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Yuta HIGUCHI
f5712ffb 1 parent cb43d60c

Simple{Device,Link}Store test 

Change-Id: I2463248be1ba9d4640e5e9d5110825c747e9094c
Inline Side-by-side
Showing 6 changed files with 729 additions and 11 deletions
......@@ -41,6 +41,9 @@ import com.google.common.collect.Sets;
import com.hazelcast.config.Config;
import com.hazelcast.core.Hazelcast;
/**
* Test of the Hazelcast based distributed DeviceStore implementation.
*/
public class DistributedDeviceStoreTest {
private static final ProviderId PID = new ProviderId("of", "foo");
......
......@@ -34,16 +34,14 @@ import com.google.common.collect.Iterables;
import com.hazelcast.config.Config;
import com.hazelcast.core.Hazelcast;
/**
* Test of the Hazelcast based distributed LinkStore implementation.
*/
public class DistributedLinkStoreTest {
private static final ProviderId PID = new ProviderId("of", "foo");
private static final DeviceId DID1 = deviceId("of:foo");
private static final DeviceId DID2 = deviceId("of:bar");
// private static final String MFR = "whitebox";
// private static final String HW = "1.1.x";
// private static final String SW1 = "3.8.1";
// private static final String SW2 = "3.9.5";
// private static final String SN = "43311-12345";
private static final PortNumber P1 = PortNumber.portNumber(1);
private static final PortNumber P2 = PortNumber.portNumber(2);
......
......@@ -101,9 +101,6 @@ public class SimpleDeviceStore
synchronized (this) {
devices.put(deviceId, device);
availableDevices.add(deviceId);
// For now claim the device as a master automatically.
// roles.put(deviceId, MastershipRole.MASTER);
}
return new DeviceEvent(DeviceEvent.Type.DEVICE_ADDED, device, null);
}
......@@ -189,7 +186,7 @@ public class SimpleDeviceStore
new DefaultPort(device, portDescription.portNumber(),
portDescription.isEnabled());
ports.put(port.number(), updatedPort);
return new DeviceEvent(PORT_UPDATED, device, port);
return new DeviceEvent(PORT_UPDATED, device, updatedPort);
}
return null;
}
......
......@@ -51,8 +51,6 @@ public class SimpleLinkStore
private final Multimap<DeviceId, Link> srcLinks = HashMultimap.create();
private final Multimap<DeviceId, Link> dstLinks = HashMultimap.create();
private static final Set<Link> EMPTY = ImmutableSet.of();
@Activate
public void activate() {
log.info("Started");
......
/**
*
*/
package org.onlab.onos.net.trivial.impl;
import static org.junit.Assert.*;
import static org.onlab.onos.net.Device.Type.SWITCH;
import static org.onlab.onos.net.DeviceId.deviceId;
import static org.onlab.onos.net.device.DeviceEvent.Type.*;
import java.util.Arrays;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.TimeUnit;
import org.junit.After;
import org.junit.AfterClass;
import org.junit.Before;
import org.junit.BeforeClass;
import org.junit.Ignore;
import org.junit.Test;
import org.onlab.onos.net.Device;
import org.onlab.onos.net.DeviceId;
import org.onlab.onos.net.Port;
import org.onlab.onos.net.PortNumber;
import org.onlab.onos.net.device.DefaultDeviceDescription;
import org.onlab.onos.net.device.DefaultPortDescription;
import org.onlab.onos.net.device.DeviceDescription;
import org.onlab.onos.net.device.DeviceEvent;
import org.onlab.onos.net.device.DeviceStore;
import org.onlab.onos.net.device.DeviceStoreDelegate;
import org.onlab.onos.net.device.PortDescription;
import org.onlab.onos.net.provider.ProviderId;
import com.google.common.collect.Iterables;
import com.google.common.collect.Sets;
/**
* Test of the simple DeviceStore implementation.
