org.infinispan.client.hotrod.impl.topology.CacheInfo Maven / Gradle / Ivy
package org.infinispan.client.hotrod.impl.topology;
import java.net.InetSocketAddress;
import java.net.SocketAddress;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.atomic.AtomicReference;
import org.infinispan.client.hotrod.CacheTopologyInfo;
import org.infinispan.client.hotrod.FailoverRequestBalancingStrategy;
import org.infinispan.client.hotrod.configuration.ClientIntelligence;
import org.infinispan.client.hotrod.impl.CacheTopologyInfoImpl;
import org.infinispan.client.hotrod.impl.ClientTopology;
import org.infinispan.client.hotrod.impl.consistenthash.ConsistentHash;
import org.infinispan.client.hotrod.impl.protocol.HotRodConstants;
import org.infinispan.commons.marshall.WrappedBytes;
import org.infinispan.commons.util.IntSets;
/**
* Holds all the cluster topology information the client has for a single cache.
*
* Each segment is mapped to a single server, even though the Hot Rod protocol and {@link ConsistentHash}
* implementations allow more than one owner.
*
* @author Dan Berindei
* @since 13.0
*/
public class CacheInfo {
private final String cacheName;
// The topology age at the time this topology was received
private final int topologyAge;
// The balancer is final, but using it still needs synchronization because it is not thread-safe
private final FailoverRequestBalancingStrategy balancer;
private final int numSegments;
private final List servers;
private final Map> primarySegments;
private final ConsistentHash consistentHash;
private final AtomicReference clientTopologyRef;
private final ClientTopology clientTopology;
public CacheInfo(WrappedBytes cacheName, FailoverRequestBalancingStrategy balancer, int topologyAge, List servers, ClientIntelligence intelligence) {
this.balancer = balancer;
this.topologyAge = topologyAge;
this.cacheName = cacheName == null || cacheName.getLength() == 0 ? "" :
new String(cacheName.getBytes(), HotRodConstants.HOTROD_STRING_CHARSET);
this.numSegments = -1;
this.clientTopology = new ClientTopology(HotRodConstants.DEFAULT_CACHE_TOPOLOGY, intelligence);
this.consistentHash = null;
this.servers = List.copyOf(servers);
// Before the first topology update or after a topology-aware (non-hash) topology update
this.primarySegments = null;
clientTopologyRef = new AtomicReference<>(clientTopology);
}
public void updateBalancerServers() {
// The servers list is immutable, so it doesn't matter that the balancer see it as a Collection
balancer.setServers((List) servers);
}
public CacheInfo withNewServers(int topologyAge, int topologyId, List servers) {
return withNewServers(topologyAge, topologyId, servers, clientTopologyRef.get().getClientIntelligence());
}
public CacheInfo withNewServers(int topologyAge, int topologyId, List servers, ClientIntelligence intelligence) {
return new CacheInfo(cacheName, balancer, topologyAge, servers, null, -1, clientTopologyRef, new ClientTopology(topologyId, intelligence));
}
public CacheInfo withNewHash(int topologyAge, int topologyId, List servers,
ConsistentHash consistentHash, int numSegments) {
return new CacheInfo(cacheName, balancer, topologyAge, servers, consistentHash, numSegments, clientTopologyRef, new ClientTopology(topologyId, getIntelligence()));
}
private CacheInfo(String cacheName, FailoverRequestBalancingStrategy balancer, int topologyAge,
List servers, ConsistentHash consistentHash, int numSegments,
AtomicReference clientTopologyRef, ClientTopology clientTopology) {
this.balancer = balancer;
this.topologyAge = topologyAge;
this.cacheName = cacheName;
this.numSegments = numSegments;
this.consistentHash = consistentHash;
this.clientTopology = clientTopology;
this.clientTopologyRef = clientTopologyRef;
this.servers = List.copyOf(servers);
if (numSegments > 0) {
// After the servers sent a hash-aware topology update
this.primarySegments = consistentHash.getPrimarySegmentsByServer();
} else {
// Before the first topology update or after a topology-aware (non-hash) topology update
this.primarySegments = null;
}
}
public String getCacheName() {
return cacheName;
}
public int getTopologyAge() {
return topologyAge;
}
public FailoverRequestBalancingStrategy getBalancer() {
return balancer;
}
public int getNumSegments() {
return numSegments;
}
public int getTopologyId() {
return clientTopology.getTopologyId();
}
public AtomicReference getClientTopologyRef() {
return clientTopologyRef;
}
public List getServers() {
return servers;
}
public Map> getPrimarySegments() {
if (primarySegments == null) {
return Collections.emptyMap();
}
return primarySegments;
}
public ConsistentHash getConsistentHash() {
return consistentHash;
}
public CacheTopologyInfo getCacheTopologyInfo() {
Map> segmentsByServer;
if (consistentHash != null) {
segmentsByServer = consistentHash.getSegmentsByServer();
} else {
segmentsByServer = new HashMap<>(servers.size());
for (InetSocketAddress server : servers) {
segmentsByServer.put(server, IntSets.immutableEmptySet());
}
}
return new CacheTopologyInfoImpl(segmentsByServer,
numSegments > 0 ? numSegments : null,
getTopologyId());
}
private ClientIntelligence getIntelligence() {
return clientTopology.getClientIntelligence();
}
public void updateClientTopologyRef() {
clientTopologyRef.set(clientTopology);
}
}