cmccabe commented on a change in pull request #10070: URL: https://github.com/apache/kafka/pull/10070#discussion_r578619727
########## File path: metadata/src/main/java/org/apache/kafka/controller/BrokerHeartbeatManager.java ########## @@ -0,0 +1,585 @@ +/* + * 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.controller; + +import org.apache.kafka.common.errors.InvalidReplicationFactorException; +import org.apache.kafka.common.message.BrokerHeartbeatRequestData; +import org.apache.kafka.common.utils.LogContext; +import org.apache.kafka.common.utils.Time; +import org.apache.kafka.metadata.UsableBroker; +import org.slf4j.Logger; + +import java.util.ArrayList; +import java.util.Comparator; +import java.util.HashMap; +import java.util.Iterator; +import java.util.List; +import java.util.NoSuchElementException; +import java.util.Optional; +import java.util.TreeSet; +import java.util.function.Function; + +import static org.apache.kafka.controller.BrokerControlState.FENCED; +import static org.apache.kafka.controller.BrokerControlState.CONTROLLED_SHUTDOWN; +import static org.apache.kafka.controller.BrokerControlState.SHUTDOWN_NOW; +import static org.apache.kafka.controller.BrokerControlState.UNFENCED; + + +/** + * The BrokerHeartbeatManager manages all the soft state associated with broker heartbeats. + * Soft state is state which does not appear in the metadata log. This state includes + * things like the last time each broker sent us a heartbeat, and whether the broker is + * trying to perform a controlled shutdown. + * + * Only the active controller has a BrokerHeartbeatManager, since only the active + * controller handles broker heartbeats. Standby controllers will create a heartbeat + * manager as part of the process of activating. This design minimizes the size of the + * metadata partition by excluding heartbeats from it. However, it does mean that after + * a controller failover, we may take some extra time to fence brokers, since the new + * active controller does not know when the last heartbeats were received from each. + */ +public class BrokerHeartbeatManager { + static class BrokerHeartbeatState { + /** + * The broker ID. + */ + private final int id; + + /** + * The last time we received a heartbeat from this broker, in monotonic nanoseconds. + * When this field is updated, we also may have to update the broker's position in + * the unfenced list. + */ + long lastContactNs; + + /** + * The last metadata offset which this broker reported. When this field is updated, + * we may also have to update the broker's position in the active set. + */ + long metadataOffset; + + /** + * The offset at which the broker should complete its controlled shutdown, or -1 + * if the broker is not performing a controlled shutdown. When this field is + * updated, we also have to update the broker's position in the shuttingDown set. + */ + private long controlledShutDownOffset; + + /** + * The previous entry in the unfenced list, or null if the broker is not in that list. + */ + private BrokerHeartbeatState prev; + + /** + * The next entry in the unfenced list, or null if the broker is not in that list. + */ + private BrokerHeartbeatState next; + + BrokerHeartbeatState(int id) { + this.id = id; + this.lastContactNs = 0; + this.prev = null; + this.next = null; + this.metadataOffset = -1; + this.controlledShutDownOffset = -1; + } + + /** + * Returns the broker ID. + */ + int id() { + return id; + } + + /** + * Returns true only if the broker is fenced. + */ + boolean fenced() { + return prev == null; + } + + /** + * Returns true only if the broker is in controlled shutdown state. + */ + boolean shuttingDown() { + return controlledShutDownOffset >= 0; + } + } + + static class MetadataOffsetComparator implements Comparator<BrokerHeartbeatState> { + static final MetadataOffsetComparator INSTANCE = new MetadataOffsetComparator(); + + @Override + public int compare(BrokerHeartbeatState a, BrokerHeartbeatState b) { + if (a.metadataOffset < b.metadataOffset) { + return -1; + } else if (a.metadataOffset > b.metadataOffset) { + return 1; + } else if (a.id < b.id) { + return -1; + } else if (a.id > b.id) { + return 1; + } else { + return 0; + } + } + } + + static class BrokerHeartbeatStateList { + /** + * The head of the list of unfenced brokers. The list is sorted in ascending order + * of last contact time. + */ + private final BrokerHeartbeatState head; + + BrokerHeartbeatStateList() { + this.head = new BrokerHeartbeatState(-1); + head.prev = head; + head.next = head; + } + + /** + * Return the head of the list, or null if the list is empty. + */ + BrokerHeartbeatState first() { + BrokerHeartbeatState result = head.next; + return result == head ? null : result; + } + + /** + * Add the broker to the list. We start looking for a place to put it at the end + * of the list. + */ + void add(BrokerHeartbeatState broker) { + BrokerHeartbeatState cur = head.prev; + while (true) { + if (cur == head || cur.lastContactNs <= broker.lastContactNs) { + broker.next = cur.next; + cur.next.prev = broker; + broker.prev = cur; + cur.next = broker; + break; + } + cur = cur.prev; + } + } + + /** + * Remove a broker from the list. + */ + void remove(BrokerHeartbeatState broker) { + if (broker.next == null) { + throw new RuntimeException(broker + " is not in the list."); + } + broker.prev.next = broker.next; + broker.next.prev = broker.prev; + broker.prev = null; + broker.next = null; + } + + BrokerHeartbeatStateIterator iterator() { + return new BrokerHeartbeatStateIterator(head); + } + } + + static class BrokerHeartbeatStateIterator implements Iterator<BrokerHeartbeatState> { + private final BrokerHeartbeatState head; + private BrokerHeartbeatState cur; + + BrokerHeartbeatStateIterator(BrokerHeartbeatState