use of com.emc.storageos.customconfigcontroller.DataSource in project coprhd-controller by CoprHD.
the class HDSExportOperations method processTargetPortsToFormHSDs.
/**
* This routine iterates through the target ports and prepares a batch of HostStorageDomain
* Objects with required information.
*
* @param storage
* @param targetURIList
* @param hostName
* @param exportMask
* @param hostModeInfo
* @return
*/
private List<HostStorageDomain> processTargetPortsToFormHSDs(HDSApiClient hdsApiClient, StorageSystem storage, List<URI> targetURIList, String hostName, ExportMask exportMask, Pair<String, String> hostModeInfo, String systemObjectID) throws Exception {
List<HostStorageDomain> hsdList = new ArrayList<HostStorageDomain>();
String hostMode = null, hostModeOption = null;
if (hostModeInfo != null) {
hostMode = hostModeInfo.first;
hostModeOption = hostModeInfo.second;
}
for (URI targetPortURI : targetURIList) {
StoragePort storagePort = dbClient.queryObject(StoragePort.class, targetPortURI);
String storagePortNumber = getStoragePortNumber(storagePort.getNativeGuid());
DataSource dataSource = dataSourceFactory.createHSDNickNameDataSource(hostName, storagePortNumber, storage);
// Hitachi allows only 32 chars as nickname, we should trim the
// length 32 chars.
String hsdNickName = customConfigHandler.getComputedCustomConfigValue(CustomConfigConstants.HDS_HOST_STORAGE_DOMAIN_NICKNAME_MASK_NAME, storage.getSystemType(), dataSource);
// HostStorageDomain.
if (Transport.IP.name().equalsIgnoreCase(storagePort.getTransportType())) {
log.info("Populating iSCSI HSD for storage: {}", storage.getSerialNumber());
HostStorageDomain hostGroup = new HostStorageDomain(storagePortNumber, exportMask.getMaskName(), HDSConstants.ISCSI_TARGET_DOMAIN_TYPE, hsdNickName);
hostGroup.setHostMode(hostMode);
hostGroup.setHostModeOption(hostModeOption);
hsdList.add(hostGroup);
}
// If there are FC initiators then create a FC HostStorageDomain.
if (Transport.FC.name().equalsIgnoreCase(storagePort.getTransportType())) {
log.info("Populating FC HSD for storage: {}", storage.getSerialNumber());
HostStorageDomain hostGroup = new HostStorageDomain(storagePortNumber, exportMask.getMaskName(), HDSConstants.HOST_GROUP_DOMAIN_TYPE, hsdNickName);
hostGroup.setHostMode(hostMode);
hostGroup.setHostModeOption(hostModeOption);
hsdList.add(hostGroup);
}
}
return hsdList;
}
use of com.emc.storageos.customconfigcontroller.DataSource in project coprhd-controller by CoprHD.
the class XtremIOExportOperations method getInitiatorGroupFolderName.
private String getInitiatorGroupFolderName(String clusterName, String hostName, StorageSystem storage) {
String igFolderName = "";
if (clusterName != null && !clusterName.isEmpty()) {
// cluster
DataSource dataSource = dataSourceFactory.createXtremIOClusterInitiatorGroupFolderNameDataSource(clusterName, storage);
igFolderName = customConfigHandler.getComputedCustomConfigValue(CustomConfigConstants.XTREMIO_CLUSTER_INITIATOR_GROUP_FOLDER_NAME, storage.getSystemType(), dataSource);
} else {
DataSource dataSource = dataSourceFactory.createXtremIOHostInitiatorGroupFolderNameDataSource(hostName, storage);
igFolderName = customConfigHandler.getComputedCustomConfigValue(CustomConfigConstants.XTREMIO_HOST_INITIATOR_GROUP_FOLDER_NAME, storage.getSystemType(), dataSource);
}
return igFolderName;
}
use of com.emc.storageos.customconfigcontroller.DataSource in project coprhd-controller by CoprHD.
