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/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You 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.apache.kafka.common;
import java.net.InetSocketAddress;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.Optional;
import java.util.Set;
/**
* An immutable representation of a subset of the nodes, topics, and partitions in the Kafka cluster.
*/
public final class Cluster {
private final boolean isBootstrapConfigured;
private final List nodes;
private final Set unauthorizedTopics;
private final Set invalidTopics;
private final Set internalTopics;
private final Node controller;
private final Map partitionsByTopicPartition;
private final Map> partitionsByTopic;
private final Map> availablePartitionsByTopic;
private final Map> partitionsByNode;
private final Map nodesById;
private final ClusterResource clusterResource;
/**
* Create a new cluster with the given id, nodes and partitions
* @param nodes The nodes in the cluster
* @param partitions Information about a subset of the topic-partitions this cluster hosts
*/
public Cluster(String clusterId,
Collection nodes,
Collection partitions,
Set unauthorizedTopics,
Set internalTopics) {
this(clusterId, false, nodes, partitions, unauthorizedTopics, Collections.emptySet(), internalTopics, null);
}
/**
* Create a new cluster with the given id, nodes and partitions
* @param nodes The nodes in the cluster
* @param partitions Information about a subset of the topic-partitions this cluster hosts
*/
public Cluster(String clusterId,
Collection nodes,
Collection partitions,
Set unauthorizedTopics,
Set internalTopics,
Node controller) {
this(clusterId, false, nodes, partitions, unauthorizedTopics, Collections.emptySet(), internalTopics, controller);
}
/**
* Create a new cluster with the given id, nodes and partitions
* @param nodes The nodes in the cluster
* @param partitions Information about a subset of the topic-partitions this cluster hosts
*/
public Cluster(String clusterId,
Collection nodes,
Collection partitions,
Set unauthorizedTopics,
Set invalidTopics,
Set internalTopics,
Node controller) {
this(clusterId, false, nodes, partitions, unauthorizedTopics, invalidTopics, internalTopics, controller);
}
private Cluster(String clusterId,
boolean isBootstrapConfigured,
Collection nodes,
Collection partitions,
Set unauthorizedTopics,
Set invalidTopics,
Set internalTopics,
Node controller) {
this.isBootstrapConfigured = isBootstrapConfigured;
this.clusterResource = new ClusterResource(clusterId);
// make a randomized, unmodifiable copy of the nodes
List copy = new ArrayList<>(nodes);
Collections.shuffle(copy);
this.nodes = Collections.unmodifiableList(copy);
// Index the nodes for quick lookup
Map tmpNodesById = new HashMap<>();
Map> tmpPartitionsByNode = new HashMap<>(nodes.size());
for (Node node : nodes) {
tmpNodesById.put(node.id(), node);
// Populate the map here to make it easy to add the partitions per node efficiently when iterating over
// the partitions
tmpPartitionsByNode.put(node.id(), new ArrayList<>());
}
this.nodesById = Collections.unmodifiableMap(tmpNodesById);
// index the partition infos by topic, topic+partition, and node
// note that this code is performance sensitive if there are a large number of partitions so we are careful
// to avoid unnecessary work
Map tmpPartitionsByTopicPartition = new HashMap<>(partitions.size());
Map> tmpPartitionsByTopic = new HashMap<>();
for (PartitionInfo p : partitions) {
tmpPartitionsByTopicPartition.put(new TopicPartition(p.topic(), p.partition()), p);
List partitionsForTopic = tmpPartitionsByTopic.get(p.topic());
if (partitionsForTopic == null) {
partitionsForTopic = new ArrayList<>();
tmpPartitionsByTopic.put(p.topic(), partitionsForTopic);
}
partitionsForTopic.add(p);
if (p.leader() != null) {
// The broker guarantees that if a partition has a non-null leader, it is one of the brokers returned
// in the metadata response
List partitionsForNode = Objects.requireNonNull(tmpPartitionsByNode.get(p.leader().id()));
partitionsForNode.add(p);
}
}
// Update the values of `tmpPartitionsByNode` to contain unmodifiable lists
for (Map.Entry> entry : tmpPartitionsByNode.entrySet()) {
tmpPartitionsByNode.put(entry.getKey(), Collections.unmodifiableList(entry.getValue()));
}
// Populate `tmpAvailablePartitionsByTopic` and update the values of `tmpPartitionsByTopic` to contain
// unmodifiable lists
Map> tmpAvailablePartitionsByTopic = new HashMap<>(tmpPartitionsByTopic.size());
for (Map.Entry> entry : tmpPartitionsByTopic.entrySet()) {
String topic = entry.getKey();
List partitionsForTopic = Collections.unmodifiableList(entry.getValue());
tmpPartitionsByTopic.put(topic, partitionsForTopic);
// Optimise for the common case where all partitions are available
boolean foundUnavailablePartition = partitionsForTopic.stream().anyMatch(p -> p.leader() == null);
List availablePartitionsForTopic;
if (foundUnavailablePartition) {
availablePartitionsForTopic = new ArrayList<>(partitionsForTopic.size());
for (PartitionInfo p : partitionsForTopic) {
if (p.leader() != null)
availablePartitionsForTopic.add(p);
}
availablePartitionsForTopic = Collections.unmodifiableList(availablePartitionsForTopic);
} else {
availablePartitionsForTopic = partitionsForTopic;
}
tmpAvailablePartitionsByTopic.put(topic, availablePartitionsForTopic);
}
this.partitionsByTopicPartition = Collections.unmodifiableMap(tmpPartitionsByTopicPartition);
this.partitionsByTopic = Collections.unmodifiableMap(tmpPartitionsByTopic);
this.availablePartitionsByTopic = Collections.unmodifiableMap(tmpAvailablePartitionsByTopic);
this.partitionsByNode = Collections.unmodifiableMap(tmpPartitionsByNode);
this.unauthorizedTopics = Collections.unmodifiableSet(unauthorizedTopics);
this.invalidTopics = Collections.unmodifiableSet(invalidTopics);
this.internalTopics = Collections.unmodifiableSet(internalTopics);
this.controller = controller;
}
/**
* Create an empty cluster instance with no nodes and no topic-partitions.
