use of org.apache.geode.internal.cache.wan.WANTestBase in project geode by apache.
the class ParallelGatewaySenderQueueOverflowDUnitTest method test_ValidateParallelGatewaySenderQueueAttributes_1.
/**
* Test to validate that ParallelGatewaySenderQueue diskSynchronous attribute when persistence of
* sender is enabled.
*/
@Ignore("TODO: test is disabled")
@Test
public void test_ValidateParallelGatewaySenderQueueAttributes_1() {
Integer localLocPort = (Integer) vm0.invoke(() -> WANTestBase.createFirstLocatorWithDSId(1));
Integer remoteLocPort = (Integer) vm1.invoke(() -> WANTestBase.createFirstRemoteLocator(2, localLocPort));
WANTestBase test = new WANTestBase();
Properties props = test.getDistributedSystemProperties();
props.setProperty(MCAST_PORT, "0");
props.setProperty(LOCATORS, "localhost[" + localLocPort + "]");
InternalDistributedSystem ds = test.getSystem(props);
cache = CacheFactory.create(ds);
File directory = new File("TKSender" + "_disk_" + System.currentTimeMillis() + "_" + VM.getCurrentVMNum());
directory.mkdir();
File[] dirs1 = new File[] { directory };
DiskStoreFactory dsf = cache.createDiskStoreFactory();
dsf.setDiskDirs(dirs1);
DiskStore diskStore = dsf.create("FORNY");
GatewaySenderFactory fact = cache.createGatewaySenderFactory();
// set parallel to true
fact.setParallel(true);
fact.setBatchConflationEnabled(true);
fact.setBatchSize(200);
fact.setBatchTimeInterval(300);
// enable the persistence
fact.setPersistenceEnabled(true);
fact.setDiskSynchronous(true);
fact.setDiskStoreName("FORNY");
fact.setMaximumQueueMemory(200);
fact.setAlertThreshold(1200);
GatewayEventFilter myEventFilter1 = new MyGatewayEventFilter1();
fact.addGatewayEventFilter(myEventFilter1);
GatewayTransportFilter myStreamFilter1 = new MyGatewayTransportFilter1();
fact.addGatewayTransportFilter(myStreamFilter1);
GatewayTransportFilter myStreamFilter2 = new MyGatewayTransportFilter2();
fact.addGatewayTransportFilter(myStreamFilter2);
final IgnoredException exTKSender = IgnoredException.addIgnoredException("Could not connect");
try {
GatewaySender sender1 = fact.create("TKSender", 2);
AttributesFactory factory = new AttributesFactory();
factory.addGatewaySenderId(sender1.getId());
factory.setDataPolicy(DataPolicy.PERSISTENT_PARTITION);
Region region = cache.createRegionFactory(factory.create()).create("test_ValidateGatewaySenderAttributes");
Set<GatewaySender> senders = cache.getGatewaySenders();
assertEquals(senders.size(), 1);
GatewaySender gatewaySender = senders.iterator().next();
Set<RegionQueue> regionQueues = ((AbstractGatewaySender) gatewaySender).getQueues();
assertEquals(regionQueues.size(), 1);
RegionQueue regionQueue = regionQueues.iterator().next();
assertEquals(true, regionQueue.getRegion().getAttributes().isDiskSynchronous());
} finally {
exTKSender.remove();
}
}
use of org.apache.geode.internal.cache.wan.WANTestBase in project geode by apache.
the class WANLocatorServerDUnitTest method createServer.
public static void createServer(Integer port1, Integer port2, Integer port3) {
WANTestBase test = new WANTestBase(getTestMethodName());
Properties props = test.getDistributedSystemProperties();
props.setProperty(MCAST_PORT, "0");
props.setProperty(LOCATORS, "localhost[" + port1 + "],localhost[" + port2 + "],localhost[" + port3 + "]");
InternalDistributedSystem ds = test.getSystem(props);
cache = CacheFactory.create(ds);
CacheServer server = cache.addCacheServer();
int port = AvailablePortHelper.getRandomAvailablePortForDUnitSite();
server.setPort(port);
try {
server.start();
} catch (IOException e) {
fail("Test " + test.getName() + " failed to start CacheServer on port " + port, e);
}
LogWriterUtils.getLogWriter().info("Server Started on port : " + port + " : server : " + server);
}
use of org.apache.geode.internal.cache.wan.WANTestBase in project geode by apache.
the class ParallelGatewaySenderQueueOverflowDUnitTest method test_ValidateParallelGatewaySenderQueueAttributes_2.