the class XtremIOSnapshotOperations method getVolumeFolderName.
private String getVolumeFolderName(URI projectURI, StorageSystem storage) {
String volumeGroupFolderName = "";
Project project = dbClient.queryObject(Project.class, projectURI);
DataSource dataSource = dataSourceFactory.createXtremIOVolumeFolderNameDataSource(project, storage);
volumeGroupFolderName = customConfigHandler.getComputedCustomConfigValue(CustomConfigConstants.XTREMIO_VOLUME_FOLDER_NAME, storage.getSystemType(), dataSource);
return volumeGroupFolderName;
}
use of com.emc.storageos.customconfigcontroller.DataSource in project coprhd-controller by CoprHD.
the class VmaxExportOperations method addVolumes.
@Override
public void addVolumes(StorageSystem storage, URI exportMaskURI, VolumeURIHLU[] volumeURIHLUs, List<Initiator> initiatorList, TaskCompleter taskCompleter) throws DeviceControllerException {
_log.info("{} addVolumes START...", storage.getSerialNumber());
try {
_log.info("addVolumes: Export mask id: {}", exportMaskURI);
_log.info("addVolumes: volume-HLU pairs: {}", Joiner.on(',').join(volumeURIHLUs));
if (initiatorList != null) {
_log.info("addVolumes: initiators impacted: {}", Joiner.on(',').join(initiatorList));
}
boolean isVmax3 = storage.checkIfVmax3();
ExportMask mask = _dbClient.queryObject(ExportMask.class, exportMaskURI);
ExportOperationContext context = new VmaxExportOperationContext();
// Prime the context object
taskCompleter.updateWorkflowStepContext(context);
String maskingViewName = _helper.getExportMaskName(exportMaskURI);
// Always get the Storage Group from masking View, rather than depending on the name to find out SG.
String parentGroupName = _helper.getStorageGroupForGivenMaskingView(maskingViewName, storage);
// Storage Group does not exist, remove the volumes from the mask.
if (null == parentGroupName) {
List<URI> volumeURIList = new ArrayList<URI>();
for (VolumeURIHLU vuh : volumeURIHLUs) {
volumeURIList.add(vuh.getVolumeURI());
}
mask.removeVolumes(volumeURIList);
_dbClient.updateObject(mask);
taskCompleter.error(_dbClient, DeviceControllerException.errors.vmaxStorageGroupNameNotFound(maskingViewName));
return;
}
// For existing masking views on the array (co-existence),
// if it has stand alone storage group, convert it into cascaded storage group.
CIMObjectPath storageGroupPath = _cimPath.getMaskingGroupPath(storage, parentGroupName, SmisCommandHelper.MASKING_GROUP_TYPE.SE_DeviceMaskingGroup);
if (_helper.isStandAloneSG(storage, storageGroupPath)) {
_log.info("Found Stand alone storage group, verifying the storage array version before converting it to Cascaded..");
if (storage.checkIfVmax3()) {
_log.info("Converting Stand alone storage group to Cascaded..");
_helper.convertStandAloneStorageGroupToCascaded(storage, storageGroupPath, parentGroupName);
} else {
_log.info("Converting Stand alone storage group to Cascaded is not supported for VMAX2. Proceeding provisioning without conversion.");
}
}
// Get the export mask initiator list. This is required to compute the storage group name
Set<Initiator> initiators = ExportMaskUtils.getInitiatorsForExportMask(_dbClient, mask, null);
// Flag to indicate whether or not we need to use the EMCForce flag on this operation.
// We currently use this flag when dealing with RP Volumes as they are tagged for RP and the
// operation on these volumes would fail otherwise.
boolean forceFlag = false;
// Determine if the volume is already in the masking view.
