public static void markInActiveUnManagedExportMask(
URI storageSystemUri,
Set<URI> discoveredUnManagedExportMasks,
DbClient dbClient,
PartitionManager partitionManager) {
URIQueryResultList result = new URIQueryResultList();
dbClient.queryByConstraint(
ContainmentConstraint.Factory.getStorageSystemUnManagedExportMaskConstraint(
storageSystemUri),
result);
Set<URI> allMasksInDatabase = new HashSet<URI>();
Iterator<URI> it = result.iterator();
while (it.hasNext()) {
allMasksInDatabase.add(it.next());
}
SetView<URI> onlyAvailableinDB =
Sets.difference(allMasksInDatabase, discoveredUnManagedExportMasks);
if (!onlyAvailableinDB.isEmpty()) {
_log.info(
"these UnManagedExportMasks are orphaned and will be cleaned up:"
+ Joiner.on("\t").join(onlyAvailableinDB));
List<UnManagedExportMask> unManagedExportMasksToBeDeleted =
new ArrayList<UnManagedExportMask>();
Iterator<UnManagedExportMask> unManagedExportMasks =
dbClient.queryIterativeObjects(
UnManagedExportMask.class, new ArrayList<URI>(onlyAvailableinDB));
while (unManagedExportMasks.hasNext()) {
UnManagedExportMask uem = unManagedExportMasks.next();
if (null == uem || uem.getInactive()) {
continue;
}
_log.info("Setting UnManagedExportMask {} inactive", uem.getMaskingViewPath());
uem.setStorageSystemUri(NullColumnValueGetter.getNullURI());
uem.setInactive(true);
unManagedExportMasksToBeDeleted.add(uem);
}
if (!unManagedExportMasksToBeDeleted.isEmpty()) {
partitionManager.updateAndReIndexInBatches(
unManagedExportMasksToBeDeleted,
Constants.DEFAULT_PARTITION_SIZE,
dbClient,
UNMANAGED_EXPORT_MASK);
}
}
}
/**
* Process the volumes to find the unmanaged volumes and populate the volume supported
* information.
*
* @param it
* @param keyMap
* @param operation
* @param pool
* @param system
* @param exportedVolumes
* @param volumesAndReplicas
* @param existingVolumesInCG
* @param volumeToRAGroupMap
* @param poolSupportedSLONames
* @param boundVolumes
*/
private void processVolumes(
Iterator<CIMInstance> it,
Map<String, Object> keyMap,
Operation operation,
StoragePool pool,
StorageSystem system,
Map<String, VolHostIOObject> exportedVolumes,
Set<String> existingVolumesInCG,
Map<String, RemoteMirrorObject> volumeToRAGroupMap,
Map<String, LocalReplicaObject> volumeToLocalReplicaMap,
Set<String> poolSupportedSLONames,
Set<String> boundVolumes) {
List<CIMObjectPath> metaVolumes = new ArrayList<CIMObjectPath>();
List<CIMObjectPath> metaVolumeViews = new ArrayList<CIMObjectPath>();
while (it.hasNext()) {
CIMInstance volumeViewInstance = null;
try {
volumeViewInstance = it.next();
String volumeNativeGuid =
getVolumeViewNativeGuid(volumeViewInstance.getObjectPath(), keyMap);
Volume volume = checkStorageVolumeExistsInDB(volumeNativeGuid, _dbClient);
if (null != volume) {
_logger.debug(
"Skipping discovery, as this Volume {} is already being managed by ViPR.",
volumeNativeGuid);
continue;
}
// skip non-bound volumes for this pool
if (boundVolumes != null) {
String deviceId = null;
if (system.getUsingSmis80()) {
deviceId = volumeViewInstance.getObjectPath().getKey(DEVICE_ID).getValue().toString();
} else {
deviceId = volumeViewInstance.getObjectPath().getKey(SVDEVICEID).getValue().toString();
}
if (!boundVolumes.contains(deviceId)) {
_logger.info(
"Skipping volume, as this Volume {} is not bound to this Thin Storage Pool {}",
volumeNativeGuid,
pool.getLabel());
continue;
}
}
addPath(keyMap, operation.get_result(), volumeViewInstance.getObjectPath());
String unManagedVolumeNativeGuid =
getUnManagedVolumeNativeGuid(volumeViewInstance.getObjectPath(), keyMap);
UnManagedVolume unManagedVolume =
checkUnManagedVolumeExistsInDB(unManagedVolumeNativeGuid, _dbClient);
unManagedVolume =
createUnManagedVolume(
unManagedVolume,
volumeViewInstance,
unManagedVolumeNativeGuid,
pool,
system,
volumeNativeGuid,
exportedVolumes,
existingVolumesInCG,
volumeToRAGroupMap,
volumeToLocalReplicaMap,
poolSupportedSLONames,
keyMap);
// set up UnManagedExportMask information
@SuppressWarnings("unchecked")
