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|
/*
* Copyright 2014-2015 Open Networking Laboratory
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.onosproject.store.flow.impl;
import com.google.common.base.Objects;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.Iterables;
import com.google.common.collect.Maps;
import com.google.common.collect.Sets;
import com.google.common.util.concurrent.Futures;
import org.apache.felix.scr.annotations.Activate;
import org.apache.felix.scr.annotations.Component;
import org.apache.felix.scr.annotations.Deactivate;
import org.apache.felix.scr.annotations.Modified;
import org.apache.felix.scr.annotations.Property;
import org.apache.felix.scr.annotations.Reference;
import org.apache.felix.scr.annotations.ReferenceCardinality;
import org.apache.felix.scr.annotations.Service;
import org.onlab.util.KryoNamespace;
import org.onlab.util.Tools;
import org.onosproject.cfg.ComponentConfigService;
import org.onosproject.cluster.ClusterService;
import org.onosproject.cluster.NodeId;
import org.onosproject.core.CoreService;
import org.onosproject.core.IdGenerator;
import org.onosproject.mastership.MastershipService;
import org.onosproject.net.DeviceId;
import org.onosproject.net.device.DeviceService;
import org.onosproject.net.flow.CompletedBatchOperation;
import org.onosproject.net.flow.DefaultFlowEntry;
import org.onosproject.net.flow.FlowEntry;
import org.onosproject.net.flow.FlowEntry.FlowEntryState;
import org.onosproject.net.flow.FlowId;
import org.onosproject.net.flow.FlowRule;
import org.onosproject.net.flow.FlowRuleBatchEntry;
import org.onosproject.net.flow.FlowRuleBatchEntry.FlowRuleOperation;
import org.onosproject.net.flow.FlowRuleBatchEvent;
import org.onosproject.net.flow.FlowRuleBatchOperation;
import org.onosproject.net.flow.FlowRuleBatchRequest;
import org.onosproject.net.flow.FlowRuleEvent;
import org.onosproject.net.flow.FlowRuleEvent.Type;
import org.onosproject.net.flow.FlowRuleService;
import org.onosproject.net.flow.FlowRuleStore;
import org.onosproject.net.flow.FlowRuleStoreDelegate;
import org.onosproject.net.flow.StoredFlowEntry;
import org.onosproject.net.flow.TableStatisticsEntry;
import org.onosproject.persistence.PersistenceService;
import org.onosproject.store.AbstractStore;
import org.onosproject.store.cluster.messaging.ClusterCommunicationService;
import org.onosproject.store.cluster.messaging.ClusterMessage;
import org.onosproject.store.cluster.messaging.ClusterMessageHandler;
import org.onosproject.store.flow.ReplicaInfoEvent;
import org.onosproject.store.flow.ReplicaInfoEventListener;
import org.onosproject.store.flow.ReplicaInfoService;
import org.onosproject.store.impl.MastershipBasedTimestamp;
import org.onosproject.store.serializers.KryoNamespaces;
import org.onosproject.store.serializers.KryoSerializer;
import org.onosproject.store.serializers.StoreSerializer;
import org.onosproject.store.serializers.custom.DistributedStoreSerializers;
import org.onosproject.store.service.EventuallyConsistentMap;
import org.onosproject.store.service.EventuallyConsistentMapEvent;
import org.onosproject.store.service.EventuallyConsistentMapListener;
import org.onosproject.store.service.Serializer;
import org.onosproject.store.service.StorageService;
import org.onosproject.store.service.WallClockTimestamp;
import org.osgi.service.component.ComponentContext;
import org.slf4j.Logger;
import java.util.Collections;
import java.util.Dictionary;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.ScheduledFuture;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.stream.Collectors;
import static com.google.common.base.Strings.isNullOrEmpty;
import static org.onlab.util.Tools.get;
import static org.onlab.util.Tools.groupedThreads;
import static org.onosproject.net.flow.FlowRuleEvent.Type.RULE_REMOVED;
import static org.onosproject.store.flow.impl.FlowStoreMessageSubjects.*;
import static org.slf4j.LoggerFactory.getLogger;
/**
* Manages inventory of flow rules using a distributed state management protocol.
