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/*
 * Bitronix Transaction Manager
 *
 * Copyright (c) 2010, Bitronix Software.
 *
 * This copyrighted material is made available to anyone wishing to use, modify,
 * copy, or redistribute it subject to the terms and conditions of the GNU
 * Lesser General Public License, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
 * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License
 * for more details.
 *
 * You should have received a copy of the GNU Lesser General Public License
 * along with this distribution; if not, write to:
 * Free Software Foundation, Inc.
 * 51 Franklin Street, Fifth Floor
 * Boston, MA 02110-1301 USA
 */
package bitronix.tm.recovery;

import bitronix.tm.BitronixXid;
import bitronix.tm.TransactionManagerServices;
import bitronix.tm.utils.Decoder;
import bitronix.tm.utils.ManagementRegistrar;
import bitronix.tm.utils.Uid;
import bitronix.tm.utils.Service;
import bitronix.tm.internal.*;
import bitronix.tm.journal.TransactionLogRecord;
import bitronix.tm.resource.ResourceLoader;
import bitronix.tm.resource.ResourceRegistrar;
import bitronix.tm.resource.common.XAResourceProducer;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import javax.transaction.Status;
import javax.transaction.xa.XAException;
import javax.transaction.xa.XAResource;
import javax.transaction.xa.Xid;
import java.io.IOException;
import java.util.*;
import java.util.concurrent.atomic.AtomicBoolean;

/**
 * Recovery process implementation. Here is Mike Spille's description of XA recovery:
 * 

* Straight Line Recovery: *

    *
  • 1. Find transactions that the TM considers dangling and unresolved
  • *
  • 2. Find and reconstitute any {@link XAResource}s which were being used when chunk blowing occured.
  • *
  • 3. Call the recover() method on each of these {@link XAResource}s.
  • *
  • 4. Throw out any {@link Xid}'s in the {@link XAResource}' recover lists which are not owned by this TM.
  • *
  • 5. Correlate {@link Xid}'s that the TM knows about with remaining {@link Xid}'s that the {@link XAResource}s * reported.
  • *
  • 6. For {@link XAResource} {@link Xid}'s that match the global transaction ID which the TM found dangling with * a "Committing..." record, call commit() on those {@link XAResource}s for those {@link Xid}s.
  • *
  • 7. For {@link XAResource} {@link Xid}'s that do not match any dangling "Committing..." records, call * rollback() on those {@link XAResource}s for those {@link Xid}s.
  • *
* Exceptional conditions: *
    *
  • 1. For any rollback() calls from step 6 which reported a Heuristic Commit, you are in danger or * doubt, so run in circles, scream and shout.
  • *
  • 2. For any commit() calls from step 7 which reported a Heuristic Rollback, you are in danger or * doubt, so run in circles, scream and shout.
  • *
  • 3. For any resource you can't reconstitute in in step #2, or who fails on recover in step #3, or who reports * anything like an XAER_RMFAILURE in step 6 or step 7, keep trying to contact them in some implementation * defined manner.
  • *
  • 4. For any heuristic outcome you see reported from an XAResource, call forget() for that * {@link XAResource}/{@link Xid} pair so that the resource can stop holding onto a reference to that transaction
  • *
*

*

To achieve this, {@link Recoverer} must have access to all previously used resources, even if the journal contains * no trace of some of them. There are two ways of achieving this: either you use the {@link ResourceLoader} to configure * all your resources and everything will be working automatically or by making sure resources are re-created and re-registered.

