core/store/trivial/src/main/java/org/onlab/onos/store/trivial/impl/SimpleDeviceStore.java - onos - Gitiles

 package org.onlab.onos.store.trivial.impl;

 import com.google.common.collect.FluentIterable;
 import com.google.common.collect.ImmutableList;
 import com.google.common.collect.Maps;
 import com.google.common.collect.Sets;

 import org.apache.commons.lang3.concurrent.ConcurrentException;
 import org.apache.commons.lang3.concurrent.ConcurrentInitializer;
 import org.apache.felix.scr.annotations.Activate;
 import org.apache.felix.scr.annotations.Component;
 import org.apache.felix.scr.annotations.Deactivate;
 import org.apache.felix.scr.annotations.Service;
 import org.onlab.onos.net.AnnotationsUtil;
 import org.onlab.onos.net.DefaultAnnotations;
 import org.onlab.onos.net.DefaultDevice;
 import org.onlab.onos.net.DefaultPort;
 import org.onlab.onos.net.Device;
 import org.onlab.onos.net.Device.Type;
 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 org.onlab.onos.store.AbstractStore;
 import org.onlab.packet.ChassisId;
 import org.onlab.util.NewConcurrentHashMap;
 import org.slf4j.Logger;

 import java.util.ArrayList;
 import java.util.Collections;
 import java.util.HashSet;
 import java.util.Iterator;
 import java.util.List;
 import java.util.Map;
 import java.util.Map.Entry;
 import java.util.Objects;
 import java.util.Set;
 import java.util.concurrent.ConcurrentHashMap;
 import java.util.concurrent.ConcurrentMap;
 import java.util.concurrent.atomic.AtomicReference;

 import static com.google.common.base.Preconditions.checkArgument;
 import static com.google.common.base.Preconditions.checkNotNull;
 import static com.google.common.base.Predicates.notNull;
 import static com.google.common.base.Verify.verify;
 import static org.onlab.onos.net.device.DeviceEvent.Type.*;
 import static org.slf4j.LoggerFactory.getLogger;
 import static org.apache.commons.lang3.concurrent.ConcurrentUtils.createIfAbsentUnchecked;
 import static org.onlab.onos.net.DefaultAnnotations.union;
 import static org.onlab.onos.net.DefaultAnnotations.merge;

 /**
  * Manages inventory of infrastructure devices using trivial in-memory
  * structures implementation.
  */
 @Component(immediate = true)
 @Service
 public class SimpleDeviceStore
         extends AbstractStore<DeviceEvent, DeviceStoreDelegate>
         implements DeviceStore {

     private final Logger log = getLogger(getClass());

     public static final String DEVICE_NOT_FOUND = "Device with ID %s not found";

     // collection of Description given from various providers
     private final ConcurrentMap<DeviceId,
                             ConcurrentMap<ProviderId, DeviceDescriptions>>
                                 deviceDescs = Maps.newConcurrentMap();

     // cache of Device and Ports generated by compositing descriptions from providers
     private final ConcurrentMap<DeviceId, Device> devices = Maps.newConcurrentMap();
     private final ConcurrentMap<DeviceId, ConcurrentMap<PortNumber, Port>> devicePorts = Maps.newConcurrentMap();

     // available(=UP) devices
     private final Set<DeviceId> availableDevices = Sets.newConcurrentHashSet();


     @Activate
     public void activate() {
         log.info("Started");
     }

     @Deactivate
     public void deactivate() {
         deviceDescs.clear();
         devices.clear();
         devicePorts.clear();
         availableDevices.clear();
         log.info("Stopped");
     }

     @Override
     public int getDeviceCount() {
         return devices.size();
     }

     @Override
     public Iterable<Device> getDevices() {
         return Collections.unmodifiableCollection(devices.values());
     }

     @Override
     public Device getDevice(DeviceId deviceId) {
         return devices.get(deviceId);
     }

     @Override
     public DeviceEvent createOrUpdateDevice(ProviderId providerId,
                                      DeviceId deviceId,
                                      DeviceDescription deviceDescription) {

         ConcurrentMap<ProviderId, DeviceDescriptions> providerDescs
             = getDeviceDescriptions(deviceId);

         synchronized (providerDescs) {
             // locking per device

             DeviceDescriptions descs
                 = createIfAbsentUnchecked(providerDescs, providerId,
                         new InitDeviceDescs(deviceDescription));

             Device oldDevice = devices.get(deviceId);
             // update description
             descs.putDeviceDesc(deviceDescription);
             Device newDevice = composeDevice(deviceId, providerDescs);

             if (oldDevice == null) {
                 // ADD
                 return createDevice(providerId, newDevice);
             } else {
                 // UPDATE or ignore (no change or stale)
                 return updateDevice(providerId, oldDevice, newDevice);
             }
         }
     }

     // Creates the device and returns the appropriate event if necessary.
     // Guarded by deviceDescs value (=Device lock)
     private DeviceEvent createDevice(ProviderId providerId, Device newDevice) {

