I can't use @Transactional annotation in my TestCase. I've got workaround - using directly TransactionalManager. Unfortunately when I'm creating Sql object in groovy based on DataSource from SpringContext and then insert a row to the database it doesn't rollback.

@ContextConfiguration(locations = [ "../dao/impl/ibatis/spring-data-context-config.xml"])
public class OrganizationTest {

DataSource dataSource;

DataSourceTransactionManager transactionManager;

private TransactionStatus transactionStatus;

public void setUp() {
    transactionStatus = transactionManager.getTransaction(new DefaultTransactionDefinition());
public void tearDown() {
    transactionStatus = null;

public void shallObtainSequenceNo() throws Exception {

    Connection connection = dataSource.getConnection();
    Sql sql = new Sql(dataSource);

    Organization organization = new Organization("KongregatzionIX", "bisut000000000000001");

The SQL query looks like this:

public class Organization {

String name;
String id;
String parentId;

Organization(String name, String parentId){
    this.name = name;
    this.parentId = parentId;

public void insert(Sql sql){
    String createdBy = GlobalConstant.SABA_ADMIN_ID.getValue();
    String updatedBy = GlobalConstant.SABA_ADMIN_ID.getValue();
    String companyType = "2";
    String flags = "1000000000";

    id = sql.firstRow( "select 'bisut' || LPAD(TPT_COMPANY_SEQ.NEXTVAL,  15, '0') as id from dual ").id;

    def timeStamp = sql.firstRow("select  to_char(SYSTIMESTAMP, 'YYYYMMDDHH24MISSFF') as ts FROM DUAL ").ts;
    def nameIns = name;
    def today = new java.sql.Date(new Date().getTime());
                VALUES (?,?,?,?,?,?,?,?,?,?,?,?,?)
                ''' ,
                [id, timeStamp, createdBy, today, updatedBy, today, nameIns.toLowerCase(), nameIns, nameIns.toLowerCase(), nameIns, companyType, flags, parentId]);

Of course I want to set transaction that spans all over tested method.


I cannot answer because of too small reputation but TransactionAwareDataSourceProxy is what I've been looking for.


OK, for anyone reading this who has been banging their head against the keyboard, get ready to scream. Here it is: A Groovy Sql object created using a DataSource, as in:

DataSource dsobj = null;
Sql sqlobj = null;

  dsobj = (...get your DataSource obj...);
  sqlobj = new Sql(dsobj);
} catch (...) {...}

will of course get you a valid Sql object that you can run commands with, etc., but you'll get no transaction support. HOWEVER...

If you create a Sql object using a Connection object, you will get that transaction support. Now, why this is, I have no idea, since you can supposedly access the Connection object contained in the DataSource object with: sqlobj.getDataSource().getConnection(). But YET, if you try to do this:


it will have zero effect. Any commands you run will be automatically committed whether you like it or not. So likewise, calling:


will do nothing.

So what do you do if you have to get DB connections from your application server because you have organizational standards, for example, that insist that you get them from an app server-managed connection pool with data sources defined by the server admin? Happens a lot for people developing apps for such common app servers like IBM WAS, etc. So, no going off and using basic JDBC code to create connections with hard-coded references of this and that when you can use just one hard-coded or better yet, property-file-stored or database-stored name of a JNDI data source. What ya gonna do now? You seem to HAVE to use a DataSource object and not enjoy the most common and valuable feature of any modern RDBMS, the transaction.

Here's the work-around, and here's where you really need to get ready to scream, because it's totally non-sensical, but it works. You need to create a DataSource object as above but then use its Connection object in the Sql object's constructor rather than the DataSource object. As ridiculous as this is, it's the fix. Example:

DataSource dsobj = null;
Sql sqlobj = null;

  dsobj = (...get your DataSource obj...);
  sqlobj = new Sql(dsobj.getConnection());
} catch (...) {...}

Now, you'd use sqlobj to do your transaction-sensitive stuff. You can set AutoCommit to false [sqlobj.getConnection().setAutoCommit(false)], run your updates, then do sqlobj.getConnection().commit() or sqlobj.getConnection().rollback() as needed.

It also seems dsobj can go out of direct scope of sqlobj and sqlobj will still function. I speculate that the VM is smart enough to keep sqlobj alive as long as sqlobj is in scope. That makes sense, given that dsobj's Connection object is undoubtedly treated as a server-managed resource and so any object that has it attached to it is kept alive until all other objects referencing the enclosing subscribing object (i.e., sqlobj) are finally out of scope. Just a guess.

So, where is the smoking gun over this issue? It's here:


I quote:

commit public void commit() throws java.sql.SQLExceptionIf this SQL object was created with a Connection then this method commits the connection. If this SQL object was created from a DataSource then this method does nothing. Throws: java.sql.SQLException - if a database access error occurs

rollback public void rollback() throws java.sql.SQLExceptionIf this SQL object was created with a Connection then this method rolls back the connection. If this SQL object was created from a DataSource then this method does nothing. Throws: java.sql.SQLException - if a database access error occurs

Just another mystery to ponder in life... hope this helps.


Answer by Matt I found has worked. The only caveat is that Sql.closeResources(Connection) is invoked after execute methods as well as query calls and will close the connection unless you are within Sql.withTransaction or Sql.cacheConnection.

What this means is that you definitely get transaction-awareness but only within the closure that runs inside Sql.withTransaction or Sql.cacheConnection. I am trying to reconcile our DAOs in a web service using groovy.sql.Sql with transaction-awareness during the entire thread of a web-service call ala what Spring or JEE transaction management does.

If I have a jersey endpoint and components underneath ideally I should not have to confine my transaction scopes to DAO-layer specific blocks as that is where our groovy.sql.Sql instances live; hence, why I find relying on Sql.withTransaction an insufficient solution to transaction-awareness/rollback-ability.

For reference: Github Sql.java source You will notice many methods for example executeUpdate after execution will invoke closeResources which only skips closing connection if (cacheConnection); hence, only by execution a Closure block via withTransaction or cacheTransaction can you make use of commit() and rollback() which I believe is the author's intent. This is fine except for the limitations of starting and ending a transaction matching the entire scope of a web service request. This being the caveat, my solution is to override closeResources as the author(s) of this class generously made this overridable. Override it to not close connections based on transaction activity.

In other words if you have transaction management handling this connection somehow elsewhere implement closeResources with a no-op; otherwise, do not override the implementation.

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