package org.jboss.cache.loader;
import com.sleepycat.je.Database;
import com.sleepycat.je.DatabaseConfig;
import com.sleepycat.je.DeadlockException;
import com.sleepycat.je.Environment;
import org.jboss.cache.CacheSPI;
import org.jboss.cache.Fqn;
import org.jboss.cache.Modification;
import org.jboss.cache.loader.bdbje.BdbjeCacheLoaderConfig;
import org.jboss.cache.statetransfer.DefaultStateTransferManager;
import org.jboss.util.stream.MarshalledValueInputStream;
import org.jboss.util.stream.MarshalledValueOutputStream;
import static org.testng.AssertJUnit.*;
import org.testng.annotations.AfterMethod;
import org.testng.annotations.BeforeMethod;
import org.testng.annotations.Test;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.File;
import java.io.FileFilter;
import java.io.Serializable;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.jboss.cache.UnitTestCacheFactory;
import org.jboss.cache.util.TestingUtil;
/**
* Tests BdbjeCacheLoader directly via the CacheLoader interface.
* <p/>
* <p>Run this test case with the current directory set to the JE environment
* directory. Any scratch directory will do, but beware that all files in
* the directory will be deleted by setUp().</p>
*
* @version $Revision: 6905 $
*/
@Test(groups = {"functional"}, sequential = true)
public class BdbjeTest
{
private static final int STREAM_HEADER_LENGTH = 4;
private static final String envHome = ".";
private static final Fqn FQN = Fqn.fromString("/key");
private CacheSPI cache;
private CacheLoader loader;
/**
* Deletes all files in the environment directory.
*/
@BeforeMethod(alwaysRun = true)
public void setUp() throws Exception
{
File dir = new File(envHome);
class MyFilter implements FileFilter
{
public boolean accept(File file)
{
return file.getName().endsWith(".jdb");
}
}
File[] files = dir.listFiles(new MyFilter());
if (files != null)
{
for (int i = 0; i < files.length; i += 1)
{
File file = files[i];
if (file.isFile())
{
if (!file.delete())
{
System.err.println("Unable to delete: " + file);
}
}
}
}
}
/**
* Release all resources and ignore exceptions, to shutdown gracefully
* when an assertion fires.
*/
@AfterMethod(alwaysRun = true)
public void tearDown() throws Exception
{
if (loader != null)
{
try
{
loader.stop();
}
catch (Exception ignored)
{
}
loader = null;
}
if (cache != null)
{
try
{
TestingUtil.killCaches(cache);
}
catch (Exception ignored)
{
}
cache = null;
}
}
/**
* Creates and starts a loader.
*
* @param transactional whether to set the TransactionManagerLookupClass
* property.
* @param dbName a database name, or null to default to the cluster name.
*/
private void startLoader(boolean transactional, String dbName)
throws Exception
{
/*
* Create a dummy CacheSPI object. This is used for setting the cluster
* name and TransactionManagerLookupClass (transactional) propertes only.
* the CacheSPI object is not used otherwise during testing.
*/
cache = (CacheSPI) new UnitTestCacheFactory<Object, Object>().createCache(false);
cache.getConfiguration().setClusterName("myCluster");
if (transactional)
{
cache.getConfiguration().setTransactionManagerLookupClass(
"org.jboss.cache.transaction.DummyTransactionManagerLookup");
}
cache.start();
/* Derive the config string. */
String configStr;
if (dbName != null)
{
configStr = envHome + '#' + dbName;
}
else
{
configStr = envHome;
dbName = "myCluster";
}
instantiateLoader();
/* Initialize and start the loader. */
loader.setCache(cache);
BdbjeCacheLoaderConfig config = new BdbjeCacheLoaderConfig();
config.setLocation(configStr);
loader.setConfig(config);
loader.create();
loader.start();
/* Verify the database name by trying to open it. */
Environment env = new Environment(new File(envHome), null);
DatabaseConfig dbConfig = new DatabaseConfig();
dbConfig.setTransactional(transactional);
Database db = env.openDatabase(null, dbName, dbConfig);
db.close();
env.close();
}
/**
* Creates the loader instance.
*/
private void instantiateLoader()
throws Exception
{
/* Create the cache loader as CacheSPI would. */
Class cls =
Class.forName("org.jboss.cache.loader.bdbje.BdbjeCacheLoader");
loader = (CacheLoader) cls.newInstance();
}
/**
* Stops and destroys the loader.