         // update composed device cache
         Device oldDevice = devices.putIfAbsent(newDevice.id(), newDevice);
         verify(oldDevice == null,
                 "Unexpected Device in cache. PID:%s [old=%s, new=%s]",
                 providerId, oldDevice, newDevice);

         if (!providerId.isAncillary()) {
             availableDevices.add(newDevice.id());
         }

         return new DeviceEvent(DeviceEvent.Type.DEVICE_ADDED, newDevice, null);
     }

     // Updates the device and returns the appropriate event if necessary.
     // Guarded by deviceDescs value (=Device lock)
     private DeviceEvent updateDevice(ProviderId providerId, Device oldDevice, Device newDevice) {

         // We allow only certain attributes to trigger update
         if (!Objects.equals(oldDevice.hwVersion(), newDevice.hwVersion()) ||
             !Objects.equals(oldDevice.swVersion(), newDevice.swVersion()) ||
             !AnnotationsUtil.isEqual(oldDevice.annotations(), newDevice.annotations())) {

             boolean replaced = devices.replace(newDevice.id(), oldDevice, newDevice);
             if (!replaced) {
                 verify(replaced,
                         "Replacing devices cache failed. PID:%s [expected:%s, found:%s, new=%s]",
                         providerId, oldDevice, devices.get(newDevice.id())
                         , newDevice);
             }
             if (!providerId.isAncillary()) {
                 availableDevices.add(newDevice.id());
             }
             return new DeviceEvent(DeviceEvent.Type.DEVICE_UPDATED, newDevice, null);
         }

         // Otherwise merely attempt to change availability if primary provider
         if (!providerId.isAncillary()) {
             boolean added = availableDevices.add(newDevice.id());
             return !added ? null :
                     new DeviceEvent(DEVICE_AVAILABILITY_CHANGED, newDevice, null);
         }
         return null;
     }

     @Override
     public DeviceEvent markOffline(DeviceId deviceId) {
         ConcurrentMap<ProviderId, DeviceDescriptions> providerDescs
             = getDeviceDescriptions(deviceId);

         // locking device
         synchronized (providerDescs) {
             Device device = devices.get(deviceId);
             if (device == null) {
                 return null;
             }
             boolean removed = availableDevices.remove(deviceId);
             if (removed) {
                 // TODO: broadcast ... DOWN only?
                 return new DeviceEvent(DEVICE_AVAILABILITY_CHANGED, device, null);
             }
             return null;
         }
     }

     @Override
     public List<DeviceEvent> updatePorts(ProviderId providerId,
                                       DeviceId deviceId,
                                       List<PortDescription> portDescriptions) {

         Device device = devices.get(deviceId);
         checkArgument(device != null, DEVICE_NOT_FOUND, deviceId);

         ConcurrentMap<ProviderId, DeviceDescriptions> descsMap = deviceDescs.get(deviceId);
         checkArgument(descsMap != null, DEVICE_NOT_FOUND, deviceId);

         List<DeviceEvent> events = new ArrayList<>();
         synchronized (descsMap) {
             DeviceDescriptions descs = descsMap.get(providerId);
             // every provider must provide DeviceDescription.
             checkArgument(descs != null,
                     "Device description for Device ID %s from Provider %s was not found",
                     deviceId, providerId);

             Map<PortNumber, Port> ports = getPortMap(deviceId);

             // Add new ports
             Set<PortNumber> processed = new HashSet<>();
             for (PortDescription portDescription : portDescriptions) {
                 final PortNumber number = portDescription.portNumber();
                 processed.add(portDescription.portNumber());

                 final Port oldPort = ports.get(number);
                 final Port newPort;

 // event suppression hook?

                 // update description
                 descs.putPortDesc(portDescription);
                 newPort = composePort(device, number, descsMap);

                 events.add(oldPort == null ?
                         createPort(device, newPort, ports) :
                         updatePort(device, oldPort, newPort, ports));
             }

             events.addAll(pruneOldPorts(device, ports, processed));
         }
         return FluentIterable.from(events).filter(notNull()).toList();
     }

     // Creates a new port based on the port description adds it to the map and
     // Returns corresponding event.
     // Guarded by deviceDescs value (=Device lock)
     private DeviceEvent createPort(Device device, Port newPort,
                                    Map<PortNumber, Port> ports) {
         ports.put(newPort.number(), newPort);
         return new DeviceEvent(PORT_ADDED, device, newPort);
     }

     // Checks if the specified port requires update and if so, it replaces the
     // existing entry in the map and returns corresponding event.
     // Guarded by deviceDescs value (=Device lock)
     private DeviceEvent updatePort(Device device, Port oldPort,
                                    Port newPort,
                                    Map<PortNumber, Port> ports) {
         if (oldPort.isEnabled() != newPort.isEnabled() ||
             !AnnotationsUtil.isEqual(oldPort.annotations(), newPort.annotations())) {

             ports.put(oldPort.number(), newPort);
             return new DeviceEvent(PORT_UPDATED, device, newPort);
         }
         return null;
     }

