package org.opendaylight.openflowplugin.impl.registry.flow;
import com.google.common.annotations.VisibleForTesting;
-import com.google.common.base.Optional;
import com.google.common.collect.BiMap;
import com.google.common.collect.HashBiMap;
import com.google.common.collect.Maps;
-import com.google.common.util.concurrent.CheckedFuture;
+import com.google.common.util.concurrent.FluentFuture;
import com.google.common.util.concurrent.FutureCallback;
import com.google.common.util.concurrent.Futures;
import com.google.common.util.concurrent.ListenableFuture;
-import com.romix.scala.collection.concurrent.TrieMap;
+import com.google.common.util.concurrent.MoreExecutors;
import java.util.ArrayList;
import java.util.Arrays;
-import java.util.Collection;
import java.util.Collections;
-import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
-import java.util.concurrent.ConcurrentMap;
+import java.util.Objects;
+import java.util.Optional;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.function.Consumer;
-import javax.annotation.concurrent.GuardedBy;
-import org.opendaylight.controller.md.sal.binding.api.DataBroker;
-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 javax.annotation.Nonnull;
+import javax.annotation.concurrent.ThreadSafe;
+import org.opendaylight.mdsal.binding.api.DataBroker;
+import org.opendaylight.mdsal.binding.api.ReadTransaction;
+import org.opendaylight.mdsal.common.api.LogicalDatastoreType;
+import org.opendaylight.mdsal.common.api.ReadFailedException;
import org.opendaylight.openflowplugin.api.openflow.registry.flow.DeviceFlowRegistry;
import org.opendaylight.openflowplugin.api.openflow.registry.flow.FlowDescriptor;
import org.opendaylight.openflowplugin.api.openflow.registry.flow.FlowRegistryKey;
import org.opendaylight.yang.gen.v1.urn.opendaylight.flow.inventory.rev130819.tables.table.Flow;
import org.opendaylight.yang.gen.v1.urn.opendaylight.inventory.rev130819.nodes.Node;
import org.opendaylight.yang.gen.v1.urn.opendaylight.inventory.rev130819.nodes.NodeKey;
+import org.opendaylight.yang.gen.v1.urn.opendaylight.openflowplugin.extension.general.rev140714.GeneralAugMatchNodesNodeTableFlow;
+import org.opendaylight.yangtools.util.concurrent.FluentFutures;
import org.opendaylight.yangtools.yang.binding.InstanceIdentifier;
import org.opendaylight.yangtools.yang.binding.KeyedInstanceIdentifier;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
-/**
- * Created by Martin Bobak <mbobak@cisco.com> on 8.4.2015.
- */
+@ThreadSafe
public class DeviceFlowRegistryImpl implements DeviceFlowRegistry {
private static final Logger LOG = LoggerFactory.getLogger(DeviceFlowRegistryImpl.class);
private static final String ALIEN_SYSTEM_FLOW_ID = "#UF$TABLE*";
private static final AtomicInteger UNACCOUNTED_FLOWS_COUNTER = new AtomicInteger(0);
-
- private final BiMap<FlowRegistryKey, FlowDescriptor> flowRegistry = HashBiMap.create();
- @GuardedBy("marks")
- private final Collection<FlowRegistryKey> marks = new HashSet<>();