*/
@Component(immediate = true, enabled = true)
@Service
public class NewDistributedFlowRuleStore
extends AbstractStore<FlowRuleBatchEvent, FlowRuleStoreDelegate>
implements FlowRuleStore {
private final Logger log = getLogger(getClass());
private static final int MESSAGE_HANDLER_THREAD_POOL_SIZE = 8;
private static final boolean DEFAULT_BACKUP_ENABLED = true;
private static final boolean DEFAULT_PERSISTENCE_ENABLED = false;
private static final int DEFAULT_BACKUP_PERIOD_MILLIS = 2000;
private static final long FLOW_RULE_STORE_TIMEOUT_MILLIS = 5000;
// number of devices whose flow entries will be backed up in one communication round
private static final int FLOW_TABLE_BACKUP_BATCH_SIZE = 1;
@Property(name = "msgHandlerPoolSize", intValue = MESSAGE_HANDLER_THREAD_POOL_SIZE,
label = "Number of threads in the message handler pool")
private int msgHandlerPoolSize = MESSAGE_HANDLER_THREAD_POOL_SIZE;
@Property(name = "backupEnabled", boolValue = DEFAULT_BACKUP_ENABLED,
label = "Indicates whether backups are enabled or not")
private boolean backupEnabled = DEFAULT_BACKUP_ENABLED;
@Property(name = "backupPeriod", intValue = DEFAULT_BACKUP_PERIOD_MILLIS,
label = "Delay in ms between successive backup runs")
private int backupPeriod = DEFAULT_BACKUP_PERIOD_MILLIS;
@Property(name = "persistenceEnabled", boolValue = false,
label = "Indicates whether or not changes in the flow table should be persisted to disk.")
private boolean persistenceEnabled = DEFAULT_PERSISTENCE_ENABLED;
private InternalFlowTable flowTable = new InternalFlowTable();
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
protected ReplicaInfoService replicaInfoManager;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
protected ClusterCommunicationService clusterCommunicator;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
protected ClusterService clusterService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
protected DeviceService deviceService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
protected CoreService coreService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
protected ComponentConfigService configService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
protected MastershipService mastershipService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
protected PersistenceService persistenceService;
private Map<Long, NodeId> pendingResponses = Maps.newConcurrentMap();
private ExecutorService messageHandlingExecutor;
private ScheduledFuture<?> backupTask;
private final ScheduledExecutorService backupSenderExecutor =
Executors.newSingleThreadScheduledExecutor(groupedThreads("onos/flow", "backup-sender"));
private EventuallyConsistentMap<DeviceId, List<TableStatisticsEntry>> deviceTableStats;
private final EventuallyConsistentMapListener<DeviceId, List<TableStatisticsEntry>> tableStatsListener =
new InternalTableStatsListener();
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
protected StorageService storageService;
protected static final StoreSerializer SERIALIZER = new KryoSerializer() {
@Override
protected void setupKryoPool() {
serializerPool = KryoNamespace.newBuilder()
.register(DistributedStoreSerializers.STORE_COMMON)
.nextId(DistributedStoreSerializers.STORE_CUSTOM_BEGIN)
.build();
}
};
protected static final KryoNamespace.Builder SERIALIZER_BUILDER = KryoNamespace.newBuilder()
.register(KryoNamespaces.API)
