core/store/trivial/src/test/java/org/onlab/onos/store/trivial/impl/SimpleDeviceStoreTest.java - onos - Gitiles

 /*
  * Copyright 2014 Open Networking Laboratory
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 /**
  *
  */
 package org.onlab.onos.store.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.Annotations;
 import org.onlab.onos.net.DefaultAnnotations;
 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.SparseAnnotations;
 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;
 import org.onlab.packet.ChassisId;

 /**
  * Test of the simple DeviceStore implementation.
  */
 public class SimpleDeviceStoreTest {

     private static final ProviderId PID = new ProviderId("of", "foo");
     private static final ProviderId PIDA = new ProviderId("of", "bar", true);
     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 ChassisId CID = new ChassisId();

     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 static final SparseAnnotations A1 = DefaultAnnotations.builder()
             .set("A1", "a1")
             .set("B1", "b1")
             .build();
     private static final SparseAnnotations A1_2 = DefaultAnnotations.builder()
             .remove("A1")
             .set("B3", "b3")
             .build();
     private static final SparseAnnotations A2 = DefaultAnnotations.builder()
             .set("A2", "a2")
             .set("B2", "b2")
             .build();
     private static final SparseAnnotations A2_2 = DefaultAnnotations.builder()
             .remove("A2")
             .set("B4", "b4")
             .build();

     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,
                            SparseAnnotations... annotations) {
         DeviceDescription description =
                 new DefaultDeviceDescription(deviceId.uri(), SWITCH, MFR,
                         HW, swVersion, SN, CID, annotations);
         deviceStore.createOrUpdateDevice(PID, deviceId, description);
     }

     private void putDeviceAncillary(DeviceId deviceId, String swVersion,
                                     SparseAnnotations... annotations) {
         DeviceDescription description =
                 new DefaultDeviceDescription(deviceId.uri(), SWITCH, MFR,
                         HW, swVersion, SN, CID, annotations);
         deviceStore.createOrUpdateDevice(PIDA, 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());
     }

     // TODO slice this out somewhere
     /**
      * Verifies that Annotations created by merging {@code annotations} is
      * equal to actual Annotations.
      *
      * @param actual Annotations to check
      * @param annotations
      */
     public static void assertAnnotationsEquals(Annotations actual, SparseAnnotations... annotations) {
         DefaultAnnotations expected = DefaultAnnotations.builder().build();
         for (SparseAnnotations a : annotations) {
             expected = DefaultAnnotations.merge(expected, a);
         }
         assertEquals(expected.keys(), actual.keys());
         for (String key : expected.keys()) {
             assertEquals(expected.value(key), actual.value(key));
         }
     }

     @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, CID);
         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, CID);
         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 testCreateOrUpdateDeviceAncillary() {
         DeviceDescription description =
                 new DefaultDeviceDescription(DID1.uri(), SWITCH, MFR,
                         HW, SW1, SN, CID, A2);
         DeviceEvent event = deviceStore.createOrUpdateDevice(PIDA, DID1, description);
         assertEquals(DEVICE_ADDED, event.type());
         assertDevice(DID1, SW1, event.subject());
         assertEquals(PIDA, event.subject().providerId());
         assertAnnotationsEquals(event.subject().annotations(), A2);
         assertFalse("Ancillary will not bring device up", deviceStore.isAvailable(DID1));

         DeviceDescription description2 =
                 new DefaultDeviceDescription(DID1.uri(), SWITCH, MFR,
                         HW, SW2, SN, CID, A1);
         DeviceEvent event2 = deviceStore.createOrUpdateDevice(PID, DID1, description2);
         assertEquals(DEVICE_UPDATED, event2.type());
         assertDevice(DID1, SW2, event2.subject());
         assertEquals(PID, event2.subject().providerId());
         assertAnnotationsEquals(event2.subject().annotations(), A1, A2);
         assertTrue(deviceStore.isAvailable(DID1));

         assertNull("No change expected", deviceStore.createOrUpdateDevice(PID, DID1, description2));

         // For now, Ancillary is ignored once primary appears
         assertNull("No change expected", deviceStore.createOrUpdateDevice(PIDA, DID1, description));

