import akka.japi.Creator;
import akka.japi.Function;
import com.google.common.base.Preconditions;
+import org.opendaylight.controller.cluster.datastore.identifiers.ShardIdentifier;
+import org.opendaylight.controller.cluster.datastore.identifiers.ShardManagerIdentifier;
+import org.opendaylight.controller.cluster.datastore.jmx.mbeans.shardmanager.ShardManagerInfo;
+import org.opendaylight.controller.cluster.datastore.jmx.mbeans.shardmanager.ShardManagerInfoMBean;
+import org.opendaylight.controller.cluster.datastore.messages.FindLocalShard;
import org.opendaylight.controller.cluster.datastore.messages.FindPrimary;
+import org.opendaylight.controller.cluster.datastore.messages.LocalShardFound;
+import org.opendaylight.controller.cluster.datastore.messages.LocalShardNotFound;
import org.opendaylight.controller.cluster.datastore.messages.PeerAddressResolved;
import org.opendaylight.controller.cluster.datastore.messages.PrimaryFound;
import org.opendaylight.controller.cluster.datastore.messages.PrimaryNotFound;
import org.opendaylight.controller.cluster.datastore.messages.UpdateSchemaContext;
import scala.concurrent.duration.Duration;
+import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
/**
* The ShardManager has the following jobs,
- * <p>
+ * <ul>
* <li> Create all the local shard replicas that belong on this cluster member
+ * <li> Find the address of the local shard
* <li> Find the primary replica for any given shard
- * <li> Engage in shard replica elections which decide which replica should be the primary
- * </p>
- * <p/>
- * <h3>>Creation of Shard replicas</h3
- * <p>
- * When the ShardManager is constructed it reads the cluster configuration to find out which shard replicas
- * belong on this member. It finds out the name of the current cluster member from the Akka Clustering Service.
- * </p>
- * <p/>
- * <h3> Replica Elections </h3>
- * <p/>
- * <p>
- * The Shard Manager uses multiple cues to initiate election.
- * <li> When a member of the cluster dies
- * <li> When a local shard replica dies
- * <li> When a local shard replica comes alive
- * </p>
+ * <li> Monitor the cluster members and store their addresses
+ * <ul>
*/
public class ShardManager extends AbstractUntypedActor {
// Stores a mapping between a member name and the address of the member
+ // Member names look like "member-1", "member-2" etc and are as specified
+ // in configuration
private final Map<String, Address> memberNameToAddress = new HashMap<>();
+ // Stores a mapping between a shard name and it's corresponding information
+ // Shard names look like inventory, topology etc and are as specified in
+ // configuration
private final Map<String, ShardInformation> localShards = new HashMap<>();
-
+ // The type of a ShardManager reflects the type of the datastore itself
+ // A data store could be of type config/operational
private final String type;
private final ClusterWrapper cluster;
private final Configuration configuration;
+ private ShardManagerInfoMBean mBean;
+
/**
* @param type defines the kind of data that goes into shards created by this shard manager. Examples of type would be
* configuration or operational
public static Props props(final String type,
final ClusterWrapper cluster,
final Configuration configuration) {
+
+ Preconditions.checkNotNull(type, "type should not be null");
+ Preconditions.checkNotNull(cluster, "cluster should not be null");
+ Preconditions.checkNotNull(configuration, "configuration should not be null");
+
return Props.create(new Creator<ShardManager>() {
@Override
if (message.getClass().equals(FindPrimary.SERIALIZABLE_CLASS)) {
findPrimary(
FindPrimary.fromSerializable(message));
-
+ } else if(message instanceof FindLocalShard){
+ findLocalShard((FindLocalShard) message);
} else if (message instanceof UpdateSchemaContext) {
updateSchemaContext(message);
} else if (message instanceof ClusterEvent.MemberUp){
} else if(message instanceof ClusterEvent.UnreachableMember) {
ignoreMessage(message);
} else{
- throw new Exception ("Not recognized message received, message="+message);
+ unknownMessage(message);
}
}
- private void ignoreMessage(Object message){
- LOG.debug("Unhandled message : " + message);
+ private void findLocalShard(FindLocalShard message) {
+ ShardInformation shardInformation =
+ localShards.get(message.getShardName());
+
+ if(shardInformation != null){
+ getSender().tell(new LocalShardFound(shardInformation.getActor()), getSelf());
+ return;
+ }
+
+ getSender().tell(new LocalShardNotFound(message.getShardName()),
+ getSelf());
}
private void memberRemoved(ClusterEvent.MemberRemoved message) {
for(ShardInformation info : localShards.values()){
String shardName = info.getShardName();
- info.updatePeerAddress(getShardActorName(memberName, shardName),
+ info.updatePeerAddress(getShardIdentifier(memberName, shardName),
getShardActorPath(shardName, memberName));
}
}
+ /**
+ * Notifies all the local shards of a change in the schema context
+ *
+ * @param message
+ */
private void updateSchemaContext(Object message) {
for(ShardInformation info : localShards.values()){