/**
* Test to validate that ParallelGatewaySenderQueue diskSynchronous attribute when persistence of
* sender is not enabled.
*/
@Ignore("TODO: test is disabled")
@Test
public void test_ValidateParallelGatewaySenderQueueAttributes_2() {
Integer localLocPort = (Integer) vm0.invoke(() -> WANTestBase.createFirstLocatorWithDSId(1));
Integer remoteLocPort = (Integer) vm1.invoke(() -> WANTestBase.createFirstRemoteLocator(2, localLocPort));
WANTestBase test = new WANTestBase();
Properties props = test.getDistributedSystemProperties();
props.setProperty(MCAST_PORT, "0");
props.setProperty(LOCATORS, "localhost[" + localLocPort + "]");
InternalDistributedSystem ds = test.getSystem(props);
cache = CacheFactory.create(ds);
GatewaySenderFactory fact = cache.createGatewaySenderFactory();
// set parallel to true
fact.setParallel(true);
fact.setBatchConflationEnabled(true);
fact.setBatchSize(200);
fact.setBatchTimeInterval(300);
// set persistence to false
fact.setPersistenceEnabled(false);
fact.setDiskSynchronous(true);
fact.setMaximumQueueMemory(200);
fact.setAlertThreshold(1200);
GatewayEventFilter myEventFilter1 = new MyGatewayEventFilter1();
fact.addGatewayEventFilter(myEventFilter1);
GatewayTransportFilter myStreamFilter1 = new MyGatewayTransportFilter1();
fact.addGatewayTransportFilter(myStreamFilter1);
GatewayTransportFilter myStreamFilter2 = new MyGatewayTransportFilter2();
fact.addGatewayTransportFilter(myStreamFilter2);
final IgnoredException ex = IgnoredException.addIgnoredException("Could not connect");
try {
GatewaySender sender1 = fact.create("TKSender", 2);
AttributesFactory factory = new AttributesFactory();
factory.addGatewaySenderId(sender1.getId());
factory.setDataPolicy(DataPolicy.PARTITION);
Region region = cache.createRegionFactory(factory.create()).create("test_ValidateGatewaySenderAttributes");
Set<GatewaySender> senders = cache.getGatewaySenders();
assertEquals(senders.size(), 1);
GatewaySender gatewaySender = senders.iterator().next();
Set<RegionQueue> regionQueues = ((AbstractGatewaySender) gatewaySender).getQueues();
assertEquals(regionQueues.size(), 1);
RegionQueue regionQueue = regionQueues.iterator().next();
assertEquals(false, regionQueue.getRegion().getAttributes().isDiskSynchronous());
} finally {
ex.remove();
}
}
use of org.apache.geode.internal.cache.wan.WANTestBase in project geode by apache.
the class SerialGatewaySenderQueueDUnitTest method test_ValidateSerialGatewaySenderQueueAttributes_1.
/**
* Test to validate that serial gateway sender queue diskSynchronous attribute when persistence of
* sender is enabled.
*/
@Test
public void test_ValidateSerialGatewaySenderQueueAttributes_1() {
Integer localLocPort = (Integer) vm0.invoke(() -> WANTestBase.createFirstLocatorWithDSId(1));
Integer remoteLocPort = (Integer) vm1.invoke(() -> WANTestBase.createFirstRemoteLocator(2, localLocPort));
WANTestBase test = new WANTestBase(getTestMethodName());
Properties props = test.getDistributedSystemProperties();
props.setProperty(MCAST_PORT, "0");
props.setProperty(LOCATORS, "localhost[" + localLocPort + "]");
InternalDistributedSystem ds = test.getSystem(props);
cache = CacheFactory.create(ds);
File directory = new File("TKSender" + "_disk_" + System.currentTimeMillis() + "_" + VM.getCurrentVMNum());
directory.mkdir();
File[] dirs1 = new File[] { directory };
DiskStoreFactory dsf = cache.createDiskStoreFactory();
dsf.setDiskDirs(dirs1);
DiskStore diskStore = dsf.create("FORNY");
GatewaySenderFactory fact = cache.createGatewaySenderFactory();
fact.setBatchConflationEnabled(true);
fact.setBatchSize(200);
fact.setBatchTimeInterval(300);
// enable the persistence
fact.setPersistenceEnabled(true);
fact.setDiskSynchronous(true);
fact.setDiskStoreName("FORNY");
fact.setMaximumQueueMemory(200);