     // Prunes the specified list of ports based on which ports are in the
     // processed list and returns list of corresponding events.
     // Guarded by deviceDescs value (=Device lock)
     private List<DeviceEvent> pruneOldPorts(Device device,
                                             Map<PortNumber, Port> ports,
                                             Set<PortNumber> processed) {
         List<DeviceEvent> events = new ArrayList<>();
         Iterator<PortNumber> iterator = ports.keySet().iterator();
         while (iterator.hasNext()) {
             PortNumber portNumber = iterator.next();
             if (!processed.contains(portNumber)) {
                 events.add(new DeviceEvent(PORT_REMOVED, device,
                                            ports.get(portNumber)));
                 iterator.remove();
             }
         }
         return events;
     }

     // Gets the map of ports for the specified device; if one does not already
     // exist, it creates and registers a new one.
     private ConcurrentMap<PortNumber, Port> getPortMap(DeviceId deviceId) {
         return createIfAbsentUnchecked(devicePorts, deviceId,
                 NewConcurrentHashMap.<PortNumber, Port>ifNeeded());
     }

     private ConcurrentMap<ProviderId, DeviceDescriptions> getDeviceDescriptions(
             DeviceId deviceId) {
         return createIfAbsentUnchecked(deviceDescs, deviceId,
                 NewConcurrentHashMap.<ProviderId, DeviceDescriptions>ifNeeded());
     }

     @Override
     public DeviceEvent updatePortStatus(ProviderId providerId, DeviceId deviceId,
                                  PortDescription portDescription) {
         Device device = devices.get(deviceId);
         checkArgument(device != null, DEVICE_NOT_FOUND, deviceId);

         ConcurrentMap<ProviderId, DeviceDescriptions> descsMap = deviceDescs.get(deviceId);
         checkArgument(descsMap != null, DEVICE_NOT_FOUND, deviceId);

         synchronized (descsMap) {
             DeviceDescriptions descs = descsMap.get(providerId);
             // assuming all providers must to give DeviceDescription
             checkArgument(descs != null,
                     "Device description for Device ID %s from Provider %s was not found",
                     deviceId, providerId);

             ConcurrentMap<PortNumber, Port> ports = getPortMap(deviceId);
             final PortNumber number = portDescription.portNumber();
             final Port oldPort = ports.get(number);
             final Port newPort;

             // update description
             descs.putPortDesc(portDescription);
             newPort = composePort(device, number, descsMap);

             if (oldPort == null) {
                 return createPort(device, newPort, ports);
             } else {
                 return updatePort(device, oldPort, newPort, ports);
             }
         }
     }

     @Override
     public List<Port> getPorts(DeviceId deviceId) {
         Map<PortNumber, Port> ports = devicePorts.get(deviceId);
         if (ports == null) {
             return Collections.emptyList();
         }
         return ImmutableList.copyOf(ports.values());
     }

     @Override
     public Port getPort(DeviceId deviceId, PortNumber portNumber) {
         Map<PortNumber, Port> ports = devicePorts.get(deviceId);
         return ports == null ? null : ports.get(portNumber);
     }

     @Override
     public boolean isAvailable(DeviceId deviceId) {
         return availableDevices.contains(deviceId);
     }

     @Override
     public DeviceEvent removeDevice(DeviceId deviceId) {
         ConcurrentMap<ProviderId, DeviceDescriptions> descs = getDeviceDescriptions(deviceId);
         synchronized (descs) {
             Device device = devices.remove(deviceId);
             // should DEVICE_REMOVED carry removed ports?
             Map<PortNumber, Port> ports = devicePorts.get(deviceId);
             if (ports != null) {
                 ports.clear();
             }
             availableDevices.remove(deviceId);
             descs.clear();
             return device == null ? null :
                 new DeviceEvent(DEVICE_REMOVED, device, null);
         }
     }

     /**
      * Returns a Device, merging description given from multiple Providers.
      *
      * @param deviceId device identifier
      * @param providerDescs Collection of Descriptions from multiple providers
      * @return Device instance
      */
     private Device composeDevice(DeviceId deviceId,
             ConcurrentMap<ProviderId, DeviceDescriptions> providerDescs) {

         checkArgument(!providerDescs.isEmpty(), "No Device descriptions supplied");

         ProviderId primary = pickPrimaryPID(providerDescs);

         DeviceDescriptions desc = providerDescs.get(primary);

         final DeviceDescription base = desc.getDeviceDesc();
         Type type = base.type();
         String manufacturer = base.manufacturer();
         String hwVersion = base.hwVersion();
         String swVersion = base.swVersion();
         String serialNumber = base.serialNumber();
         ChassisId chassisId = base.chassisId();
         DefaultAnnotations annotations = DefaultAnnotations.builder().build();
         annotations = merge(annotations, base.annotations());

         for (Entry<ProviderId, DeviceDescriptions> e : providerDescs.entrySet()) {
             if (e.getKey().equals(primary)) {
                 continue;
             }
             // TODO: should keep track of Description timestamp
             // and only merge conflicting keys when timestamp is newer
             // Currently assuming there will never be a key conflict between
             // providers

