import com.google.common.collect.Iterables;
import com.google.common.util.concurrent.AsyncFunction;
import com.google.common.util.concurrent.CheckedFuture;
-import com.google.common.util.concurrent.FutureFallback;
import com.google.common.util.concurrent.Futures;
import com.google.common.util.concurrent.JdkFutureAdapters;
import com.google.common.util.concurrent.ListenableFuture;
-import java.text.SimpleDateFormat;
-import java.util.Collections;
-import java.util.Date;
-import java.util.List;
-import javax.annotation.Nullable;
import org.opendaylight.controller.md.sal.binding.api.ReadOnlyTransaction;
import org.opendaylight.controller.md.sal.common.api.data.LogicalDatastoreType;
import org.opendaylight.controller.md.sal.common.api.data.ReadFailedException;
+import org.opendaylight.controller.md.sal.common.api.data.TransactionChainClosedException;
import org.opendaylight.openflowplugin.api.openflow.device.DeviceContext;
import org.opendaylight.openflowplugin.api.openflow.device.DeviceInfo;
import org.opendaylight.openflowplugin.api.openflow.device.DeviceRegistry;
import org.opendaylight.openflowplugin.api.openflow.statistics.ofpspecific.StatisticsGatherer;
import org.opendaylight.openflowplugin.impl.registry.flow.FlowRegistryKeyFactory;
import org.opendaylight.openflowplugin.impl.statistics.ofpspecific.EventsTimeCounter;
-import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.yang.types.rev100924.DateAndTime;
+import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.yang.types.rev130715.DateAndTime;
import org.opendaylight.yang.gen.v1.urn.opendaylight.flow.inventory.rev130819.FlowCapableNode;
import org.opendaylight.yang.gen.v1.urn.opendaylight.flow.inventory.rev130819.FlowCapableNodeConnector;
import org.opendaylight.yang.gen.v1.urn.opendaylight.flow.inventory.rev130819.FlowCapableStatisticsGatheringStatus;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
+import javax.annotation.Nullable;
+import java.text.SimpleDateFormat;
+import java.util.Collections;
+import java.util.Date;
+import java.util.List;
+import java.util.concurrent.ExecutionException;
+
/**
- * Utils for gatherig statistics
+ * Utils for gathering statistics.
*/
public final class StatisticsGatheringUtils {
private static String DATE_AND_TIME_FORMAT = "yyyy-MM-dd'T'HH:mm:ss.SSSXXX";
private static final Logger LOG = LoggerFactory.getLogger(StatisticsGatheringUtils.class);
- private static final SinglePurposeMultipartReplyTranslator MULTIPART_REPLY_TRANSLATOR = new SinglePurposeMultipartReplyTranslator();
private static final String QUEUE2_REQCTX = "QUEUE2REQCTX-";
private StatisticsGatheringUtils() {
}
//TODO: Flow-,Group- and Meter- registry should be not in device context, consider move it in separate class
- static ListenableFuture<Boolean> gatherStatistics(final StatisticsGatherer statisticsGatheringService,
- final DeviceInfo deviceInfo,
- final MultipartType type,
- final TxFacade txFacade,
- final DeviceRegistry registry,
- final Boolean initial) {
+ static ListenableFuture<Boolean> gatherStatistics(
+ final StatisticsGatherer statisticsGatheringService,
+ final DeviceInfo deviceInfo,
+ final MultipartType type,
+ final TxFacade txFacade,
+ final DeviceRegistry registry,
+ final Boolean initial,
+ final SinglePurposeMultipartReplyTranslator multipartReplyTranslator) {
EventIdentifier wholeProcessEventIdentifier = null;
if (MultipartType.OFPMPFLOW.equals(type)) {
wholeProcessEventIdentifier = new EventIdentifier(type.toString(), deviceInfo.getNodeId().getValue());
EventsTimeCounter.markStart(wholeProcessEventIdentifier);
}