Map<String, Set<UnManagedExportMask>> masksMap =
(Map<String, Set<UnManagedExportMask>>)
keyMap.get(Constants.UNMANAGED_EXPORT_MASKS_MAP);
if (masksMap != null) {
Set<UnManagedExportMask> uems = masksMap.get(unManagedVolume.getNativeGuid());
if (uems != null) {
_logger.info(
"{} UnManagedExportMasks found in the keyMap for volume {}",
uems.size(),
unManagedVolume.getNativeGuid());
for (UnManagedExportMask uem : uems) {
_logger.info(
" adding UnManagedExportMask {} to UnManagedVolume", uem.getMaskingViewPath());
unManagedVolume.getUnmanagedExportMasks().add(uem.getId().toString());
uem.getUnmanagedVolumeUris().add(unManagedVolume.getId().toString());
_unManagedExportMasksUpdate.add(uem);
// add the known initiators, too
for (String initUri : uem.getKnownInitiatorUris()) {
_logger.info(" adding known Initiator URI {} to UnManagedVolume", initUri);
unManagedVolume.getInitiatorUris().add(initUri);
Initiator init = _dbClient.queryObject(Initiator.class, URI.create(initUri));
unManagedVolume.getInitiatorNetworkIds().add(init.getInitiatorPort());
}
// log this info for debugging
for (String path : uem.getUnmanagedInitiatorNetworkIds()) {
_logger.info(" UnManagedExportMask has this initiator unknown to ViPR: {}", path);
}
// check if this volume is in a vplex backend mask
// and mark it as such if it is
Object o = keyMap.get(Constants.UNMANAGED_VPLEX_BACKEND_MASKS_SET);
if (o != null) {
Set<String> unmanagedVplexBackendMasks = (Set<String>) o;
if (unmanagedVplexBackendMasks.size() > 0) {
if (unmanagedVplexBackendMasks.contains(uem.getId().toString())) {
_logger.info(
"unmanaged volume {} is a vplex backend volume",
unManagedVolume.getLabel());
unManagedVolume.putVolumeCharacterstics(
SupportedVolumeCharacterstics.IS_VPLEX_BACKEND_VOLUME.toString(), "true");
}
}
}
}
}
}
_logger.debug(
"Going to check if the volume is meta: {}, volume meta property: {}",
volumeViewInstance.getObjectPath(),
unManagedVolume
.getVolumeCharacterstics()
.get(SupportedVolumeCharacterstics.IS_METAVOLUME.toString()));
// Check if the volume is meta volume and add it to the meta
// volume list
String isMetaVolume =
unManagedVolume
.getVolumeCharacterstics()
.get(SupportedVolumeCharacterstics.IS_METAVOLUME.toString());
if (null != isMetaVolume && Boolean.valueOf(isMetaVolume)) {
if (keyMap.containsKey(Constants.IS_NEW_SMIS_PROVIDER)
&& Boolean.valueOf(keyMap.get(Constants.IS_NEW_SMIS_PROVIDER).toString())) {
metaVolumes.add(volumeViewInstance.getObjectPath());
} else {
metaVolumeViews.add(volumeViewInstance.getObjectPath());
}
_logger.info(
"Found meta volume: {}, name: {}",
volumeViewInstance.getObjectPath(),
unManagedVolume.getLabel());
}
// if volumes size reaches 200 , then dump to Db.
if (_unManagedVolumesInsert.size() > BATCH_SIZE) {
_partitionManager.insertInBatches(
_unManagedVolumesInsert, getPartitionSize(keyMap), _dbClient, UNMANAGED_VOLUME);
_unManagedVolumesInsert.clear();
}
if (_unManagedVolumesUpdate.size() > BATCH_SIZE) {
_partitionManager.updateInBatches(
_unManagedVolumesUpdate, getPartitionSize(keyMap), _dbClient, UNMANAGED_VOLUME);
_unManagedVolumesUpdate.clear();
}
if (_unManagedExportMasksUpdate.size() > BATCH_SIZE) {
_partitionManager.updateInBatches(
_unManagedExportMasksUpdate,
getPartitionSize(keyMap),
_dbClient,
UNMANAGED_EXPORT_MASK);
_unManagedExportMasksUpdate.clear();
}
unManagedVolumesReturnedFromProvider.add(unManagedVolume.getId());
} catch (Exception ex) {
_logger.error(
"Processing UnManaged Storage Volume {} ", volumeViewInstance.getObjectPath(), ex);
}
}
// Add meta volumes to the keyMap
try {
if (metaVolumes != null && !metaVolumes.isEmpty()) {
_metaVolumePaths.addAll(metaVolumes);
_logger.info("Added {} meta volumes.", metaVolumes.size());
}
if (metaVolumeViews != null && !metaVolumeViews.isEmpty()) {
_metaVolumeViewPaths.addAll(metaVolumeViews);
_logger.info("Added {} meta volume views.", metaVolumeViews.size());
}
} catch (Exception ex) {
_logger.error("Processing UnManaged meta volumes.", ex);
}
}