         // But, Ancillary annotations will be in effect
         DeviceDescription description3 =
                 new DefaultDeviceDescription(DID1.uri(), SWITCH, MFR,
                         HW, SW1, SN, CID, A2_2);
         DeviceEvent event3 = deviceStore.createOrUpdateDevice(PIDA, DID1, description3);
         assertEquals(DEVICE_UPDATED, event3.type());
         // basic information will be the one from Primary
         assertDevice(DID1, SW2, event3.subject());
         assertEquals(PID, event3.subject().providerId());
         // but annotation from Ancillary will be merged
         assertAnnotationsEquals(event3.subject().annotations(), A1, A2, A2_2);
         assertTrue(deviceStore.isAvailable(DID1));
     }


     @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(PID, 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(PID, 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(PID, 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(PID, DID1, pds);

         DeviceEvent event = deviceStore.updatePortStatus(PID, 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 testUpdatePortStatusAncillary() {
         putDeviceAncillary(DID1, SW1);
         putDevice(DID1, SW1);
         List<PortDescription> pds = Arrays.<PortDescription>asList(
                 new DefaultPortDescription(P1, true, A1)
                 );
         deviceStore.updatePorts(PID, DID1, pds);

         DeviceEvent event = deviceStore.updatePortStatus(PID, DID1,
                 new DefaultPortDescription(P1, false, A1_2));
         assertEquals(PORT_UPDATED, event.type());
         assertDevice(DID1, SW1, event.subject());
         assertEquals(P1, event.port().number());
         assertAnnotationsEquals(event.port().annotations(), A1, A1_2);
         assertFalse("Port is disabled", event.port().isEnabled());

         DeviceEvent event2 = deviceStore.updatePortStatus(PIDA, DID1,
                 new DefaultPortDescription(P1, true));
         assertNull("Ancillary is ignored if primary exists", event2);

         // but, Ancillary annotation update will be notified
         DeviceEvent event3 = deviceStore.updatePortStatus(PIDA, DID1,
                 new DefaultPortDescription(P1, true, A2));
         assertEquals(PORT_UPDATED, event3.type());
         assertDevice(DID1, SW1, event3.subject());
         assertEquals(P1, event3.port().number());
         assertAnnotationsEquals(event3.port().annotations(), A1, A1_2, A2);
         assertFalse("Port is disabled", event3.port().isEnabled());

         // port only reported from Ancillary will be notified as down
         DeviceEvent event4 = deviceStore.updatePortStatus(PIDA, DID1,
                 new DefaultPortDescription(P2, true));
         assertEquals(PORT_ADDED, event4.type());
         assertDevice(DID1, SW1, event4.subject());
         assertEquals(P2, event4.port().number());
         assertAnnotationsEquals(event4.port().annotations());
         assertFalse("Port is disabled if not given from primary provider",
                         event4.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(PID, 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(PID, 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, A1);
         List<PortDescription> pds = Arrays.<PortDescription>asList(
                 new DefaultPortDescription(P1, true, A2)
                 );
         deviceStore.updatePorts(PID, DID1, pds);
         putDevice(DID2, SW1);

         assertEquals(2, deviceStore.getDeviceCount());
         assertEquals(1, deviceStore.getPorts(DID1).size());
         assertAnnotationsEquals(deviceStore.getDevice(DID1).annotations(), A1);
         assertAnnotationsEquals(deviceStore.getPort(DID1, P1).annotations(), A2);

         DeviceEvent event = deviceStore.removeDevice(DID1);
         assertEquals(DEVICE_REMOVED, event.type());
         assertDevice(DID1, SW1, event.subject());

         assertEquals(1, deviceStore.getDeviceCount());
         assertEquals(0, deviceStore.getPorts(DID1).size());

         // putBack Device, Port w/o annotation
         putDevice(DID1, SW1);
         List<PortDescription> pds2 = Arrays.<PortDescription>asList(
                 new DefaultPortDescription(P1, true)
                 );
         deviceStore.updatePorts(PID, DID1, pds2);

         // annotations should not survive
         assertEquals(2, deviceStore.getDeviceCount());
         assertEquals(1, deviceStore.getPorts(DID1).size());
         assertAnnotationsEquals(deviceStore.getDevice(DID1).annotations());
         assertAnnotationsEquals(deviceStore.getPort(DID1, P1).annotations());
     }