- final EventIdentifier ofpQueuToRequestContextEventIdentifier = new EventIdentifier(QUEUE2_REQCTX + type.toString(), deviceInfo.getNodeId().toString());
+ final EventIdentifier ofpQueueToRequestContextEventIdentifier
+ = new EventIdentifier(QUEUE2_REQCTX + type.toString(), deviceInfo.getNodeId().toString());
final ListenableFuture<RpcResult<List<MultipartReply>>> statisticsDataInFuture =
JdkFutureAdapters.listenInPoolThread(statisticsGatheringService.getStatisticsOfType(
- ofpQueuToRequestContextEventIdentifier, type));
- return transformAndStoreStatisticsData(statisticsDataInFuture, deviceInfo, wholeProcessEventIdentifier, type, txFacade, registry, initial);
+ ofpQueueToRequestContextEventIdentifier, type));
+ return transformAndStoreStatisticsData(
+ statisticsDataInFuture,
+ deviceInfo,
+ wholeProcessEventIdentifier,
+ type,
+ txFacade,
+ registry,
+ initial,
+ multipartReplyTranslator);
}
- private static ListenableFuture<Boolean> transformAndStoreStatisticsData(final ListenableFuture<RpcResult<List<MultipartReply>>> statisticsDataInFuture,
- final DeviceInfo deviceInfo,
- final EventIdentifier eventIdentifier,
- final MultipartType type,
- final TxFacade txFacade,
- final DeviceRegistry registry,
- final boolean initial) {
+ private static ListenableFuture<Boolean> transformAndStoreStatisticsData(
+ final ListenableFuture<RpcResult<List<MultipartReply>>> statisticsDataInFuture,
+ final DeviceInfo deviceInfo,
+ final EventIdentifier eventIdentifier,
+ final MultipartType type,
+ final TxFacade txFacade,
+ final DeviceRegistry registry,
+ final boolean initial,
+ final SinglePurposeMultipartReplyTranslator multipartReplyTranslator) {
return Futures.transform(statisticsDataInFuture, new AsyncFunction<RpcResult<List<MultipartReply>>, Boolean>() {
@Nullable
@Override
public ListenableFuture<Boolean> apply(final RpcResult<List<MultipartReply>> rpcResult) {
boolean isMultipartProcessed = Boolean.TRUE;
if (rpcResult.isSuccessful()) {
- LOG.debug("Stats reply successfully received for node {} of type {}", deviceInfo.getNodeId(), type);
+ if (LOG.isDebugEnabled()) {
+ LOG.debug("Stats reply successfully received for node {} of type {}",
+ deviceInfo.getNodeId(), type);
+ }
// TODO: in case the result value is null then multipart data probably got processed on the fly -
// TODO: this contract should by clearly stated and enforced - now simple true value is returned
try {
for (final MultipartReply singleReply : rpcResult.getResult()) {
- final List<? extends DataObject> multipartDataList = MULTIPART_REPLY_TRANSLATOR.translate(
+ final List<? extends DataObject> multipartDataList = multipartReplyTranslator.translate(
deviceInfo.getDatapathId(),
deviceInfo.getVersion(), singleReply);
multipartData = multipartDataList.get(0);
allMultipartData = Iterables.concat(allMultipartData, multipartDataList);
}
- } catch (final Exception e) {
- LOG.warn("stats processing of type {} for node {} failed during transfomation step",
+ } catch (final TransactionChainClosedException e) {
+ LOG.warn("stats processing of type {} for node {} failed during transformation step",
type, deviceInfo.getNodeId(), e);
return Futures.immediateFailedFuture(e);
}
try {
if (multipartData instanceof GroupStatisticsUpdated) {
- processGroupStatistics((Iterable<GroupStatisticsUpdated>) allMultipartData, deviceInfo, txFacade);
+ processGroupStatistics(
+ (Iterable<GroupStatisticsUpdated>) allMultipartData,
+ deviceInfo,
+ txFacade);
} else if (multipartData instanceof MeterStatisticsUpdated) {
- processMetersStatistics((Iterable<MeterStatisticsUpdated>) allMultipartData, deviceInfo, txFacade);
+ processMetersStatistics(
+ (Iterable<MeterStatisticsUpdated>) allMultipartData,
+ deviceInfo,
+ txFacade);
