2 * Copyright (c) 2015 Brocade Communications Systems, Inc. and others. All rights reserved.
3 * Copyright (c) 2015 Cisco Systems, Inc. and others. All rights reserved.
5 * This program and the accompanying materials are made available under the
6 * terms of the Eclipse Public License v1.0 which accompanies this distribution,
7 * and is available at http://www.eclipse.org/legal/epl-v10.html
9 package org.opendaylight.controller.cluster.datastore;
11 import akka.actor.ActorSelection;
12 import akka.dispatch.OnComplete;
13 import akka.pattern.AskTimeoutException;
14 import akka.util.Timeout;
15 import com.google.common.base.Preconditions;
16 import java.util.concurrent.TimeUnit;
17 import org.opendaylight.controller.cluster.access.concepts.TransactionIdentifier;
18 import org.opendaylight.controller.cluster.datastore.exceptions.NoShardLeaderException;
19 import org.opendaylight.controller.cluster.datastore.exceptions.ShardLeaderNotRespondingException;
20 import org.opendaylight.controller.cluster.datastore.messages.CreateTransaction;
21 import org.opendaylight.controller.cluster.datastore.messages.CreateTransactionReply;
22 import org.opendaylight.controller.cluster.datastore.messages.PrimaryShardInfo;
23 import org.opendaylight.controller.cluster.datastore.utils.ActorUtils;
24 import org.slf4j.Logger;
25 import org.slf4j.LoggerFactory;
26 import scala.concurrent.Future;
27 import scala.concurrent.duration.FiniteDuration;
30 * Handles creation of TransactionContext instances for remote transactions. This class creates
31 * remote transactions, if necessary, by sending CreateTransaction messages with retries, up to a limit,
32 * if the shard doesn't have a leader yet. This is done by scheduling a retry task after a short delay.
34 * The end result from a completed CreateTransaction message is a TransactionContext that is
35 * used to perform transaction operations. Transaction operations that occur before the
36 * CreateTransaction completes are cache via a TransactionContextWrapper and executed once the
37 * CreateTransaction completes, successfully or not.
39 final class RemoteTransactionContextSupport {
40 private static final Logger LOG = LoggerFactory.getLogger(RemoteTransactionContextSupport.class);
42 private static final long CREATE_TX_TRY_INTERVAL_IN_MS = 1000;
43 private static final long MAX_CREATE_TX_MSG_TIMEOUT_IN_MS = 5000;
45 private final TransactionProxy parent;
46 private final String shardName;
49 * The target primary shard.
51 private volatile PrimaryShardInfo primaryShardInfo;
54 * The total timeout for creating a tx on the primary shard.
56 private volatile long totalCreateTxTimeout;
58 private final Timeout createTxMessageTimeout;
60 private final TransactionContextWrapper transactionContextWrapper;
62 RemoteTransactionContextSupport(final TransactionContextWrapper transactionContextWrapper,
63 final TransactionProxy parent, final String shardName) {
64 this.parent = Preconditions.checkNotNull(parent);
65 this.shardName = shardName;
66 this.transactionContextWrapper = transactionContextWrapper;
68 // For the total create tx timeout, use 2 times the election timeout. This should be enough time for
69 // a leader re-election to occur if we happen to hit it in transition.
70 totalCreateTxTimeout = parent.getActorUtils().getDatastoreContext().getShardRaftConfig()
71 .getElectionTimeOutInterval().toMillis() * 2;
73 // We'll use the operationTimeout for the the create Tx message timeout so it can be set appropriately
74 // for unit tests but cap it at MAX_CREATE_TX_MSG_TIMEOUT_IN_MS. The operationTimeout could be set
75 // larger than the totalCreateTxTimeout in production which we don't want.