*/
private void stopLoader()
{
loader.stop();
loader.destroy();
}
/**
* Tests basic operations without a transaction.
*/
public void testBasicOperations()
throws Exception
{
doTestBasicOperations(false);
}
/**
* Tests basic operations with a transaction.
*/
public void testBasicOperationsTransactional()
throws Exception
{
doTestBasicOperations(true);
}
/**
* Tests basic operations.
*/
private void doTestBasicOperations(boolean transactional)
throws Exception
{
startLoader(transactional, null);
/* One FQN only. */
doPutTests(FQN);
doRemoveTests(FQN);
ByteArrayOutputStream baos = new ByteArrayOutputStream(1024);
MarshalledValueOutputStream os = new MarshalledValueOutputStream(baos);
loader.loadEntireState(os);
os.close();
/* Add three FQNs, middle FQN last. */
Fqn k1 = Fqn.fromString("/key1");
Fqn k2 = Fqn.fromString("/key2");
Fqn k3 = Fqn.fromString("/key3");
doPutTests(k1);
doPutTests(k3);
doPutTests(k2);
assertEquals(4, loader.get(k1).size());
assertEquals(4, loader.get(k2).size());
assertEquals(4, loader.get(k3).size());
/* Remove middle FQN first, then the others. */
doRemoveTests(k2);
doRemoveTests(k3);
doRemoveTests(k1);
assertEquals(null, loader.get(k1));
assertEquals(null, loader.get(k2));
assertEquals(null, loader.get(k3));
baos = new ByteArrayOutputStream(1024);
os = new MarshalledValueOutputStream(baos);
loader.loadEntireState(os);
os.close();
stopLoader();
}
/**
* Do basic put tests for a given FQN.
*/
private void doPutTests(Fqn fqn)
throws Exception
{
assertTrue(!loader.exists(fqn));
/* put(Fqn,Object,Object) and get(Fqn,Object) */
Object oldVal;
oldVal = loader.put(fqn, "one", "two");
assertNull(oldVal);
oldVal = loader.put(fqn, "three", "four");
assertNull(oldVal);
assertEquals("two", loader.get(fqn).get("one"));
assertEquals("four", loader.get(fqn).get("three"));
oldVal = loader.put(fqn, "one", "xxx");
assertEquals("two", oldVal);
oldVal = loader.put(fqn, "one", "two");
assertEquals("xxx", oldVal);
/* get(Fqn) */
Map<Object, Object> map = loader.get(fqn);
assertEquals(2, map.size());
assertEquals("two", map.get("one"));
assertEquals("four", map.get("three"));
/* put(Fqn,Map) */
map.put("five", "six");
map.put("seven", "eight");
loader.put(fqn, map);
assertEquals("six", loader.get(fqn).get("five"));
assertEquals("eight", loader.get(fqn).get("seven"));
assertEquals(map, loader.get(fqn));
assertEquals(4, map.size());
assertTrue(loader.exists(fqn));
}
/**
* Do basic remove tests for a given FQN.
*/
private void doRemoveTests(Fqn fqn)
throws Exception
{
/* remove(Fqn,Object) */
Object oldVal;
oldVal = loader.remove(fqn, "one");
assertEquals("two", oldVal);
oldVal = loader.remove(fqn, "five");
assertEquals("six", oldVal);
assertEquals(null, loader.get(fqn).get("one"));
assertEquals(null, loader.get(fqn).get("five"));
assertEquals("four", loader.get(fqn).get("three"));
assertEquals("eight", loader.get(fqn).get("seven"));
Map map = loader.get(fqn);
assertEquals(2, map.size());
assertEquals("four", map.get("three"));
assertEquals("eight", map.get("seven"));
/* remove(Fqn) */
assertTrue(loader.exists(fqn));
loader.remove(fqn);
assertNull("Null expected", loader.get(fqn));
assertTrue(!loader.exists(fqn));
}
/**
* Tests creating implicit intermediate nodes when a leaf node is created,
* and tests removing subtrees.