             // annotation merging. not so efficient, should revisit later
             annotations = merge(annotations, e.getValue().getDeviceDesc().annotations());
         }

         return new DefaultDevice(primary, deviceId , type, manufacturer,
                             hwVersion, swVersion, serialNumber,
                             chassisId, annotations);
     }

     /**
      * Returns a Port, merging description given from multiple Providers.
      *
      * @param device device the port is on
      * @param number port number
      * @param providerDescs Collection of Descriptions from multiple providers
      * @return Port instance
      */
     private Port composePort(Device device, PortNumber number,
                 ConcurrentMap<ProviderId, DeviceDescriptions> providerDescs) {

         ProviderId primary = pickPrimaryPID(providerDescs);
         DeviceDescriptions primDescs = providerDescs.get(primary);
         // if no primary, assume not enabled
         // TODO: revisit this default port enabled/disabled behavior
         boolean isEnabled = false;
         DefaultAnnotations annotations = DefaultAnnotations.builder().build();

         final PortDescription portDesc = primDescs.getPortDesc(number);
         if (portDesc != null) {
             isEnabled = portDesc.isEnabled();
             annotations = merge(annotations, portDesc.annotations());
         }

         for (Entry<ProviderId, DeviceDescriptions> e : providerDescs.entrySet()) {
             if (e.getKey().equals(primary)) {
                 continue;
             }
             // TODO: should keep track of Description timestamp
             // and only merge conflicting keys when timestamp is newer
             // Currently assuming there will never be a key conflict between
             // providers

             // annotation merging. not so efficient, should revisit later
             final PortDescription otherPortDesc = e.getValue().getPortDesc(number);
             if (otherPortDesc != null) {
                 annotations = merge(annotations, otherPortDesc.annotations());
             }
         }

         return new DefaultPort(device, number, isEnabled, annotations);
     }

     /**
      * @return primary ProviderID, or randomly chosen one if none exists
      */
     private ProviderId pickPrimaryPID(
             ConcurrentMap<ProviderId, DeviceDescriptions> providerDescs) {
         ProviderId fallBackPrimary = null;
         for (Entry<ProviderId, DeviceDescriptions> e : providerDescs.entrySet()) {
             if (!e.getKey().isAncillary()) {
                 return e.getKey();
             } else if (fallBackPrimary == null) {
                 // pick randomly as a fallback in case there is no primary
                 fallBackPrimary = e.getKey();
             }
         }
         return fallBackPrimary;
     }

     public static final class InitDeviceDescs
         implements ConcurrentInitializer<DeviceDescriptions> {

         private final DeviceDescription deviceDesc;

         public InitDeviceDescs(DeviceDescription deviceDesc) {
             this.deviceDesc = checkNotNull(deviceDesc);
         }
         @Override
         public DeviceDescriptions get() throws ConcurrentException {
             return new DeviceDescriptions(deviceDesc);
         }
     }


     /**
      * Collection of Description of a Device and it's Ports given from a Provider.
      */
     private static class DeviceDescriptions {

         private final AtomicReference<DeviceDescription> deviceDesc;
         private final ConcurrentMap<PortNumber, PortDescription> portDescs;

         public DeviceDescriptions(DeviceDescription desc) {
             this.deviceDesc = new AtomicReference<>(checkNotNull(desc));
             this.portDescs = new ConcurrentHashMap<>();
         }

         public DeviceDescription getDeviceDesc() {
             return deviceDesc.get();
         }

         public PortDescription getPortDesc(PortNumber number) {
             return portDescs.get(number);
         }

         /**
          * Puts DeviceDescription, merging annotations as necessary.
          *
          * @param newDesc new DeviceDescription
          * @return previous DeviceDescription
          */
         public synchronized DeviceDescription putDeviceDesc(DeviceDescription newDesc) {
             DeviceDescription oldOne = deviceDesc.get();
             DeviceDescription newOne = newDesc;
             if (oldOne != null) {
                 SparseAnnotations merged = union(oldOne.annotations(),
                                                  newDesc.annotations());
                 newOne = new DefaultDeviceDescription(newOne, merged);
             }
             return deviceDesc.getAndSet(newOne);
         }