fact.setAlertThreshold(1200);
GatewayEventFilter myEventFilter1 = new MyGatewayEventFilter1();
fact.addGatewayEventFilter(myEventFilter1);
GatewayTransportFilter myStreamFilter1 = new MyGatewayTransportFilter1();
fact.addGatewayTransportFilter(myStreamFilter1);
GatewayTransportFilter myStreamFilter2 = new MyGatewayTransportFilter2();
fact.addGatewayTransportFilter(myStreamFilter2);
final IgnoredException exTKSender = IgnoredException.addIgnoredException("Could not connect");
try {
GatewaySender sender1 = fact.create("TKSender", 2);
AttributesFactory factory = new AttributesFactory();
factory.addGatewaySenderId(sender1.getId());
factory.setDataPolicy(DataPolicy.PARTITION);
Region region = cache.createRegionFactory(factory.create()).create("test_ValidateGatewaySenderAttributes");
Set<GatewaySender> senders = cache.getGatewaySenders();
assertEquals(senders.size(), 1);
GatewaySender gatewaySender = senders.iterator().next();
Set<RegionQueue> regionQueues = ((AbstractGatewaySender) gatewaySender).getQueues();
assertEquals(regionQueues.size(), GatewaySender.DEFAULT_DISPATCHER_THREADS);
RegionQueue regionQueue = regionQueues.iterator().next();
assertEquals(true, regionQueue.getRegion().getAttributes().isDiskSynchronous());
} finally {
exTKSender.remove();
}
}
use of org.apache.geode.internal.cache.wan.WANTestBase in project geode by apache.
the class SerialGatewaySenderQueueDUnitTest method test_ValidateSerialGatewaySenderQueueAttributes_2.
/**
* Test to validate that serial gateway sender queue diskSynchronous attribute when persistence of
* sender is not enabled.
*/
@Test
public void test_ValidateSerialGatewaySenderQueueAttributes_2() {
Integer localLocPort = (Integer) vm0.invoke(() -> WANTestBase.createFirstLocatorWithDSId(1));
Integer remoteLocPort = (Integer) vm1.invoke(() -> WANTestBase.createFirstRemoteLocator(2, localLocPort));
WANTestBase test = new WANTestBase(getTestMethodName());
Properties props = test.getDistributedSystemProperties();
props.setProperty(MCAST_PORT, "0");
props.setProperty(LOCATORS, "localhost[" + localLocPort + "]");
InternalDistributedSystem ds = test.getSystem(props);
cache = CacheFactory.create(ds);
GatewaySenderFactory fact = cache.createGatewaySenderFactory();
fact.setBatchConflationEnabled(true);
fact.setBatchSize(200);
fact.setBatchTimeInterval(300);
// set persistence to false
fact.setPersistenceEnabled(false);
fact.setDiskSynchronous(true);
fact.setMaximumQueueMemory(200);
fact.setAlertThreshold(1200);
GatewayEventFilter myEventFilter1 = new MyGatewayEventFilter1();
fact.addGatewayEventFilter(myEventFilter1);
GatewayTransportFilter myStreamFilter1 = new MyGatewayTransportFilter1();
fact.addGatewayTransportFilter(myStreamFilter1);
GatewayTransportFilter myStreamFilter2 = new MyGatewayTransportFilter2();
fact.addGatewayTransportFilter(myStreamFilter2);
final IgnoredException exp = IgnoredException.addIgnoredException("Could not connect");
try {
GatewaySender sender1 = fact.create("TKSender", 2);
AttributesFactory factory = new AttributesFactory();
factory.addGatewaySenderId(sender1.getId());
factory.setDataPolicy(DataPolicy.PARTITION);
Region region = cache.createRegionFactory(factory.create()).create("test_ValidateGatewaySenderAttributes");
Set<GatewaySender> senders = cache.getGatewaySenders();
assertEquals(senders.size(), 1);
GatewaySender gatewaySender = senders.iterator().next();
Set<RegionQueue> regionQueues = ((AbstractGatewaySender) gatewaySender).getQueues();
assertEquals(regionQueues.size(), GatewaySender.DEFAULT_DISPATCHER_THREADS);
RegionQueue regionQueue = regionQueues.iterator().next();
assertEquals(false, regionQueue.getRegion().getAttributes().isDiskSynchronous());
} finally {
exp.remove();
}
}
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