*/
public class SimpleDeviceStoreTest {
private static final ProviderId PID = new ProviderId("of", "foo");
private static final DeviceId DID1 = deviceId("of:foo");
private static final DeviceId DID2 = deviceId("of:bar");
private static final String MFR = "whitebox";
private static final String HW = "1.1.x";
private static final String SW1 = "3.8.1";
private static final String SW2 = "3.9.5";
private static final String SN = "43311-12345";
private static final PortNumber P1 = PortNumber.portNumber(1);
private static final PortNumber P2 = PortNumber.portNumber(2);
private static final PortNumber P3 = PortNumber.portNumber(3);
private SimpleDeviceStore simpleDeviceStore;
private DeviceStore deviceStore;
@BeforeClass
public static void setUpBeforeClass() throws Exception {
}
@AfterClass
public static void tearDownAfterClass() throws Exception {
}
@Before
public void setUp() throws Exception {
simpleDeviceStore = new SimpleDeviceStore();
simpleDeviceStore.activate();
deviceStore = simpleDeviceStore;
}
@After
public void tearDown() throws Exception {
simpleDeviceStore.deactivate();
}
private void putDevice(DeviceId deviceId, String swVersion) {
DeviceDescription description =
new DefaultDeviceDescription(deviceId.uri(), SWITCH, MFR,
HW, swVersion, SN);
deviceStore.createOrUpdateDevice(PID, deviceId, description);
}
private static void assertDevice(DeviceId id, String swVersion, Device device) {
assertNotNull(device);
assertEquals(id, device.id());
assertEquals(MFR, device.manufacturer());
assertEquals(HW, device.hwVersion());
assertEquals(swVersion, device.swVersion());
assertEquals(SN, device.serialNumber());
}
@Test
public final void testGetDeviceCount() {
assertEquals("initialy empty", 0, deviceStore.getDeviceCount());
putDevice(DID1, SW1);
putDevice(DID2, SW2);
putDevice(DID1, SW1);
assertEquals("expect 2 uniq devices", 2, deviceStore.getDeviceCount());
}
@Test
public final void testGetDevices() {
assertEquals("initialy empty", 0, Iterables.size(deviceStore.getDevices()));
putDevice(DID1, SW1);
putDevice(DID2, SW2);
putDevice(DID1, SW1);
assertEquals("expect 2 uniq devices",
2, Iterables.size(deviceStore.getDevices()));
Map<DeviceId, Device> devices = new HashMap<>();
for (Device device : deviceStore.getDevices()) {
devices.put(device.id(), device);
}
assertDevice(DID1, SW1, devices.get(DID1));
assertDevice(DID2, SW2, devices.get(DID2));
// add case for new node?
}
@Test
public final void testGetDevice() {
putDevice(DID1, SW1);
assertDevice(DID1, SW1, deviceStore.getDevice(DID1));
assertNull("DID2 shouldn't be there", deviceStore.getDevice(DID2));
}
@Test
public final void testCreateOrUpdateDevice() {
DeviceDescription description =
new DefaultDeviceDescription(DID1.uri(), SWITCH, MFR,
HW, SW1, SN);
DeviceEvent event = deviceStore.createOrUpdateDevice(PID, DID1, description);
assertEquals(DEVICE_ADDED, event.type());
assertDevice(DID1, SW1, event.subject());
DeviceDescription description2 =
new DefaultDeviceDescription(DID1.uri(), SWITCH, MFR,
HW, SW2, SN);
DeviceEvent event2 = deviceStore.createOrUpdateDevice(PID, DID1, description2);
assertEquals(DEVICE_UPDATED, event2.type());
assertDevice(DID1, SW2, event2.subject());
assertNull("No change expected", deviceStore.createOrUpdateDevice(PID, DID1, description2));
}
@Test
public final void testMarkOffline() {
putDevice(DID1, SW1);
assertTrue(deviceStore.isAvailable(DID1));
DeviceEvent event = deviceStore.markOffline(DID1);
assertEquals(DEVICE_AVAILABILITY_CHANGED, event.type());
assertDevice(DID1, SW1, event.subject());
assertFalse(deviceStore.isAvailable(DID1));
DeviceEvent event2 = deviceStore.markOffline(DID1);
assertNull("No change, no event", event2);
}
@Test
public final void testUpdatePorts() {
putDevice(DID1, SW1);
List<PortDescription> pds = Arrays.<PortDescription>asList(
new DefaultPortDescription(P1, true),
new DefaultPortDescription(P2, true)
);
List<DeviceEvent> events = deviceStore.updatePorts(DID1, pds);
Set<PortNumber> expectedPorts = Sets.newHashSet(P1, P2);
