = " + this.enumerationNameKey); // this.logger.debug(this.CN + " computerSystemName " + this.enumerationNameKey); String enumerationNameKey = null; String enumerationCreationClassNameKey = null; String elementName = "Not Available"; String operationalStatus = null; String statusDescriptions = null; String description = null; int enabledState = 0; enumerationNameKey = cp.getValue().toString(); cp = instanceCOP.getKey("CreationClassName"); enumerationCreationClassNameKey = cp.getValue().toString(); // this.logger.info("CreationClassName = " + enumerationCreationClassNameKey); String caption = ""; try { caption = this.cim_DT.getCIMInstancePropertyValueString(ci, "Caption"); } catch (Exception e) { caption = "Not Available"; } // this.logger.info("Caption = " + caption); String description1 = ""; try { description1 = this.cim_DT.getCIMInstancePropertyValueString(ci, "Description"); } catch (Exception e) { description1 = "Not Available"; } // this.logger.info("Description = " + description1); try { elementName = this.cim_DT.getCIMInstancePropertyValueString(ci, "ElementName"); } catch (Exception e) { elementName = "Not Available"; } // this.logger.info("ElementName = " + elementName); int requestedState = 0; try { requestedState = this.cim_DT .getCIMInstancePropertyUnsignedInt16Value(ci, "RequestedState") .intValue(); } catch (Exception localException1) { } int enabledDefault = 0; try { enabledDefault = this.cim_DT .getCIMInstancePropertyUnsignedInt16Value(ci, "EnabledDefault") .intValue(); } catch (Exception localException2) { } String nameFormat = null; try { nameFormat = this.cim_DT.getCIMInstancePropertyValueString(ci, "NameFormat"); } catch (Exception e) { // this.logger.error(this.CN, e); } try { UnsignedInteger16[] operationalStatusArray = this.cim_DT.getUint16ArrayPropertyValue(ci, "OperationalStatus"); int operationalStatusSize = 0; if (operationalStatusArray != null) { operationalStatusSize = operationalStatusArray.length; } // this.logger.debug("operationalStatusSize = " + operationalStatusSize); Vector operationalStatusString = new Vector(); for (int x = 0; x < operationalStatusSize; ++x) { UnsignedInteger16 opstsint = operationalStatusArray[x]; int operationalStatusInt = Integer.parseInt(opstsint.toString()); String operationalStatusValue = this.cim_Q.operationalStatus(operationalStatusInt); operationalStatusString.add(operationalStatusValue); } String operationalStatusFinal = this.cim_Q.buildStringFromVector(operationalStatusString, ","); this.cs.setOperationalStatus(operationalStatusFinal); } catch (Exception e) { // this.logger.error("OperationalStatus", e); this.cs.setOperationalStatus("Unknown"); } String statusDescriptionsFinal = null; try { String[] statusDescriptionsArray = this.cim_DT.getStringArrayPropertyValue(ci, "StatusDescriptions"); int statusDescriptionsSize = 0; if (statusDescriptionsArray != null) { statusDescriptionsSize = statusDescriptionsArray.length; } // this.logger.debug("statusDescriptionsSize = " + statusDescriptionsSize); Vector statusDescriptionsString = new Vector(); for (int y = 0; y < statusDescriptionsSize; ++y) { String statusDescriptionsValue = statusDescriptionsArray[y].toString(); statusDescriptionsString.add(statusDescriptionsValue); } statusDescriptionsFinal = this.cim_Q.buildStringFromVector(statusDescriptionsString, ","); } catch (Exception e) { // this.logger.error("StatusDescriptions", e); } String otherIdentifyingInfoFinal = null; try { String[] otherIdentifyingInfoArray = this.cim_DT.getStringArrayPropertyValue(ci, "OtherIdentifyingInfo"); int otherIdentifyingInfoSize = 0; if (otherIdentifyingInfoArray != null) { otherIdentifyingInfoSize = otherIdentifyingInfoArray.length; } // this.logger.debug("otherIdentifyingInfoSize = " + otherIdentifyingInfoSize); Vector otherIdentifyingInfoString = new Vector(); for (int y = 0; y < otherIdentifyingInfoSize; ++y) { String otherIdentifyingInfoValue = otherIdentifyingInfoArray[y].toString(); otherIdentifyingInfoString.add(otherIdentifyingInfoValue); } otherIdentifyingInfoFinal = this.cim_Q.buildStringFromVector(otherIdentifyingInfoString, ","); // this.logger.info("OtherIdentifyingInfo = " + otherIdentifyingInfoFinal); } catch (Exception e) { // this.logger.error("OtherIdentifyingInfo", e); } String identifyingDescriptionsFinal = null; try { String[] identifyingDescriptionsArray = this.cim_DT.getStringArrayPropertyValue(ci, "IdentifyingDescriptions"); int identifyingDescriptionsSize = 0; if (identifyingDescriptionsArray != null) { identifyingDescriptionsSize = identifyingDescriptionsArray.length; } // this.logger.debug("identifyingDescriptinsSize = " + identifyingDescriptionsSize); Vector identifyingDescriptionsString = new Vector(); for (int y = 0; y < identifyingDescriptionsSize; ++y) { String identfyingDescriptionsValue = identifyingDescriptionsArray[y].toString(); identifyingDescriptionsString.add(identfyingDescriptionsValue); } identifyingDescriptionsFinal = this.cim_Q.buildStringFromVector(identifyingDescriptionsString, ","); // this.logger.info("IdentifyingDescriptions = " + identifyingDescriptionsFinal); } catch (Exception e) { // this.logger.error("IdentifyingDescriptions", e); } try { enabledState = Integer.parseInt( this.cim_DT .getCIMInstancePropertyUnsignedInt16Value(ci, "enabledState") .toString()); } catch (Exception e) { // this.logger.warn("enabledState does not exist for CIMOM = " + enumerationNameKey); } // this.logger.debug("description = " + description + // " operationalStatus = " + operationalStatus + " statusDescriptions = " + // statusDescriptions + // " enabledState = " + enabledState); this.cs.setName(enumerationNameKey); this.cs.setCreationClassName(enumerationCreationClassNameKey); this.cs.setCaption(caption); this.cs.setDescription(description1); this.cs.setRequestedState(requestedState); this.cs.setElementName(elementName); this.cs.setStatusDescriptions(statusDescriptionsFinal); this.cs.setEnabledDefault(enabledDefault); this.cs.setNameFormat(nameFormat); this.cs.setEnabledState(enabledState); Calendar cal = Calendar.getInstance(); Date now = new Date(); this.cs.setTimeOfCreation(cal); this.cs.setTimeOfCreationString( DateFormat.getDateTimeInstance(3, 3).format(now).toString()); // Integer cimom_Id_Integer = new Integer(cimom_Id); // this.cs.setCimomID(cimom_Id_Integer); int dedicatedSize = 0; UnsignedInteger16 dedicatedFill = new UnsignedInteger16("555"); UnsignedInteger16[] dedicated = {dedicatedFill}; try { dedicated = this.cim_DT.getUint16ArrayPropertyValue(ci, "Dedicated"); if (dedicated != null) dedicatedSize = dedicated.length; } catch (Exception e) { // this.logger.error(this.CN, e); } // this.logger.info("dedicatedSize = " + dedicatedSize); int intDedicated1 = 0; int intDedicated2 = 0; int intDedicated3 = 0; int intDedicated4 = 0; int intDedicated5 = 0; this.cs.setDedicated("555"); String dedicated1; if (dedicatedSize == 1) { dedicated1 = dedicated[0].toString(); intDedicated1 = Integer.parseInt(dedicated1); this.cs.setDedicated(dedicated1); // this.logger.info("DedicateFilter1 = " + intDedicated1); } else { String dedicated2; if (dedicatedSize == 2) { dedicated1 = dedicated[0].toString(); intDedicated1 = Integer.parseInt(dedicated1); dedicated2 = dedicated[1].toString(); intDedicated2 = Integer.parseInt(dedicated2); this.cs.setDedicated(dedicated1 + "," + dedicated2); // this.logger.info("DedicateFilter1 = " + intDedicated1 + " DedicatedFilter2 = " + // intDedicated2); } else { String dedicated3; if (dedicatedSize == 3) { dedicated1 = dedicated[0].toString(); intDedicated1 = Integer.parseInt(dedicated1); dedicated2 = dedicated[1].toString(); intDedicated2 = Integer.parseInt(dedicated2); dedicated3 = dedicated[2].toString(); intDedicated3 = Integer.parseInt(dedicated3); this.cs.setDedicated(dedicated1 + "," + dedicated2 + "," + dedicated3); // this.logger.info("DedicateFilter1 = " + intDedicated1 + " DedicatedFilter2 = " + // intDedicated2 + " DedicatedFilter3 = " + intDedicated3); } else { String dedicated4; if (dedicatedSize == 4) { dedicated1 = dedicated[0].toString(); intDedicated1 = Integer.parseInt(dedicated1); dedicated2 = dedicated[1].toString(); intDedicated2 = Integer.parseInt(dedicated2); dedicated3 = dedicated[2].toString(); intDedicated3 = Integer.parseInt(dedicated3); dedicated4 = dedicated[3].toString(); intDedicated4 = Integer.parseInt(dedicated4); this.cs.setDedicated( dedicated1 + "," + dedicated2 + "," + dedicated3 + "," + dedicated4); // this.logger.info("DedicateFilter1 = " + intDedicated1 + " DedicatedFilter2 = " // + intDedicated2 + " DedicateFilter3 = " + intDedicated3 + " DedicatedFilter4 = // " + intDedicated4); } else if (dedicatedSize == 5) { dedicated1 = dedicated[0].toString(); intDedicated1 = Integer.parseInt(dedicated1); dedicated2 = dedicated[1].toString(); intDedicated2 = Integer.parseInt(dedicated2); dedicated3 = dedicated[2].toString(); intDedicated3 = Integer.parseInt(dedicated3); dedicated4 = dedicated[3].toString(); intDedicated4 = Integer.parseInt(dedicated4); String dedicated5 = dedicated[4].toString(); intDedicated5 = Integer.parseInt(dedicated5); this.cs.setDedicated( dedicated1 + "," + dedicated2 + "," + dedicated3 + "," + dedicated4 + "," + dedicated5); // this.logger.info("DedicateFilter1 = " + intDedicated1 + " DedicatedFilter2 = " // + intDedicated2 + " DedicateFilter3 = " + intDedicated3 + " DedicatedFilter4 = // " + intDedicated4 + " DedicatedFilter5 = " + intDedicated5); } } } } // this.logger.info("Dedicated = " + this.cs.getDedicated()); // this.logger.info("------------------------------------------COMPUTER SYSTEM // END------------------------------------------"); try { CloseableIterator cim_PhysicalPackageEnum = cc.associators( instanceCOP, "CIM_SystemPackaging", "CIM_PhysicalPackage", "Dependent", "Antecedent", false, false, null); this.fujitsuE6000Model = false; this.ibm511Model = false; this.netappManufacturer = false; while (cim_PhysicalPackageEnum.hasNext()) { // this.logger.debug(this.CN + " Enumerated PhysicalPackage and has more elements"); CIMInstance cim_PhysicalPackageCI = (CIMInstance) cim_PhysicalPackageEnum.next(); this.fujitsuE6000Model = false; this.ibm511Model = false; if (cim_PhysicalPackageEnum == null) continue; try { this.model = this.cim_DT.getCIMInstancePropertyValueString(cim_PhysicalPackageCI, "Model"); this.fujitsuE6000Model = this.model.startsWith("E6000"); this.ibm511Model = this.model.startsWith("511"); this.ibm921Model = this.model.startsWith("921"); this.ibm931Model = this.model.startsWith("931"); } catch (NullPointerException npe) { this.model = null; } try { this.manufacturer = this.cim_DT.getCIMInstancePropertyValueString( cim_PhysicalPackageCI, "Manufacturer"); this.netappManufacturer = this.manufacturer.startsWith("Network Appliance"); } catch (NullPointerException npe) { this.manufacturer = null; } } } catch (Exception e) { // this.logger.warn("No Physical Package for " + this.cs.getCreationClassName()); } if ((!