// If so, log and remove from volumes we need to process.
parentGroupName = _helper.getStorageGroupForGivenMaskingView(maskingViewName, storage);
Set<String> deviceIds = _helper.getVolumeDeviceIdsFromStorageGroup(storage, parentGroupName);
List<VolumeURIHLU> removeURIs = new ArrayList<>();
for (VolumeURIHLU volumeUriHLU : volumeURIHLUs) {
BlockObject bo = BlockObject.fetch(_dbClient, volumeUriHLU.getVolumeURI());
if (deviceIds.contains(bo.getNativeId())) {
_log.info("Found volume {} is already associated with masking view. Assuming this is from a previous operation.", bo.getLabel());
removeURIs.add(volumeUriHLU);
}
}
// Create the new array of volumes that don't exist yet in the masking view.
VolumeURIHLU[] addVolumeURIHLUs = new VolumeURIHLU[volumeURIHLUs.length - removeURIs.size()];
int index = 0;
for (VolumeURIHLU volumeUriHLU : volumeURIHLUs) {
if (!removeURIs.contains(volumeUriHLU)) {
addVolumeURIHLUs[index++] = volumeUriHLU;
}
}
/**
* Group Volumes by Fast Policy and Host IO limit attributes
*
* policyToVolumeGroupEntry - this will essentially have multiple Groups
* E.g Group 1--> Fast Policy (FP1)+ FEBandwidth (100)
* Group 2--> Fast Policy (FP2)+ IOPS (100)
* Group 3--> FEBandwidth (100) + IOPS (100) ..
*/
ListMultimap<StorageGroupPolicyLimitsParam, VolumeURIHLU> policyToVolumeGroup = ArrayListMultimap.create();
for (VolumeURIHLU volumeUriHLU : addVolumeURIHLUs) {
StorageGroupPolicyLimitsParam sgPolicyLimitsParam = null;
URI boUri = volumeUriHLU.getVolumeURI();
BlockObject bo = BlockObject.fetch(_dbClient, boUri);
boolean fastAssociatedAlready = false;
// Always treat fast volumes as non-fast if fast is associated on these volumes already
// Export fast volumes to 2 different nodes.
// Also note that Volumes with Compression set to true are also fast managed for VMAX3 Arrays.
String policyName = volumeUriHLU.getAutoTierPolicyName();
if (_helper.isFastPolicy(policyName) || ((isVmax3) && volumeUriHLU.getCompression())) {
if (isVmax3) {
policyName = _helper.getVMAX3FastSettingForVolume(boUri, policyName);
}
fastAssociatedAlready = _helper.checkVolumeAssociatedWithAnySGWithPolicy(bo.getNativeId(), storage, policyName);
}
// should not be created with a FAST policy assigned.
if (fastAssociatedAlready || isRPJournalVolume(bo)) {
_log.info("Forcing policy name to NONE to prevent volume from using FAST policy.");
volumeUriHLU.setAutoTierPolicyName(Constants.NONE);
// Compression was applied on existing SG associated with policy!!
volumeUriHLU.setCompression(false);
sgPolicyLimitsParam = new StorageGroupPolicyLimitsParam(Constants.NONE, volumeUriHLU.getHostIOLimitBandwidth(), volumeUriHLU.getHostIOLimitIOPs(), storage);
} else {
if (isVmax3) {
sgPolicyLimitsParam = new StorageGroupPolicyLimitsParam(volumeUriHLU, storage, _helper);
} else {
sgPolicyLimitsParam = new StorageGroupPolicyLimitsParam(volumeUriHLU, storage);
}
}
policyToVolumeGroup.put(sgPolicyLimitsParam, volumeUriHLU);
// The force flag only needs to be set once
if (!forceFlag) {
forceFlag = ExportUtils.useEMCForceFlag(_dbClient, volumeUriHLU.getVolumeURI());
}
}
_log.info(" {} Groups generated based on grouping volumes by fast policy", policyToVolumeGroup.size());
String storageGroupCustomTemplateName = CustomConfigConstants.VMAX_HOST_STORAGE_GROUP_MASK_NAME;
String exportType = ExportMaskUtils.getExportType(_dbClient, mask);
if (ExportGroupType.Cluster.name().equals(exportType)) {
storageGroupCustomTemplateName = CustomConfigConstants.VMAX_CLUSTER_STORAGE_GROUP_MASK_NAME;
}
DataSource sgDataSource = ExportMaskUtils.getExportDatasource(storage, new ArrayList<Initiator>(initiators), dataSourceFactory, storageGroupCustomTemplateName);
// Group volumes by Storage Group
Map<String, Collection<VolumeURIHLU>> volumesByStorageGroup = _helper.groupVolumesByStorageGroup(storage, parentGroupName, sgDataSource, storageGroupCustomTemplateName, policyToVolumeGroup, customConfigHandler);
// associate it with fast if needed, then add the new Child Group to the existing Parent Cascaded Group
for (Entry<String, Collection<VolumeURIHLU>> volumesByStorageGroupEntry : volumesByStorageGroup.entrySet()) {
VolumeURIHLU[] volumeURIHLUArray = null;
// Even though policy and limits info are already in volumURIHLU, let's still extract to a holder for
// easy access
// Is it safe to not touch the below variable as it seems to be used by non VMAX3 cases only?