+ private final BiMap<FlowRegistryKey, FlowDescriptor> flowRegistry = Maps.synchronizedBiMap(HashBiMap.create());
private final DataBroker dataBroker;
private final KeyedInstanceIdentifier<Node, NodeKey> instanceIdentifier;
private final List<ListenableFuture<List<Optional<FlowCapableNode>>>> lastFillFutures = new ArrayList<>();
+ private final Consumer<Flow> flowConsumer;
- // Specifies what to do with flow read from datastore
- private final Consumer<Flow> flowConsumer = flow -> {
- // Create flow registry key from flow
- final FlowRegistryKey key = FlowRegistryKeyFactory.create(flow);
-
- // Now, we will update the registry, but we will also try to prevent duplicate entries
- if (!flowRegistry.containsKey(key)) {
- LOG.trace("Found flow with table ID : {} and flow ID : {}", flow.getTableId(), flow.getId().getValue());
- final FlowDescriptor descriptor = FlowDescriptorFactory.create(flow.getTableId(), flow.getId());
- store(key, descriptor);
- }
- };
-
-
- public DeviceFlowRegistryImpl(final DataBroker dataBroker, final KeyedInstanceIdentifier<Node, NodeKey> instanceIdentifier) {
+ public DeviceFlowRegistryImpl(final short version,
+ final DataBroker dataBroker,
+ final KeyedInstanceIdentifier<Node, NodeKey> instanceIdentifier) {
this.dataBroker = dataBroker;
this.instanceIdentifier = instanceIdentifier;
+
+ // Specifies what to do with flow read from data store
+ flowConsumer = flow -> {
+ final FlowRegistryKey flowRegistryKey = FlowRegistryKeyFactory.create(version, flow);
+
+ if (getExistingKey(flowRegistryKey) == null) {
+ // Now, we will update the registry
+ storeDescriptor(flowRegistryKey, FlowDescriptorFactory.create(flow.getTableId(), flow.getId()));
+ }
+ };
}
@Override
public ListenableFuture<List<Optional<FlowCapableNode>>> fill() {
- LOG.debug("Filling flow registry with flows for node: {}", instanceIdentifier);
+ if (LOG.isDebugEnabled()) {
+ LOG.debug("Filling flow registry with flows for node: {}", instanceIdentifier.getKey().getId().getValue());
+ }
// Prepare path for read transaction
// TODO: Read only Tables, and not entire FlowCapableNode (fix Yang model)
final InstanceIdentifier<FlowCapableNode> path = instanceIdentifier.augmentation(FlowCapableNode.class);
// First, try to fill registry with flows from DS/Configuration
- CheckedFuture<Optional<FlowCapableNode>, ReadFailedException> configFuture = fillFromDatastore(LogicalDatastoreType.CONFIGURATION, path);
+ final FluentFuture<Optional<FlowCapableNode>> configFuture =
+ fillFromDatastore(LogicalDatastoreType.CONFIGURATION, path);
// Now, try to fill registry with flows from DS/Operational
// in case of cluster fail over, when clients are not using DS/Configuration
// for adding flows, but only RPCs
- CheckedFuture<Optional<FlowCapableNode>, ReadFailedException> operationalFuture = fillFromDatastore(LogicalDatastoreType.OPERATIONAL, path);
+ final FluentFuture<Optional<FlowCapableNode>> operationalFuture =
+ fillFromDatastore(LogicalDatastoreType.OPERATIONAL, path);
// And at last, chain and return futures created above.
