Source Code of org.infinispan.distribution.JoinTask$JoinStateGrabber

package org.infinispan.distribution;

import org.infinispan.CacheException;
import org.infinispan.commands.CommandsFactory;
import org.infinispan.commands.ReplicableCommand;
import org.infinispan.commands.control.RehashControlCommand;
import org.infinispan.config.Configuration;
import org.infinispan.container.DataContainer;
import org.infinispan.distribution.ch.ConsistentHash;
import org.infinispan.distribution.ch.NodeTopologyInfo;
import org.infinispan.remoting.InboundInvocationHandler;
import org.infinispan.remoting.responses.Response;
import org.infinispan.remoting.responses.SuccessfulResponse;
import org.infinispan.remoting.rpc.RpcManager;
import org.infinispan.remoting.transport.Address;
import org.infinispan.util.Util;
import org.infinispan.util.concurrent.NotifyingFutureImpl;
import org.infinispan.util.concurrent.TimeoutException;

import java.util.Collection;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Random;
import java.util.Set;
import java.util.concurrent.Future;

import static org.infinispan.commands.control.RehashControlCommand.Type.*;
import static org.infinispan.distribution.ch.ConsistentHashHelper.createConsistentHash;
import static org.infinispan.remoting.rpc.ResponseMode.SYNCHRONOUS;

/**
 * JoinTask: This is a PULL based rehash.  JoinTask is kicked off on the JOINER.  Please see detailed designs on
 * http://community.jboss.org/wiki/DesignOfDynamicRehashing
 *
 * @author Manik Surtani
 * @author Mircea.Markus@jboss.com
 * @since 4.0
 */
public class JoinTask extends RehashTask {

   private final InboundInvocationHandler inboundInvocationHandler;
   public JoinTask(RpcManager rpcManager, CommandsFactory commandsFactory, Configuration conf,
            DataContainer dataContainer, DistributionManagerImpl dmi, InboundInvocationHandler inboundInvocationHandler) {
      super(dmi, rpcManager, conf, commandsFactory, dataContainer);
      this.inboundInvocationHandler = inboundInvocationHandler;
   }

   @SuppressWarnings("unchecked")
   private List<Address> parseResponses(Collection<Response> resp) {
      for (Response r : resp) {
         if (r instanceof SuccessfulResponse) {
            return (List<Address>) ((SuccessfulResponse) r).getResponseValue();
         }
      }
      return null;
   }

   protected void performRehash() throws Exception {
      long start = System.currentTimeMillis();
      if (log.isDebugEnabled()) log.debug("Commencing rehash on node: %s. Before start, distributionManager.joinComplete = %s", getMyAddress(), distributionManager.isJoinComplete());
      ConsistentHash chOld, chNew;
      try {
         if (distributionManager.isJoinComplete()) {
            throw new IllegalStateException("Join on " + getMyAddress() + " cannot be complete without rehash to finishing");
         }
         // 1.  Get chOld from coord.
         chOld = retrieveOldConsistentHash();

         // 2.  new CH instance
         if (chOld.getCaches().contains(self))
            chNew = chOld;
         else
            chNew = createConsistentHash(configuration, chOld.getCaches(), distributionManager.getTopologyInfo(), self);

         distributionManager.setConsistentHash(chNew);
         try {
            if (configuration.isRehashEnabled()) {
               // Broadcast new temp CH
               broadcastNewCh();

               // txLogger being enabled will cause ClusteredGetCommands to return uncertain responses.

               // pull state from everyone.
               Address myAddress = rpcManager.getTransport().getAddress();

               RehashControlCommand cmd = cf.buildRehashControlCommand(PULL_STATE_JOIN, myAddress, null, chOld, chNew, null);

               List<Address> addressesWhoMaySendStuff = getAddressesWhoMaySendStuff(chNew, configuration.getNumOwners());
               Set<Future<Void>> stateRetrievalProcesses = new HashSet<Future<Void>>(addressesWhoMaySendStuff.size());

               // This process happens in parallel
               for (Address stateProvider: addressesWhoMaySendStuff) {
                  stateRetrievalProcesses.add(
                        statePullExecutor.submit(new JoinStateGrabber(stateProvider, cmd, chNew))
                  );
               }

               // Wait for all the state retrieval tasks to complete
               for (Future<Void> f: stateRetrievalProcesses) f.get();

            } else {
               broadcastNewCh();
               if (trace) log.trace("Rehash not enabled, so not pulling state.");
            }
         } finally {
            // wait for any enqueued remote commands to finish...
            distributionManager.setJoinComplete(true);
            distributionManager.setRehashInProgress(false);
            inboundInvocationHandler.blockTillNoLongerRetrying(cf.getCacheName());
            rpcManager.broadcastRpcCommandInFuture(cf.buildRehashControlCommand(JOIN_REHASH_END, self), true, new NotifyingFutureImpl(null));
            if (configuration.isRehashEnabled()) invalidateInvalidHolders(chOld, chNew);
         }

