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/*
 * Copyright (c) 2010-2015 Pivotal Software, Inc. All rights reserved.
 *
 * 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. See accompanying
 * LICENSE file.
 */

package com.gemstone.gemfire.cache;

import java.util.EnumSet;
import java.util.concurrent.TimeUnit;


/** 

The CacheTransactionManager interface allows applications to manage * transactions on a per {@link Cache} basis. * *

The life cycle of a GemFire transaction starts with a begin * operation. The life cycle ends with either a commit or rollback * operation. Between the begin and the commit/rollback are typically * {@link Region} operations. In general, those that either create, * destroy, invalidate or update {@link Region.Entry} are considered * transactional, that is they modify transactional state. * *

A GemFire transaction may involve operations on multiple regions, * each of which may have different attributes. * *

While a GemFire transaction and its operations are invoked in * the local VM, the resulting transaction state is distributed to * other VM's at commit time as per the attributes of each * participant Region. * *

A transaction can have no more than one thread associated with * it and conversely a thread can only operate on one transaction at * any given time. Child threads will not inherit the existing * transaction. * *

Each of the following methods operate on the current thread. All * methods throw {@link CacheClosedException} if the Cache is closed. * *

GemFire Transactions currently only support Read Committed * isolation. In addition, they are optimistic transactions in that * write locking and conflict checks are performed as part of the * commit operation. * *

For guaranteed Read Committed isolation, avoid making "in place" * changes, because such changes will be "seen" by other transactions * and break the Read Committed isolation guarantee. e.g. * *

 *    CacheTransactionManager txMgr = cache.getCacheTransactionManager();
 *    txMgr.begin();
 *    StringBuffer s = (StringBuffer) r.get("stringBuf");
 *    s.append("Changes seen before commit. NOT Read Committed!");
 *    r.put("stringBuf", s);
 *    txMgr.commit();
 *  
* *

To aid in creating copies, the "copy on read" * Cache attribute and the {@link * com.gemstone.gemfire.CopyHelper#copy} method are provided. * The following is a Read Committed safe example using the * CopyHelper.copy method. * *

 *    CacheTransactionManager txMgr = cache.getCacheTransactionManager();
 *    txMgr.begin();
 *    Object o = r.get("stringBuf");
 *    StringBuffer s = (StringBuffer) CopyHelper.copy(o);
 *    s.append("Changes unseen before commit. Read Committed.");
 *    r.put("stringBuf", s);
 *    txMgr.commit();
 *  
* *

Its important to note that creating copies can negatively * impact both performance and memory consumption. * *

Partitioned Regions, Distributed No Ack and Distributed Ack Regions are supported * (see {@link AttributesFactory} for Scope). For both scopes, a * consistent configuration (per VM) is enforced. * *

Global Regions, client Regions (see {@link com.gemstone.gemfire.cache.client}) * and persistent Regions (see {@link DiskWriteAttributes}) do not * support transactions. * *

When PartitionedRegions are involved in a transaction, all data in the * transaction must be colocated together on one data node. See the GemFire * Developer Guide for details on using transactions with Partitioned Regions. * * @author Mitch Thomas * * @since 4.0 * * @see Cache * */ public interface CacheTransactionManager { /** * Creates a new transaction and associates it with the current thread. The * default isolation-level ({@link IsolationLevel#DEFAULT}) is used for the * transaction. * * @throws IllegalStateException * if the thread is already associated with a transaction * * @since 4.0 */ public void begin(); /** * Creates a new transaction with given {@link IsolationLevel}, set of * {@link TransactionFlag} and associates it with the current thread. * * @param isolationLevel * the isolation-level to use for this transaction * @param txFlags * any flags to set for this transaction to alter its default * behaviour; can be null * * @throws IllegalStateException * if the thread is already associated with a transaction * * @since 4.0 */ public void begin(IsolationLevel isolationLevel, EnumSet txFlags); /** Commit the transaction associated with the current thread. If * the commit operation fails due to a conflict it will destroy * the transaction state and throw a {@link * ConflictException}. If the commit operation succeeds, * it returns after the transaction state has been merged with * committed state. When this method completes, the thread is no * longer associated with a transaction. * * @throws IllegalStateException if the thread is not associated with a transaction * * @throws ConflictException if the commit operation fails due to * a write conflict. * * @throws TransactionDataNodeHasDepartedException if the node hosting the * transaction data has departed. This is only relevant for transaction that * involve PartitionedRegions. * * @throws TransactionDataNotColocatedException if at commit time, the data * involved in the transaction has moved away from the transaction hosting * node. This can only happen if rebalancing/recovery happens during a * transaction that involves a PartitionedRegion. * * @throws TransactionInDoubtException when GemFire cannot tell which nodes * have applied the transaction and which have not. This only occurs if nodes * fail mid-commit, and only then in very rare circumstances. */ public void commit() throws TransactionException; /** Roll back the transaction associated with the current thread. When * this method completes, the thread is no longer associated with a * transaction and the transaction context is destroyed. * * @since 4.0 * * @throws IllegalStateException if the thread is not associated with a transaction */ public void rollback(); /** * Suspends the transaction on the current thread. All subsequent operations * performed by this thread will be non-transactional. The suspended * transaction can be resumed by calling {@link #resume(TransactionId)} * * @return the transaction identifier of the suspended transaction or null if * the thread was not associated with a transaction * @since 6.6.2 */ public TransactionId suspend(); /** * On the current thread, resumes a transaction that was previously suspended * using {@link #suspend()} * * @param transactionId * the transaction to resume * @throws IllegalStateException * if the thread is associated with a transaction or if * {@link #isSuspended(TransactionId)} would return false for the * given transactionId * @since 6.6.2 * @see #tryResume(TransactionId) */ public void resume(TransactionId transactionId); /** * This method can be used to determine if a transaction with the given * transaction identifier is currently suspended locally. This method does not * check other members for transaction status. * * @param transactionId * @return true if the transaction is in suspended state, false otherwise * @since 6.6.2 * @see #exists(TransactionId) */ public boolean isSuspended(TransactionId transactionId); /** * On the current thread, resumes a transaction that was previously suspended * using {@link #suspend()}. * * This method is equivalent to *