StorageGroupPolicyLimitsParam volumePolicyLimitsParam = new StorageGroupPolicyLimitsParam(Constants.NONE);
if (null != volumesByStorageGroupEntry.getValue()) {
volumeURIHLUArray = volumesByStorageGroupEntry.getValue().toArray(new VolumeURIHLU[0]);
volumePolicyLimitsParam = _helper.createStorageGroupPolicyLimitsParam(volumesByStorageGroupEntry.getValue(), storage, _dbClient);
}
String childGroupName = volumesByStorageGroupEntry.getKey().toString();
if (isVmax3) {
childGroupName = childGroupName.replaceAll(Constants.SMIS_PLUS_REGEX, Constants.UNDERSCORE_DELIMITER);
}
_log.info("Group Name : {} --- volume storage group name : {}", childGroupName, (volumeURIHLUArray != null ? Joiner.on("\t").join(volumeURIHLUArray) : ""));
CIMObjectPath childGroupPath = _cimPath.getMaskingGroupPath(storage, childGroupName, SmisCommandHelper.MASKING_GROUP_TYPE.SE_DeviceMaskingGroup);
CIMInstance childGroupInstance = _helper.checkExists(storage, childGroupPath, false, false);
if (null == childGroupInstance) {
// For the newly created group, set policy, and other required properties bandwidth, iops as needed.
// Once child group created, add this child Group to existing Parent Cascaded Group.
// Empty child group is created to be able to add volumes with HLUs
// once this child group is added in the cascaded storage group.
_log.info("Group {} doesn't exist, creating a new group", childGroupName);
CIMObjectPath childGroupCreated = createVolumeGroup(storage, childGroupName, volumeURIHLUArray, taskCompleter, false);
_log.debug("Created Child Group {}", childGroupCreated);
// Get childGroupName from the child group path childGroupCreated as it
// could have been truncated in createVolumeGroup method
childGroupName = _cimPath.getMaskingGroupName(storage, childGroupCreated);
if (!isVmax3 && _helper.isFastPolicy(volumePolicyLimitsParam.getAutoTierPolicyName()) && !_helper.checkVolumeGroupAssociatedWithPolicy(storage, childGroupCreated, volumePolicyLimitsParam.getAutoTierPolicyName())) {
_log.debug("Adding Storage Group {} to Fast Policy {}", childGroupName, volumePolicyLimitsParam.getAutoTierPolicyName());
addVolumeGroupToAutoTieringPolicy(storage, volumePolicyLimitsParam.getAutoTierPolicyName(), childGroupCreated, taskCompleter);
}
// Add new Child Storage Group to Parent Cascaded Group
// NOTE: host IO limit is set during the first child SG created with cascaded group.
