I do not know the details of JUnit 3, but I recommend that you upgrade to JUnit 4.
@WebAppConfiguration) is used to specify which application context is used and the
SpringJUnit4ClassRunner is used to execute the tests, then it is cached between tests. From the reference docs:
Once the TestContext framework loads an ApplicationContext (or WebApplicationContext) for a test, that context will be cached and reused for all subsequent tests that declare the same unique context configuration within the same test suite. To understand how caching works, it is important to understand what is meant by unique and test suite.
An ApplicationContext can be uniquely identified by the combination of configuration parameters that are used to load it. Consequently, the unique combination of configuration parameters are used to generate a key under which the context is cached.
The reference docs continues to list the configuration parameters that are used to create the context cache key.
What kind of session data is "bleeding"? Use the
@Transactional annotation to rollback any database changes for test that write to the database. The
@DirtiesContext annotation can be used to re-create the current application context if it gets polluted, but typically that can be avoided by specifying different
@ActiveProfiles. Read more about Spring's integration test annotation in the reference docs.