   * if (isSuspended(txId)) {
   *   resume(txId);
   * }
   * 
* except that this action is performed atomically * * @param transactionId * the transaction to resume * @return true if the transaction was resumed, false otherwise * @since 6.6.2 */ public boolean tryResume(TransactionId transactionId); /** * On the current thread, resumes a transaction that was previously suspended * using {@link #suspend()}, or waits for the specified timeout interval if * the transaction has not been suspended. This method will return if: *
    *
  • Another thread suspends the transaction
  • *
  • Another thread calls commit/rollback on the transaction
  • *
  • This thread has waited for the specified timeout
  • *
* * This method returns immediately if {@link #exists(TransactionId)} returns false. * * @param transactionId * the transaction to resume * @param time * the maximum time to wait * @param unit * the time unit of the time argument * @return true if the transaction was resumed, false otherwise * @since 6.6.2 * @see #tryResume(TransactionId) */ public boolean tryResume(TransactionId transactionId, long time, TimeUnit unit); /** * Reports the existence of a transaction for the given transactionId. This * method can be used to determine if a transaction with the given transaction * identifier is currently in progress locally. * * @param transactionId * the given transaction identifier * @return true if the transaction is in progress, false otherwise. * @since 6.6.2 * @see #isSuspended(TransactionId) */ public boolean exists(TransactionId transactionId); /** Reports the existence of a Transaction for this thread * * @return true if a transaction exists, false otherwise * * @since 4.0 */ public boolean exists(); /** Returns the transaction identifier for the current thread * * @return the transaction identifier or null if no transaction exists * * @since 4.0 */ public TransactionId getTransactionId(); /** * Gets the transaction listener for this Cache. * * @return The TransactionListener instance or null if no listener. * @throws IllegalStateException if more than one listener exists on this cache * @deprecated as of GemFire 5.0, use {@link #getListeners} instead */ @Deprecated public TransactionListener getListener(); /** Returns an array of all the transaction listeners on this cache. * Modifications to the returned array will not effect what listeners are on this cache. * @return the cache's TransactionListeners; an empty array if no listeners * @since 5.0 */ public TransactionListener[] getListeners(); /** * Sets the transaction listener for this Cache. * * @param newListener the TransactionListener to register with the Cache. * Use a null to deregister the current listener without * registering a new one. * @return the previous TransactionListener * @throws IllegalStateException if more than one listener exists on this cache * @deprecated as of GemFire 5.0, use {@link #addListener} or {@link #initListeners} instead. */ @Deprecated public TransactionListener setListener(TransactionListener newListener); /** * Adds a transaction listener to the end of the list of transaction listeners on this cache. * @param aListener the user defined transaction listener to add to the cache. * @throws IllegalArgumentException if aListener is null * @since 5.0 */ public void addListener(TransactionListener aListener); /** * Removes a transaction listener from the list of transaction listeners on this cache. * Does nothing if the specified listener has not been added. * If the specified listener has been added then {@link CacheCallback#close} will * be called on it; otherwise does nothing. * @param aListener the transaction listener to remove from the cache. * @throws IllegalArgumentException if aListener is null * @since 5.0 */ public void removeListener(TransactionListener aListener); /** * Removes all transaction listeners, calling {@link CacheCallback#close} on each of them, and then adds each listener in the specified array. * @param newListeners a possibly null or empty array of listeners to add to this cache. * @throws IllegalArgumentException if the newListeners array has a null element * @since 5.0 */ public void initListeners(TransactionListener[] newListeners); /** * Set the TransactionWriter for the cache * @param writer * @see TransactionWriter * @since 6.5 */ public void setWriter(TransactionWriter writer); /** * Returns the current {@link TransactionWriter} * @see CacheTransactionManager#setWriter(TransactionWriter) * @return the current {@link TransactionWriter} * @since 6.5 */ public TransactionWriter getWriter(); }




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