         /**
          * Puts PortDescription, merging annotations as necessary.
          *
          * @param newDesc new PortDescription
          * @return previous PortDescription
          */
         public synchronized PortDescription putPortDesc(PortDescription newDesc) {
             PortDescription oldOne = portDescs.get(newDesc.portNumber());
             PortDescription newOne = newDesc;
             if (oldOne != null) {
                 SparseAnnotations merged = union(oldOne.annotations(),
                                                  newDesc.annotations());
                 newOne = new DefaultPortDescription(newOne, merged);
             }
             return portDescs.put(newOne.portNumber(), newOne);
         }
     }
 }
	package org.onlab.onos.store.trivial.impl;

	import com.google.common.collect.FluentIterable;
	import com.google.common.collect.ImmutableList;
	import com.google.common.collect.Maps;
	import com.google.common.collect.Sets;

	import org.apache.commons.lang3.concurrent.ConcurrentException;
	import org.apache.commons.lang3.concurrent.ConcurrentInitializer;
	import org.apache.felix.scr.annotations.Activate;
	import org.apache.felix.scr.annotations.Component;
	import org.apache.felix.scr.annotations.Deactivate;
	import org.apache.felix.scr.annotations.Service;
	import org.onlab.onos.net.AnnotationsUtil;
	import org.onlab.onos.net.DefaultAnnotations;
	import org.onlab.onos.net.DefaultDevice;
	import org.onlab.onos.net.DefaultPort;
	import org.onlab.onos.net.Device;
	import org.onlab.onos.net.Device.Type;
	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 org.onlab.onos.store.AbstractStore;
	import org.onlab.packet.ChassisId;
	import org.onlab.util.NewConcurrentHashMap;
	import org.slf4j.Logger;

	import java.util.ArrayList;
	import java.util.Collections;
	import java.util.HashSet;
	import java.util.Iterator;
	import java.util.List;
	import java.util.Map;
	import java.util.Map.Entry;
	import java.util.Objects;
	import java.util.Set;
	import java.util.concurrent.ConcurrentHashMap;
	import java.util.concurrent.ConcurrentMap;
	import java.util.concurrent.atomic.AtomicReference;

	import static com.google.common.base.Preconditions.checkArgument;
	import static com.google.common.base.Preconditions.checkNotNull;
	import static com.google.common.base.Predicates.notNull;
	import static com.google.common.base.Verify.verify;
	import static org.onlab.onos.net.device.DeviceEvent.Type.*;
	import static org.slf4j.LoggerFactory.getLogger;
	import static org.apache.commons.lang3.concurrent.ConcurrentUtils.createIfAbsentUnchecked;
	import static org.onlab.onos.net.DefaultAnnotations.union;
	import static org.onlab.onos.net.DefaultAnnotations.merge;

	/**
	* Manages inventory of infrastructure devices using trivial in-memory
	* structures implementation.
	*/
	@Component(immediate = true)
	@Service
	public class SimpleDeviceStore
	extends AbstractStore<DeviceEvent, DeviceStoreDelegate>
	implements DeviceStore {

	private final Logger log = getLogger(getClass());

	public static final String DEVICE_NOT_FOUND = "Device with ID %s not found";

	// collection of Description given from various providers
	private final ConcurrentMap<DeviceId,
	ConcurrentMap<ProviderId, DeviceDescriptions>>
	deviceDescs = Maps.newConcurrentMap();

	// cache of Device and Ports generated by compositing descriptions from providers
	private final ConcurrentMap<DeviceId, Device> devices = Maps.newConcurrentMap();
	private final ConcurrentMap<DeviceId, ConcurrentMap<PortNumber, Port>> devicePorts = Maps.newConcurrentMap();

	// available(=UP) devices
	private final Set<DeviceId> availableDevices = Sets.newConcurrentHashSet();


	@Activate
	public void activate() {
	log.info("Started");
	}

	@Deactivate
	public void deactivate() {
	deviceDescs.clear();
	devices.clear();
	devicePorts.clear();
	availableDevices.clear();
	log.info("Stopped");
	}

	@Override
	public int getDeviceCount() {
	return devices.size();
	}

	@Override
	public Iterable<Device> getDevices() {
	return Collections.unmodifiableCollection(devices.values());
	}

	@Override
	public Device getDevice(DeviceId deviceId) {
	return devices.get(deviceId);
	}

	@Override
	public DeviceEvent createOrUpdateDevice(ProviderId providerId,
	DeviceId deviceId,
	DeviceDescription deviceDescription) {

	ConcurrentMap<ProviderId, DeviceDescriptions> providerDescs
	= getDeviceDescriptions(deviceId);

	synchronized (providerDescs) {
	// locking per device

	DeviceDescriptions descs
	= createIfAbsentUnchecked(providerDescs, providerId,
	new InitDeviceDescs(deviceDescription));

	Device oldDevice = devices.get(deviceId);
	// update description
	descs.putDeviceDesc(deviceDescription);
	Device newDevice = composeDevice(deviceId, providerDescs);

	if (oldDevice == null) {
	// ADD
	return createDevice(providerId, newDevice);
	} else {
	// UPDATE or ignore (no change or stale)
	return updateDevice(providerId, oldDevice, newDevice);
	}
	}
	}

	// Creates the device and returns the appropriate event if necessary.
	// Guarded by deviceDescs value (=Device lock)
	private DeviceEvent createDevice(ProviderId providerId, Device newDevice) {