.register(MastershipBasedTimestamp.class);
private IdGenerator idGenerator;
private NodeId local;
@Activate
public void activate(ComponentContext context) {
configService.registerProperties(getClass());
idGenerator = coreService.getIdGenerator(FlowRuleService.FLOW_OP_TOPIC);
local = clusterService.getLocalNode().id();
messageHandlingExecutor = Executors.newFixedThreadPool(
msgHandlerPoolSize, groupedThreads("onos/store/flow", "message-handlers"));
registerMessageHandlers(messageHandlingExecutor);
if (backupEnabled) {
replicaInfoManager.addListener(flowTable);
backupTask = backupSenderExecutor.scheduleWithFixedDelay(
flowTable::backup,
0,
backupPeriod,
TimeUnit.MILLISECONDS);
}
deviceTableStats = storageService.<DeviceId, List<TableStatisticsEntry>>eventuallyConsistentMapBuilder()
.withName("onos-flow-table-stats")
.withSerializer(SERIALIZER_BUILDER)
.withAntiEntropyPeriod(5, TimeUnit.SECONDS)
.withTimestampProvider((k, v) -> new WallClockTimestamp())
.withTombstonesDisabled()
.build();
deviceTableStats.addListener(tableStatsListener);
logConfig("Started");
}
@Deactivate
public void deactivate(ComponentContext context) {
if (backupEnabled) {
replicaInfoManager.removeListener(flowTable);
backupTask.cancel(true);
}
configService.unregisterProperties(getClass(), false);
unregisterMessageHandlers();
deviceTableStats.removeListener(tableStatsListener);
deviceTableStats.destroy();
messageHandlingExecutor.shutdownNow();
backupSenderExecutor.shutdownNow();
log.info("Stopped");
}
@SuppressWarnings("rawtypes")
@Modified
public void modified(ComponentContext context) {
if (context == null) {
backupEnabled = DEFAULT_BACKUP_ENABLED;
logConfig("Default config");
return;
}
Dictionary properties = context.getProperties();
int newPoolSize;
boolean newBackupEnabled;
int newBackupPeriod;
try {
String s = get(properties, "msgHandlerPoolSize");
newPoolSize = isNullOrEmpty(s) ? msgHandlerPoolSize : Integer.parseInt(s.trim());
s = get(properties, "backupEnabled");
newBackupEnabled = isNullOrEmpty(s) ? backupEnabled : Boolean.parseBoolean(s.trim());
s = get(properties, "backupPeriod");
newBackupPeriod = isNullOrEmpty(s) ? backupPeriod : Integer.parseInt(s.trim());
} catch (NumberFormatException | ClassCastException e) {
newPoolSize = MESSAGE_HANDLER_THREAD_POOL_SIZE;
newBackupEnabled = DEFAULT_BACKUP_ENABLED;
newBackupPeriod = DEFAULT_BACKUP_PERIOD_MILLIS;
}
boolean restartBackupTask = false;
if (newBackupEnabled != backupEnabled) {
backupEnabled = newBackupEnabled;
if (!backupEnabled) {
replicaInfoManager.removeListener(flowTable);
if (backupTask != null) {
backupTask.cancel(false);
backupTask = null;
}
} else {
replicaInfoManager.addListener(flowTable);
}
restartBackupTask = backupEnabled;
}
if (newBackupPeriod != backupPeriod) {
backupPeriod = newBackupPeriod;
restartBackupTask = backupEnabled;
}
if (restartBackupTask) {
if (backupTask != null) {
// cancel previously running task
backupTask.cancel(false);
}
backupTask = backupSenderExecutor.scheduleWithFixedDelay(
flowTable::backup,
0,
backupPeriod,
TimeUnit.MILLISECONDS);
}
if (newPoolSize != msgHandlerPoolSize) {
msgHandlerPoolSize = newPoolSize;
ExecutorService oldMsgHandler = messageHandlingExecutor;
messageHandlingExecutor = Executors.newFixedThreadPool(
msgHandlerPoolSize, groupedThreads("onos/store/flow", "message-handlers"));
// replace previously registered handlers.