// Logically (or easy to follow) is to set limits after SG is created. However, because add job
// logic
// is executed in a queue. Hence, move update logic to SmisMaskingViewAddVolumeJob
addGroupsToCascadedVolumeGroup(storage, parentGroupName, childGroupCreated, null, taskCompleter, forceFlag);
_log.debug("Added newly created Storage Group {} to Parent Cascaded Group {}", childGroupName, parentGroupName);
// Add volumes to the newly created child group
_log.info("Adding Volumes to non cascaded Storage Group {} START", childGroupName);
// Create a relatively empty completer associated with the export mask. We don't have the export
// group
// at this level, so there's nothing decent to attach the completer to anyway.
String task = UUID.randomUUID().toString();
ExportMaskVolumeToStorageGroupCompleter completer = new ExportMaskVolumeToStorageGroupCompleter(null, exportMaskURI, task);
SmisMaskingViewAddVolumeJob job = new SmisMaskingViewAddVolumeJob(null, storage.getId(), exportMaskURI, volumeURIHLUArray, childGroupCreated, completer);
job.setCIMObjectPathfactory(_cimPath);
_helper.addVolumesToStorageGroup(volumeURIHLUArray, storage, childGroupName, job, forceFlag);
ExportOperationContext.insertContextOperation(taskCompleter, VmaxExportOperationContext.OPERATION_ADD_VOLUMES_TO_STORAGE_GROUP, childGroupName, volumeURIHLUArray, forceFlag);
_log.info("Adding Volumes to non cascaded Storage Group {} END", childGroupName);
} else // Only reusable groups will have null volumeURIHLUArray
if (null != volumeURIHLUArray) {
// Only add volumes that don't already exist in the StorageGroup
VolumeURIHLU[] newVolumesToAdd = getVolumesThatAreNotAlreadyInSG(storage, childGroupPath, childGroupName, volumesByStorageGroupEntry.getValue().toArray(new VolumeURIHLU[0]));
if (newVolumesToAdd != null) {
// We should not disturb any existing masking views on the Array. In this case, if the found
// storage group is not
// associated with expected fast policy, then we cannot proceed with neither of the below
// 1. Adding fast volumes to existing non fast storage group part of masking view
// 2. Creating a new Cascaded Group, and adding the existing storage group to it, as existing
// SG-->MV needs to be
// broken
StorageGroupPolicyLimitsParam childGroupKey = _helper.createStorageGroupPolicyLimitsParam(storage, childGroupInstance);
if (!isVmax3 && _helper.isFastPolicy(volumePolicyLimitsParam.getAutoTierPolicyName()) && !_helper.isFastPolicy(childGroupKey.getAutoTierPolicyName())) {
// Go through each volume associated with this storage group and pluck out by policy
for (StorageGroupPolicyLimitsParam phantomStorageGroupPolicyLimitsParam : policyToVolumeGroup.keySet()) {
String phantomPolicyName = phantomStorageGroupPolicyLimitsParam.getAutoTierPolicyName();
// If this is a non-FAST policy in the grouping, skip it.
if (!_helper.isFastPolicy(phantomPolicyName)) {
continue;
}
// Find the volumes in the volumeURIHLU associated with this policy
VolumeURIHLU[] phantomVolumesToAdd = getVolumesThatBelongToPolicy(newVolumesToAdd, phantomStorageGroupPolicyLimitsParam, storage);
_log.info(String.format("In order to add this volume to the masking view, we need to create/find a storage group " + "for the FAST policy %s and add the volume to the storage group and the existing storage group associated with the masking view", phantomStorageGroupPolicyLimitsParam));
// Check to see if there already is a phantom storage group with this policy on the
// array
List<String> phantomStorageGroupNames = _helper.findPhantomStorageGroupAssociatedWithFastPolicy(storage, phantomStorageGroupPolicyLimitsParam);
// If there's no existing phantom storage group, create one.
if (phantomStorageGroupNames == null || phantomStorageGroupNames.isEmpty()) {
// TODO: Probably need to use some name generator for this.
String phantomStorageGroupName = childGroupName + "_" + phantomStorageGroupPolicyLimitsParam;
// We need to create a new phantom storage group with our policy associated with it.