for (DeviceEvent event : events) {
assertEquals(PORT_ADDED, event.type());
assertDevice(DID1, SW1, event.subject());
assertTrue("PortNumber is one of expected",
expectedPorts.remove(event.port().number()));
assertTrue("Port is enabled", event.port().isEnabled());
}
assertTrue("Event for all expectedport appeared", expectedPorts.isEmpty());
List<PortDescription> pds2 = Arrays.<PortDescription>asList(
new DefaultPortDescription(P1, false),
new DefaultPortDescription(P2, true),
new DefaultPortDescription(P3, true)
);
events = deviceStore.updatePorts(DID1, pds2);
assertFalse("event should be triggered", events.isEmpty());
for (DeviceEvent event : events) {
PortNumber num = event.port().number();
if (P1.equals(num)) {
assertEquals(PORT_UPDATED, event.type());
assertDevice(DID1, SW1, event.subject());
assertFalse("Port is disabled", event.port().isEnabled());
} else if (P2.equals(num)) {
fail("P2 event not expected.");
} else if (P3.equals(num)) {
assertEquals(PORT_ADDED, event.type());
assertDevice(DID1, SW1, event.subject());
assertTrue("Port is enabled", event.port().isEnabled());
} else {
fail("Unknown port number encountered: " + num);
}
}
List<PortDescription> pds3 = Arrays.<PortDescription>asList(
new DefaultPortDescription(P1, false),
new DefaultPortDescription(P2, true)
);
events = deviceStore.updatePorts(DID1, pds3);
assertFalse("event should be triggered", events.isEmpty());
for (DeviceEvent event : events) {
PortNumber num = event.port().number();
if (P1.equals(num)) {
fail("P1 event not expected.");
} else if (P2.equals(num)) {
fail("P2 event not expected.");
} else if (P3.equals(num)) {
assertEquals(PORT_REMOVED, event.type());
assertDevice(DID1, SW1, event.subject());
assertTrue("Port was enabled", event.port().isEnabled());
} else {
fail("Unknown port number encountered: " + num);
}
}
}
@Test
public final void testUpdatePortStatus() {
putDevice(DID1, SW1);
List<PortDescription> pds = Arrays.<PortDescription>asList(
new DefaultPortDescription(P1, true)
);
deviceStore.updatePorts(DID1, pds);
DeviceEvent event = deviceStore.updatePortStatus(DID1,
new DefaultPortDescription(P1, false));
assertEquals(PORT_UPDATED, event.type());
assertDevice(DID1, SW1, event.subject());
assertEquals(P1, event.port().number());
assertFalse("Port is disabled", event.port().isEnabled());
}
@Test
public final void testGetPorts() {
putDevice(DID1, SW1);
putDevice(DID2, SW1);
List<PortDescription> pds = Arrays.<PortDescription>asList(
new DefaultPortDescription(P1, true),
new DefaultPortDescription(P2, true)
);
deviceStore.updatePorts(DID1, pds);
Set<PortNumber> expectedPorts = Sets.newHashSet(P1, P2);
List<Port> ports = deviceStore.getPorts(DID1);
for (Port port : ports) {
assertTrue("Port is enabled", port.isEnabled());
assertTrue("PortNumber is one of expected",
expectedPorts.remove(port.number()));
}
assertTrue("Event for all expectedport appeared", expectedPorts.isEmpty());
assertTrue("DID2 has no ports", deviceStore.getPorts(DID2).isEmpty());
}
@Test
public final void testGetPort() {
putDevice(DID1, SW1);
putDevice(DID2, SW1);
List<PortDescription> pds = Arrays.<PortDescription>asList(
new DefaultPortDescription(P1, true),
new DefaultPortDescription(P2, false)
);
deviceStore.updatePorts(DID1, pds);
Port port1 = deviceStore.getPort(DID1, P1);
assertEquals(P1, port1.number());
assertTrue("Port is enabled", port1.isEnabled());
Port port2 = deviceStore.getPort(DID1, P2);
assertEquals(P2, port2.number());
assertFalse("Port is disabled", port2.isEnabled());
Port port3 = deviceStore.getPort(DID1, P3);
assertNull("P3 not expected", port3);
}
@Test
public final void testRemoveDevice() {
putDevice(DID1, SW1);
putDevice(DID2, SW1);
assertEquals(2, deviceStore.getDeviceCount());
DeviceEvent event = deviceStore.removeDevice(DID1);
assertEquals(DEVICE_REMOVED, event.type());
assertDevice(DID1, SW1, event.subject());
assertEquals(1, deviceStore.getDeviceCount());
}
// If Delegates should be called only on remote events,
// then Simple* should never call them, thus not test required.