(this.cs.getDedicated().equals("555"))) && (!(this.cs.getCreationClassName().equals("LSISSI_StorageProcessorSystem"))) && (!(this.cs.getCreationClassName().equals("HPEVA_StorageProcessorSystem"))) && (!(this.cs.getCreationClassName().equals("HITACHI_StorageProcessorSystem"))) && (!(this.cs.getCreationClassName().equals("Brocade_PhysicalComputerSystem"))) && (!(this.cs.getCreationClassName().equals("CISCO_LogicalComputerSystem"))) && (!(this.cs.getCreationClassName().equals("SunStorEdge_DSPStorageProcessorSystem"))) && (!(this.cs.getCreationClassName().equals("OpenWBEM_UnitaryComputerSystem"))) && (!(this.cs.getCreationClassName().equals("IBMTSSVC_IOGroup"))) && (!(this.cs.getCreationClassName().equals("HPMSA_ArrayController"))) && (((this.cs.getDedicated().equals("3,15")) || (this.cs.getDedicated().equals("15,3")) || (this.cs.getDedicated().equals("3")) || (this.cs.getDedicated().equals("0")) || (this.cs.getDedicated().equals("3,15,16,25")) || (this.cs.getDedicated().equals("3,15,16,21,25")) || (this.cs.getDedicated().equals("3,15,25")) || (this.cs.getDedicated().equals("15")) || (this.cs.getDedicated().equals("5")) || (this.cs.getDedicated().equals("3,22")) || (this.cs.getDedicated().equals("3,15,21")) || (this.cs.getDedicated().equals("15,21"))))) { // session.save(this.cs); /* String computerSystemID = session.getIdentifier(this.cs).toString(); Integer computerSystemIDp = Integer.valueOf(computerSystemID); setComputerSystemIDFinal(computerSystemIDp); */ // this.logger.debug("computerSystemIDp = " + computerSystemIDp); ///// && (computerSystemIDp != null) if ((enumerationNameKey != null) && (dedicated != null)) { // this.logger.info("Started Discovery For " + this.cs.getCreationClassName()); if (((intDedicated1 == 3) && (intDedicated2 == 15) && (intDedicated3 != 25)) || ((intDedicated1 == 15) && (intDedicated2 == 3) && (intDedicated3 != 25))) { if (this.cs.getCreationClassName().equals("Symm_StorageSystem")) { this.mapSymmDD = new MapSymmetrixDiskDrives(cc, instanceCOP, this.cs); } else { this.mapDD = new MapDiskDrives(cc, instanceCOP, this.cs); } this.mapIP = new MapInitiatorPorts(cc, instanceCOP, this.cs); if ((this.fujitsuE6000Model) || (this.ibm511Model) || (this.ibm921Model) || (this.ibm931Model) || (this.netappManufacturer)) { this.mapFujitsuFCP = new MapFCPortsFujitsuE6000(cc, instanceCOP, cs); } else { this.mapFCP = new MMapFCPorts(cc, instanceCOP, this.cs, ""); } this.mapV = new MMapVolumes(cc, instanceCOP, this.cs, ""); this.mapPP = new MapPhysicalPackages(cc, instanceCOP, this.cs); this.mapSI = new MapSoftwareIdentity(cc, instanceCOP, this.cs); this.mapAS = new MapArrayStats(cc, instanceCOP, this.cs); } else if ((intDedicated1 == 15) && (intDedicated2 == 21)) { this.mapFCP = new MMapFCPorts(cc, instanceCOP, this.cs, this.ftag); this.mapV = new MMapVolumes(cc, instanceCOP, this.cs, this.ftag); } else if (intDedicated1 == 0) { if (this.cs.getCreationClassName().equals("Linux_ComputerSystem")) { // this.logger.debug("Host For Linux"); // this.mapBase = new MapBase(session, cc, instanceCOP, // computerSystemIDp); // this.mapFSVol = new MapFSVol(session, cc, instanceCOP, // computerSystemIDp); // this.mapNetwork = new MapNetwork(session, cc, instanceCOP, // computerSystemIDp); } else { // this.logger.debug("Host For FCHBA"); // session, , computerSystemIDp this.mapHBA = new MapHBA(cc, instanceCOP, this.cs); } } else if ((intDedicated1 == 5) && (!