*/
public void testMultiLevelTree()
throws Exception
{
startLoader(false, null);
/* Create top level node implicitly. */
Fqn k0 = Fqn.fromString("/key0");
Fqn k1 = Fqn.fromString("/key1");
Fqn k2 = Fqn.fromString("/key2");
Fqn k3 = Fqn.fromString("/key3");
assertTrue(!loader.exists(k0));
loader.put(Fqn.fromString("/key0/level1/level2"), null);
assertTrue(loader.exists(Fqn.fromString("/key0/level1/level2")));
assertTrue(loader.exists(Fqn.fromString("/key0/level1")));
assertTrue(loader.exists(k0));
/* Remove leaf, leaving implicitly created middle level. */
loader.put(Fqn.fromString("/key0/x/y"), null);
assertTrue(loader.exists(Fqn.fromString("/key0/x/y")));
assertTrue(loader.exists(Fqn.fromString("/key0/x")));
loader.remove(Fqn.fromString("/key0/x/y"));
assertTrue(!loader.exists(Fqn.fromString("/key0/x/y")));
assertTrue(loader.exists(Fqn.fromString("/key0/x")));
/* Delete top level to delete everything. */
loader.remove(k0);
assertTrue(!loader.exists(k0));
assertTrue(!loader.exists(Fqn.fromString("/key0/level1/level2")));
assertTrue(!loader.exists(Fqn.fromString("/key0/level1")));
assertTrue(!loader.exists(Fqn.fromString("/key0/x")));
/* Add three top level nodes as context. */
loader.put(k1, null);
loader.put(k2, null);
loader.put(k3, null);
assertTrue(loader.exists(k1));
assertTrue(loader.exists(k2));
assertTrue(loader.exists(k3));
/* Put /key3/level1/level2. level1 should be implicitly created. */
assertTrue(!loader.exists(Fqn.fromString("/key3/level1")));
assertTrue(!loader.exists(Fqn.fromString("/key3/level1/level2")));
loader.put(Fqn.fromString("/key3/level1/level2"), null);
assertTrue(loader.exists(Fqn.fromString("/key3/level1/level2")));
assertTrue(loader.exists(Fqn.fromString("/key3/level1")));
/* Context nodes should still be intact. */
assertTrue(loader.exists(k1));
assertTrue(loader.exists(k2));
assertTrue(loader.exists(k3));
/* Remove middle level only. */
loader.remove(Fqn.fromString("/key3/level1"));
assertTrue(!loader.exists(Fqn.fromString("/key3/level1/level2")));
assertTrue(!loader.exists(Fqn.fromString("/key3/level1")));
/* Context nodes should still be intact. */
assertTrue(loader.exists(k1));
assertTrue(loader.exists(k2));
assertTrue(loader.exists(k3));
/* Delete first root, leaving other roots. */
loader.remove(k1);
assertTrue(!loader.exists(k1));
assertTrue(loader.exists(k2));
assertTrue(loader.exists(k3));
/* Delete last root, leaving other roots. */
loader.remove(k3);
assertTrue(loader.exists(k2));
assertTrue(!loader.exists(k3));
/* Delete final root, leaving none. */
loader.remove(k2);
assertTrue(!loader.exists(k0));
assertTrue(!loader.exists(k1));
assertTrue(!loader.exists(k2));
assertTrue(!loader.exists(k3));
/* Repeat all tests above using put(Fqn,Object,Object) and get(Fqn) */
assertNull(loader.get(k0));
loader.put(Fqn.fromString("/key0/level1/level2"), "a", "b");
assertNotNull(loader.get(Fqn.fromString("/key0/level1/level2")));
assertNotNull(loader.get(Fqn.fromString("/key0/level1")));
assertNotNull(loader.get(k0));
assertEquals(0, loader.get(Fqn.fromString("/key0/level1")).size());
assertEquals(0, loader.get(k0).size());
loader.put(Fqn.fromString("/key0/x/y"), "a", "b");
assertNotNull(loader.get(Fqn.fromString("/key0/x/y")));
assertNotNull(loader.get(Fqn.fromString("/key0/x")));
assertEquals(0, loader.get(Fqn.fromString("/key0/x")).size());
loader.remove(Fqn.fromString("/key0/x/y"));
assertNull(loader.get(Fqn.fromString("/key0/x/y")));
assertNotNull(loader.get(Fqn.fromString("/key0/x")));
assertEquals(0, loader.get(Fqn.fromString("/key0/x")).size());
loader.remove(k0);
assertNull(loader.get(k0));