*

Those are the three steps of the Bitronix implementation: *

    *
  • call recover() on all known resources (Mike's steps 1 to 5)
  • *
  • commit dangling COMMITTING transactions (Mike's step 6)
  • *
  • rollback any remaining recovered transaction (Mike's step 7)
  • *

* * @author lorban */ public class Recoverer implements Runnable, Service, RecovererMBean { private final static Logger log = LoggerFactory.getLogger(Recoverer.class); private final Map registeredResources = new HashMap(); private final Map> recoveredXidSets = new HashMap>(); private volatile Exception completionException; private volatile int committedCount; private volatile int rolledbackCount; private volatile int executionsCount; private final AtomicBoolean isRunning = new AtomicBoolean(false); private final String jmxName; public Recoverer() { String serverId = TransactionManagerServices.getConfiguration().getServerId(); if (serverId == null) serverId = ""; this.jmxName = "bitronix.tm:type=Recoverer,ServerId=" + ManagementRegistrar.makeValidName(serverId); ManagementRegistrar.register(jmxName, this); } public void shutdown() { ManagementRegistrar.unregister(jmxName); } /** * Run the recovery process. This method is automatically called by the transaction manager, you should never * call it manually. */ public void run() { if (!isRunning.compareAndSet(false, true)) { log.info("recoverer is already running, abandoning this recovery request"); return; } try { committedCount = 0; rolledbackCount = 0; long oldestTransactionTimestamp = Long.MAX_VALUE; // Collect dangling records from journal, must run before oldestTransactionTimestamp is calculated Map danglingRecords = TransactionManagerServices.getJournal().collectDanglingRecords(); // Query resources from ResourceRegistrar synchronized (ResourceRegistrar.class) { for (String name : ResourceRegistrar.getResourcesUniqueNames()) { registeredResources.put(name, ResourceRegistrar.get(name)); } if (TransactionManagerServices.isTransactionManagerRunning()) { oldestTransactionTimestamp = TransactionManagerServices.getTransactionManager().getOldestInFlightTransactionTimestamp(); } } // 1. call recover on all known resources recoverAllResources(); // 2. commit dangling COMMITTING transactions Set committedGtrids = commitDanglingTransactions(oldestTransactionTimestamp, danglingRecords); committedCount = committedGtrids.size(); // 3. rollback any remaining recovered transaction rolledbackCount = rollbackAbortedTransactions(oldestTransactionTimestamp, committedGtrids); if (executionsCount == 0 || committedCount > 0 || rolledbackCount > 0) { log.info("recovery committed " + committedCount + " dangling transaction(s) and rolled back " + rolledbackCount + " aborted transaction(s) on " + registeredResources.size() + " resource(s) [" + getRegisteredResourcesUniqueNames() + "]" + ((TransactionManagerServices.getConfiguration().isCurrentNodeOnlyRecovery()) ? " (restricted to serverId '" + TransactionManagerServices.getConfiguration().getServerId() + "')" : "")); } else if (log.isDebugEnabled()) { log.debug("recovery committed " + committedCount + " dangling transaction(s) and rolled back " + rolledbackCount + " aborted transaction(s) on " + registeredResources.size() + " resource(s) [" + getRegisteredResourcesUniqueNames() + "]" + ((TransactionManagerServices.getConfiguration().isCurrentNodeOnlyRecovery()) ? " (restricted to serverId '" + TransactionManagerServices.getConfiguration().getServerId() + "')" : "")); } this.completionException = null; } catch (Exception ex) { this.completionException = ex; log.warn("recovery failed, registered resource(s): " + getRegisteredResourcesUniqueNames(), ex); } finally { recoveredXidSets.clear(); registeredResources.clear(); executionsCount++; isRunning.set(false); } } /** * Get the exception reported when recovery failed. * @return the exception that made recovery fail or null if last recovery execution was successful. */ public Exception getCompletionException() { return completionException; } /** * Get the amount of transactions committed during the last recovery run. * @return the amount of committed transactions. */ public int getCommittedCount() { return committedCount; } /** * Get the amount of