package org.infinispan.replication;
import org.infinispan.Cache;
import org.infinispan.commands.write.PutKeyValueCommand;
import org.infinispan.commands.write.RemoveCommand;
import org.infinispan.commands.write.ReplaceCommand;
import org.infinispan.commands.write.WriteCommand;
import org.infinispan.commands.write.PutMapCommand;
import org.infinispan.config.Configuration;
import org.infinispan.test.MultipleCacheManagersTest;
import org.infinispan.test.TestingUtil;
import org.infinispan.test.data.Key;
import org.infinispan.transaction.lookup.DummyTransactionManagerLookup;
import org.infinispan.util.Util;
import org.testng.annotations.Test;
import javax.transaction.TransactionManager;
import java.util.Collections;
import java.util.List;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.Future;
@Test(groups = "functional", testName = "replication.AsyncAPISyncReplTest")
public class AsyncAPISyncReplTest extends MultipleCacheManagersTest {
protected Cache<Key, String> c1, c2;
@SuppressWarnings("unchecked")
protected void createCacheManagers() throws Throwable {
Configuration c =
getDefaultClusteredConfig(sync() ? Configuration.CacheMode.REPL_SYNC : Configuration.CacheMode.REPL_ASYNC);
c.setTransactionManagerLookupClass(DummyTransactionManagerLookup.class.getName());
List<Cache<Key, String>> l = createClusteredCaches(2, getClass().getSimpleName(), c);
c1 = l.get(0);
c2 = l.get(1);
}
protected boolean sync() {
return true;
}
protected void asyncWait(boolean tx, Class<? extends WriteCommand>... cms) {
}
protected void resetListeners() {
}
protected void assertOnAllCaches(Key k, String v) {
Object real;
assert Util.safeEquals((real = c1.get(k)), v) : "Error on cache 1. Expected " + v + " and got " + real;
assert Util.safeEquals((real = c2.get(k)), v) : "Error on cache 2. Expected " + v + " and got " + real;
}
public void testAsyncMethods() throws ExecutionException, InterruptedException {
String v = "v";
String v2 = "v2";
String v3 = "v3";
String v4 = "v4";
String v5 = "v5";
String v6 = "v6";
String v_null = "v_nonexistent";
Key key = new Key("k", true);
// put
Future<String> f = c1.putAsync(key, v);
System.out.println("Future is of type " + f.getClass().getName());
assert f != null;
assert !f.isDone();
assert c2.get(key) == null;
key.allowSerialization();
assert !f.isCancelled();
assert f.get() == null;
assert f.isDone();
assertOnAllCaches(key, v);
f = c1.putAsync(key, v2);
assert f != null;
assert !f.isDone();
assert c2.get(key).equals(v);
key.allowSerialization();
assert !f.isCancelled();
assert f.get().equals(v);
assert f.isDone();
assertOnAllCaches(key, v2);
// putAll
Future<Void> f2 = c1.putAllAsync(Collections.singletonMap(key, v3));
assert f2 != null;
assert !f2.isDone();
assert c2.get(key).equals(v2);
key.allowSerialization();
assert !f2.isCancelled();
assert f2.get() == null;
assert f2.isDone();
assertOnAllCaches(key, v3);
// putIfAbsent
f = c1.putIfAbsentAsync(key, v4);
assert f != null;
assert c2.get(key).equals(v3);
assert !f.isCancelled();
assert f.get().equals(v3);
assert f.isDone();
assertOnAllCaches(key, v3);
// remove
f = c1.removeAsync(key);
assert f != null;
assert !f.isDone();
assert c2.get(key).equals(v3);
key.allowSerialization();
assert !f.isCancelled();
assert f.get().equals(v3);
assert f.isDone();
assertOnAllCaches(key, null);
// putIfAbsent again
f = c1.putIfAbsentAsync(key, v4);
assert f != null;
assert !f.isDone();
assert c2.get(key) == null;
key.allowSerialization();
assert !f.isCancelled();
assert f.get() == null;
assert f.isDone();
assertOnAllCaches(key, v4);
// removecond
Future<Boolean> f3 = c1.removeAsync(key, v_null);
assert f3 != null;
assert !f3.isCancelled();
assert f3.get().equals(false);
assert f3.isDone();
assertOnAllCaches(key, v4);
f3 = c1.removeAsync(key, v4);
assert f3 != null;
assert !f3.isDone();
assert c2.get(key).equals(v4);
key.allowSerialization();
assert !f3.isCancelled();
assert f3.get().equals(true);
assert f3.isDone();
assertOnAllCaches(key, null);
// replace
f = c1.replaceAsync(key, v5);
assert f != null;