registerMessageHandlers(messageHandlingExecutor);
oldMsgHandler.shutdown();
}
logConfig("Reconfigured");
}
private void registerMessageHandlers(ExecutorService executor) {
clusterCommunicator.addSubscriber(APPLY_BATCH_FLOWS, new OnStoreBatch(), executor);
clusterCommunicator.<FlowRuleBatchEvent>addSubscriber(
REMOTE_APPLY_COMPLETED, SERIALIZER::decode, this::notifyDelegate, executor);
clusterCommunicator.addSubscriber(
GET_FLOW_ENTRY, SERIALIZER::decode, flowTable::getFlowEntry, SERIALIZER::encode, executor);
clusterCommunicator.addSubscriber(
GET_DEVICE_FLOW_ENTRIES, SERIALIZER::decode, flowTable::getFlowEntries, SERIALIZER::encode, executor);
clusterCommunicator.addSubscriber(
REMOVE_FLOW_ENTRY, SERIALIZER::decode, this::removeFlowRuleInternal, SERIALIZER::encode, executor);
clusterCommunicator.addSubscriber(
REMOVE_FLOW_ENTRY, SERIALIZER::decode, this::removeFlowRuleInternal, SERIALIZER::encode, executor);
clusterCommunicator.addSubscriber(
FLOW_TABLE_BACKUP, SERIALIZER::decode, flowTable::onBackupReceipt, SERIALIZER::encode, executor);
}
private void unregisterMessageHandlers() {
clusterCommunicator.removeSubscriber(REMOVE_FLOW_ENTRY);
clusterCommunicator.removeSubscriber(GET_DEVICE_FLOW_ENTRIES);
clusterCommunicator.removeSubscriber(GET_FLOW_ENTRY);
clusterCommunicator.removeSubscriber(APPLY_BATCH_FLOWS);
clusterCommunicator.removeSubscriber(REMOTE_APPLY_COMPLETED);
clusterCommunicator.removeSubscriber(FLOW_TABLE_BACKUP);
}
private void logConfig(String prefix) {
log.info("{} with msgHandlerPoolSize = {}; backupEnabled = {}, backupPeriod = {}",
prefix, msgHandlerPoolSize, backupEnabled, backupPeriod);
}
// This is not a efficient operation on a distributed sharded
// flow store. We need to revisit the need for this operation or at least
// make it device specific.
@Override
public int getFlowRuleCount() {
AtomicInteger sum = new AtomicInteger(0);
deviceService.getDevices().forEach(device -> sum.addAndGet(Iterables.size(getFlowEntries(device.id()))));
return sum.get();
}
@Override
public FlowEntry getFlowEntry(FlowRule rule) {
NodeId master = mastershipService.getMasterFor(rule.deviceId());
if (master == null) {
log.debug("Failed to getFlowEntry: No master for {}", rule.deviceId());
return null;
}
if (Objects.equal(local, master)) {
return flowTable.getFlowEntry(rule);
}
log.trace("Forwarding getFlowEntry to {}, which is the primary (master) for device {}",
master, rule.deviceId());
return Tools.futureGetOrElse(clusterCommunicator.sendAndReceive(rule,
FlowStoreMessageSubjects.GET_FLOW_ENTRY,
SERIALIZER::encode,
SERIALIZER::decode,
master),
FLOW_RULE_STORE_TIMEOUT_MILLIS,
TimeUnit.MILLISECONDS,
null);
}
@Override
public Iterable<FlowEntry> getFlowEntries(DeviceId deviceId) {
NodeId master = mastershipService.getMasterFor(deviceId);
if (master == null) {
log.debug("Failed to getFlowEntries: No master for {}", deviceId);
return Collections.emptyList();
}
if (Objects.equal(local, master)) {
return flowTable.getFlowEntries(deviceId);
}
log.trace("Forwarding getFlowEntries to {}, which is the primary (master) for device {}",
master, deviceId);
return Tools.futureGetOrElse(clusterCommunicator.sendAndReceive(deviceId,
FlowStoreMessageSubjects.GET_DEVICE_FLOW_ENTRIES,
SERIALIZER::encode,
SERIALIZER::decode,
master),
FLOW_RULE_STORE_TIMEOUT_MILLIS,
TimeUnit.MILLISECONDS,
Collections.emptyList());
}
@Override
public void storeFlowRule(FlowRule rule) {
storeBatch(new FlowRuleBatchOperation(
Collections.singletonList(new FlowRuleBatchEntry(FlowRuleOperation.ADD, rule)),
rule.deviceId(), idGenerator.getNewId()));
}
@Override
public void storeBatch(FlowRuleBatchOperation operation) {
if (operation.getOperations().isEmpty()) {
notifyDelegate(FlowRuleBatchEvent.completed(
new FlowRuleBatchRequest(operation.id(), Collections.emptySet()),