} else if (multipartData instanceof NodeConnectorStatisticsUpdate) {
- processNodeConnectorStatistics((Iterable<NodeConnectorStatisticsUpdate>) allMultipartData, deviceInfo, txFacade);
+ processNodeConnectorStatistics(
+ (Iterable<NodeConnectorStatisticsUpdate>) allMultipartData,
+ deviceInfo,
+ txFacade);
} else if (multipartData instanceof FlowTableStatisticsUpdate) {
- processFlowTableStatistics((Iterable<FlowTableStatisticsUpdate>) allMultipartData, deviceInfo, txFacade);
+ processFlowTableStatistics(
+ (Iterable<FlowTableStatisticsUpdate>) allMultipartData,
+ deviceInfo,
+ txFacade);
} else if (multipartData instanceof QueueStatisticsUpdate) {
- processQueueStatistics((Iterable<QueueStatisticsUpdate>) allMultipartData, deviceInfo, txFacade);
+ processQueueStatistics(
+ (Iterable<QueueStatisticsUpdate>) allMultipartData,
+ deviceInfo,
+ txFacade);
} else if (multipartData instanceof FlowsStatisticsUpdate) {
- /* FlowStat Processing is realized by NettyThread only by initPhase, otherwise it is realized
+ /* FlowStat Processing is realized by NettyThread only by initPhase,
+ * otherwise it is realized
* by MD-SAL thread */
- return processFlowStatistics((Iterable<FlowsStatisticsUpdate>) allMultipartData, deviceInfo, txFacade, registry.getDeviceFlowRegistry(), initial, eventIdentifier);
+ return processFlowStatistics(
+ (Iterable<FlowsStatisticsUpdate>) allMultipartData,
+ deviceInfo,
+ txFacade,
+ registry.getDeviceFlowRegistry(),
+ initial,
+ eventIdentifier);
} else if (multipartData instanceof GroupDescStatsUpdated) {
- processGroupDescStats((Iterable<GroupDescStatsUpdated>) allMultipartData, deviceInfo, txFacade, registry.getDeviceGroupRegistry());
+ processGroupDescStats(
+ (Iterable<GroupDescStatsUpdated>) allMultipartData,
+ deviceInfo,
+ txFacade,
+ registry.getDeviceGroupRegistry());
} else if (multipartData instanceof MeterConfigStatsUpdated) {
- processMeterConfigStatsUpdated((Iterable<MeterConfigStatsUpdated>) allMultipartData, deviceInfo, txFacade, registry.getDeviceMeterRegistry());
+ processMeterConfigStatsUpdated(
+ (Iterable<MeterConfigStatsUpdated>) allMultipartData,
+ deviceInfo,
+ txFacade,
+ registry.getDeviceMeterRegistry());
} else {
isMultipartProcessed = Boolean.FALSE;
}
- } catch (final Exception e) {
+ } catch (final TransactionChainClosedException e) {
LOG.warn("stats processing of type {} for node {} failed during write-to-tx step",
type, deviceInfo.getNodeId(), e);
return Futures.immediateFailedFuture(e);
}
- LOG.debug("Stats reply added to transaction for node {} of type {}", deviceInfo.getNodeId(), type);
+ if (LOG.isDebugEnabled()) {
+ LOG.debug("Stats reply added to transaction for node {} of type {}",
+ deviceInfo.getNodeId(), type);
+ }
//TODO : implement experimenter
} else {
- LOG.debug("Stats reply was empty for node {} of type {}", deviceInfo.getNodeId(), type);
+ if (LOG.isDebugEnabled()) {
+ LOG.debug("Stats reply was empty for node {} of type {}",
+ deviceInfo.getNodeId(), type);
+ }
}
} else {
- LOG.debug("Stats reply FAILED for node {} of type {}: {}", deviceInfo.getNodeId(), type, rpcResult.getErrors());
+ if (LOG.isDebugEnabled()) {
+ LOG.debug("Stats reply FAILED for node {} of type {}: {}",
+ deviceInfo.getNodeId(), type, rpcResult.getErrors());
+ }
isMultipartProcessed = Boolean.FALSE;
}
return Futures.immediateFuture(isMultipartProcessed);
private static void processMeterConfigStatsUpdated(final Iterable<MeterConfigStatsUpdated> data,
final DeviceInfo deviceInfo,
final TxFacade txFacade,
- final DeviceMeterRegistry meterRegistry) throws Exception {
+ final DeviceMeterRegistry meterRegistry)
+ throws TransactionChainClosedException {