76 long operationTimeout = parent.getActorUtils().getOperationTimeout().duration().toMillis();
77 createTxMessageTimeout = new Timeout(Math.min(operationTimeout, MAX_CREATE_TX_MSG_TIMEOUT_IN_MS),
78 TimeUnit.MILLISECONDS);
81 String getShardName() {
85 private TransactionType getTransactionType() {
86 return parent.getType();
89 private ActorUtils getActorUtils() {
90 return parent.getActorUtils();
93 private TransactionIdentifier getIdentifier() {
94 return parent.getIdentifier();
98 * Sets the target primary shard and initiates a CreateTransaction try.
100 void setPrimaryShard(final PrimaryShardInfo newPrimaryShardInfo) {
101 this.primaryShardInfo = newPrimaryShardInfo;
103 if (getTransactionType() == TransactionType.WRITE_ONLY
104 && getActorUtils().getDatastoreContext().isWriteOnlyTransactionOptimizationsEnabled()) {
105 ActorSelection primaryShard = newPrimaryShardInfo.getPrimaryShardActor();
107 LOG.debug("Tx {} Primary shard {} found - creating WRITE_ONLY transaction context",
108 getIdentifier(), primaryShard);
110 // For write-only Tx's we prepare the transaction modifications directly on the shard actor
111 // to avoid the overhead of creating a separate transaction actor.
112 transactionContextWrapper.executePriorTransactionOperations(createValidTransactionContext(
113 primaryShard, String.valueOf(primaryShard.path()), newPrimaryShardInfo.getPrimaryShardVersion()));
115 tryCreateTransaction();
120 Performs a CreateTransaction try async.
122 private void tryCreateTransaction() {
123 LOG.debug("Tx {} Primary shard {} found - trying create transaction", getIdentifier(),
124 primaryShardInfo.getPrimaryShardActor());
126 Object serializedCreateMessage = new CreateTransaction(getIdentifier(), getTransactionType().ordinal(),
127 primaryShardInfo.getPrimaryShardVersion()).toSerializable();
129 Future<Object> createTxFuture = getActorUtils().executeOperationAsync(
130 primaryShardInfo.getPrimaryShardActor(), serializedCreateMessage, createTxMessageTimeout);
132 createTxFuture.onComplete(new OnComplete<Object>() {
134 public void onComplete(final Throwable failure, final Object response) {
135 onCreateTransactionComplete(failure, response);
137 }, getActorUtils().getClientDispatcher());
140 private void tryFindPrimaryShard() {
141 LOG.debug("Tx {} Retrying findPrimaryShardAsync for shard {}", getIdentifier(), shardName);
143 this.primaryShardInfo = null;
144 Future<PrimaryShardInfo> findPrimaryFuture = getActorUtils().findPrimaryShardAsync(shardName);
145 findPrimaryFuture.onComplete(new OnComplete<PrimaryShardInfo>() {
147 public void onComplete(final Throwable failure, final PrimaryShardInfo newPrimaryShardInfo) {
148 onFindPrimaryShardComplete(failure, newPrimaryShardInfo);
150 }, getActorUtils().getClientDispatcher());
153 private void onFindPrimaryShardComplete(final Throwable failure, final PrimaryShardInfo newPrimaryShardInfo) {
154 if (failure == null) {
155 this.primaryShardInfo = newPrimaryShardInfo;
156 tryCreateTransaction();
158 LOG.debug("Tx {}: Find primary for shard {} failed", getIdentifier(), shardName, failure);
160 onCreateTransactionComplete(failure, null);
164 private void onCreateTransactionComplete(final Throwable failure, final Object response) {
165 // An AskTimeoutException will occur if the local shard forwards to an unavailable remote leader or
166 // the cached remote leader actor is no longer available.
167 boolean retryCreateTransaction = primaryShardInfo != null
168 && (failure instanceof NoShardLeaderException || failure instanceof AskTimeoutException);
170 // Schedule a retry unless we're out of retries. Note: totalCreateTxTimeout is volatile as it may
171 // be written by different threads however not concurrently, therefore decrementing it
172 // non-atomically here is ok.