new CompletedBatchOperation(true, Collections.emptySet(), operation.deviceId())));
return;
}
DeviceId deviceId = operation.deviceId();
NodeId master = mastershipService.getMasterFor(deviceId);
if (master == null) {
log.warn("No master for {} : flows will be marked for removal", deviceId);
updateStoreInternal(operation);
notifyDelegate(FlowRuleBatchEvent.completed(
new FlowRuleBatchRequest(operation.id(), Collections.emptySet()),
new CompletedBatchOperation(true, Collections.emptySet(), operation.deviceId())));
return;
}
if (Objects.equal(local, master)) {
storeBatchInternal(operation);
return;
}
log.trace("Forwarding storeBatch to {}, which is the primary (master) for device {}",
master, deviceId);
clusterCommunicator.unicast(operation,
APPLY_BATCH_FLOWS,
SERIALIZER::encode,
master)
.whenComplete((result, error) -> {
if (error != null) {
log.warn("Failed to storeBatch: {} to {}", operation, master, error);
Set<FlowRule> allFailures = operation.getOperations()
.stream()
.map(op -> op.target())
.collect(Collectors.toSet());
notifyDelegate(FlowRuleBatchEvent.completed(
new FlowRuleBatchRequest(operation.id(), Collections.emptySet()),
new CompletedBatchOperation(false, allFailures, deviceId)));
}
});
}
private void storeBatchInternal(FlowRuleBatchOperation operation) {
final DeviceId did = operation.deviceId();
//final Collection<FlowEntry> ft = flowTable.getFlowEntries(did);
Set<FlowRuleBatchEntry> currentOps = updateStoreInternal(operation);
if (currentOps.isEmpty()) {
batchOperationComplete(FlowRuleBatchEvent.completed(
new FlowRuleBatchRequest(operation.id(), Collections.emptySet()),
new CompletedBatchOperation(true, Collections.emptySet(), did)));
return;
}
notifyDelegate(FlowRuleBatchEvent.requested(new
FlowRuleBatchRequest(operation.id(),
currentOps), operation.deviceId()));
}
private Set<FlowRuleBatchEntry> updateStoreInternal(FlowRuleBatchOperation operation) {
return operation.getOperations().stream().map(
op -> {
StoredFlowEntry entry;
switch (op.operator()) {
case ADD:
entry = new DefaultFlowEntry(op.target());
// always add requested FlowRule
// Note: 2 equal FlowEntry may have different treatment
flowTable.remove(entry.deviceId(), entry);
flowTable.add(entry);
return op;
case REMOVE:
entry = flowTable.getFlowEntry(op.target());
if (entry != null) {
entry.setState(FlowEntryState.PENDING_REMOVE);
return op;
}
break;
case MODIFY:
//TODO: figure this out at some point
break;
default:
log.warn("Unknown flow operation operator: {}", op.operator());
}
return null;
}
).filter(op -> op != null).collect(Collectors.toSet());
}
@Override
public void deleteFlowRule(FlowRule rule) {
storeBatch(
new FlowRuleBatchOperation(
Collections.singletonList(
new FlowRuleBatchEntry(
FlowRuleOperation.REMOVE,
rule)), rule.deviceId(), idGenerator.getNewId()));
}
@Override
public FlowRuleEvent addOrUpdateFlowRule(FlowEntry rule) {
NodeId master = mastershipService.getMasterFor(rule.deviceId());
if (Objects.equal(local, master)) {
return addOrUpdateFlowRuleInternal(rule);
}
log.warn("Tried to update FlowRule {} state,"
+ " while the Node was not the master.", rule);
return null;
}
private FlowRuleEvent addOrUpdateFlowRuleInternal(FlowEntry rule) {
// check if this new rule is an update to an existing entry
StoredFlowEntry stored = flowTable.getFlowEntry(rule);
if (stored != null) {
stored.setBytes(rule.bytes());
stored.setLife(rule.life());
stored.setPackets(rule.packets());
if (stored.state() == FlowEntryState.PENDING_ADD) {
stored.setState(FlowEntryState.ADDED);
return new FlowRuleEvent(Type.RULE_ADDED, rule);
}
return new FlowRuleEvent(Type.RULE_UPDATED, rule);
}
// TODO: Confirm if this behavior is correct. See SimpleFlowRuleStore
// TODO: also update backup if the behavior is correct.