final InstanceIdentifier<FlowCapableNode> fNodeIdent = assembleFlowCapableNodeInstanceIdentifier(deviceInfo);
deleteAllKnownMeters(meterRegistry, fNodeIdent, txFacade);
for (final MeterConfigStatsUpdated meterConfigStatsUpdated : data) {
for (final MeterConfigStats meterConfigStats : meterConfigStatsUpdated.getMeterConfigStats()) {
final MeterId meterId = meterConfigStats.getMeterId();
- final InstanceIdentifier<Meter> meterInstanceIdentifier = fNodeIdent.child(Meter.class, new MeterKey(meterId));
+ final InstanceIdentifier<Meter> meterInstanceIdentifier
+ = fNodeIdent.child(Meter.class, new MeterKey(meterId));
final MeterBuilder meterBuilder = new MeterBuilder(meterConfigStats);
meterBuilder.setKey(new MeterKey(meterId));
meterBuilder.addAugmentation(NodeMeterStatistics.class, new NodeMeterStatisticsBuilder().build());
meterRegistry.store(meterId);
- txFacade.writeToTransaction(LogicalDatastoreType.OPERATIONAL, meterInstanceIdentifier, meterBuilder.build());
+ txFacade.writeToTransaction(
+ LogicalDatastoreType.OPERATIONAL,
+ meterInstanceIdentifier,
+ meterBuilder.build());
}
}
txFacade.submitTransaction();
final DeviceFlowRegistry flowRegistry,
final boolean initial,
final EventIdentifier eventIdentifier) {
- final ListenableFuture<Void> deleteFuture = initial ? Futures.immediateFuture(null) : deleteAllKnownFlows(deviceInfo,
- flowRegistry, txFacade);
- return Futures.transform(deleteFuture, new Function<Void, Boolean>() {
-
- @Override
- public Boolean apply(final Void input) {
- writeFlowStatistics(data, deviceInfo, flowRegistry, txFacade);
- txFacade.submitTransaction();
- EventsTimeCounter.markEnd(eventIdentifier);
- return Boolean.TRUE;
- }
+ final ListenableFuture<Void> deleteFuture
+ = initial ? Futures.immediateFuture(null) : deleteAllKnownFlows(deviceInfo, flowRegistry, txFacade);
+ return Futures.transform(deleteFuture, (Function<Void, Boolean>) input -> {
+ writeFlowStatistics(data, deviceInfo, flowRegistry, txFacade);
+ txFacade.submitTransaction();
+ EventsTimeCounter.markEnd(eventIdentifier);
+ return Boolean.TRUE;
});
}
for (final FlowsStatisticsUpdate flowsStatistics : data) {
for (final FlowAndStatisticsMapList flowStat : flowsStatistics.getFlowAndStatisticsMapList()) {
final FlowBuilder flowBuilder = new FlowBuilder(flowStat);
- flowBuilder.addAugmentation(FlowStatisticsData.class, refineFlowStatisticsAugmentation(flowStat).build());
+ flowBuilder.addAugmentation(FlowStatisticsData.class,
+ refineFlowStatisticsAugmentation(flowStat).build());
final short tableId = flowStat.getTableId();
- final FlowRegistryKey flowRegistryKey = FlowRegistryKeyFactory.create(flowBuilder.build());
+ final FlowRegistryKey flowRegistryKey = FlowRegistryKeyFactory.create(deviceInfo.getVersion(), flowBuilder.build());
final FlowId flowId = registry.storeIfNecessary(flowRegistryKey);
final FlowKey flowKey = new FlowKey(flowId);
flowBuilder.setKey(flowKey);
final TableKey tableKey = new TableKey(tableId);
- final InstanceIdentifier<Flow> flowIdent = fNodeIdent.child(Table.class, tableKey).child(Flow.class, flowKey);
+ final InstanceIdentifier<Flow> flowIdent
+ = fNodeIdent.child(Table.class, tableKey).child(Flow.class, flowKey);
txFacade.writeToTransaction(LogicalDatastoreType.OPERATIONAL, flowIdent, flowBuilder.build());
}
}
- } catch (Exception e) {
- LOG.warn("Not able to write to transaction: {}", e.getMessage());
+ } catch (TransactionChainClosedException e) {
+ LOG.warn("Not able to write to transaction chain: {}", e.getMessage());
}
}
/**
- * Method extracts flow statistics out of flowAndStatistics model
+ * Method extracts flow statistics out of flowAndStatistics model.
