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I was researching some JDBC Oracle Connection Pooling items and came across a new(er) Oracle Pool implementation called Universal Connection Pool (UCP). Now this uses a new class, PoolDataSource, for connection pooling rather then the OracleDataSource [with the cache option enabled]. I am debating whether to switch to this new implementation but can't find any good documentation of what (if any) fixes/upgrades this would buy me. Anyone have an experience with both? Pluses/Minuses? Thanks.

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6 Answers 6

up vote 16 down vote accepted

Latest Oracle jdbc driver (11.2.0.1.0) explicit states that Oracle Implicit Connection cache (which is that one that use OracleDataSource) it's deprecated :

Oracle JDBC Drivers release 11.2.0.1.0 production Readme.txt

What Is New In This Release ?

Universal Connection Pool In this release the Oracle Implicit Connection Cache feature is deprecated. Users are strongly encouraged to use the new Universal Connection Pool instead. The UCP has all of the features of the ICC, plus much more. The UCP is available in a separate jar file, ucp.jar.

So I think it's better to start using UCP, but the documentation it's not that good. For example I didn't foud a way to use UCP with spring...

UPDATE: I've found the correct spring configuration: OK I'think I've found the right configuration:

<bean id="dataSource" class="oracle.ucp.jdbc.PoolDataSourceFactory" factory-method="getPoolDataSource">
    <property name="URL" value="jdbc:oracle:thin:@myserver:1521:mysid" />
    <property name="user" value="myuser" />
    <property name="password" value="mypassword" />
    <property name="connectionFactoryClassName" value="oracle.jdbc.pool.OracleDataSource" />
    <property name="connectionPoolName" value="ANAG_POOL" />
    <property name="minPoolSize" value="5" />
    <property name="maxPoolSize" value="10" />
    <property name="initialPoolSize" value="5" />
    <property name="inactiveConnectionTimeout" value="120" />
    <property name="validateConnectionOnBorrow" value="true" />
    <property name="maxStatements" value="10" />
</bean>

The key is to specify the right factory class and the right factory method

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Thanks, I had not seen that. To use it in Spring is just like using the OracleDataStore, just now you set the specific bean properties (like AbandonConnectionTimeout) rather then passing in a Map of cache properties. –  Gandalf Sep 16 '09 at 22:46
    
See also stackoverflow.com/questions/2423490/… –  Vadzim Apr 15 at 7:19
    
@user174630 I used this configuration but I got java.lang.ClassNotFoundException: oracle.jdbc.pooling.Factory although I have the jars ucp.jar , commons-dbcp.jar and ojdbc6.jar at the classpath –  Ahmed Wahbi Sep 3 at 5:31

PDS is 'universal' as it provides the same level of pooling functionality you get in ODS for non-Oracle databases, e.g. MySQL.

See UCP Dev Guide, an article on Oracle website and UCP Transition Guide

I don't see any immediate benefit of moving to UCP (PDS) from ODS, but perhaps in the future Oracle will deprecate some of the functionality in ODS. I used ODS for a while and I'm quite happy with it for the time being, but if I started fresh I'd go with PDS.

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I did an extensive evaluation of UCP and decided to NOT use UCP - please have a look at this post for details.

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I too am testing UCP and am finding myself that I am having performance issues in a Thread Pool based application. Initially, I tried OracleDataSource, but am having trouble configuring it for batch processing. I keep getting NullPointerExceptions in the connections, leading me to believe I have some sort connection leak, but only with some application, there are other applications we manage that are not batch process oriented that OracleDataSource works well.

Based on this post and a few others I found researching this subject, I tried UCP. I found that with enough tweaking, I could get rid of closed connections/NullPointerExceptions on connections style errors, but Garbage Collection was taking a beating. Long-Term GC fills up fast and does not ever seem to free up until the application finishes running. This can sometimes take as long as a day or more if the load is really heavy. I also notice that it takes progressive longer to process data as well. I compare that to the now depreciated OracleCacheImpl class (that we currently use in production because it still "just works"), where it used a third of the GC memory that UCP does and processes files much faster. In all other applications UCP seems to work just fine and handles just about everything I throw at it, but the Thread Pool Application is a major app and I could not risk GC Exceptions in production.

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I tested the UCP and deployed it to production in a Spring 3.0.5 Hibernate app using Spring JMS listener containers and Spring-managed sessions and transactions using the @Transactional annotation. The data sometimes causes SQL constraint errors, due to separate listener threads trying to update the same record. When that happens, the exception is thrown by one method annotated by @Transactional and the error is logged into the database using another method annotated by @Transactional. For whatever reason, this process seems to result in a cursor leak, that eventually adds up and triggers the ORA-01000 open cursor limit exceeded error, causing the thread to cease processing anything.

OracleDataSource running in the same code doesn't seem to leak cursors, so it doesn't cause this problem.

This is a pretty weird scenario, but it indicates to me that it's a little too early to be using the UCP in an application with this kind of structure.

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I tried ucp and the performance is better... May be the key is using this

oracle.ucp.jdbc.PoolDataSource ds = (oracle.ucp.jdbc.PoolDataSource)envContext.lookup(url_r);
MyConnectionLabelingCallback callback = new MyConnectionLabelingCallback();
ds.registerConnectionLabelingCallback( callback );


Properties label = new Properties();
label.setProperty(pname, KEY);
conn = ds.getConnection(label);

This helps to borrow the connection and never closing it.. so the performance is great

The code for the callback class is

public class MyConnectionLabelingCallback implements ConnectionLabelingCallback {

  public MyConnectionLabelingCallback()
  {
  }

  public int cost(Properties reqLabels, Properties currentLabels)
  {

    // Case 1: exact match
    if (reqLabels.equals(currentLabels))
    {
      System.out.println("## Exact match found!! ##");
      return 0;
    }

    // Case 2: some labels match with no unmatched labels
    String iso1 = (String) reqLabels.get("TRANSACTION_ISOLATION");
    String iso2 = (String) currentLabels.get("TRANSACTION_ISOLATION");
    boolean match =
      (iso1 != null && iso2 != null && iso1.equalsIgnoreCase(iso2));
    Set rKeys = reqLabels.keySet();
    Set cKeys = currentLabels.keySet();
    if (match && rKeys.containsAll(cKeys))
    {
      System.out.println("## Partial match found!! ##");
      return 10;
    }

    // No label matches to application's preference.
    // Do not choose this connection.
    System.out.println("## No match found!! ##");
    return Integer.MAX_VALUE;
  }

  public boolean configure(Properties reqLabels, Object conn)
  {

      System.out.println("Configure################");
    try
    {
      String isoStr = (String) reqLabels.get("TRANSACTION_ISOLATION");
      ((Connection)conn).setTransactionIsolation(Integer.valueOf(isoStr));
      LabelableConnection lconn = (LabelableConnection) conn;

      // Find the unmatched labels on this connection
      Properties unmatchedLabels =
       lconn.getUnmatchedConnectionLabels(reqLabels);

      // Apply each label <key,value> in unmatchedLabels to conn
      for (Map.Entry<Object, Object> label : unmatchedLabels.entrySet())
      {
        String key = (String) label.getKey();
        String value = (String) label.getValue();
        lconn.applyConnectionLabel(key, value);
      }
    }
    catch (Exception exc)
    {

      return false;
    }
    return true;
  }
}
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