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I'm facing long search times (order of 10s of seconds) while searching on a master - shard implementation in a distributed environment. However the same query via Luke returns in milliseconds.

The application is a distributed system. All the nodes share a common NFS mount where the indexes reside. For simplicity lets consider two nodes Node1 and Node2. The /etc/fstab entries is as follows.

nfs:/vol/indexes /opt/indexes nfs rw,suid,nodev,rsize=32768,wsize=32768,soft,intr,tcp 0 0

There are multiple feeds (say Feed1 and Feed2 ) that hit the system and there is a shard for each of the feed per node and a master for each Feed. The indexes look like

Feed1-master
Feed1-shard-Node1.com
Feed1-shard-Node1.com0
Feed1-shard-Node1.com1

The code that does the search is

FeedIndexManager fim = getManager(feedCode);
searcher = fim.getSearcher();
TopDocs docs = searcher.search(q, filter, start + max, sort);

private FeedIndexManager getManager(String feedCode) throws IOException {
  if (!_managers.containsKey(feedCode)) {
    synchronized(_managers) {
      if (!_managers.containsKey(feedCode)) {
        File shard = getShardIndexFile(feedCode);
        File master = getMasterIndexFile(feedCode);
        _managers.put(feedCode, new FeedIndexManager(shard, master));
      }
    }
  }  
  return _managers.get(feedCode);
}

The FeedIndexManager is as follows.

public class FeedIndexManager implements Closeable {

  private static final Analyzer WRITE_ANALYZER = makeWriterAnalyzer();
  private final Directory _master;
  private SearcherManager _searcherManager;
  private final IndexPair _pair;

  private int _numFailedMerges = 0;
  private DateTime _lastMergeTime = new DateTime();

  public FeedIndexManager(File shard, File master) throws IOException {
    _master = NIOFSDirectory.open(master, new SimpleFSLockFactory(master));

    IndexWriter writer = null;
    try {
      writer = new IndexWriter(_master,
                               WRITE_ANALYZER, 
                               MaxFieldLength.LIMITED);
    } finally {
      if (null != writer) {
        writer.close();
      }
      writer = null;
    }

    _searcherManager = new SearcherManager(_master);
    _pair = new IndexPair(_master,
                          shard, 
                          new IndexWriterBuilder(WRITE_ANALYZER));
  }

  public IndexPair getIndexWriter() {
    return _pair;
  }

  public IndexSearcher getSearcher() {
    try {
      return _searcherManager.get();
    }
    catch (IOException ioe) {
      throw new DatastoreRuntimeException(
        "When trying to get an IndexSearcher for " + _master, ioe);
    }
  }

  public void releaseSearcher(IndexSearcher searcher) {
    try {
      _searcherManager.release(searcher);
    }
    catch (IOException ioe) {
      throw new DatastoreRuntimeException(
        "When trying to release the IndexSearcher " + searcher
        + " for " + _master, ioe);
    }
  }

  /**
   * Merges the changes from the shard into the master.
   */
  public boolean tryFlush() throws IOException {
    LOG.debug("Trying to flush index manager at " + _master
              + " after " + _numFailedMerges + " failed merges.");
    if (_pair.tryFlush()) {
      LOG.debug("I succesfully flushed " + _master);
      _numFailedMerges = 0;
      _lastMergeTime = new DateTime();
      return true;
    }
    LOG.warn("I couldn't flush " + _master + " after " + _numFailedMerges
             + " failed merges.");
    _numFailedMerges++;
    return false;
  }

  public long getMillisSinceMerge() {
    return new DateTime().getMillis() - _lastMergeTime.getMillis();
  }

  public long getNumFailedMerges() {
    return _numFailedMerges;
  }

  public void close() throws IOException {
    _pair.close();
  }

  /**
   * Return the Analyzer used for writing to indexes.
   */
  private static Analyzer makeWriterAnalyzer() {
    PerFieldAnalyzerWrapper analyzer = 
      new PerFieldAnalyzerWrapper(new LowerCaseAnalyzer());

    analyzer.addAnalyzer(SingleFieldTag.ID.toString(), new KeywordAnalyzer());
    // we want tokenizing on the CITY_STATE field
    analyzer.addAnalyzer(AddressFieldTag.CITY_STATE.toString(),
            new StandardAnalyzer(Version.LUCENE_CURRENT));
    return analyzer;
  }
}

The killer which consumes about 95-98% of the latency is this call, it takes about 20 seconds for a search, whereas if the index is opened via Luke it is in milliseconds.

TopDocs docs = searcher.search(q, filter, start + max, sort);

I've the following questions

  1. Is it sane to have multiple masters per feed or should I reduce it to only one master? The number of elements in the index is about 50 million.

  2. The latency is low on feeds where the number of entities is less than a million (sub second response). The feeds where the entities are over 2 million takes about 20 seconds. Should I maintain only 1 Shard per node against 1 Shard per node per feed?

  3. The merge from the Shard's to the master is attempted every every 15 seconds. Should this parameter be tweaked?

I'm currently using Lucene 3.1.0 and JDK 1.6. The boxes are two 64-bit cores with 8 GB of RAM. Currently the JVM runs with 4 GB max.

Any suggestion to improve the performance is highly appreciated. I've already carried out all standard performance tuning that is generally prescribed by Lucene. Thanks a lot for reading this lengthy post.

share|improve this question
    
I do not understand what is distributed here. You say "All the nodes share a common NFS mount where the indexes reside." So all parts are on the same physical system? Most probably NFS is hurting performance is this case. –  Kees de Kooter Jun 15 '11 at 6:36
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1 Answer

This isn't the answer you were looking for, perhaps, but have a look at Elastic Search. It's a distributed, clustered service layer around Lucene, which is queried over HTTP or can be run embedded.

And it's fast, quite ridiculously so. It seems to have tuned Lucene properly under the covers, while still exposing the full Lucene config options if you need to use them.

Making Lucene perform in a distributed environment is hard, as you're discovering, you end up with nasty locking issues. ElasticSearch is intended to solve that particular problem, so you can solve the other ones.

share|improve this answer
    
Hey thanks for the quick response. Infact ES and SOLR are on the table. but what I'm fighting here is legacy code that I inherited. I wish I can flip the switch, which entually I will. I'm not in the business of search optimization and as will leave it to the experts in that domain. Having said that, Have you done any benchmarking of ES over SOLR ? and/or do you have recomendations for one over the other. –  Andy Jun 5 '11 at 15:53
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