_log.info("phantom storage group {} doesn't exist, creating a new group", phantomStorageGroupName);
CIMObjectPath phantomStorageGroupCreated = createVolumeGroup(storage, phantomStorageGroupName, phantomVolumesToAdd, taskCompleter, true);
_log.info("Adding Storage Group {} to Fast Policy {}", phantomStorageGroupName, phantomPolicyName);
addVolumeGroupToAutoTieringPolicy(storage, phantomPolicyName, phantomStorageGroupCreated, taskCompleter);
} else {
// take the first matching phantom SG from the list
String phantomStorageGroupName = phantomStorageGroupNames.get(0);
// We found the phantom storage group, but we need to make sure the volumes aren't
// already in the
// storage
// group from a previous operation or manual intervention.
List<URI> phantomVolumeIds = new ArrayList<URI>();
for (VolumeURIHLU phantomVolume : phantomVolumesToAdd) {
phantomVolumeIds.add(phantomVolume.getVolumeURI());
}
phantomVolumeIds.removeAll(_helper.findVolumesInStorageGroup(storage, phantomStorageGroupName, phantomVolumeIds));
if (phantomVolumeIds.isEmpty()) {
_log.info("Found that the volume(s) we wanted to add to the phantom storage group are already added.");
} else {
// If we found a phantom storage group with our policy, use it.
_log.info("Found that we need to add volumes to the phantom storage group: " + phantomStorageGroupName);
// Create a relatively empty completer associated with the export mask. We don't
// have the export
// group
// at this level, so there's nothing decent to attach the completer to anyway.
String task = UUID.randomUUID().toString();
ExportMaskVolumeToStorageGroupCompleter completer = new ExportMaskVolumeToStorageGroupCompleter(null, exportMaskURI, task);
SmisMaskingViewAddVolumeJob job = new SmisMaskingViewAddVolumeJob(null, storage.getId(), exportMaskURI, phantomVolumesToAdd, null, completer);
job.setCIMObjectPathfactory(_cimPath);
_helper.addVolumesToStorageGroup(phantomVolumesToAdd, storage, phantomStorageGroupName, job, forceFlag);
ExportOperationContext.insertContextOperation(taskCompleter, VmaxExportOperationContext.OPERATION_ADD_VOLUMES_TO_STORAGE_GROUP, phantomStorageGroupName, phantomVolumesToAdd, forceFlag);
_log.info("Adding Volumes to non cascaded Storage Group {} END", phantomStorageGroupName);
}
}
}
}
if (isVmax3) {
// Remove volumes from the parking storage group
Set<String> nativeIds = new HashSet<String>();
for (VolumeURIHLU volURIHLU : newVolumesToAdd) {
nativeIds.add(_helper.getBlockObjectNativeId(volURIHLU.getVolumeURI()));
}
_helper.removeVolumeFromParkingSLOStorageGroup(storage, nativeIds.toArray(new String[] {}), forceFlag);
}
_log.info("Adding Volumes to non cascaded Storage Group {} START", childGroupName);
// Create a relatively empty completer associated with the export mask. We don't have the export
// group
// at this level, so there's nothing decent to attach the completer to anyway.
String task = UUID.randomUUID().toString();
ExportMaskVolumeToStorageGroupCompleter completer = new ExportMaskVolumeToStorageGroupCompleter(null, exportMaskURI, task);
SmisMaskingViewAddVolumeJob job = new SmisMaskingViewAddVolumeJob(null, storage.getId(), exportMaskURI, newVolumesToAdd, null, completer);
job.setCIMObjectPathfactory(_cimPath);
_helper.addVolumesToStorageGroup(newVolumesToAdd, storage, childGroupName, job, forceFlag);
ExportOperationContext.insertContextOperation(taskCompleter, VmaxExportOperationContext.OPERATION_ADD_VOLUMES_TO_STORAGE_GROUP, childGroupName, newVolumesToAdd, forceFlag);
_log.info("Adding Volumes to non cascaded Storage Group {} END", childGroupName);
} else {
// newVolumesToAdd == null, implying that all the requested
// volumes are already in the StorageGroup. This is a no-op.