flowTable.add(rule);
return null;
}
@Override
public FlowRuleEvent removeFlowRule(FlowEntry rule) {
final DeviceId deviceId = rule.deviceId();
NodeId master = mastershipService.getMasterFor(deviceId);
if (Objects.equal(local, master)) {
// bypass and handle it locally
return removeFlowRuleInternal(rule);
}
if (master == null) {
log.warn("Failed to removeFlowRule: No master for {}", deviceId);
// TODO: revisit if this should be null (="no-op") or Exception
return null;
}
log.trace("Forwarding removeFlowRule to {}, which is the master for device {}",
master, deviceId);
return Futures.get(clusterCommunicator.sendAndReceive(
rule,
REMOVE_FLOW_ENTRY,
SERIALIZER::encode,
SERIALIZER::decode,
master),
FLOW_RULE_STORE_TIMEOUT_MILLIS,
TimeUnit.MILLISECONDS,
RuntimeException.class);
}
private FlowRuleEvent removeFlowRuleInternal(FlowEntry rule) {
final DeviceId deviceId = rule.deviceId();
// This is where one could mark a rule as removed and still keep it in the store.
final boolean removed = flowTable.remove(deviceId, rule); //flowEntries.remove(deviceId, rule);
return removed ? new FlowRuleEvent(RULE_REMOVED, rule) : null;
}
@Override
public void batchOperationComplete(FlowRuleBatchEvent event) {
//FIXME: need a per device pending response
NodeId nodeId = pendingResponses.remove(event.subject().batchId());
if (nodeId == null) {
notifyDelegate(event);
} else {
// TODO check unicast return value
clusterCommunicator.unicast(event, REMOTE_APPLY_COMPLETED, SERIALIZER::encode, nodeId);
//error log: log.warn("Failed to respond to peer for batch operation result");
}
}
private final class OnStoreBatch implements ClusterMessageHandler {
@Override
public void handle(final ClusterMessage message) {
FlowRuleBatchOperation operation = SERIALIZER.decode(message.payload());
log.debug("received batch request {}", operation);
final DeviceId deviceId = operation.deviceId();
NodeId master = mastershipService.getMasterFor(deviceId);
if (!Objects.equal(local, master)) {
Set<FlowRule> failures = new HashSet<>(operation.size());
for (FlowRuleBatchEntry op : operation.getOperations()) {
failures.add(op.target());
}
CompletedBatchOperation allFailed = new CompletedBatchOperation(false, failures, deviceId);
// This node is no longer the master, respond as all failed.
// TODO: we might want to wrap response in envelope
// to distinguish sw programming failure and hand over
// it make sense in the latter case to retry immediately.
message.respond(SERIALIZER.encode(allFailed));
return;
}
pendingResponses.put(operation.id(), message.sender());
storeBatchInternal(operation);
}
}
private class InternalFlowTable implements ReplicaInfoEventListener {
private final Map<DeviceId, Map<FlowId, Set<StoredFlowEntry>>>
flowEntries = Maps.newConcurrentMap();
private final Map<DeviceId, Long> lastBackupTimes = Maps.newConcurrentMap();
private final Map<DeviceId, Long> lastUpdateTimes = Maps.newConcurrentMap();
private final Map<DeviceId, NodeId> lastBackupNodes = Maps.newConcurrentMap();
@Override
public void event(ReplicaInfoEvent event) {
if (!backupEnabled) {
return;
}
if (event.type() == ReplicaInfoEvent.Type.BACKUPS_CHANGED) {
DeviceId deviceId = event.subject();
NodeId master = mastershipService.getMasterFor(deviceId);
if (!Objects.equal(local, master)) {
// ignore since this event is for a device this node does not manage.
return;
}
NodeId newBackupNode = getBackupNode(deviceId);
NodeId currentBackupNode = lastBackupNodes.get(deviceId);
if (Objects.equal(newBackupNode, currentBackupNode)) {
// ignore since backup location hasn't changed.
return;
}
if (currentBackupNode != null && newBackupNode == null) {
// Current backup node is most likely down and no alternate backup node
// has been chosen. Clear current backup location so that we can resume
// backups when either current backup comes online or a different backup node
// is chosen.
log.warn("Lost backup location {} for deviceId {} and no alternate backup node exists. "
+ "Flows can be lost if the master goes down", currentBackupNode, deviceId);
lastBackupNodes.remove(deviceId);
lastBackupTimes.remove(deviceId);
return;
// TODO: Pick any available node as backup and ensure hand-off occurs when
// a new master is elected.