      } catch (Exception e) {
         log.error("Caught exception!", e);
         throw new CacheException("Unexpected exception", e);
      } finally {
         log.info("%s completed join rehash in %s!", self, Util.prettyPrintTime(System.currentTimeMillis() - start));
      }
   }

   private void broadcastNewCh() {
      RehashControlCommand rehashControlCommand = cf.buildRehashControlCommand(JOIN_REHASH_START, self);
      rehashControlCommand.setNodeTopologyInfo(distributionManager.getTopologyInfo().getNodeTopologyInfo(rpcManager.getAddress()));
      Map<Address, Response> responses = rpcManager.invokeRemotely(null, rehashControlCommand, true, true);
      updateTopologyInfo(responses.values());
   }

   private void updateTopologyInfo(Collection<Response> responses) {
      for (Response r : responses) {
         if(r instanceof SuccessfulResponse) {
            SuccessfulResponse sr = (SuccessfulResponse) r;
            NodeTopologyInfo nti = (NodeTopologyInfo) sr.getResponseValue();
            if (nti != null) {
               distributionManager.getTopologyInfo().addNodeTopologyInfo(nti.getAddress(), nti);
            }
         }
         else {
            // will ignore unsuccessful response
            if(trace) log.trace("updateTopologyInfo will ignore unsuccessful response (another node may not be ready), got response with success=" + r.isSuccessful() +", is a " + r.getClass().getSimpleName());
         }
      }
      if (trace) log.trace("Topology after after getting cluster info: " + distributionManager.getTopologyInfo());
   }

   private ConsistentHash retrieveOldConsistentHash() throws InterruptedException, IllegalAccessException, InstantiationException, ClassNotFoundException {

        // this happens in a loop to ensure we receive the correct CH and not a "union".
        // TODO make at least *some* of these configurable!
        ConsistentHash result = null;
        long minSleepTime = 500, maxSleepTime = 2000; // sleep time between retries
        int maxWaitTime = (int) configuration.getRehashRpcTimeout() * 10; // after which we give up!
        Random rand = new Random();
        long giveupTime = System.currentTimeMillis() + maxWaitTime;
        do {
            if (trace)
                log.trace("Requesting old consistent hash from coordinator");
            Map<Address, Response> resp;
            List<Address> addresses;
            try {
                resp = rpcManager.invokeRemotely(coordinator(), cf.buildRehashControlCommand(
                                JOIN_REQ, self), SYNCHRONOUS, configuration.getRehashRpcTimeout(),
                                true);
                addresses = parseResponses(resp.values());
                if (log.isDebugEnabled())
                    log.debug("Retrieved old consistent hash address list %s", addresses);
            } catch (TimeoutException te) {
                // timed out waiting for responses; retry!
                resp = null;
                addresses = null;
                if (log.isDebugEnabled())
                    log.debug("Timed out waiting for responses.");
            }

            if (addresses == null) {
                long time = rand.nextInt((int) (maxSleepTime - minSleepTime) / 10);
                time = (time * 10) + minSleepTime;
                if (trace)
                    log.trace("Sleeping for %s", Util.prettyPrintTime(time));
                Thread.sleep(time); // sleep for a while and retry
            } else {
                result = createConsistentHash(configuration, addresses, distributionManager.getTopologyInfo());
            }
        } while (result == null && System.currentTimeMillis() < giveupTime);

        if (result == null)
            throw new CacheException(
                            "Unable to retrieve old consistent hash from coordinator even after several attempts at sleeping and retrying!");
        return result;
    }

   /**
    * Retrieves a List of Address of who should be sending state to the joiner (self), given a repl count (numOwners)
    * for each entry.
    * <p />
    * The algorithm essentially works like this.  Given a list of all Addresses in the system (ordered by their positions
    * in the new consistent hash wheel), locate where the current address (self, the joiner) is, on this list.  Addresses
    * from (replCount - 1) positions behind self, and 1 position ahead of self would be sending state.
    * <p />
    * @param replCount
    * @return
    */
   List<Address> getAddressesWhoMaySendStuff(ConsistentHash ch, int replCount) {
      return ch.getStateProvidersOnJoin(self, replCount);
   }

   public Address getMyAddress() {
      return rpcManager != null && rpcManager.getTransport() != null ? rpcManager.getTransport().getAddress() : null;
   }

   protected final class JoinStateGrabber extends StateGrabber {

      public JoinStateGrabber(Address stateProvider, ReplicableCommand command, ConsistentHash newConsistentHash) {
         super(stateProvider, command, newConsistentHash);
      }

      @Override
      protected boolean isForLeave() {
         return false;
      }
   }
}