// TODO add test for Port events when we have them
@Ignore("Ignore until Delegate spec. is clear.")
@Test
public final void testEvents() throws InterruptedException {
final CountDownLatch addLatch = new CountDownLatch(1);
DeviceStoreDelegate checkAdd = new DeviceStoreDelegate() {
@Override
public void notify(DeviceEvent event) {
assertEquals(DEVICE_ADDED, event.type());
assertDevice(DID1, SW1, event.subject());
addLatch.countDown();
}
};
final CountDownLatch updateLatch = new CountDownLatch(1);
DeviceStoreDelegate checkUpdate = new DeviceStoreDelegate() {
@Override
public void notify(DeviceEvent event) {
assertEquals(DEVICE_UPDATED, event.type());
assertDevice(DID1, SW2, event.subject());
updateLatch.countDown();
}
};
final CountDownLatch removeLatch = new CountDownLatch(1);
DeviceStoreDelegate checkRemove = new DeviceStoreDelegate() {
@Override
public void notify(DeviceEvent event) {
assertEquals(DEVICE_REMOVED, event.type());
assertDevice(DID1, SW2, event.subject());
removeLatch.countDown();
}
};
DeviceDescription description =
new DefaultDeviceDescription(DID1.uri(), SWITCH, MFR,
HW, SW1, SN);
deviceStore.setDelegate(checkAdd);
deviceStore.createOrUpdateDevice(PID, DID1, description);
assertTrue("Add event fired", addLatch.await(1, TimeUnit.SECONDS));
DeviceDescription description2 =
new DefaultDeviceDescription(DID1.uri(), SWITCH, MFR,
HW, SW2, SN);
deviceStore.unsetDelegate(checkAdd);
deviceStore.setDelegate(checkUpdate);
deviceStore.createOrUpdateDevice(PID, DID1, description2);
assertTrue("Update event fired", updateLatch.await(1, TimeUnit.SECONDS));
deviceStore.unsetDelegate(checkUpdate);
deviceStore.setDelegate(checkRemove);
deviceStore.removeDevice(DID1);
assertTrue("Remove event fired", removeLatch.await(1, TimeUnit.SECONDS));
}
}
package org.onlab.onos.net.trivial.impl;
import static org.junit.Assert.*;
import static org.onlab.onos.net.DeviceId.deviceId;
import static org.onlab.onos.net.Link.Type.*;
import static org.onlab.onos.net.link.LinkEvent.Type.*;
import java.util.HashMap;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.TimeUnit;
import org.junit.After;
import org.junit.AfterClass;
import org.junit.Before;
import org.junit.BeforeClass;
import org.junit.Ignore;
import org.junit.Test;
import org.onlab.onos.net.ConnectPoint;
import org.onlab.onos.net.DeviceId;
import org.onlab.onos.net.Link;
import org.onlab.onos.net.LinkKey;
import org.onlab.onos.net.PortNumber;
import org.onlab.onos.net.Link.Type;
import org.onlab.onos.net.link.DefaultLinkDescription;
import org.onlab.onos.net.link.LinkEvent;
import org.onlab.onos.net.link.LinkStore;
import org.onlab.onos.net.link.LinkStoreDelegate;
import org.onlab.onos.net.provider.ProviderId;
import com.google.common.collect.Iterables;
/**
* Test of the simple LinkStore implementation.