assertNull(loader.get(Fqn.fromString("/key0/level1/level2")));
assertNull(loader.get(Fqn.fromString("/key0/level1")));
assertNull(loader.get(Fqn.fromString("/key0/x")));
loader.put(k1, "a", "b");
loader.put(k2, "a", "b");
loader.put(k3, "a", "b");
assertNotNull(loader.get(k1));
assertNotNull(loader.get(k2));
assertNotNull(loader.get(k3));
assertNull(loader.get(Fqn.fromString("/key3/level1")));
assertNull(loader.get(Fqn.fromString("/key3/level1/level2")));
loader.put(Fqn.fromString("/key3/level1/level2"), "a", "b");
assertNotNull(loader.get(Fqn.fromString("/key3/level1/level2")));
assertNotNull(loader.get(Fqn.fromString("/key3/level1")));
assertEquals(0, loader.get(Fqn.fromString("/key3/level1")).size());
assertNotNull(loader.get(k1));
assertNotNull(loader.get(k2));
assertNotNull(loader.get(k3));
loader.remove(Fqn.fromString("/key3/level1"));
assertNull(loader.get(Fqn.fromString("/key3/level1/level2")));
assertNull(loader.get(Fqn.fromString("/key3/level1")));
assertNotNull(loader.get(k1));
assertNotNull(loader.get(k2));
assertNotNull(loader.get(k3));
loader.remove(k1);
assertNull(loader.get(k1));
assertNotNull(loader.get(k2));
assertNotNull(loader.get(k3));
loader.remove(k3);
assertNotNull(loader.get(k2));
assertNull(loader.get(k3));
loader.remove(k2);
assertNull(loader.get(k0));
assertNull(loader.get(k1));
assertNull(loader.get(k2));
assertNull(loader.get(k3));
stopLoader();
}
/**
* Tests the getChildrenNames() method.
*/
public void testGetChildrenNames()
throws Exception
{
startLoader(false, null);
checkChildren(Fqn.ROOT, null);
checkChildren(Fqn.fromString("/key0"), null);
loader.put(Fqn.fromString("/key0"), null);
checkChildren(Fqn.ROOT, new String[]{"key0"});
loader.put(Fqn.fromString("/key1/x"), null);
checkChildren(Fqn.ROOT, new String[]{"key0", "key1"});
checkChildren(Fqn.fromString("/key1"), new String[]{"x"});
loader.remove(Fqn.fromString("/key1/x"));
checkChildren(Fqn.ROOT, new String[]{"key0", "key1"});
checkChildren(Fqn.fromString("/key0"), null);
checkChildren(Fqn.fromString("/key1"), null);
loader.put(Fqn.fromString("/key0/a"), null);
loader.put(Fqn.fromString("/key0/ab"), null);
loader.put(Fqn.fromString("/key0/abc"), null);
checkChildren(Fqn.fromString("/key0"),
new String[]{"a", "ab", "abc"});
loader.put(Fqn.fromString("/key0/xxx"), null);
loader.put(Fqn.fromString("/key0/xx"), null);
loader.put(Fqn.fromString("/key0/x"), null);
checkChildren(Fqn.fromString("/key0"),
new String[]{"a", "ab", "abc", "x", "xx", "xxx"});
loader.put(Fqn.fromString("/key0/a/1"), null);
loader.put(Fqn.fromString("/key0/a/2"), null);
loader.put(Fqn.fromString("/key0/a/2/1"), null);
checkChildren(Fqn.fromString("/key0/a/2"), new String[]{"1"});
checkChildren(Fqn.fromString("/key0/a"), new String[]{"1", "2"});
checkChildren(Fqn.fromString("/key0"),
new String[]{"a", "ab", "abc", "x", "xx", "xxx"});
loader.put(Fqn.fromString("/key0/\u0000"), null);
loader.put(Fqn.fromString("/key0/\u0001"), null);
checkChildren(Fqn.fromString("/key0"),
new String[]{"a", "ab", "abc", "x", "xx", "xxx",
"\u0000", "\u0001"});
loader.put(Fqn.fromString("/\u0001"), null);
checkChildren(Fqn.ROOT, new String[]{"key0", "key1", "\u0001"});
loader.put(Fqn.fromString("/\u0001/\u0001"), null);
checkChildren(Fqn.fromString("/\u0001"), new String[]{"\u0001"});
loader.put(Fqn.fromString("/\u0001/\uFFFF"), null);
checkChildren(Fqn.fromString("/\u0001"),
new String[]{"\u0001", "\uFFFF"});
loader.put(Fqn.fromString("/\u0001/\uFFFF/\u0001"), null);
checkChildren(Fqn.fromString("/\u0001/\uFFFF"),
new String[]{"\u0001"});
stopLoader();
}
/**
* Checks that the given list of children part names is returned.