	// update composed device cache
	Device oldDevice = devices.putIfAbsent(newDevice.id(), newDevice);
	verify(oldDevice == null,
	"Unexpected Device in cache. PID:%s [old=%s, new=%s]",
	providerId, oldDevice, newDevice);

	if (!providerId.isAncillary()) {
	availableDevices.add(newDevice.id());
	}

	return new DeviceEvent(DeviceEvent.Type.DEVICE_ADDED, newDevice, null);
	}

	// Updates the device and returns the appropriate event if necessary.
	// Guarded by deviceDescs value (=Device lock)
	private DeviceEvent updateDevice(ProviderId providerId, Device oldDevice, Device newDevice) {

	// We allow only certain attributes to trigger update
	if (!Objects.equals(oldDevice.hwVersion(), newDevice.hwVersion()) \|\|
	!Objects.equals(oldDevice.swVersion(), newDevice.swVersion()) \|\|
	!AnnotationsUtil.isEqual(oldDevice.annotations(), newDevice.annotations())) {

	boolean replaced = devices.replace(newDevice.id(), oldDevice, newDevice);
	if (!replaced) {
	verify(replaced,
	"Replacing devices cache failed. PID:%s [expected:%s, found:%s, new=%s]",
	providerId, oldDevice, devices.get(newDevice.id())
	, newDevice);
	}
	if (!providerId.isAncillary()) {
	availableDevices.add(newDevice.id());
	}
	return new DeviceEvent(DeviceEvent.Type.DEVICE_UPDATED, newDevice, null);
	}

	// Otherwise merely attempt to change availability if primary provider
	if (!providerId.isAncillary()) {
	boolean added = availableDevices.add(newDevice.id());
	return !added ? null :
	new DeviceEvent(DEVICE_AVAILABILITY_CHANGED, newDevice, null);
	}
	return null;
	}

	@Override
	public DeviceEvent markOffline(DeviceId deviceId) {
	ConcurrentMap<ProviderId, DeviceDescriptions> providerDescs
	= getDeviceDescriptions(deviceId);

	// locking device
	synchronized (providerDescs) {
	Device device = devices.get(deviceId);
	if (device == null) {
	return null;
	}
	boolean removed = availableDevices.remove(deviceId);
	if (removed) {
	// TODO: broadcast ... DOWN only?
	return new DeviceEvent(DEVICE_AVAILABILITY_CHANGED, device, null);
	}
	return null;
	}
	}

	@Override
	public List<DeviceEvent> updatePorts(ProviderId providerId,
	DeviceId deviceId,
	List<PortDescription> portDescriptions) {

	Device device = devices.get(deviceId);
	checkArgument(device != null, DEVICE_NOT_FOUND, deviceId);

	ConcurrentMap<ProviderId, DeviceDescriptions> descsMap = deviceDescs.get(deviceId);
	checkArgument(descsMap != null, DEVICE_NOT_FOUND, deviceId);

	List<DeviceEvent> events = new ArrayList<>();
	synchronized (descsMap) {
	DeviceDescriptions descs = descsMap.get(providerId);
	// every provider must provide DeviceDescription.
	checkArgument(descs != null,
	"Device description for Device ID %s from Provider %s was not found",
	deviceId, providerId);

	Map<PortNumber, Port> ports = getPortMap(deviceId);

	// Add new ports
	Set<PortNumber> processed = new HashSet<>();
	for (PortDescription portDescription : portDescriptions) {
	final PortNumber number = portDescription.portNumber();
	processed.add(portDescription.portNumber());

	final Port oldPort = ports.get(number);
	final Port newPort;

	// event suppression hook?

	// update description
	descs.putPortDesc(portDescription);
	newPort = composePort(device, number, descsMap);

	events.add(oldPort == null ?
	createPort(device, newPort, ports) :
	updatePort(device, oldPort, newPort, ports));
	}

	events.addAll(pruneOldPorts(device, ports, processed));
	}
	return FluentIterable.from(events).filter(notNull()).toList();
	}

	// Creates a new port based on the port description adds it to the map and
	// Returns corresponding event.
	// Guarded by deviceDescs value (=Device lock)
	private DeviceEvent createPort(Device device, Port newPort,
	Map<PortNumber, Port> ports) {
	ports.put(newPort.number(), newPort);
	return new DeviceEvent(PORT_ADDED, device, newPort);
	}

	// Checks if the specified port requires update and if so, it replaces the
	// existing entry in the map and returns corresponding event.
	// Guarded by deviceDescs value (=Device lock)
	private DeviceEvent updatePort(Device device, Port oldPort,
	Port newPort,
	Map<PortNumber, Port> ports) {
	if (oldPort.isEnabled() != newPort.isEnabled() \|\|
	!AnnotationsUtil.isEqual(oldPort.annotations(), newPort.annotations())) {

	ports.put(oldPort.number(), newPort);
	return new DeviceEvent(PORT_UPDATED, device, newPort);
	}
	return null;
	}