*/
public class SimpleLinkStoreTest {
private static final ProviderId PID = new ProviderId("of", "foo");
private static final DeviceId DID1 = deviceId("of:foo");
private static final DeviceId DID2 = deviceId("of:bar");
private static final PortNumber P1 = PortNumber.portNumber(1);
private static final PortNumber P2 = PortNumber.portNumber(2);
private static final PortNumber P3 = PortNumber.portNumber(3);
private SimpleLinkStore simpleLinkStore;
private LinkStore linkStore;
@BeforeClass
public static void setUpBeforeClass() throws Exception {
}
@AfterClass
public static void tearDownAfterClass() throws Exception {
}
@Before
public void setUp() throws Exception {
simpleLinkStore = new SimpleLinkStore();
simpleLinkStore.activate();
linkStore = simpleLinkStore;
}
@After
public void tearDown() throws Exception {
simpleLinkStore.deactivate();
}
private void putLink(DeviceId srcId, PortNumber srcNum,
DeviceId dstId, PortNumber dstNum, Type type) {
ConnectPoint src = new ConnectPoint(srcId, srcNum);
ConnectPoint dst = new ConnectPoint(dstId, dstNum);
linkStore.createOrUpdateLink(PID, new DefaultLinkDescription(src, dst, type));
}
private void putLink(LinkKey key, Type type) {
putLink(key.src().deviceId(), key.src().port(),
key.dst().deviceId(), key.dst().port(),
type);
}
private static void assertLink(DeviceId srcId, PortNumber srcNum,
DeviceId dstId, PortNumber dstNum, Type type,
Link link) {
assertEquals(srcId, link.src().deviceId());
assertEquals(srcNum, link.src().port());
assertEquals(dstId, link.dst().deviceId());
assertEquals(dstNum, link.dst().port());
assertEquals(type, link.type());
}
private static void assertLink(LinkKey key, Type type, Link link) {
assertLink(key.src().deviceId(), key.src().port(),
key.dst().deviceId(), key.dst().port(),
type, link);
}
@Test
public final void testGetLinkCount() {
assertEquals("initialy empty", 0, linkStore.getLinkCount());
putLink(DID1, P1, DID2, P2, DIRECT);
putLink(DID2, P2, DID1, P1, DIRECT);
putLink(DID1, P1, DID2, P2, DIRECT);
assertEquals("expecting 2 unique link", 2, linkStore.getLinkCount());
}
@Test
public final void testGetLinks() {
assertEquals("initialy empty", 0,
Iterables.size(linkStore.getLinks()));
LinkKey linkId1 = new LinkKey(new ConnectPoint(DID1, P1), new ConnectPoint(DID2, P2));
LinkKey linkId2 = new LinkKey(new ConnectPoint(DID2, P2), new ConnectPoint(DID1, P1));
putLink(linkId1, DIRECT);
putLink(linkId2, DIRECT);
putLink(linkId1, DIRECT);
assertEquals("expecting 2 unique link", 2,
Iterables.size(linkStore.getLinks()));
Map<LinkKey, Link> links = new HashMap<>();
for (Link link : linkStore.getLinks()) {
links.put(new LinkKey(link.src(), link.dst()), link);
}
assertLink(linkId1, DIRECT, links.get(linkId1));
assertLink(linkId2, DIRECT, links.get(linkId2));
}
@Test
public final void testGetDeviceEgressLinks() {
LinkKey linkId1 = new LinkKey(new ConnectPoint(DID1, P1), new ConnectPoint(DID2, P2));
LinkKey linkId2 = new LinkKey(new ConnectPoint(DID2, P2), new ConnectPoint(DID1, P1));