transactions rolled back during the last recovery run. * @return the amount of rolled back transactions. */ public int getRolledbackCount() { return rolledbackCount; } /** * Get how many times the recoverer has run since the transaction manager started. * @return how many times the recoverer has run since the transaction manager started. */ public int getExecutionsCount() { return executionsCount; } /** * Check if the recoverer currently is running. * @return true if the recoverer currently is running, false otherwise. */ public boolean isRunning() { return isRunning.get(); } /** * Recover all configured resources and fill the recoveredXidSets with all recovered XIDs. * Step 1. */ private void recoverAllResources() { // a cloned registeredResources Map must be iterated as the original one can be modified in the loop for (Map.Entry entry : new HashMap(registeredResources).entrySet()) { String uniqueName = entry.getKey(); XAResourceProducer producer = entry.getValue(); try { if (log.isDebugEnabled()) log.debug("performing recovery on " + uniqueName); Set xids = recover(producer); if (log.isDebugEnabled()) log.debug("recovered " + xids.size() + " XID(s) from resource " + uniqueName); recoveredXidSets.put(uniqueName, xids); producer.setFailed(false); } catch (XAException ex) { producer.setFailed(true); registeredResources.remove(uniqueName); String extraErrorDetails = TransactionManagerServices.getExceptionAnalyzer().extractExtraXAExceptionDetails(ex); log.warn("error running recovery on resource '" + uniqueName + "', resource marked as failed (background recoverer will retry recovery)" + " (error=" + Decoder.decodeXAExceptionErrorCode(ex) + ")" + (extraErrorDetails == null ? "" : ", extra error=" + extraErrorDetails), ex); } catch (Exception ex) { producer.setFailed(true); registeredResources.remove(uniqueName); log.warn("error running recovery on resource '" + uniqueName + "', resource marked as failed (background recoverer will retry recovery)", ex); } } } /** * Run the recovery process on the target resource. * Step 1. * @return a Set of BitronixXids. * @param producer the {@link XAResourceProducer} to recover. * @throws javax.transaction.xa.XAException if {@link XAResource#recover(int)} call fails. * @throws RecoveryException if an error preventing recovery happened. */ private Set recover(XAResourceProducer producer) throws XAException, RecoveryException { if (producer == null) throw new IllegalArgumentException("recoverable resource cannot be null"); try { if (log.isDebugEnabled()) log.debug("running recovery on " + producer); XAResourceHolderState xaResourceHolderState = producer.startRecovery(); return RecoveryHelper.recover(xaResourceHolderState); } finally { producer.endRecovery(); } } /** * Commit transactions that have a dangling COMMITTING record in the journal. * Transactions younger than oldestTransactionTimestamp are ignored. * Step 2. * @param oldestTransactionTimestamp the timestamp of the oldest transaction still in-flight. * @param danglingRecords a Map using Uid objects GTRID as key and {@link TransactionLogRecord} as value. * @return a Set of all committed GTRIDs encoded as strings. * @throws java.io.IOException if there is an I/O error reading the journal. * @throws RecoveryException if an error preventing recovery happened. */ private Set commitDanglingTransactions(long oldestTransactionTimestamp, Map danglingRecords) throws IOException, RecoveryException { Set committedGtrids = new HashSet(); if (log.isDebugEnabled()) log.debug("found " + danglingRecords.size() + " dangling record(s) in journal"); for (Map.Entry entry : danglingRecords.entrySet()) { Uid gtrid = entry.getKey(); TransactionLogRecord tlog = entry.getValue(); Set uniqueNames = tlog.getUniqueNames(); Set danglingTransactions = getDanglingTransactionsInRecoveredXids(uniqueNames, tlog.getGtrid()); long txTimestamp = gtrid.extractTimestamp(); if (log.isDebugEnabled()) log.debug("recovered XID timestamp: " + txTimestamp + " - oldest in-flight TX timestamp: " + oldestTransactionTimestamp); if (txTimestamp < oldestTransactionTimestamp) { if (log.isDebugEnabled()) log.debug("committing dangling transaction with GTRID " + gtrid); commit(danglingTransactions); if (log.isDebugEnabled()) log.debug("committed dangling transaction with GTRID " + gtrid); committedGtrids.add(gtrid); Set participatingUniqueNames = filterParticipatingUniqueNamesInRecoveredXids(uniqueNames); if (participatingUniqueNames.size() > 0) { if (log.isDebugEnabled()) log.debug("updating journal's transaction with GTRID " + gtrid + " status to COMMITTED for names [" + buildUniqueNamesString(participatingUniqueNames) + "]"); TransactionManagerServices.getJournal().log(Status.STATUS_COMMITTED, tlog.getGtrid(), participatingUniqueNames); } else { if (log.isDebugEnabled()) log.debug("not updating journal's transaction with GTRID " + gtrid + " status to COMMITTED as no resource could be found (incremental recovery will need to clean this)"); committedGtrids.remove(gtrid); } } else { if (log.isDebugEnabled()) log.debug("skipping in-flight transaction with GTRID " + gtrid); } } if (log.isDebugEnabled()) log.debug("committed " + committedGtrids.size() + " dangling transaction(s)"); return committedGtrids; } /** * Return {@link DanglingTransaction}s with {@link Xid}s corresponding to the GTRID parameter found in resources * specified by their uniqueNames. * recoverAllResources must have been called before or else the returned list will always be empty. * Step 2. * @param uniqueNames a set of uniqueNames. * @param gtrid the GTRID to look for. * @return a set of {@link DanglingTransaction}s. */ private Set getDanglingTransactionsInRecoveredXids(Set uniqueNames, Uid gtrid) { Set danglingTransactions = new HashSet(); for (String uniqueName : uniqueNames) { if (log.isDebugEnabled()) log.debug("finding dangling transaction(s) in recovered XID(s) of resource " + uniqueName); Set recoveredXids = recoveredXidSets.get(uniqueName); if (recoveredXids == null) { if (log.isDebugEnabled()) log.debug("resource " + uniqueName + " did not recover, skipping commit"); continue; } for (BitronixXid recoveredXid : recoveredXids) { if (gtrid.equals(recoveredXid.getGlobalTransactionIdUid())) { if (log.isDebugEnabled()) log.debug("found a recovered XID matching dangling log's GTRID " + gtrid + " in resource " + uniqueName); danglingTransactions.add(new DanglingTransaction(uniqueName, recoveredXid)); } } } return danglingTransactions; } private Set filterParticipatingUniqueNamesInRecoveredXids(Set uniqueNames) { Set recoveredUniqueNames = new HashSet(); for (String uniqueName : uniqueNames) { if (log.isDebugEnabled()) log.debug("finding dangling transaction(s) in recovered XID(s) of resource " + uniqueName); Set recoveredXids = recoveredXidSets.get(uniqueName); if (recoveredXids == null) { if (log.isDebugEnabled()) log.debug("cannot find resource '" + uniqueName + "' present in the journal, leaving it for incremental recovery"); } else { recoveredUniqueNames.add(uniqueName); } } return recoveredUniqueNames; } /** * Commit all branches of a dangling transaction. * Step 2. * @param danglingTransactions a set of {@link DanglingTransaction}s to commit. * @throws RecoveryException if an error preventing recovery happened. */ private void commit(Set danglingTransactions) throws RecoveryException { if (log.isDebugEnabled()) log.debug(danglingTransactions.size() + " branch(es) to commit"); for (DanglingTransaction danglingTransaction : danglingTransactions) { Xid xid = danglingTransaction.getXid(); String uniqueName = danglingTransaction.getUniqueName(); if (log.isDebugEnabled()) log.debug("committing branch with XID " + xid + " on " + uniqueName); commit(uniqueName, xid); } } /** * Commit the specified branch of a dangling transaction. * Step 2. * @param uniqueName the unique name of the resource on which the commit should be done. * @param xid the {@link Xid} to commit. * @return true when commit was successful. * @throws RecoveryException if an error preventing recovery happened. */ private boolean commit(String uniqueName, Xid xid) throws RecoveryException { XAResourceProducer producer = registeredResources.get(uniqueName); try { XAResourceHolderState xaResourceHolderState = producer.startRecovery(); return RecoveryHelper.commit(xaResourceHolderState, xid); } finally { producer.endRecovery(); } } /** * Rollback branches whose {@link Xid} has been recovered on the resource but hasn't been