}
log.debug("Backup location for {} has changed from {} to {}.",
deviceId, currentBackupNode, newBackupNode);
backupSenderExecutor.schedule(() -> backupFlowEntries(newBackupNode, Sets.newHashSet(deviceId)),
0,
TimeUnit.SECONDS);
}
}
private void sendBackups(NodeId nodeId, Set<DeviceId> deviceIds) {
// split up the devices into smaller batches and send them separately.
Iterables.partition(deviceIds, FLOW_TABLE_BACKUP_BATCH_SIZE)
.forEach(ids -> backupFlowEntries(nodeId, Sets.newHashSet(ids)));
}
private void backupFlowEntries(NodeId nodeId, Set<DeviceId> deviceIds) {
if (deviceIds.isEmpty()) {
return;
}
log.debug("Sending flowEntries for devices {} to {} as backup.", deviceIds, nodeId);
Map<DeviceId, Map<FlowId, Set<StoredFlowEntry>>> deviceFlowEntries =
Maps.newConcurrentMap();
deviceIds.forEach(id -> deviceFlowEntries.put(id, ImmutableMap.copyOf(getFlowTable(id))));
clusterCommunicator.<Map<DeviceId, Map<FlowId, Set<StoredFlowEntry>>>, Set<DeviceId>>sendAndReceive(
deviceFlowEntries,
FLOW_TABLE_BACKUP,
SERIALIZER::encode,
SERIALIZER::decode,
nodeId)
.whenComplete((backedupDevices, error) -> {
Set<DeviceId> devicesNotBackedup = error != null ?
deviceFlowEntries.keySet() :
Sets.difference(deviceFlowEntries.keySet(), backedupDevices);
if (devicesNotBackedup.size() > 0) {
log.warn("Failed to backup devices: {}. Reason: {}",
devicesNotBackedup, error.getMessage());
}
if (backedupDevices != null) {
backedupDevices.forEach(id -> {
lastBackupTimes.put(id, System.currentTimeMillis());
lastBackupNodes.put(id, nodeId);
});
}
});
}
/**
* Returns the flow table for specified device.
*
* @param deviceId identifier of the device
* @return Map representing Flow Table of given device.
*/
private Map<FlowId, Set<StoredFlowEntry>> getFlowTable(DeviceId deviceId) {
if (persistenceEnabled) {
return flowEntries.computeIfAbsent(deviceId, id -> persistenceService
.<FlowId, Set<StoredFlowEntry>>persistentMapBuilder()
.withName("FlowTable:" + deviceId.toString())
.withSerializer(new Serializer() {
@Override
public <T> byte[] encode(T object) {
return SERIALIZER.encode(object);
}
@Override
public <T> T decode(byte[] bytes) {
return SERIALIZER.decode(bytes);
}
})
.build());
} else {
return flowEntries.computeIfAbsent(deviceId, id -> Maps.newConcurrentMap());
}
}
private Set<StoredFlowEntry> getFlowEntriesInternal(DeviceId deviceId, FlowId flowId) {
return getFlowTable(deviceId).computeIfAbsent(flowId, id -> Sets.newCopyOnWriteArraySet());
}
private StoredFlowEntry getFlowEntryInternal(FlowRule rule) {
Set<StoredFlowEntry> flowEntries = getFlowEntriesInternal(rule.deviceId(), rule.id());
return flowEntries.stream()
.filter(entry -> Objects.equal(entry, rule))
.findAny()
.orElse(null);
}
private Set<FlowEntry> getFlowEntriesInternal(DeviceId deviceId) {
Set<FlowEntry> result = Sets.newHashSet();
getFlowTable(deviceId).values().forEach(result::addAll);
return result;
}
public StoredFlowEntry getFlowEntry(FlowRule rule) {
return getFlowEntryInternal(rule);
}
public Set<FlowEntry> getFlowEntries(DeviceId deviceId) {
return getFlowEntriesInternal(deviceId);
}
public void add(FlowEntry rule) {
getFlowEntriesInternal(rule.deviceId(), rule.id()).add((StoredFlowEntry) rule);
lastUpdateTimes.put(rule.deviceId(), System.currentTimeMillis());
}
public boolean remove(DeviceId deviceId, FlowEntry rule) {
try {
return getFlowEntriesInternal(deviceId, rule.id()).remove(rule);
} finally {
lastUpdateTimes.put(deviceId, System.currentTimeMillis());
}
}
private NodeId getBackupNode(DeviceId deviceId) {
List<NodeId> deviceStandbys = replicaInfoManager.getReplicaInfoFor(deviceId).backups();
// pick the standby which is most likely to become next master
return deviceStandbys.isEmpty() ? null : deviceStandbys.get(0);
}
private void backup() {
if (!backupEnabled) {
return;
}
try {
// determine the set of devices that we need to backup during this run.