LinkKey linkId3 = new LinkKey(new ConnectPoint(DID1, P2), new ConnectPoint(DID2, P3));
putLink(linkId1, DIRECT);
putLink(linkId2, DIRECT);
putLink(linkId3, DIRECT);
// DID1,P1 => DID2,P2
// DID2,P2 => DID1,P1
// DID1,P2 => DID2,P3
Set<Link> links1 = linkStore.getDeviceEgressLinks(DID1);
assertEquals(2, links1.size());
// check
Set<Link> links2 = linkStore.getDeviceEgressLinks(DID2);
assertEquals(1, links2.size());
assertLink(linkId2, DIRECT, links2.iterator().next());
}
@Test
public final void testGetDeviceIngressLinks() {
LinkKey linkId1 = new LinkKey(new ConnectPoint(DID1, P1), new ConnectPoint(DID2, P2));
LinkKey linkId2 = new LinkKey(new ConnectPoint(DID2, P2), new ConnectPoint(DID1, P1));
LinkKey linkId3 = new LinkKey(new ConnectPoint(DID1, P2), new ConnectPoint(DID2, P3));
putLink(linkId1, DIRECT);
putLink(linkId2, DIRECT);
putLink(linkId3, DIRECT);
// DID1,P1 => DID2,P2
// DID2,P2 => DID1,P1
// DID1,P2 => DID2,P3
Set<Link> links1 = linkStore.getDeviceIngressLinks(DID2);
assertEquals(2, links1.size());
// check
Set<Link> links2 = linkStore.getDeviceIngressLinks(DID1);
assertEquals(1, links2.size());
assertLink(linkId2, DIRECT, links2.iterator().next());
}
@Test
public final void testGetLink() {
ConnectPoint src = new ConnectPoint(DID1, P1);
ConnectPoint dst = new ConnectPoint(DID2, P2);
LinkKey linkId1 = new LinkKey(src, dst);
putLink(linkId1, DIRECT);
Link link = linkStore.getLink(src, dst);
assertLink(linkId1, DIRECT, link);
assertNull("There shouldn't be reverese link",
linkStore.getLink(dst, src));
}
@Test
public final void testGetEgressLinks() {
final ConnectPoint d1P1 = new ConnectPoint(DID1, P1);
final ConnectPoint d2P2 = new ConnectPoint(DID2, P2);
LinkKey linkId1 = new LinkKey(d1P1, d2P2);
LinkKey linkId2 = new LinkKey(d2P2, d1P1);
LinkKey linkId3 = new LinkKey(new ConnectPoint(DID1, P2), new ConnectPoint(DID2, P3));
putLink(linkId1, DIRECT);
putLink(linkId2, DIRECT);
putLink(linkId3, DIRECT);
// DID1,P1 => DID2,P2
// DID2,P2 => DID1,P1
// DID1,P2 => DID2,P3
Set<Link> links1 = linkStore.getEgressLinks(d1P1);
assertEquals(1, links1.size());
assertLink(linkId1, DIRECT, links1.iterator().next());
Set<Link> links2 = linkStore.getEgressLinks(d2P2);
assertEquals(1, links2.size());
assertLink(linkId2, DIRECT, links2.iterator().next());
}
@Test
public final void testGetIngressLinks() {
final ConnectPoint d1P1 = new ConnectPoint(DID1, P1);
final ConnectPoint d2P2 = new ConnectPoint(DID2, P2);
LinkKey linkId1 = new LinkKey(d1P1, d2P2);
LinkKey linkId2 = new LinkKey(d2P2, d1P1);
LinkKey linkId3 = new LinkKey(new ConnectPoint(DID1, P2), new ConnectPoint(DID2, P3));
putLink(linkId1, DIRECT);
putLink(linkId2, DIRECT);
putLink(linkId3, DIRECT);
// DID1,P1 => DID2,P2
// DID2,P2 => DID1,P1
// DID1,P2 => DID2,P3
Set<Link> links1 = linkStore.getIngressLinks(d2P2);
assertEquals(1, links1.size());
assertLink(linkId1, DIRECT, links1.iterator().next());
Set<Link> links2 = linkStore.getIngressLinks(d1P1);
assertEquals(1, links2.size());
assertLink(linkId2, DIRECT, links2.iterator().next());
}
@Test