     // 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, CID);
         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, CID);
         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));
     }
 }
	/*
	* Copyright 2014 Open Networking Laboratory
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	/**
	*
	*/
	package org.onlab.onos.store.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.Annotations;
	import org.onlab.onos.net.DefaultAnnotations;
	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.SparseAnnotations;
	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;
	import org.onlab.packet.ChassisId;

	/**
	* Test of the simple DeviceStore implementation.
	*/
	public class SimpleDeviceStoreTest {

	private static final ProviderId PID = new ProviderId("of", "foo");
	private static final ProviderId PIDA = new ProviderId("of", "bar", true);
	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 ChassisId CID = new ChassisId();

	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 static final SparseAnnotations A1 = DefaultAnnotations.builder()
	.set("A1", "a1")
	.set("B1", "b1")
	.build();
	private static final SparseAnnotations A1_2 = DefaultAnnotations.builder()
	.remove("A1")
	.set("B3", "b3")
	.build();
	private static final SparseAnnotations A2 = DefaultAnnotations.builder()
	.set("A2", "a2")
	.set("B2", "b2")
	.build();
	private static final SparseAnnotations A2_2 = DefaultAnnotations.builder()
	.remove("A2")
	.set("B4", "b4")
	.build();

	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,
	SparseAnnotations... annotations) {
	DeviceDescription description =
	new DefaultDeviceDescription(deviceId.uri(), SWITCH, MFR,
	HW, swVersion, SN, CID, annotations);
	deviceStore.createOrUpdateDevice(PID, deviceId, description);
	}

	private void putDeviceAncillary(DeviceId deviceId, String swVersion,
	SparseAnnotations... annotations) {
	DeviceDescription description =
	new DefaultDeviceDescription(deviceId.uri(), SWITCH, MFR,
	HW, swVersion, SN, CID, annotations);
	deviceStore.createOrUpdateDevice(PIDA, 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());
	}

	// TODO slice this out somewhere
	/**
	* Verifies that Annotations created by merging {@code annotations} is
	* equal to actual Annotations.
	*
	* @param actual Annotations to check
	* @param annotations
	*/
	public static void assertAnnotationsEquals(Annotations actual, SparseAnnotations... annotations) {
	DefaultAnnotations expected = DefaultAnnotations.builder().build();
	for (SparseAnnotations a : annotations) {
	expected = DefaultAnnotations.merge(expected, a);
	}
	assertEquals(expected.keys(), actual.keys());
	for (String key : expected.keys()) {
	assertEquals(expected.value(key), actual.value(key));
	}
	}

	@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, CID);
	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, CID);
	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 testCreateOrUpdateDeviceAncillary() {
	DeviceDescription description =
	new DefaultDeviceDescription(DID1.uri(), SWITCH, MFR,
	HW, SW1, SN, CID, A2);
	DeviceEvent event = deviceStore.createOrUpdateDevice(PIDA, DID1, description);
	assertEquals(DEVICE_ADDED, event.type());
	assertDevice(DID1, SW1, event.subject());
	assertEquals(PIDA, event.subject().providerId());
	assertAnnotationsEquals(event.subject().annotations(), A2);
	assertFalse("Ancillary will not bring device up", deviceStore.isAvailable(DID1));

	DeviceDescription description2 =
	new DefaultDeviceDescription(DID1.uri(), SWITCH, MFR,
	HW, SW2, SN, CID, A1);
	DeviceEvent event2 = deviceStore.createOrUpdateDevice(PID, DID1, description2);
	assertEquals(DEVICE_UPDATED, event2.type());
	assertDevice(DID1, SW2, event2.subject());
	assertEquals(PID, event2.subject().providerId());
	assertAnnotationsEquals(event2.subject().annotations(), A1, A2);
	assertTrue(deviceStore.isAvailable(DID1));

	assertNull("No change expected", deviceStore.createOrUpdateDevice(PID, DID1, description2));

	// For now, Ancillary is ignored once primary appears
	assertNull("No change expected", deviceStore.createOrUpdateDevice(PIDA, DID1, description));