	// Prunes the specified list of ports based on which ports are in the
	// processed list and returns list of corresponding events.
	// Guarded by deviceDescs value (=Device lock)
	private List<DeviceEvent> pruneOldPorts(Device device,
	Map<PortNumber, Port> ports,
	Set<PortNumber> processed) {
	List<DeviceEvent> events = new ArrayList<>();
	Iterator<PortNumber> iterator = ports.keySet().iterator();
	while (iterator.hasNext()) {
	PortNumber portNumber = iterator.next();
	if (!processed.contains(portNumber)) {
	events.add(new DeviceEvent(PORT_REMOVED, device,
	ports.get(portNumber)));
	iterator.remove();
	}
	}
	return events;
	}

	// Gets the map of ports for the specified device; if one does not already
	// exist, it creates and registers a new one.
	private ConcurrentMap<PortNumber, Port> getPortMap(DeviceId deviceId) {
	return createIfAbsentUnchecked(devicePorts, deviceId,
	NewConcurrentHashMap.<PortNumber, Port>ifNeeded());
	}

	private ConcurrentMap<ProviderId, DeviceDescriptions> getDeviceDescriptions(
	DeviceId deviceId) {
	return createIfAbsentUnchecked(deviceDescs, deviceId,
	NewConcurrentHashMap.<ProviderId, DeviceDescriptions>ifNeeded());
	}

	@Override
	public DeviceEvent updatePortStatus(ProviderId providerId, DeviceId deviceId,
	PortDescription portDescription) {
	Device device = devices.get(deviceId);
	checkArgument(device != null, DEVICE_NOT_FOUND, deviceId);

	ConcurrentMap<ProviderId, DeviceDescriptions> descsMap = deviceDescs.get(deviceId);
	checkArgument(descsMap != null, DEVICE_NOT_FOUND, deviceId);

	synchronized (descsMap) {
	DeviceDescriptions descs = descsMap.get(providerId);
	// assuming all providers must to give DeviceDescription
	checkArgument(descs != null,
	"Device description for Device ID %s from Provider %s was not found",
	deviceId, providerId);

	ConcurrentMap<PortNumber, Port> ports = getPortMap(deviceId);
	final PortNumber number = portDescription.portNumber();
	final Port oldPort = ports.get(number);
	final Port newPort;

	// update description
	descs.putPortDesc(portDescription);
	newPort = composePort(device, number, descsMap);

	if (oldPort == null) {
	return createPort(device, newPort, ports);
	} else {
	return updatePort(device, oldPort, newPort, ports);
	}
	}
	}

	@Override
	public List<Port> getPorts(DeviceId deviceId) {
	Map<PortNumber, Port> ports = devicePorts.get(deviceId);
	if (ports == null) {
	return Collections.emptyList();
	}
	return ImmutableList.copyOf(ports.values());
	}

	@Override
	public Port getPort(DeviceId deviceId, PortNumber portNumber) {
	Map<PortNumber, Port> ports = devicePorts.get(deviceId);
	return ports == null ? null : ports.get(portNumber);
	}

	@Override
	public boolean isAvailable(DeviceId deviceId) {
	return availableDevices.contains(deviceId);
	}

	@Override
	public DeviceEvent removeDevice(DeviceId deviceId) {
	ConcurrentMap<ProviderId, DeviceDescriptions> descs = getDeviceDescriptions(deviceId);
	synchronized (descs) {
	Device device = devices.remove(deviceId);
	// should DEVICE_REMOVED carry removed ports?
	Map<PortNumber, Port> ports = devicePorts.get(deviceId);
	if (ports != null) {
	ports.clear();
	}
	availableDevices.remove(deviceId);
	descs.clear();
	return device == null ? null :
	new DeviceEvent(DEVICE_REMOVED, device, null);
	}
	}

	/**
	* Returns a Device, merging description given from multiple Providers.
	*
	* @param deviceId device identifier
	* @param providerDescs Collection of Descriptions from multiple providers
	* @return Device instance
	*/
	private Device composeDevice(DeviceId deviceId,
	ConcurrentMap<ProviderId, DeviceDescriptions> providerDescs) {

	checkArgument(!providerDescs.isEmpty(), "No Device descriptions supplied");

	ProviderId primary = pickPrimaryPID(providerDescs);

	DeviceDescriptions desc = providerDescs.get(primary);

	final DeviceDescription base = desc.getDeviceDesc();
	Type type = base.type();
	String manufacturer = base.manufacturer();
	String hwVersion = base.hwVersion();
	String swVersion = base.swVersion();
	String serialNumber = base.serialNumber();
	ChassisId chassisId = base.chassisId();
	DefaultAnnotations annotations = DefaultAnnotations.builder().build();
	annotations = merge(annotations, base.annotations());

	for (Entry<ProviderId, DeviceDescriptions> e : providerDescs.entrySet()) {
	if (e.getKey().equals(primary)) {
	continue;
	}
	// TODO: should keep track of Description timestamp
	// and only merge conflicting keys when timestamp is newer
	// Currently assuming there will never be a key conflict between
	// providers