*
- * @param flowAndStats
+ * @param flowAndStats flow statistics map list
*/
- private static FlowStatisticsDataBuilder refineFlowStatisticsAugmentation(final FlowAndStatisticsMapList flowAndStats) {
+ private static FlowStatisticsDataBuilder refineFlowStatisticsAugmentation(
+ final FlowAndStatisticsMapList flowAndStats) {
final FlowStatisticsBuilder flowStatisticsBuilder = new FlowStatisticsBuilder(flowAndStats);
final FlowStatisticsDataBuilder flowStatisticsDataBld = new FlowStatisticsDataBuilder();
flowStatisticsDataBld.setFlowStatistics(flowStatisticsBuilder.build());
public static ListenableFuture<Void> deleteAllKnownFlows(final DeviceInfo deviceInfo,
final DeviceFlowRegistry registry,
final TxFacade txFacade) {
- final InstanceIdentifier<FlowCapableNode> flowCapableNodePath = assembleFlowCapableNodeInstanceIdentifier(deviceInfo);
+ final InstanceIdentifier<FlowCapableNode> flowCapableNodePath
+ = assembleFlowCapableNodeInstanceIdentifier(deviceInfo);
final ReadOnlyTransaction readTx = txFacade.getReadTransaction();
final CheckedFuture<Optional<FlowCapableNode>, ReadFailedException> flowCapableNodeFuture = readTx.read(
LogicalDatastoreType.OPERATIONAL, flowCapableNodePath);
/* we wish to close readTx for fallBack */
- Futures.withFallback(flowCapableNodeFuture, new FutureFallback<Optional<FlowCapableNode>>() {
-
- @Override
- public ListenableFuture<Optional<FlowCapableNode>> create(final Throwable t) throws Exception {
- readTx.close();
- return Futures.immediateFailedFuture(t);
- }
+ Futures.withFallback(flowCapableNodeFuture, t -> {
+ readTx.close();
+ return Futures.immediateFailedFuture(t);
});
/*
* we have to read actual tables with all information before we set empty Flow list, merge is expensive and
* not applicable for lists
*/
- return Futures.transform(flowCapableNodeFuture, new AsyncFunction<Optional<FlowCapableNode>, Void>() {
-
- @Override
- public ListenableFuture<Void> apply(final Optional<FlowCapableNode> flowCapNodeOpt) throws Exception {
- if (flowCapNodeOpt.isPresent()) {
- for (final Table tableData : flowCapNodeOpt.get().getTable()) {
- final Table table = new TableBuilder(tableData).setFlow(Collections.<Flow>emptyList()).build();
- final InstanceIdentifier<Table> iiToTable = flowCapableNodePath.child(Table.class, tableData.getKey());
- txFacade.writeToTransaction(LogicalDatastoreType.OPERATIONAL, iiToTable, table);
+ return Futures.transform(
+ flowCapableNodeFuture, (AsyncFunction<Optional<FlowCapableNode>, Void>) flowCapNodeOpt -> {
+ if (flowCapNodeOpt.isPresent()) {
+ for (final Table tableData : flowCapNodeOpt.get().getTable()) {
+ final Table table = new TableBuilder(tableData).setFlow(Collections.<Flow>emptyList()).build();
+ final InstanceIdentifier<Table> iiToTable
+ = flowCapableNodePath.child(Table.class, tableData.getKey());
+ txFacade.writeToTransaction(LogicalDatastoreType.OPERATIONAL, iiToTable, table);
+ }
}
+ readTx.close();
+ return Futures.immediateFuture(null);
+ });
+ }
+
+ public static Optional<FlowCapableNode> deleteAllKnownFlows(final DeviceInfo deviceInfo,
+ final TxFacade txFacade) {
+ final InstanceIdentifier<FlowCapableNode> flowCapableNodePath
+ = assembleFlowCapableNodeInstanceIdentifier(deviceInfo);
+ final ReadOnlyTransaction readTx = txFacade.getReadTransaction();
+ final CheckedFuture<Optional<FlowCapableNode>, ReadFailedException> flowCapableNodeFuture = readTx.read(
+ LogicalDatastoreType.OPERATIONAL, flowCapableNodePath);
+
+ try {