*/
private void checkChildren(Fqn fqn, String[] names)
throws Exception
{
Set set = loader.getChildrenNames(fqn);
if (names != null)
{
assertEquals(names.length, set.size());
for (int i = 0; i < names.length; i += 1)
{
assertTrue(set.contains(names[i]));
}
}
else
{
assertNull(set);
}
}
/**
* Tests basic operations without a transaction.
*/
public void testModifications()
throws Exception
{
doTestModifications(false);
}
/**
* Tests basic operations with a transaction.
*/
public void testModificationsTransactional()
throws Exception
{
doTestModifications(true);
}
/**
* Tests modifications.
*/
private void doTestModifications(boolean transactional)
throws Exception
{
startLoader(transactional, null);
/* PUT_KEY_VALUE, PUT_DATA */
List<Modification> list = createUpdates();
loader.put(list);
checkModifications(list);
/* REMOVE_KEY_VALUE */
list = new ArrayList<Modification>();
Modification mod = new Modification();
mod.setType(Modification.ModificationType.REMOVE_KEY_VALUE);
mod.setFqn(FQN);
mod.setKey("one");
list.add(mod);
loader.put(list);
checkModifications(list);
/* REMOVE_NODE */
list = new ArrayList<Modification>();
mod = new Modification();
mod.setType(Modification.ModificationType.REMOVE_NODE);
mod.setFqn(FQN);
list.add(mod);
loader.put(list);
checkModifications(list);
assertEquals(null, loader.get(FQN));
/* REMOVE_DATA */
loader.put(FQN, "one", "two");
list = new ArrayList<Modification>();
mod = new Modification();
mod.setType(Modification.ModificationType.REMOVE_DATA);
mod.setFqn(FQN);
list.add(mod);
loader.put(list);
checkModifications(list);
assertNotNull(loader.get(FQN));
assertEquals(0, loader.get(FQN).size());
stopLoader();
}
/**
* Tests a one-phase transaction.
*/
public void testOnePhaseTransaction()
throws Exception
{
startLoader(true, null);
List<Modification> mods = createUpdates();
loader.prepare(null, mods, true);
checkModifications(mods);
stopLoader();
}
/**
* Tests a two-phase transaction.
*/
public void testTwoPhaseTransaction()
throws Exception
{
startLoader(true, null);
Object txnKey = new Object();
List<Modification> mods = createUpdates();
loader.prepare(txnKey, mods, false);
try
{
checkModifications(mods);
fail("Expected lock timeout");
}
catch (DeadlockException expected)
{
}
loader.commit(txnKey);
checkModifications(mods);
stopLoader();
}
/**
* Tests rollback of a two-phase transaction.
*/
public void testTransactionRollback()
throws Exception
{
startLoader(true, null);
Object txnKey = new Object();
List<Modification> mods = createUpdates();
loader.prepare(txnKey, mods, false);
loader.rollback(txnKey);
ByteArrayOutputStream baos = new ByteArrayOutputStream(1024);
MarshalledValueOutputStream os = new MarshalledValueOutputStream(baos);
loader.loadEntireState(os);
os.close();
stopLoader();
}
/**
* Creates a set of update (PUT_KEY_VALUE, PUT_DATA) modifications.
*/
private List<Modification> createUpdates()
{
List<Modification> list = new ArrayList<Modification>();
Modification mod = new Modification();
mod.setType(Modification.ModificationType.PUT_KEY_VALUE);
mod.setFqn(FQN);
mod.setKey("one");
mod.setValue("two");
list.add(mod);
mod = new Modification();
mod.setType(Modification.ModificationType.PUT_KEY_VALUE);
mod.setFqn(FQN);
mod.setKey("three");
mod.setValue("four");
list.add(mod);
/*
Map<String, String> map = new HashMap<String, String>();
map.put("five", "six");
map.put("seven", "eight");
mod = new Modification();
mod.setType(Modification.ModificationType.PUT_DATA);
mod.setFqn(FQN);
mod.setData(map);
list.add(mod);
*/
return list;
}
/**
* Checks that a list of modifications was applied.