public final void testCreateOrUpdateLink() {
ConnectPoint src = new ConnectPoint(DID1, P1);
ConnectPoint dst = new ConnectPoint(DID2, P2);
// add link
LinkEvent event = linkStore.createOrUpdateLink(PID,
new DefaultLinkDescription(src, dst, INDIRECT));
assertLink(DID1, P1, DID2, P2, INDIRECT, event.subject());
assertEquals(LINK_ADDED, event.type());
// update link type
LinkEvent event2 = linkStore.createOrUpdateLink(PID,
new DefaultLinkDescription(src, dst, DIRECT));
assertLink(DID1, P1, DID2, P2, DIRECT, event2.subject());
assertEquals(LINK_UPDATED, event2.type());
// no change
LinkEvent event3 = linkStore.createOrUpdateLink(PID,
new DefaultLinkDescription(src, dst, DIRECT));
assertNull("No change event expected", event3);
}
@Test
public final void testRemoveLink() {
final ConnectPoint d1P1 = new ConnectPoint(DID1, P1);
final ConnectPoint d2P2 = new ConnectPoint(DID2, P2);
LinkKey linkId1 = new LinkKey(d1P1, d2P2);
LinkKey linkId2 = new LinkKey(d2P2, d1P1);
putLink(linkId1, DIRECT);
putLink(linkId2, DIRECT);
// DID1,P1 => DID2,P2
// DID2,P2 => DID1,P1
// DID1,P2 => DID2,P3
LinkEvent event = linkStore.removeLink(d1P1, d2P2);
assertEquals(LINK_REMOVED, event.type());
LinkEvent event2 = linkStore.removeLink(d1P1, d2P2);
assertNull(event2);
assertLink(linkId2, DIRECT, linkStore.getLink(d2P2, d1P1));
}
// If Delegates should be called only on remote events,
// then Simple* should never call them, thus not test required.
@Ignore("Ignore until Delegate spec. is clear.")
@Test
public final void testEvents() throws InterruptedException {
final ConnectPoint d1P1 = new ConnectPoint(DID1, P1);
final ConnectPoint d2P2 = new ConnectPoint(DID2, P2);
final LinkKey linkId1 = new LinkKey(d1P1, d2P2);
final CountDownLatch addLatch = new CountDownLatch(1);
LinkStoreDelegate checkAdd = new LinkStoreDelegate() {
@Override
public void notify(LinkEvent event) {
assertEquals(LINK_ADDED, event.type());
assertLink(linkId1, INDIRECT, event.subject());
addLatch.countDown();
}
};
final CountDownLatch updateLatch = new CountDownLatch(1);
LinkStoreDelegate checkUpdate = new LinkStoreDelegate() {
@Override
public void notify(LinkEvent event) {
assertEquals(LINK_UPDATED, event.type());
assertLink(linkId1, DIRECT, event.subject());
updateLatch.countDown();
}
};
final CountDownLatch removeLatch = new CountDownLatch(1);
LinkStoreDelegate checkRemove = new LinkStoreDelegate() {
@Override
public void notify(LinkEvent event) {
assertEquals(LINK_REMOVED, event.type());
assertLink(linkId1, DIRECT, event.subject());
removeLatch.countDown();
}
};
linkStore.setDelegate(checkAdd);
putLink(linkId1, INDIRECT);
assertTrue("Add event fired", addLatch.await(1, TimeUnit.SECONDS));
linkStore.unsetDelegate(checkAdd);
linkStore.setDelegate(checkUpdate);
putLink(linkId1, DIRECT);
assertTrue("Update event fired", updateLatch.await(1, TimeUnit.SECONDS));
linkStore.unsetDelegate(checkUpdate);
linkStore.setDelegate(checkRemove);
linkStore.removeLink(d1P1, d2P2);
assertTrue("Remove event fired", removeLatch.await(1, TimeUnit.SECONDS));
}
}