Set<DeviceId> devicesToBackup = mastershipService.getDevicesOf(local)
.stream()
.filter(deviceId -> {
Long lastBackupTime = lastBackupTimes.get(deviceId);
Long lastUpdateTime = lastUpdateTimes.get(deviceId);
NodeId lastBackupNode = lastBackupNodes.get(deviceId);
NodeId newBackupNode = getBackupNode(deviceId);
return lastBackupTime == null
|| !Objects.equal(lastBackupNode, newBackupNode)
|| (lastUpdateTime != null && lastUpdateTime > lastBackupTime);
})
.collect(Collectors.toSet());
// compute a mapping from node to the set of devices whose flow entries it should backup
Map<NodeId, Set<DeviceId>> devicesToBackupByNode = Maps.newHashMap();
devicesToBackup.forEach(deviceId -> {
NodeId backupLocation = getBackupNode(deviceId);
if (backupLocation != null) {
devicesToBackupByNode.computeIfAbsent(backupLocation, nodeId -> Sets.newHashSet())
.add(deviceId);
}
});
// send the device flow entries to their respective backup nodes
devicesToBackupByNode.forEach(this::sendBackups);
} catch (Exception e) {
log.error("Backup failed.", e);
}
}
private Set<DeviceId> onBackupReceipt(Map<DeviceId, Map<FlowId, Set<StoredFlowEntry>>> flowTables) {
log.debug("Received flowEntries for {} to backup", flowTables.keySet());
Set<DeviceId> backedupDevices = Sets.newHashSet();
try {
flowTables.forEach((deviceId, deviceFlowTable) -> {
// Only process those devices are that not managed by the local node.
if (!Objects.equal(local, mastershipService.getMasterFor(deviceId))) {
Map<FlowId, Set<StoredFlowEntry>> backupFlowTable = getFlowTable(deviceId);
backupFlowTable.clear();
backupFlowTable.putAll(deviceFlowTable);
backedupDevices.add(deviceId);
}
});
} catch (Exception e) {
log.warn("Failure processing backup request", e);
}
return backedupDevices;
}
}
@Override
public FlowRuleEvent updateTableStatistics(DeviceId deviceId,
List<TableStatisticsEntry> tableStats) {
deviceTableStats.put(deviceId, tableStats);
return null;
}
@Override
public Iterable<TableStatisticsEntry> getTableStatistics(DeviceId deviceId) {
NodeId master = mastershipService.getMasterFor(deviceId);
if (master == null) {
log.debug("Failed to getTableStats: No master for {}", deviceId);
return Collections.emptyList();
}
List<TableStatisticsEntry> tableStats = deviceTableStats.get(deviceId);
if (tableStats == null) {
return Collections.emptyList();
}
return ImmutableList.copyOf(tableStats);
}
private class InternalTableStatsListener
implements EventuallyConsistentMapListener<DeviceId, List<TableStatisticsEntry>> {
@Override
public void event(EventuallyConsistentMapEvent<DeviceId,
List<TableStatisticsEntry>> event) {
//TODO: Generate an event to listeners (do we need?)
}
}
}
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