173 if (retryCreateTransaction && totalCreateTxTimeout > 0) {
174 long scheduleInterval = CREATE_TX_TRY_INTERVAL_IN_MS;
175 if (failure instanceof AskTimeoutException) {
176 // Since we use the createTxMessageTimeout for the CreateTransaction request and it timed
177 // out, subtract it from the total timeout. Also since the createTxMessageTimeout period
178 // has already elapsed, we can immediately schedule the retry (10 ms is virtually immediate).
179 totalCreateTxTimeout -= createTxMessageTimeout.duration().toMillis();
180 scheduleInterval = 10;
183 totalCreateTxTimeout -= scheduleInterval;
185 LOG.debug("Tx {}: create tx on shard {} failed with exception \"{}\" - scheduling retry in {} ms",
186 getIdentifier(), shardName, failure, scheduleInterval);
188 getActorUtils().getActorSystem().scheduler().scheduleOnce(
189 FiniteDuration.create(scheduleInterval, TimeUnit.MILLISECONDS),
190 this::tryFindPrimaryShard, getActorUtils().getClientDispatcher());
194 createTransactionContext(failure, response);
197 private void createTransactionContext(final Throwable failure, final Object response) {
198 // Create the TransactionContext from the response or failure. Store the new
199 // TransactionContext locally until we've completed invoking the
200 // TransactionOperations. This avoids thread timing issues which could cause
201 // out-of-order TransactionOperations. Eg, on a modification operation, if the
202 // TransactionContext is non-null, then we directly call the TransactionContext.
203 // However, at the same time, the code may be executing the cached
204 // TransactionOperations. So to avoid thus timing, we don't publish the
205 // TransactionContext until after we've executed all cached TransactionOperations.
206 TransactionContext localTransactionContext;
207 if (failure != null) {
208 LOG.debug("Tx {} Creating NoOpTransaction because of error", getIdentifier(), failure);
210 Throwable resultingEx = failure;
211 if (failure instanceof AskTimeoutException) {
212 resultingEx = new ShardLeaderNotRespondingException(String.format(
213 "Could not create a %s transaction on shard %s. The shard leader isn't responding.",
214 parent.getType(), shardName), failure);
215 } else if (!(failure instanceof NoShardLeaderException)) {
216 resultingEx = new Exception(String.format(
217 "Error creating %s transaction on shard %s", parent.getType(), shardName), failure);
220 localTransactionContext = new NoOpTransactionContext(resultingEx, getIdentifier());
221 } else if (CreateTransactionReply.isSerializedType(response)) {
222 localTransactionContext = createValidTransactionContext(
223 CreateTransactionReply.fromSerializable(response));
225 IllegalArgumentException exception = new IllegalArgumentException(String.format(
226 "Invalid reply type %s for CreateTransaction", response.getClass()));
228 localTransactionContext = new NoOpTransactionContext(exception, getIdentifier());
231 transactionContextWrapper.executePriorTransactionOperations(localTransactionContext);
234 private TransactionContext createValidTransactionContext(final CreateTransactionReply reply) {
235 LOG.debug("Tx {} Received {}", getIdentifier(), reply);
237 return createValidTransactionContext(getActorUtils().actorSelection(reply.getTransactionPath()),
238 reply.getTransactionPath(), primaryShardInfo.getPrimaryShardVersion());
241 private TransactionContext createValidTransactionContext(final ActorSelection transactionActor,
242 final String transactionPath, final short remoteTransactionVersion) {
243 final TransactionContext ret = new RemoteTransactionContext(transactionContextWrapper.getIdentifier(),
244 transactionActor, getActorUtils(), remoteTransactionVersion, transactionContextWrapper.getLimiter());
246 if (parent.getType() == TransactionType.READ_ONLY) {
247 TransactionContextCleanup.track(parent, ret);