+ Optional<FlowCapableNode> fcNodeOpt = flowCapableNodeFuture.get();
+ if ( fcNodeOpt != null && fcNodeOpt.isPresent()){
+ for (final Table tableData : flowCapableNodeFuture.get().get().getTable()) {
+ final Table table = new TableBuilder(tableData).setFlow(Collections.<Flow>emptyList()).build();
+ final InstanceIdentifier<Table> iiToTable = flowCapableNodePath.child(Table.class, tableData.getKey());
+ txFacade.writeToTransaction(LogicalDatastoreType.OPERATIONAL, iiToTable, table);
}
- registry.removeMarked();
+ return fcNodeOpt;
+ }
+ } catch (InterruptedException|ExecutionException e) {
+ LOG.error("Failed to read current OpenFlow node {] operational data", deviceInfo.getNodeId());
+ } finally {
+ if (readTx != null){
readTx.close();
- return Futures.immediateFuture(null);
}
-
- });
+ }
+ return Optional.absent();
}
- private static void processQueueStatistics(final Iterable<QueueStatisticsUpdate> data, final DeviceInfo deviceInfo, final TxFacade txFacade) throws Exception {
+ private static void processQueueStatistics(
+ final Iterable<QueueStatisticsUpdate> data,
+ final DeviceInfo deviceInfo,
+ final TxFacade txFacade) throws TransactionChainClosedException {
// TODO: clean all queues of all node-connectors before writing up-to-date stats
final InstanceIdentifier<Node> nodeIdent = deviceInfo.getNodeInstanceIdentifier();
for (final QueueStatisticsUpdate queueStatisticsUpdate : data) {
final QueueBuilder queueBuilder = new QueueBuilder()
.setKey(qKey)
.setQueueId(queueStat.getQueueId())
- // node-connector-id is already contained in parent node and the port-id here is of incompatible format
+ // node-connector-id is already contained in parent node
+ // and the port-id here is of incompatible format
.addAugmentation(FlowCapableNodeConnectorQueueStatisticsData.class, statBuild.build());
txFacade.writeToTransaction(LogicalDatastoreType.OPERATIONAL, queueIdent, queueBuilder.build());
}
txFacade.submitTransaction();
}
- private static void processFlowTableStatistics(final Iterable<FlowTableStatisticsUpdate> data, final DeviceInfo deviceInfo, final TxFacade txFacade) throws Exception {
+ private static void processFlowTableStatistics(
+ final Iterable<FlowTableStatisticsUpdate> data,
+ final DeviceInfo deviceInfo,
+ final TxFacade txFacade) throws TransactionChainClosedException {
final InstanceIdentifier<FlowCapableNode> fNodeIdent = assembleFlowCapableNodeInstanceIdentifier(deviceInfo);
for (final FlowTableStatisticsUpdate flowTableStatisticsUpdate : data) {
for (final FlowTableAndStatisticsMap tableStat : flowTableStatisticsUpdate.getFlowTableAndStatisticsMap()) {
- final InstanceIdentifier<FlowTableStatistics> tStatIdent = fNodeIdent.child(Table.class, new TableKey(tableStat.getTableId().getValue()))
+ final InstanceIdentifier<FlowTableStatistics> tStatIdent
+ = fNodeIdent.child(Table.class, new TableKey(tableStat.getTableId().getValue()))
.augmentation(FlowTableStatisticsData.class).child(FlowTableStatistics.class);
final FlowTableStatistics stats = new FlowTableStatisticsBuilder(tableStat).build();
txFacade.writeToTransaction(LogicalDatastoreType.OPERATIONAL, tStatIdent, stats);
txFacade.submitTransaction();
}
- private static void processNodeConnectorStatistics(final Iterable<NodeConnectorStatisticsUpdate> data, final DeviceInfo deviceInfo, final TxFacade txFacade) throws Exception {
+ private static void processNodeConnectorStatistics(
+ final Iterable<NodeConnectorStatisticsUpdate> data,
+ final DeviceInfo deviceInfo,
+ final TxFacade txFacade) throws TransactionChainClosedException {