// Also, cache this future, so call to DeviceFlowRegistry.close() will be able
// to cancel this future immediately if it will be still in progress
- final ListenableFuture<List<Optional<FlowCapableNode>>> lastFillFuture = Futures.allAsList(Arrays.asList(configFuture, operationalFuture));
+ final ListenableFuture<List<Optional<FlowCapableNode>>> lastFillFuture =
+ Futures.allAsList(Arrays.asList(configFuture, operationalFuture));
lastFillFutures.add(lastFillFuture);
return lastFillFuture;
}
- private CheckedFuture<Optional<FlowCapableNode>, ReadFailedException> fillFromDatastore(final LogicalDatastoreType logicalDatastoreType, final InstanceIdentifier<FlowCapableNode> path) {
+ private FluentFuture<Optional<FlowCapableNode>> fillFromDatastore(final LogicalDatastoreType logicalDatastoreType,
+ final InstanceIdentifier<FlowCapableNode> path) {
// Create new read-only transaction
- final ReadOnlyTransaction transaction = dataBroker.newReadOnlyTransaction();
+ final ReadTransaction transaction = dataBroker.newReadOnlyTransaction();
// Bail out early if transaction is null
if (transaction == null) {
- return Futures.immediateFailedCheckedFuture(
+ return FluentFutures.immediateFailedFluentFuture(
new ReadFailedException("Read transaction is null"));
}
// Prepare read operation from datastore for path
- final CheckedFuture<Optional<FlowCapableNode>, ReadFailedException> future =
- transaction.read(logicalDatastoreType, path);
+ final FluentFuture<Optional<FlowCapableNode>> future = transaction.read(logicalDatastoreType, path);
// Bail out early if future is null
if (future == null) {
- return Futures.immediateFailedCheckedFuture(
+ return FluentFutures.immediateFailedFluentFuture(
new ReadFailedException("Future from read transaction is null"));
}
- Futures.addCallback(future, new FutureCallback<Optional<FlowCapableNode>>() {
+ future.addCallback(new FutureCallback<Optional<FlowCapableNode>>() {
@Override
- public void onSuccess(Optional<FlowCapableNode> result) {
- result.asSet().stream()
+ public void onSuccess(@Nonnull Optional<FlowCapableNode> result) {
+ result.map(Collections::singleton).orElse(Collections.emptySet()).stream()
+ .filter(Objects::nonNull)
+ .filter(flowCapableNode -> Objects.nonNull(flowCapableNode.getTable()))
.flatMap(flowCapableNode -> flowCapableNode.getTable().stream())
+ .filter(Objects::nonNull)
+ .filter(table -> Objects.nonNull(table.getFlow()))
.flatMap(table -> table.getFlow().stream())
+ .filter(Objects::nonNull)
+ .filter(flow -> Objects.nonNull(flow.getId()))
.forEach(flowConsumer);
// After we are done with reading from datastore, close the transaction
}
@Override
- public void onFailure(Throwable t) {
+ public void onFailure(Throwable throwable) {
// Even when read operation failed, close the transaction
transaction.close();
}
- });
+ }, MoreExecutors.directExecutor());
return future;
}
@Override
- public FlowDescriptor retrieveIdForFlow(final FlowRegistryKey flowRegistryKey) {
- LOG.trace("Retrieving flowDescriptor for flow hash: {}", flowRegistryKey.hashCode());
- FlowDescriptor flowDescriptor = flowRegistry.get(flowRegistryKey);
- // Get FlowDescriptor from flow registry
- if(flowDescriptor == null){
- for(Map.Entry<FlowRegistryKey, FlowDescriptor> fd : flowRegistry.entrySet()) {
- if (fd.getKey().equals(flowRegistryKey)) {
- flowDescriptor = fd.getValue();
- break;
- }
- }
+ public FlowDescriptor retrieveDescriptor(@Nonnull final FlowRegistryKey flowRegistryKey) {
+ if (LOG.isTraceEnabled()) {
+ LOG.trace("Retrieving flow descriptor for flow registry : {}", flowRegistryKey.toString());
}
- return flowDescriptor;
- }
+ FlowRegistryKey existingFlowRegistryKey = getExistingKey(flowRegistryKey);
+ if (existingFlowRegistryKey != null) {
+ return flowRegistry.get(existingFlowRegistryKey);
+ }
+ return null;
+ }
@Override
- public void store(final FlowRegistryKey flowRegistryKey, final FlowDescriptor flowDescriptor) {
- LOG.trace("Storing flowDescriptor with table ID : {} and flow ID : {} for flow hash : {}",
- flowDescriptor.getTableKey().getId(), flowDescriptor.getFlowId().getValue(), flowRegistryKey.hashCode());
+ public void storeDescriptor(@Nonnull final FlowRegistryKey flowRegistryKey,
+ @Nonnull final FlowDescriptor flowDescriptor) {
try {
- flowRegistry.put(flowRegistryKey, flowDescriptor);
+ if (LOG.isTraceEnabled()) {
+ LOG.trace("Storing flowDescriptor with table ID : {} and flow ID : {} for flow hash : {}",
+ flowDescriptor.getTableKey().getId(),
+ flowDescriptor.getFlowId().getValue(),
+ flowRegistryKey.toString());
+ }
+
+ addToFlowRegistry(flowRegistryKey, flowDescriptor);
} catch (IllegalArgumentException ex) {
- LOG.error("Flow with flowId {} already exists in table {}", flowDescriptor.getFlowId().getValue(),
- flowDescriptor.getTableKey().getId());
- final FlowId newFlowId = createAlienFlowId(flowDescriptor.getTableKey().getId());
- final FlowDescriptor newFlowDescriptor = FlowDescriptorFactory.