info.getActor().tell(message,getSelf());
private void findPrimary(FindPrimary message) {
String shardName = message.getShardName();
- List<String> members =
- configuration.getMembersFromShardName(shardName);
-
// First see if the there is a local replica for the shard
ShardInformation info = localShards.get(shardName);
if(info != null) {
}
}
+ List<String> members =
+ configuration.getMembersFromShardName(shardName);
+
if(cluster.getCurrentMemberName() != null) {
members.remove(cluster.getCurrentMemberName());
}
getSender().tell(new PrimaryNotFound(shardName).toSerializable(), getSelf());
}
- private String
-
-
- getShardActorPath(String shardName, String memberName) {
+ private String getShardActorPath(String shardName, String memberName) {
Address address = memberNameToAddress.get(memberName);
if(address != null) {
- return address.toString() + "/user/shardmanager-" + this.type + "/"
- + getShardActorName(
- memberName, shardName);
+ StringBuilder builder = new StringBuilder();
+ builder.append(address.toString())
+ .append("/user/")
+ .append(ShardManagerIdentifier.builder().type(type).build().toString())
+ .append("/")
+ .append(getShardIdentifier(memberName, shardName));
+ return builder.toString();
}
return null;
}
- private String getShardActorName(String memberName, String shardName){
- return memberName + "-shard-" + shardName + "-" + this.type;
+ /**
+ * Construct the name of the shard actor given the name of the member on
+ * which the shard resides and the name of the shard
+ *
+ * @param memberName
+ * @param shardName
+ * @return
+ */
+ private ShardIdentifier getShardIdentifier(String memberName, String shardName){
+ return ShardIdentifier.builder().memberName(memberName).shardName(shardName).type(type).build();
}
- // Create the shards that are local to this member
+ /**
+ * Create shards that are local to the member on which the ShardManager
+ * runs
+ *
+ */
private void createLocalShards() {
String memberName = this.cluster.getCurrentMemberName();
List<String> memberShardNames =
this.configuration.getMemberShardNames(memberName);
+ List<String> localShardActorNames = new ArrayList<>();
for(String shardName : memberShardNames){
- String shardActorName = getShardActorName(memberName, shardName);
- Map<String, String> peerAddresses = getPeerAddresses(shardName);
+ ShardIdentifier shardId = getShardIdentifier(memberName, shardName);
+ Map<ShardIdentifier, String> peerAddresses = getPeerAddresses(shardName);
ActorRef actor = getContext()
- .actorOf(Shard.props(shardActorName, peerAddresses),
- shardActorName);
+ .actorOf(Shard.props(shardId, peerAddresses),
+ shardId.toString());
+ localShardActorNames.add(shardId.toString());
localShards.put(shardName, new ShardInformation(shardName, actor, peerAddresses));
}
+ mBean = ShardManagerInfo
+ .createShardManagerMBean("shard-manager-" + this.type, localShardActorNames);
+
}
- private Map<String, String> getPeerAddresses(String shardName){
+ /**
+ * Given the name of the shard find the addresses of all it's peers
+ *
+ * @param shardName
+ * @return
+ */
+ private Map<ShardIdentifier, String> getPeerAddresses(String shardName){
- Map<String, String> peerAddresses = new HashMap<>();
+ Map<ShardIdentifier, String> peerAddresses = new HashMap<>();
List<String> members =
this.configuration.getMembersFromShardName(shardName);
for(String memberName : members){
if(!currentMemberName.equals(memberName)){
- String shardActorName = getShardActorName(memberName, shardName);
+ ShardIdentifier shardId = getShardIdentifier(memberName,
+ shardName);
String path =
getShardActorPath(shardName, currentMemberName);
- peerAddresses.put(shardActorName, path);
+ peerAddresses.put(shardId, path);
}
}
return peerAddresses;
}
-
@Override
public SupervisorStrategy supervisorStrategy() {
return new OneForOneStrategy(10, Duration.create("1 minute"),
private final String shardName;
private final ActorRef actor;
private final ActorPath actorPath;
- private final Map<String, String> peerAddresses;
+ private final Map<ShardIdentifier, String> peerAddresses;
private ShardInformation(String shardName, ActorRef actor,
- Map<String, String> peerAddresses) {
+ Map<ShardIdentifier, String> peerAddresses) {
this.shardName = shardName;
this.actor = actor;
this.actorPath = actor.path();
return actorPath;
}
- public Map<String, String> getPeerAddresses() {
- return peerAddresses;
- }
-
- public void updatePeerAddress(String peerId, String peerAddress){
- LOG.info("updatePeerAddress for peer {} with address {}", peerId, peerAddress);
+ public void updatePeerAddress(ShardIdentifier peerId, String peerAddress){
+ LOG.info("updatePeerAddress for peer {} with address {}", peerId,
+ peerAddress);
if(peerAddresses.containsKey(peerId)){
peerAddresses.put(peerId, peerAddress);
- LOG.info("Sending PeerAddressResolved for peer {} with address {} to {}", peerId, peerAddress, actor.path());
+ LOG.debug(
+ "Sending PeerAddressResolved for peer {} with address {} to {}",
+ peerId, peerAddress, actor.path());
actor
.tell(new PeerAddressResolved(peerId, peerAddress),
}
}
}
+
+
+