final InstanceIdentifier<Node> nodeIdent = deviceInfo.getNodeInstanceIdentifier();
for (final NodeConnectorStatisticsUpdate nodeConnectorStatisticsUpdate : data) {
- for (final NodeConnectorStatisticsAndPortNumberMap nConnectPort : nodeConnectorStatisticsUpdate.getNodeConnectorStatisticsAndPortNumberMap()) {
- final FlowCapableNodeConnectorStatistics stats = new FlowCapableNodeConnectorStatisticsBuilder(nConnectPort).build();
- final NodeConnectorKey key = new NodeConnectorKey(nConnectPort.getNodeConnectorId());
+ for (final NodeConnectorStatisticsAndPortNumberMap nodeConnectPort :
+ nodeConnectorStatisticsUpdate.getNodeConnectorStatisticsAndPortNumberMap()) {
+ final FlowCapableNodeConnectorStatistics stats
+ = new FlowCapableNodeConnectorStatisticsBuilder(nodeConnectPort).build();
+ final NodeConnectorKey key = new NodeConnectorKey(nodeConnectPort.getNodeConnectorId());
final InstanceIdentifier<NodeConnector> nodeConnectorIdent = nodeIdent.child(NodeConnector.class, key);
final InstanceIdentifier<FlowCapableNodeConnectorStatisticsData> nodeConnStatIdent = nodeConnectorIdent
.augmentation(FlowCapableNodeConnectorStatisticsData.class);
private static void processMetersStatistics(final Iterable<MeterStatisticsUpdated> data,
final DeviceInfo deviceInfo,
- final TxFacade txFacade) throws Exception {
+ final TxFacade txFacade) throws TransactionChainClosedException {
final InstanceIdentifier<FlowCapableNode> fNodeIdent = assembleFlowCapableNodeInstanceIdentifier(deviceInfo);
for (final MeterStatisticsUpdated meterStatisticsUpdated : data) {
- for (final MeterStats mStat : meterStatisticsUpdated.getMeterStats()) {
- final MeterStatistics stats = new MeterStatisticsBuilder(mStat).build();
- final MeterId meterId = mStat.getMeterId();
+ for (final MeterStats meterStats : meterStatisticsUpdated.getMeterStats()) {
+ final MeterStatistics stats = new MeterStatisticsBuilder(meterStats).build();
+ final MeterId meterId = meterStats.getMeterId();
final InstanceIdentifier<Meter> meterIdent = fNodeIdent.child(Meter.class, new MeterKey(meterId));
final InstanceIdentifier<NodeMeterStatistics> nodeMeterStatIdent = meterIdent
.augmentation(NodeMeterStatistics.class);
txFacade.submitTransaction();
}
- private static void deleteAllKnownMeters(final DeviceMeterRegistry meterRegistry, final InstanceIdentifier<FlowCapableNode> fNodeIdent, final TxFacade txFacade) throws Exception {
+ private static void deleteAllKnownMeters(
+ final DeviceMeterRegistry meterRegistry,
+ final InstanceIdentifier<FlowCapableNode> flowNodeIdent,
+ final TxFacade txFacade) throws TransactionChainClosedException {
for (final MeterId meterId : meterRegistry.getAllMeterIds()) {
- final InstanceIdentifier<Meter> meterIdent = fNodeIdent.child(Meter.class, new MeterKey(meterId));
+ final InstanceIdentifier<Meter> meterIdent = flowNodeIdent.child(Meter.class, new MeterKey(meterId));
txFacade.addDeleteToTxChain(LogicalDatastoreType.OPERATIONAL, meterIdent);
}
meterRegistry.removeMarked();
}
- private static void processGroupDescStats(final Iterable<GroupDescStatsUpdated> data, final DeviceInfo deviceInfo, final TxFacade txFacade, final DeviceGroupRegistry groupRegistry) throws Exception {
+ private static void processGroupDescStats(
+ final Iterable<GroupDescStatsUpdated> data,
+ final DeviceInfo deviceInfo,
+ final TxFacade txFacade,
+ final DeviceGroupRegistry groupRegistry) throws TransactionChainClosedException {