	// But, Ancillary annotations will be in effect
	DeviceDescription description3 =
	new DefaultDeviceDescription(DID1.uri(), SWITCH, MFR,
	HW, SW1, SN, CID, A2_2);
	DeviceEvent event3 = deviceStore.createOrUpdateDevice(PIDA, DID1, description3);
	assertEquals(DEVICE_UPDATED, event3.type());
	// basic information will be the one from Primary
	assertDevice(DID1, SW2, event3.subject());
	assertEquals(PID, event3.subject().providerId());
	// but annotation from Ancillary will be merged
	assertAnnotationsEquals(event3.subject().annotations(), A1, A2, A2_2);
	assertTrue(deviceStore.isAvailable(DID1));
	}


	@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(PID, 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(PID, 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(PID, 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(PID, DID1, pds);

	DeviceEvent event = deviceStore.updatePortStatus(PID, 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 testUpdatePortStatusAncillary() {
	putDeviceAncillary(DID1, SW1);
	putDevice(DID1, SW1);
	List<PortDescription> pds = Arrays.<PortDescription>asList(
	new DefaultPortDescription(P1, true, A1)
	);
	deviceStore.updatePorts(PID, DID1, pds);

	DeviceEvent event = deviceStore.updatePortStatus(PID, DID1,
	new DefaultPortDescription(P1, false, A1_2));
	assertEquals(PORT_UPDATED, event.type());
	assertDevice(DID1, SW1, event.subject());
	assertEquals(P1, event.port().number());
	assertAnnotationsEquals(event.port().annotations(), A1, A1_2);
	assertFalse("Port is disabled", event.port().isEnabled());

	DeviceEvent event2 = deviceStore.updatePortStatus(PIDA, DID1,
	new DefaultPortDescription(P1, true));
	assertNull("Ancillary is ignored if primary exists", event2);

	// but, Ancillary annotation update will be notified
	DeviceEvent event3 = deviceStore.updatePortStatus(PIDA, DID1,
	new DefaultPortDescription(P1, true, A2));
	assertEquals(PORT_UPDATED, event3.type());
	assertDevice(DID1, SW1, event3.subject());
	assertEquals(P1, event3.port().number());
	assertAnnotationsEquals(event3.port().annotations(), A1, A1_2, A2);
	assertFalse("Port is disabled", event3.port().isEnabled());

	// port only reported from Ancillary will be notified as down
	DeviceEvent event4 = deviceStore.updatePortStatus(PIDA, DID1,
	new DefaultPortDescription(P2, true));
	assertEquals(PORT_ADDED, event4.type());
	assertDevice(DID1, SW1, event4.subject());
	assertEquals(P2, event4.port().number());
	assertAnnotationsEquals(event4.port().annotations());
	assertFalse("Port is disabled if not given from primary provider",
	event4.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(PID, 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(PID, 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, A1);
	List<PortDescription> pds = Arrays.<PortDescription>asList(
	new DefaultPortDescription(P1, true, A2)
	);
	deviceStore.updatePorts(PID, DID1, pds);
	putDevice(DID2, SW1);

	assertEquals(2, deviceStore.getDeviceCount());
	assertEquals(1, deviceStore.getPorts(DID1).size());
	assertAnnotationsEquals(deviceStore.getDevice(DID1).annotations(), A1);
	assertAnnotationsEquals(deviceStore.getPort(DID1, P1).annotations(), A2);

	DeviceEvent event = deviceStore.removeDevice(DID1);
	assertEquals(DEVICE_REMOVED, event.type());
	assertDevice(DID1, SW1, event.subject());

	assertEquals(1, deviceStore.getDeviceCount());
	assertEquals(0, deviceStore.getPorts(DID1).size());

	// putBack Device, Port w/o annotation
	putDevice(DID1, SW1);
	List<PortDescription> pds2 = Arrays.<PortDescription>asList(
	new DefaultPortDescription(P1, true)
	);
	deviceStore.updatePorts(PID, DID1, pds2);

	// annotations should not survive
	assertEquals(2, deviceStore.getDeviceCount());
	assertEquals(1, deviceStore.getPorts(DID1).size());
	assertAnnotationsEquals(deviceStore.getDevice(DID1).annotations());
	assertAnnotationsEquals(deviceStore.getPort(DID1, P1).annotations());
	}

	// 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, CID);
	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, CID);
	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));
	}
	}