*/
private void checkModifications(List<Modification> list)
throws Exception
{
for (int i = 0; i < list.size(); i += 1)
{
Modification mod = list.get(i);
Fqn fqn = mod.getFqn();
switch (mod.getType())
{
case PUT_KEY_VALUE:
assertEquals(mod.getValue(), loader.get(fqn).get(mod.getKey()));
break;
case PUT_DATA:
Map map = mod.getData();
for (Object key : map.keySet())
{
assertEquals(map.get(key), loader.get(fqn).get(key));
}
break;
case REMOVE_KEY_VALUE:
assertEquals(null, loader.get(fqn).get(mod.getKey()));
break;
case REMOVE_DATA:
assertTrue(loader.exists(fqn));
assertNotNull(loader.get(fqn));
assertEquals(0, loader.get(fqn).size());
break;
case REMOVE_NODE:
assertTrue(!loader.exists(fqn));
assertEquals(null, loader.get(fqn));
break;
default:
fail("unknown type: " + mod);
break;
}
}
}
/**
* Tests a non-transactional prepare.
*/
public void testTransactionExceptions()
throws Exception
{
List<Modification> mods = createUpdates();
/* A non-transactional cache loader should not allow prepare(). */
startLoader(false, null);
try
{
loader.prepare(new Object(), mods, false);
fail();
}
catch (UnsupportedOperationException expected)
{
}
stopLoader();
startLoader(true, null);
/* Commit and rollback a non-prepared transaction. */
try
{
loader.commit(new Object());
fail();
}
catch (IllegalArgumentException expected)
{
}
try
{
loader.rollback(new Object());
fail();
}
catch (IllegalArgumentException expected)
{
}
/* Commit and rollback after commit. */
ByteArrayOutputStream baos = new ByteArrayOutputStream(1024);
MarshalledValueOutputStream os = new MarshalledValueOutputStream(baos);
cache.getMarshaller().objectToObjectStream(DefaultStateTransferManager.STREAMING_DELIMITER_NODE, os);
os.close();
ByteArrayInputStream bais = new ByteArrayInputStream(baos.toByteArray());
MarshalledValueInputStream is = new MarshalledValueInputStream(bais);
loader.storeEntireState(is);
is.close();
Object txnKey = new Object();
loader.prepare(txnKey, mods, false);
loader.commit(txnKey);
try
{
loader.commit(txnKey);
fail();
}
catch (IllegalArgumentException expected)
{
}
try
{
loader.rollback(txnKey);
fail();
}
catch (IllegalArgumentException expected)
{
}
/* Commit and rollback after rollback. */
bais = new ByteArrayInputStream(baos.toByteArray());
is = new MarshalledValueInputStream(bais);
loader.storeEntireState(is);
is.close();
txnKey = new Object();
loader.prepare(txnKey, mods, false);
loader.rollback(txnKey);
try
{
loader.rollback(txnKey);
fail();
}
catch (IllegalArgumentException expected)
{
}
try
{
loader.rollback(txnKey);
fail();
}
catch (IllegalArgumentException expected)
{
}
stopLoader();
}
/**
* Tests that null keys and values work as for a standard Java Map.
*/
public void testNullKeysAndValues()
throws Exception
{
startLoader(false, null);
loader.put(FQN, null, "x");
assertEquals("x", loader.get(FQN).get(null));
Map<Object, Object> map = loader.get(FQN);
assertEquals(1, map.size());
assertEquals("x", map.get(null));
loader.put(FQN, "y", null);
assertEquals(null, loader.get(FQN).get("y"));
map = loader.get(FQN);
assertEquals(2, map.size());
assertEquals("x", map.get(null));
assertEquals(null, map.get("y"));
loader.remove(FQN, null);
assertEquals(null, loader.get(FQN).get(null));
assertEquals(1, loader.get(FQN).size());
loader.remove(FQN, "y");
assertNotNull(loader.get(FQN));
assertEquals(0, loader.get(FQN).size());
map = new HashMap<Object, Object>();
map.put(null, null);
loader.put(FQN, map);
assertEquals(map, loader.get(FQN));
loader.remove(FQN);
assertNull("Should be null", loader.get(FQN));
map = new HashMap<Object, Object>();
map.put("xyz", null);
map.put(null, "abc");
loader.put(FQN, map);
assertEquals(map, loader.get(FQN));
loader.remove(FQN);
assertEquals(null, loader.get(FQN));
stopLoader();
}
/**
* Test non-default database name.