(this.cs.getCreationClassName().equals("CISCO_LogicalComputerSystem")))) { if ((this.cs.getElementName() != null) || (!(this.cs.getElementName().equals("")))) { // this.logger.debug("Switch"); this.mapSwitchPP = new MapSwitchPhysicalPackages(cc, instanceCOP, cs); this.mapSwitchSI = new MapSwitchSoftwareIdentity(cc, instanceCOP, cs); this.mapSwitchFCP = new MapSwitchFCPorts(cc, instanceCOP, cs); this.mapSwitchF = new MapSwitchFabric(cc, instanceCOP, cs); } } else if ((intDedicated1 == 3) && (intDedicated2 == 22)) { // this.logger.debug("Tape"); // this.mapPhysicalPackagesTape = new // MapPhysicalPackagesTape(session, cc, instanceCOP, computerSystemIDp); // this.mapSoftwareIdentityTape = new // MapSoftwareIdentityTape(session, cc, instanceCOP, computerSystemIDp); // this.mapMediaAccessDevicesTape = new // MapMediaAccessDevicesTape(session, cc, instanceCOP, computerSystemIDp); // this.mapChangerDeviceTape = new MapChangerDeviceTape(session, cc, // instanceCOP, computerSystemIDp); // this.mapAccessPointsTape = new MapAccessPointsTape(session, cc, // instanceCOP, computerSystemIDp); // this.mapFCPortsTape = new MapFCPortsTape(session, cc, // instanceCOP, computerSystemIDp); // this.mapLimitedAccessPortTape = new MapLimitedAccessPort(session, // cc, instanceCOP, computerSystemIDp); } else if ((intDedicated1 == 3) && (intDedicated2 == 15) && (intDedicated3 == 25)) { // new MapNASDiskDrives(session, cc, instanceCOP, // computerSystemIDp); // new MapNASInitiatorPorts(session, cc, instanceCOP, // computerSystemIDp); // new MapNASFCPorts(session, cc, instanceCOP, computerSystemIDp); // new MapNASVolumes(session, cc, instanceCOP, computerSystemIDp); // new MapNASPhysicalPackages(session, cc, instanceCOP, // computerSystemIDp); // new MapNASSoftwareIdentity(session, cc, instanceCOP, // computerSystemIDp); } else if ((intDedicated1 == 15) && (this.cs.getCreationClassName().equals("VMWARE_ESXComputerSystem"))) { // this.logger.debug("VMWare"); // this.mapVM = new MapVirtualMachines(session, cc, instanceCOP, computerSystemIDp); // this.mapESXStorageExtents = new MapESXStorageExtents(session, cc, instanceCOP, // computerSystemIDp); // this.mapESXStoragePools = new MapESXStoragePools(session, cc, instanceCOP, // computerSystemIDp); // this.mapESXStorageVolumes = new MapESXStorageVolumes(session, cc, instanceCOP, // computerSystemIDp); } else { // this.logger.info("NOTHING"); } // this.logger.info("Finished Discovery For " + this.cs.getCreationClassName()); } } try { /* Calendar statCalAfter = Calendar.getInstance(); long msAfterforTotalDisc = statCalAfter.getTimeInMillis(); long totalDiscoveryTimeFinal = (msAfterforTotalDisc - msBeforeforTotalDisc) / 1000L; //this.logger.info("MSAFTERTIME = " + msAfterforTotalDisc + "MSBEFORE = " + msBeforeforTotalDisc); //this.logger.info("Discovery Time = " + totalDiscoveryTimeFinal); //this.logger.info("COMUTERSYSTEMID = " + getComputerSystemIDFinal()); CIM_ComputerSystem ccs1 = (CIM_ComputerSystem)session.get(CIM_ComputerSystem.class, getComputerSystemIDFinal()); ccs1.setTotalDiscoveryTime(Long.valueOf(totalDiscoveryTimeFinal)); //session.save(ccs1); setComputerSystemIDFinal(null); */ } catch (Exception localException3) { } } // session.getTransaction().commit(); // session.close(); // session.disconnect(); // session.flush(); // close session. if (cc != null) cc.close(); // Call the garbage collection to run // System.gc(); } catch (WBEMException ce) { ce.printStackTrace(); // logger.warn("Unable to login at this time"); } catch (Exception e) { e.printStackTrace(); e.getCause(); } finally { // session.close(); } } else { // logger.info("Unable to login at this time"); } }