- create(flowDescriptor.getTableKey().getId(), newFlowId);
- flowRegistry.put(flowRegistryKey, newFlowDescriptor);
+ if (LOG.isWarnEnabled()) {
+ LOG.warn("Flow with flow ID {} already exists in table {}, generating alien flow ID",
+ flowDescriptor.getFlowId().getValue(),
+ flowDescriptor.getTableKey().getId());
+ }
+
+ // We are trying to store new flow to flow registry, but we already have different flow with same flow ID
+ // stored in registry, so we need to create alien ID for this new flow here.
+ addToFlowRegistry(
+ flowRegistryKey,
+ FlowDescriptorFactory.create(
+ flowDescriptor.getTableKey().getId(),
+ createAlienFlowId(flowDescriptor.getTableKey().getId())));
}
}
@Override
- public FlowId storeIfNecessary(final FlowRegistryKey flowRegistryKey) {
- LOG.trace("Trying to retrieve flowDescriptor for flow hash: {}", flowRegistryKey.hashCode());
-
- // First, try to get FlowDescriptor from flow registry
- FlowDescriptor flowDescriptor = retrieveIdForFlow(flowRegistryKey);
-
- // We was not able to retrieve FlowDescriptor, so we will at least try to generate it
- if (flowDescriptor == null) {
- final short tableId = flowRegistryKey.getTableId();
- final FlowId alienFlowId = createAlienFlowId(tableId);
- flowDescriptor = FlowDescriptorFactory.create(tableId, alienFlowId);
+ public void store(final FlowRegistryKey flowRegistryKey) {
+ if (Objects.isNull(retrieveDescriptor(flowRegistryKey))) {
+ if (LOG.isDebugEnabled()) {
+ LOG.debug("Flow descriptor for flow hash : {} not found, generating alien flow ID",
+ flowRegistryKey.toString());
+ }
- // Finally we got flowDescriptor, so now we will store it to registry,
- // so next time we won't need to generate it again
- store(flowRegistryKey, flowDescriptor);
+ // We do not found flow in flow registry, that means it do not have any ID already assigned, so we need
+ // to generate new alien flow ID here.