_log.info("All volumes are already in the storage group");
}
} else // Else, we have existing groups which hold these volumes, hence add those groups to
// cascaded group.
{
_log.info("Adding Existing Storage Group {} to Cascaded Group {} START :", childGroupName, parentGroupName);
if (!isVmax3 && _helper.isFastPolicy(volumePolicyLimitsParam.getAutoTierPolicyName()) && !_helper.checkVolumeGroupAssociatedWithPolicy(storage, childGroupPath, volumePolicyLimitsParam.getAutoTierPolicyName())) {
_log.info("Adding Storage Group {} to Fast Policy {}", childGroupName, volumePolicyLimitsParam.getAutoTierPolicyName());
addVolumeGroupToAutoTieringPolicy(storage, volumePolicyLimitsParam.getAutoTierPolicyName(), childGroupPath, taskCompleter);
}
String task = UUID.randomUUID().toString();
ExportMaskVolumeToStorageGroupCompleter completer = new ExportMaskVolumeToStorageGroupCompleter(null, exportMaskURI, task);
SmisMaskingViewAddVolumeJob job = new SmisMaskingViewAddVolumeJob(null, storage.getId(), exportMaskURI, volumeURIHLUArray, null, completer);
job.setCIMObjectPathfactory(_cimPath);
addGroupsToCascadedVolumeGroup(storage, parentGroupName, childGroupPath, job, taskCompleter, forceFlag);
_log.debug("Adding Existing Storage Group {} to Cascaded Group {} END :", childGroupName, parentGroupName);
}
}
// Test mechanism to invoke a failure. No-op on production systems.
InvokeTestFailure.internalOnlyInvokeTestFailure(InvokeTestFailure.ARTIFICIAL_FAILURE_002);
taskCompleter.ready(_dbClient);
} catch (Exception e) {
_log.error(String.format("addVolumes failed - maskName: %s", exportMaskURI.toString()), e);
ServiceError serviceError = DeviceControllerException.errors.jobFailed(e);
taskCompleter.error(_dbClient, serviceError);
}
_log.info("{} addVolumes END...", storage.getSerialNumber());
}
use of com.emc.storageos.customconfigcontroller.DataSource in project coprhd-controller by CoprHD.
the class VmaxExportOperations method addInitiators.
@Override
public void addInitiators(StorageSystem storage, URI exportMaskURI, List<URI> volumeURIs, List<Initiator> initiatorList, List<URI> targetURIList, TaskCompleter taskCompleter) throws DeviceControllerException {
_log.info("{} addInitiators START...", storage.getSerialNumber());
try {
_log.info("addInitiators: Export mask id: {}", exportMaskURI);
if (volumeURIs != null) {
_log.info("addInitiators: volumes : {}", Joiner.on(',').join(volumeURIs));
}
_log.info("addInitiators: initiators : {}", Joiner.on(',').join(initiatorList));
_log.info("addInitiators: targets : {}", Joiner.on(",").join(targetURIList));
ExportOperationContext context = new VmaxExportOperationContext();
// Prime the context object
taskCompleter.updateWorkflowStepContext(context);
ExportMask mask = _dbClient.queryObject(ExportMask.class, exportMaskURI);
String cascadedIGCustomTemplateName = CustomConfigConstants.VMAX_HOST_CASCADED_IG_MASK_NAME;
String initiatorGroupCustomTemplateName = CustomConfigConstants.VMAX_HOST_INITIATOR_GROUP_MASK_NAME;
String exportType = ExportMaskUtils.getExportType(_dbClient, mask);
if (ExportGroupType.Cluster.name().equals(exportType)) {
cascadedIGCustomTemplateName = CustomConfigConstants.VMAX_CLUSTER_CASCADED_IG_MASK_NAME;
initiatorGroupCustomTemplateName = CustomConfigConstants.VMAX_CLUSTER_INITIATOR_GROUP_MASK_NAME;
}
// Get the export mask complete initiator list. This is required to compute the storage group name
Set<Initiator> initiators = ExportMaskUtils.getInitiatorsForExportMask(_dbClient, mask, null);
DataSource cascadedIGDataSource = ExportMaskUtils.getExportDatasource(storage, new ArrayList<Initiator>(initiators), dataSourceFactory, cascadedIGCustomTemplateName);
String cigName = customConfigHandler.getComputedCustomConfigValue(cascadedIGCustomTemplateName, storage.getSystemType(), cascadedIGDataSource);
createOrUpdateInitiatorGroups(storage, exportMaskURI, cigName, initiatorGroupCustomTemplateName, initiatorList, taskCompleter);
if (taskCompleter.isCompleted()) {
// COP-27456- task already set to error in the above method if any fails.