assert !f.isCancelled();
assert f.get() == null;
assert f.isDone();
assertOnAllCaches(key, null);
key.allowSerialization();
resetListeners();
c1.put(key, v);
asyncWait(false, PutKeyValueCommand.class);
f = c1.replaceAsync(key, v5);
assert f != null;
assert !f.isDone();
assert c2.get(key).equals(v);
key.allowSerialization();
assert !f.isCancelled();
assert f.get().equals(v);
assert f.isDone();
assertOnAllCaches(key, v5);
//replace2
f3 = c1.replaceAsync(key, v_null, v6);
assert f3 != null;
assert !f3.isCancelled();
assert f3.get().equals(false);
assert f3.isDone();
assertOnAllCaches(key, v5);
f3 = c1.replaceAsync(key, v5, v6);
assert f3 != null;
assert !f3.isDone();
assert c2.get(key).equals(v5);
key.allowSerialization();
assert !f3.isCancelled();
assert f3.get().equals(true);
assert f3.isDone();
assertOnAllCaches(key, v6);
}
public void testAsyncTxMethods() throws Exception {
String v = "v";
String v2 = "v2";
String v3 = "v3";
String v4 = "v4";
String v5 = "v5";
String v6 = "v6";
String v_null = "v_nonexistent";
Key key = new Key("k", false);
TransactionManager tm = TestingUtil.getTransactionManager(c1);
// put
tm.begin();
Future<String> f = c1.putAsync(key, v);
assert f != null;
assert f.isDone();
assert c2.get(key) == null;
assert f.get() == null;
tm.commit();
asyncWait(true, PutKeyValueCommand.class);
assertOnAllCaches(key, v);
tm.begin();
f = c1.putAsync(key, v2);
assert f != null;
assert f.isDone();
assert c2.get(key).equals(v);
assert !f.isCancelled();
assert f.get().equals(v);
tm.commit();
asyncWait(true, PutKeyValueCommand.class);
assertOnAllCaches(key, v2);
// putAll
tm.begin();
Future<Void> f2 = c1.putAllAsync(Collections.singletonMap(key, v3));
assert f2 != null;
assert f2.isDone();
assert c2.get(key).equals(v2);
assert !f2.isCancelled();
assert f2.get() == null;
tm.commit();
asyncWait(true, PutMapCommand.class);
assertOnAllCaches(key, v3);
// putIfAbsent
tm.begin();
f = c1.putIfAbsentAsync(key, v4);
assert f != null;
assert f.isDone();
assert c2.get(key).equals(v3);
assert !f.isCancelled();
assert f.get().equals(v3);
tm.commit();
assertOnAllCaches(key, v3);
// remove
tm.begin();
f = c1.removeAsync(key);
assert f != null;
assert f.isDone();
assert c2.get(key).equals(v3);
assert !f.isCancelled();
assert f.get().equals(v3);
tm.commit();
asyncWait(true, RemoveCommand.class);
assertOnAllCaches(key, null);
// putIfAbsent again
tm.begin();
f = c1.putIfAbsentAsync(key, v4);
assert f != null;
assert f.isDone();
assert c2.get(key) == null;
assert !f.isCancelled();
assert f.get() == null;
tm.commit();
asyncWait(true, PutKeyValueCommand.class);
assertOnAllCaches(key, v4);
// removecond
tm.begin();
Future<Boolean> f3 = c1.removeAsync(key, v_null);
assert f3 != null;
assert !f3.isCancelled();
assert f3.get().equals(false);
assert f3.isDone();
tm.commit();
assertOnAllCaches(key, v4);
tm.begin();
f3 = c1.removeAsync(key, v4);
assert f3 != null;
assert f3.isDone();
assert c2.get(key).equals(v4);
assert !f3.isCancelled();
assert f3.get().equals(true);
tm.commit();
asyncWait(true, RemoveCommand.class);
assertOnAllCaches(key, null);
// replace
tm.begin();
f = c1.replaceAsync(key, v5);
assert f != null;
assert !f.isCancelled();
assert f.get() == null;
assert f.isDone();
tm.commit();
assertOnAllCaches(key, null);
c1.put(key, v);
asyncWait(false, PutKeyValueCommand.class);
tm.begin();
f = c1.replaceAsync(key, v5);
assert f != null;
assert f.isDone();
assert c2.get(key).equals(v);
assert !f.isCancelled();
assert f.get().equals(v);
tm.commit();
asyncWait(true, ReplaceCommand.class);
assertOnAllCaches(key, v5);
//replace2
tm.begin();
f3 = c1.replaceAsync(key, v_null, v6);
assert f3 != null;
assert !f3.isCancelled();
assert f3.get().equals(false);
assert f3.isDone();
tm.commit();
assertOnAllCaches(key, v5);
tm.begin();
f3 = c1.replaceAsync(key, v5, v6);
assert f3 != null;
assert f3.isDone();
assert c2.get(key).equals(v5);
assert !f3.isCancelled();
assert f3.get().equals(true);
tm.commit();
asyncWait(true, ReplaceCommand.class);
assertOnAllCaches(key, v6);
}
}