final InstanceIdentifier<FlowCapableNode> fNodeIdent = assembleFlowCapableNodeInstanceIdentifier(deviceInfo);
deleteAllKnownGroups(txFacade, fNodeIdent, groupRegistry);
txFacade.submitTransaction();
}
- private static void deleteAllKnownGroups(final TxFacade txFacade, final InstanceIdentifier<FlowCapableNode> fNodeIdent, final DeviceGroupRegistry groupRegistry) throws Exception {
+ private static void deleteAllKnownGroups(
+ final TxFacade txFacade,
+ final InstanceIdentifier<FlowCapableNode> flowNodeIdent,
+ final DeviceGroupRegistry groupRegistry) throws TransactionChainClosedException {
for (final GroupId groupId : groupRegistry.getAllGroupIds()) {
- final InstanceIdentifier<Group> groupIdent = fNodeIdent.child(Group.class, new GroupKey(groupId));
+ final InstanceIdentifier<Group> groupIdent = flowNodeIdent.child(Group.class, new GroupKey(groupId));
txFacade.addDeleteToTxChain(LogicalDatastoreType.OPERATIONAL, groupIdent);
}
groupRegistry.removeMarked();
}
- private static void processGroupStatistics(final Iterable<GroupStatisticsUpdated> data, final DeviceInfo deviceInfo, final TxFacade txFacade) throws Exception {
+ private static void processGroupStatistics(
+ final Iterable<GroupStatisticsUpdated> data,
+ final DeviceInfo deviceInfo,
+ final TxFacade txFacade) throws TransactionChainClosedException {
final InstanceIdentifier<FlowCapableNode> fNodeIdent = assembleFlowCapableNodeInstanceIdentifier(deviceInfo);
for (final GroupStatisticsUpdated groupStatistics : data) {
for (final GroupStats groupStats : groupStatistics.getGroupStats()) {
- final InstanceIdentifier<Group> groupIdent = fNodeIdent.child(Group.class, new GroupKey(groupStats.getGroupId()));
+ final InstanceIdentifier<Group> groupIdent
+ = fNodeIdent.child(Group.class, new GroupKey(groupStats.getGroupId()));
final InstanceIdentifier<NodeGroupStatistics> nGroupStatIdent = groupIdent
.augmentation(NodeGroupStatistics.class);
txFacade.submitTransaction();
}
- private static InstanceIdentifier<FlowCapableNode> assembleFlowCapableNodeInstanceIdentifier(final DeviceInfo deviceInfo) {
+ private static InstanceIdentifier<FlowCapableNode> assembleFlowCapableNodeInstanceIdentifier(
+ final DeviceInfo deviceInfo) {
return deviceInfo.getNodeInstanceIdentifier().augmentation(FlowCapableNode.class);
}
/**
- * Writes snapshot gathering start timestamp + cleans end mark
+ * Writes snapshot gathering start timestamp + cleans end mark.
*
* @param deviceContext txManager + node path keeper
*/
.build();
try {
deviceContext.writeToTransaction(LogicalDatastoreType.OPERATIONAL, statusPath, gatheringStatus);
- } catch (final Exception e) {
- LOG.warn("Can't write to transaction: {}", e);
+ } catch (final TransactionChainClosedException e) {
+ LOG.warn("Can't write to transaction, transaction chain probably closed.");
+ LOG.trace("Write to transaction exception: ", e);
}
deviceContext.submitTransaction();
}
/**
- * Writes snapshot gathering end timestamp + outcome
+ * Writes snapshot gathering end timestamp + outcome.
*
* @param deviceContext txManager + node path keeper
* @param succeeded outcome of currently finished gathering
.build();
try {
deviceContext.writeToTransaction(LogicalDatastoreType.OPERATIONAL, statusEndPath, gatheringStatus);
- } catch (Exception e) {
- LOG.warn("Can't write to transaction: {}", e);
+ } catch (TransactionChainClosedException e) {
+ LOG.warn("Can't write to transaction, transaction chain probably closed.");
+ LOG.trace("Write to transaction exception: ", e);
}
deviceContext.submitTransaction();