_log.info("{} addInitiators END...", storage == null ? null : storage.getSerialNumber());
return;
}
ExportMask exportMask = _dbClient.queryObject(ExportMask.class, exportMaskURI);
if (targetURIList != null && !targetURIList.isEmpty() && !exportMask.hasTargets(targetURIList)) {
_log.info("Adding targets...");
// always get the port group from the masking view
CIMInstance portGroupInstance = _helper.getPortGroupInstance(storage, mask.getMaskName());
if (null == portGroupInstance) {
String errMsg = String.format("addInitiator failed - maskName %s : Port group not found ", mask.getMaskName());
ServiceError serviceError = DeviceControllerException.errors.jobFailedMsg(errMsg, null);
taskCompleter.error(_dbClient, serviceError);
return;
}
String pgGroupName = (String) portGroupInstance.getPropertyValue(SmisConstants.CP_ELEMENT_NAME);
// Get the current ports off of the storage group; only add the ones that aren't there already.
WBEMClient client = _helper.getConnection(storage).getCimClient();
List<String> storagePorts = _helper.getStoragePortsFromLunMaskingInstance(client, portGroupInstance);
Set<URI> storagePortURIs = new HashSet<>();
storagePortURIs.addAll(transform(ExportUtils.storagePortNamesToURIs(_dbClient, storagePorts), CommonTransformerFunctions.FCTN_STRING_TO_URI));
// Google Sets.difference returns a non-serializable set, so drop it into a standard HashSet upon
// return.
List<URI> diffPorts = new ArrayList<URI>(Sets.difference(newHashSet(targetURIList), storagePortURIs));
if (!diffPorts.isEmpty()) {
CIMArgument[] inArgs = _helper.getAddTargetsToMaskingGroupInputArguments(storage, portGroupInstance.getObjectPath(), mask.getMaskName(), Lists.newArrayList(diffPorts));
CIMArgument[] outArgs = new CIMArgument[5];
_helper.invokeMethodSynchronously(storage, _cimPath.getControllerConfigSvcPath(storage), "AddMembers", inArgs, outArgs, null);
ExportOperationContext.insertContextOperation(taskCompleter, VmaxExportOperationContext.OPERATION_ADD_PORTS_TO_PORT_GROUP, pgGroupName, diffPorts);
} else {
_log.info(String.format("Target ports already added to port group %s, likely by a previous operation.", pgGroupName));
}
_dbClient.updateObject(exportMask);
}
_log.info(String.format("addInitiators succeeded - maskName: %s", exportMaskURI.toString()));
// Test mechanism to invoke a failure. No-op on production systems.
InvokeTestFailure.internalOnlyInvokeTestFailure(InvokeTestFailure.ARTIFICIAL_FAILURE_003);
taskCompleter.ready(_dbClient);
} catch (Exception e) {
_log.error(String.format("addInitiators failed - maskName: %s", exportMaskURI.toString()), e);
ServiceError serviceError = DeviceControllerException.errors.jobFailed(e);
taskCompleter.error(_dbClient, serviceError);
}
_log.info("{} addInitiators END...", storage == null ? null : storage.getSerialNumber());
}
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