*/
public void testDatabaseName()
throws Exception
{
startLoader(false, "nonDefaultDbName");
loader.put(FQN, "one", "two");
assertEquals("two", loader.get(FQN).get("one"));
stopLoader();
}
/**
* Test load/store state.
*/
public void testLoadAndStore()
throws Exception
{
startLoader(false, null);
/* Empty state. */
ByteArrayOutputStream baos = new ByteArrayOutputStream(1024);
MarshalledValueOutputStream os = new MarshalledValueOutputStream(baos);
loader.loadEntireState(os);
cache.getMarshaller().objectToObjectStream(DefaultStateTransferManager.STREAMING_DELIMITER_NODE, os);
os.close();
ByteArrayInputStream bais = new ByteArrayInputStream(baos.toByteArray());
MarshalledValueInputStream is = new MarshalledValueInputStream(bais);
loader.storeEntireState(is);
is.close();
baos = new ByteArrayOutputStream(1024);
os = new MarshalledValueOutputStream(baos);
loader.loadEntireState(os);
cache.getMarshaller().objectToObjectStream(DefaultStateTransferManager.STREAMING_DELIMITER_NODE, os);
os.close();
bais = new ByteArrayInputStream(baos.toByteArray());
is = new MarshalledValueInputStream(bais);
loader.storeEntireState(is);
is.close();
baos = new ByteArrayOutputStream(1024);
os = new MarshalledValueOutputStream(baos);
loader.loadEntireState(os);
cache.getMarshaller().objectToObjectStream(DefaultStateTransferManager.STREAMING_DELIMITER_NODE, os);
os.close();
assertEquals(null, loader.get(FQN));
/* Use a complex object to ensure that the class catalog is used. */
Complex c1 = new Complex();
Complex c2 = new Complex(c1);
/* Add objects. */
loader.put(FQN, 1, c1);
loader.put(FQN, 2, c2);
assertEquals(c1, loader.get(FQN).get(1));
assertEquals(c2, loader.get(FQN).get(2));
assertEquals(2, loader.get(FQN).size());
/* Save state. */
baos = new ByteArrayOutputStream(1024);
os = new MarshalledValueOutputStream(baos);
loader.loadEntireState(os);
cache.getMarshaller().objectToObjectStream(DefaultStateTransferManager.STREAMING_DELIMITER_NODE, os);
assertTrue(baos.size() > STREAM_HEADER_LENGTH);
os.close();
byte[] savedState = baos.toByteArray();
/* Clear state. */
baos = new ByteArrayOutputStream(1024);
os = new MarshalledValueOutputStream(baos);
cache.getMarshaller().objectToObjectStream(DefaultStateTransferManager.STREAMING_DELIMITER_NODE, os);
os.close();
bais = new ByteArrayInputStream(baos.toByteArray());
is = new MarshalledValueInputStream(bais);
loader.storeEntireState(is);
is.close();
assertEquals(null, loader.get(FQN));
/* Restore state. */
bais = new ByteArrayInputStream(savedState);
is = new MarshalledValueInputStream(bais);
loader.storeEntireState(is);
is.close();
assertEquals(c1, loader.get(FQN).get(1));
assertEquals(c2, loader.get(FQN).get(2));
assertEquals(2, loader.get(FQN).size());
stopLoader();
}
/**
* Complex object whose class description is stored in the class catalog.
*/
private static class Complex implements Serializable
{
/**
* The serialVersionUID
*/
private static final long serialVersionUID = -1259096627833244770L;
Complex nested;
Complex()
{
this(null);
}
Complex(Complex nested)
{
this.nested = nested;
}
public boolean equals(Object o)
{
try
{
Complex x = (Complex) o;
return (nested != null) ? nested.equals(x.nested)
: (x.nested == null);
}
catch (ClassCastException e)
{
return false;
}
}
}
}