+ storeDescriptor(
+ flowRegistryKey,
+ FlowDescriptorFactory.create(
+ flowRegistryKey.getTableId(),
+ createAlienFlowId(flowRegistryKey.getTableId())));
}
-
- return flowDescriptor.getFlowId();
}
@Override
- public void markToBeremoved(final FlowRegistryKey flowRegistryKey) {
- synchronized (marks) {
- marks.add(flowRegistryKey);
+ public void addMark(final FlowRegistryKey flowRegistryKey) {
+ if (LOG.isTraceEnabled()) {
+ LOG.trace("Removing flow descriptor for flow hash : {}", flowRegistryKey.toString());
}
- LOG.trace("Flow hash {} was marked for removal.", flowRegistryKey.hashCode());
+ removeFromFlowRegistry(flowRegistryKey);
}
@Override
- public void removeMarked() {
- synchronized (marks) {
- for (FlowRegistryKey flowRegistryKey : marks) {
- LOG.trace("Removing flowDescriptor for flow hash : {}", flowRegistryKey.hashCode());
- flowRegistry.remove(flowRegistryKey);
- }
+ public void processMarks() {
+ // Do nothing
+ }
- marks.clear();
+ @Override
+ public void forEach(final Consumer<FlowRegistryKey> consumer) {
+ synchronized (flowRegistry) {
+ flowRegistry.keySet().forEach(consumer);
}
}
@Override
- public Map<FlowRegistryKey, FlowDescriptor> getAllFlowDescriptors() {
- return Collections.unmodifiableMap(flowRegistry);
+ public int size() {
+ return flowRegistry.size();
}
@Override
public void close() {
final Iterator<ListenableFuture<List<Optional<FlowCapableNode>>>> iterator = lastFillFutures.iterator();
- while(iterator.hasNext()) {
+ // We need to force interrupt and clear all running futures that are trying to read flow IDs from data store
+ while (iterator.hasNext()) {
final ListenableFuture<List<Optional<FlowCapableNode>>> next = iterator.next();
boolean success = next.cancel(true);
LOG.trace("Cancelling filling flow registry with flows job {} with result: {}", next, success);
}
flowRegistry.clear();
- marks.clear();
}
@VisibleForTesting
static FlowId createAlienFlowId(final short tableId) {
final String alienId = ALIEN_SYSTEM_FLOW_ID + tableId + '-' + UNACCOUNTED_FLOWS_COUNTER.incrementAndGet();
+ LOG.debug("Created alien flow id {} for table id {}", alienId, tableId);
return new FlowId(alienId);
}
-}
\ No newline at end of file
+
+ //Hashcode generation of the extension augmentation can differ for the same object received from the datastore and
+ // the one received after deserialization of switch message. OpenFlowplugin extensions are list, and the order in
+ // which it can receive the extensions back from switch can differ and that lead to a different hashcode. In that
+ // scenario, hashcode won't match and flowRegistry return the related key. To overcome this issue, these methods
+ // make sure that key is stored only if it doesn't equals to any existing key.
+ private void addToFlowRegistry(final FlowRegistryKey flowRegistryKey, final FlowDescriptor flowDescriptor) {
+ FlowRegistryKey existingFlowRegistryKey = getExistingKey(flowRegistryKey);
+ if (existingFlowRegistryKey == null) {
+ flowRegistry.put(flowRegistryKey, flowDescriptor);
+ } else {
+ flowRegistry.put(existingFlowRegistryKey, flowDescriptor);
+ }
+ }
+
+ private void removeFromFlowRegistry(final FlowRegistryKey flowRegistryKey) {
+ FlowRegistryKey existingFlowRegistryKey = getExistingKey(flowRegistryKey);
+ if (existingFlowRegistryKey != null) {
+ flowRegistry.remove(existingFlowRegistryKey);
+ } else {
+ flowRegistry.remove(flowRegistryKey);
+ }
+ }
+
+ private FlowRegistryKey getExistingKey(final FlowRegistryKey flowRegistryKey) {
+ if (flowRegistryKey.getMatch().augmentation(GeneralAugMatchNodesNodeTableFlow.class) == null) {
+ if (flowRegistry.containsKey(flowRegistryKey)) {
+ return flowRegistryKey;
+ }
+ } else {
+ synchronized (flowRegistry) {
+ for (Map.Entry<FlowRegistryKey, FlowDescriptor> keyValueSet : flowRegistry.entrySet()) {
+ if (keyValueSet.getKey().equals(flowRegistryKey)) {
+ return keyValueSet.getKey();
+ }
+ }
+ }
+ }
+ return null;
+ }
+
+ @VisibleForTesting
+ Map<FlowRegistryKey, FlowDescriptor> getAllFlowDescriptors() {
+ return flowRegistry;
+ }
+}