*/
public static Cluster empty() {
return new Cluster(null, new ArrayList<>(0), new ArrayList<>(0), Collections.emptySet(),
Collections.emptySet(), null);
}
/**
* Create a "bootstrap" cluster using the given list of host/ports
* @param addresses The addresses
* @return A cluster for these hosts/ports
*/
public static Cluster bootstrap(List addresses) {
List nodes = new ArrayList<>();
int nodeId = -1;
for (InetSocketAddress address : addresses)
nodes.add(new Node(nodeId--, address.getHostString(), address.getPort()));
return new Cluster(null, true, nodes, new ArrayList<>(0),
Collections.emptySet(), Collections.emptySet(), Collections.emptySet(), null);
}
/**
* Return a copy of this cluster combined with `partitions`.
*/
public Cluster withPartitions(Map partitions) {
Map combinedPartitions = new HashMap<>(this.partitionsByTopicPartition);
combinedPartitions.putAll(partitions);
return new Cluster(clusterResource.clusterId(), this.nodes, combinedPartitions.values(),
new HashSet<>(this.unauthorizedTopics), new HashSet<>(this.invalidTopics),
new HashSet<>(this.internalTopics), this.controller);
}
/**
* @return The known set of nodes
*/
public List nodes() {
return this.nodes;
}
/**
* Get the node by the node id (or null if no such node exists)
* @param id The id of the node
* @return The node, or null if no such node exists
*/
public Node nodeById(int id) {
return this.nodesById.get(id);
}
/**
* Get the node by node id if the replica for the given partition is online
* @param partition
* @param id
* @return the node
*/
public Optional nodeIfOnline(TopicPartition partition, int id) {
Node node = nodeById(id);
if (node != null && !Arrays.asList(partition(partition).offlineReplicas()).contains(node)) {
return Optional.of(node);
} else {
return Optional.empty();
}
}
/**
* Get the current leader for the given topic-partition
* @param topicPartition The topic and partition we want to know the leader for
* @return The node that is the leader for this topic-partition, or null if there is currently no leader
*/
public Node leaderFor(TopicPartition topicPartition) {
PartitionInfo info = partitionsByTopicPartition.get(topicPartition);
if (info == null)
return null;
else
return info.leader();
}
/**
* Get the metadata for the specified partition
* @param topicPartition The topic and partition to fetch info for
* @return The metadata about the given topic and partition, or null if none is found
*/
public PartitionInfo partition(TopicPartition topicPartition) {
return partitionsByTopicPartition.get(topicPartition);
}
/**
* Get the list of partitions for this topic
* @param topic The topic name
* @return A list of partitions
*/
public List partitionsForTopic(String topic) {
return partitionsByTopic.getOrDefault(topic, Collections.emptyList());
}
/**
* Get the number of partitions for the given topic.
* @param topic The topic to get the number of partitions for
* @return The number of partitions or null if there is no corresponding metadata
*/
public Integer partitionCountForTopic(String topic) {
List partitions = this.partitionsByTopic.get(topic);
return partitions == null ? null : partitions.size();
}
/**
* Get the list of available partitions for this topic
* @param topic The topic name
* @return A list of partitions
*/
public List availablePartitionsForTopic(String topic) {
return availablePartitionsByTopic.getOrDefault(topic, Collections.emptyList());
}
/**
* Get the list of partitions whose leader is this node
* @param nodeId The node id
* @return A list of partitions
*/
public List partitionsForNode(int nodeId) {
return partitionsByNode.getOrDefault(nodeId, Collections.emptyList());
}
/**
* Get all topics.
* @return a set of all topics
*/
public Set topics() {
return partitionsByTopic.keySet();
}
public Set unauthorizedTopics() {
return unauthorizedTopics;
}
public Set invalidTopics() {
return invalidTopics;
}
public Set internalTopics() {
return internalTopics;
}
public boolean isBootstrapConfigured() {
return isBootstrapConfigured;
}
public ClusterResource clusterResource() {
return clusterResource;
}
public Node controller() {
return controller;
}
@Override
public String toString() {
return "Cluster(id = " + clusterResource.clusterId() + ", nodes = " + this.nodes +
", partitions = " + this.partitionsByTopicPartition.values() + ", controller = " + controller + ")";
}
@Override
public boolean equals(Object o) {
if (this == o) return true;
if (o == null || getClass() != o.getClass()) return false;
Cluster cluster = (Cluster) o;
return isBootstrapConfigured == cluster.isBootstrapConfigured &&
Objects.equals(nodes, cluster.nodes) &&
Objects.equals(unauthorizedTopics, cluster.unauthorizedTopics) &&
Objects.equals(invalidTopics, cluster.invalidTopics) &&
Objects.equals(internalTopics, cluster.internalTopics) &&
Objects.equals(controller, cluster.controller) &&
Objects.equals(partitionsByTopicPartition, cluster.partitionsByTopicPartition) &&
Objects.equals(clusterResource, cluster.clusterResource);
}
@Override
public int hashCode() {
return Objects.hash(isBootstrapConfigured, nodes, unauthorizedTopics, invalidTopics, internalTopics, controller,
partitionsByTopicPartition, clusterResource);
}
}