	// annotation merging. not so efficient, should revisit later
	annotations = merge(annotations, e.getValue().getDeviceDesc().annotations());
	}

	return new DefaultDevice(primary, deviceId , type, manufacturer,
	hwVersion, swVersion, serialNumber,
	chassisId, annotations);
	}

	/**
	* Returns a Port, merging description given from multiple Providers.
	*
	* @param device device the port is on
	* @param number port number
	* @param providerDescs Collection of Descriptions from multiple providers
	* @return Port instance
	*/
	private Port composePort(Device device, PortNumber number,
	ConcurrentMap<ProviderId, DeviceDescriptions> providerDescs) {

	ProviderId primary = pickPrimaryPID(providerDescs);
	DeviceDescriptions primDescs = providerDescs.get(primary);
	// if no primary, assume not enabled
	// TODO: revisit this default port enabled/disabled behavior
	boolean isEnabled = false;
	DefaultAnnotations annotations = DefaultAnnotations.builder().build();

	final PortDescription portDesc = primDescs.getPortDesc(number);
	if (portDesc != null) {
	isEnabled = portDesc.isEnabled();
	annotations = merge(annotations, portDesc.annotations());
	}

	for (Entry<ProviderId, DeviceDescriptions> e : providerDescs.entrySet()) {
	if (e.getKey().equals(primary)) {
	continue;
	}
	// TODO: should keep track of Description timestamp
	// and only merge conflicting keys when timestamp is newer
	// Currently assuming there will never be a key conflict between
	// providers

	// annotation merging. not so efficient, should revisit later
	final PortDescription otherPortDesc = e.getValue().getPortDesc(number);
	if (otherPortDesc != null) {
	annotations = merge(annotations, otherPortDesc.annotations());
	}
	}

	return new DefaultPort(device, number, isEnabled, annotations);
	}

	/**
	* @return primary ProviderID, or randomly chosen one if none exists
	*/
	private ProviderId pickPrimaryPID(
	ConcurrentMap<ProviderId, DeviceDescriptions> providerDescs) {
	ProviderId fallBackPrimary = null;
	for (Entry<ProviderId, DeviceDescriptions> e : providerDescs.entrySet()) {
	if (!e.getKey().isAncillary()) {
	return e.getKey();
	} else if (fallBackPrimary == null) {
	// pick randomly as a fallback in case there is no primary
	fallBackPrimary = e.getKey();
	}
	}
	return fallBackPrimary;
	}

	public static final class InitDeviceDescs
	implements ConcurrentInitializer<DeviceDescriptions> {

	private final DeviceDescription deviceDesc;

	public InitDeviceDescs(DeviceDescription deviceDesc) {
	this.deviceDesc = checkNotNull(deviceDesc);
	}
	@Override
	public DeviceDescriptions get() throws ConcurrentException {
	return new DeviceDescriptions(deviceDesc);
	}
	}


	/**
	* Collection of Description of a Device and it's Ports given from a Provider.
	*/
	private static class DeviceDescriptions {

	private final AtomicReference<DeviceDescription> deviceDesc;
	private final ConcurrentMap<PortNumber, PortDescription> portDescs;

	public DeviceDescriptions(DeviceDescription desc) {
	this.deviceDesc = new AtomicReference<>(checkNotNull(desc));
	this.portDescs = new ConcurrentHashMap<>();
	}

	public DeviceDescription getDeviceDesc() {
	return deviceDesc.get();
	}

	public PortDescription getPortDesc(PortNumber number) {
	return portDescs.get(number);
	}

	/**
	* Puts DeviceDescription, merging annotations as necessary.
	*
	* @param newDesc new DeviceDescription
	* @return previous DeviceDescription
	*/
	public synchronized DeviceDescription putDeviceDesc(DeviceDescription newDesc) {
	DeviceDescription oldOne = deviceDesc.get();
	DeviceDescription newOne = newDesc;
	if (oldOne != null) {
	SparseAnnotations merged = union(oldOne.annotations(),
	newDesc.annotations());
	newOne = new DefaultDeviceDescription(newOne, merged);
	}
	return deviceDesc.getAndSet(newOne);
	}

	/**
	* Puts PortDescription, merging annotations as necessary.
	*
	* @param newDesc new PortDescription
	* @return previous PortDescription
	*/
	public synchronized PortDescription putPortDesc(PortDescription newDesc) {
	PortDescription oldOne = portDescs.get(newDesc.portNumber());
	PortDescription newOne = newDesc;
	if (oldOne != null) {
	SparseAnnotations merged = union(oldOne.annotations(),
	newDesc.annotations());
	newOne = new DefaultPortDescription(newOne, merged);
	}
	return portDescs.put(newOne.portNumber(), newOne);
	}
	}
	}