committed. * Those are the 'aborted' transactions of the Presumed Abort protocol. * Step 3. * @param oldestTransactionTimestamp the timestamp of the oldest transaction still in-flight. * @param committedGtrids a set of {@link Uid}s already committed on this resource. * @return the rolled back branches count. * @throws RecoveryException if an error preventing recovery happened. */ private int rollbackAbortedTransactions(long oldestTransactionTimestamp, Set committedGtrids) throws RecoveryException { if (log.isDebugEnabled()) log.debug("rolling back aborted branch(es)"); int rollbackCount = 0; for (Map.Entry> entry : recoveredXidSets.entrySet()) { String uniqueName = entry.getKey(); Set recoveredXids = entry.getValue(); if (log.isDebugEnabled()) log.debug("checking " + recoveredXids.size() + " branch(es) on " + uniqueName + " for rollback"); int count = rollbackAbortedBranchesOfResource(oldestTransactionTimestamp, uniqueName, recoveredXids, committedGtrids); if (log.isDebugEnabled()) log.debug("checked " + recoveredXids.size() + " branch(es) on " + uniqueName + " for rollback"); rollbackCount += count; } if (log.isDebugEnabled()) log.debug("rolled back " + rollbackCount + " aborted branch(es)"); return rollbackCount; } /** * Rollback aborted branches of the resource specified by uniqueName. * Step 3. * @param oldestTransactionTimestamp the timestamp of the oldest transaction still in-flight. * @param uniqueName the unique name of the resource on which to rollback branches. * @param recoveredXids a set of {@link BitronixXid} recovered on the reource. * @param committedGtrids a set of {@link Uid}s already committed on the resource. * @return the rolled back branches count. * @throws RecoveryException if an error preventing recovery happened. */ private int rollbackAbortedBranchesOfResource(long oldestTransactionTimestamp, String uniqueName, Set recoveredXids, Set committedGtrids) throws RecoveryException { int abortedCount = 0; for (BitronixXid recoveredXid : recoveredXids) { if (committedGtrids.contains(recoveredXid.getGlobalTransactionIdUid())) { if (log.isDebugEnabled()) log.debug("XID has been committed, skipping rollback: " + recoveredXid + " on " + uniqueName); continue; } long txTimestamp = recoveredXid.getGlobalTransactionIdUid().extractTimestamp(); if (log.isDebugEnabled()) log.debug("recovered XID timestamp: " + txTimestamp + " - oldest in-flight TX timestamp: " + oldestTransactionTimestamp); if (txTimestamp >= oldestTransactionTimestamp) { if (log.isDebugEnabled()) log.debug("skipping XID of in-flight transaction: " + recoveredXid); continue; } if (log.isDebugEnabled()) log.debug("rolling back in-doubt branch with XID " + recoveredXid + " on " + uniqueName); boolean success = rollback(uniqueName, recoveredXid); if (success) abortedCount++; } return abortedCount; } /** * Rollback the specified branch of a dangling transaction. * Step 3. * @param uniqueName the unique name of the resource on which to rollback branches. * @param xid the {@link Xid} to rollback. * @return true when rollback was successful. * @throws RecoveryException if an error preventing recovery happened. */ private boolean rollback(String uniqueName, Xid xid) throws RecoveryException { XAResourceProducer producer = registeredResources.get(uniqueName); if (producer == null) { if (log.isDebugEnabled()) log.debug("resource " + uniqueName + " has not recovered, skipping rollback"); return false; } try { XAResourceHolderState xaResourceHolderState = producer.startRecovery(); return RecoveryHelper.rollback(xaResourceHolderState, xid); } finally { producer.endRecovery(); } } /** * Build a string with comma-separated resources unique names. * @return the string. */ private String getRegisteredResourcesUniqueNames() { return buildUniqueNamesString(registeredResources.keySet()); } private static String buildUniqueNamesString(Set uniqueNames) { StringBuilder resourcesUniqueNames = new StringBuilder(); Iterator it = uniqueNames.iterator(); while (it.hasNext()) { String uniqueName = it.next(); resourcesUniqueNames.append(uniqueName); if (it.hasNext()) resourcesUniqueNames.append(", "); } return resourcesUniqueNames.toString(); } }




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