head) { + this.head = head; + this.cur = head; + } + + @Override + public boolean hasNext() { + return cur.next != head; + } + + @Override + public BrokerHeartbeatState next() { + if (!hasNext()) { + throw new NoSuchElementException(); + } + BrokerHeartbeatState result = cur.next; + cur = cur.next; + return result; + } + } + + private final Logger log; + + /** + * The Kafka clock object to use. + */ + private final Time time; + + /** + * The broker session timeout in nanoseconds. + */ + private final long sessionTimeoutNs; + + /** + * Maps broker IDs to heartbeat states. + */ + private final HashMap<Integer, BrokerHeartbeatState> brokers; + + /** + * The list of unfenced brokers, sorted by last contact time. + */ + private final BrokerHeartbeatStateList unfenced; + + /** + * The set of active brokers. A broker is active if it is unfenced, and not shutting + * down. + */ + private final TreeSet<BrokerHeartbeatState> active; + + BrokerHeartbeatManager(LogContext logContext, + Time time, + long sessionTimeoutNs) { + this.log = logContext.logger(BrokerHeartbeatManager.class); + this.time = time; + this.sessionTimeoutNs = sessionTimeoutNs; + this.brokers = new HashMap<>(); + this.unfenced = new BrokerHeartbeatStateList(); + this.active = new TreeSet<>(MetadataOffsetComparator.INSTANCE); + } + + // VisibleForTesting + Time time() { + return time; + } + + // VisibleForTesting + BrokerHeartbeatStateList unfenced() { + return unfenced; + } + + /** + * Mark a broker as fenced. + * + * @param brokerId The ID of the broker to mark as fenced. + */ + void fence(int brokerId) { + BrokerHeartbeatState broker = brokers.get(brokerId); + if (broker != null) { + untrack(broker); + } + } + + /** + * Remove a broker. + * + * @param brokerId The ID of the broker to remove. + */ + void remove(int brokerId) { + BrokerHeartbeatState broker = brokers.remove(brokerId); + if (broker != null) { + untrack(broker); + } + } + + /** + * Stop tracking the broker in the unfenced list and active set, if it was tracked + * in either of these. + * + * @param broker The broker state to stop tracking. + */ + private void untrack(BrokerHeartbeatState broker) { + if (!broker.fenced()) { + unfenced.remove(broker); + if (!broker.shuttingDown()) { + active.remove(broker); + } + } + } + + /** + * Check if the given broker has a valid session. + * + * @param brokerId The broker ID to check. + * + * @return True if the given broker has a valid session. + */ + boolean hasValidSession(int brokerId) { + BrokerHeartbeatState broker = brokers.get(brokerId); + if (broker == null) return false; + return hasValidSession(broker); + } + + /** + * Check if the given broker has a valid session. + * + * @param broker The broker to check. + * + * @return True if the given broker has a valid session. + */ + private boolean hasValidSession(BrokerHeartbeatState broker) { + if (broker.fenced()) { + return false; + } else { + return broker.lastContactNs + sessionTimeoutNs >= time.nanoseconds(); + } + } + + /** + * Update broker state, including lastContactNs. + * + * @param brokerId The broker ID. + * @param fenced True only if the broker is currently fenced. + * @param metadataOffset The latest metadata offset of the broker. + */ + void touch(int brokerId, boolean fenced, long metadataOffset) { + BrokerHeartbeatState broker = brokers.get(brokerId); + if (broker == null) { + broker = new BrokerHeartbeatState(brokerId); + brokers.put(brokerId, broker); + } else { + // Remove the broker from the unfenced list and/or the active set. Its + // position in either of those data structures depends on values we are + // changing here. We will re-add it if necessary at the end of this function. + untrack(broker); + } + broker.lastContactNs = time.nanoseconds(); + broker.metadataOffset = metadataOffset; + if (fenced) { + // If a broker is fenced, it leaves controlled shutdown. On its next heartbeat, + // it will shut down immediately. + broker.controlledShutDownOffset = -1; + } else { + unfenced.add(broker); + if (!broker.shuttingDown()) { + active.add(broker); + } + } + } + + long lowestActiveOffset() { + Iterator<BrokerHeartbeatState> iterator = active.iterator(); + if (!iterator.hasNext()) { + return Long.MAX_VALUE; + } + BrokerHeartbeatState first = iterator.next(); + return first.metadataOffset; + } + + /** + * Mark a broker as being in the controlled shutdown state. + * + * @param brokerId The broker id. + * @param controlledShutDownOffset The offset at which controlled shutdown will be complete. + */ + void updateControlledShutdownOffset(int brokerId, long controlledShutDownOffset) { + BrokerHeartbeatState broker = brokers.get(brokerId); + if (broker == null) { + throw new RuntimeException("Unable to locate broker " + brokerId); + } + if (broker.fenced()) { + throw new RuntimeException("Fenced brokers cannot enter controlled shutdown."); + } + active.remove(broker); + broker.controlledShutDownOffset = controlledShutDownOffset; + log.debug("Updated the controlled shutdown offset for broker {} to {}.", + brokerId, controlledShutDownOffset); + } + + /** + * Return the time in monotonic nanoseconds at which we should check if a broker + * session needs to be expired. + */ + long nextCheckTimeNs() { + BrokerHeartbeatState broker = unfenced.first(); + if (broker == null) { + return Long.MAX_VALUE; + } else { + return broker.lastContactNs + sessionTimeoutNs; + } + } + + /** + * Find the stale brokers which haven't heartbeated in a long time, and which need to + * be fenced. + * + * @return A list of node IDs. + */ + List<Integer> findStaleBrokers() { + List<Integer> nodes = new ArrayList<>(); + BrokerHeartbeatStateIterator iterator = unfenced.iterator(); + while (iterator.hasNext()) { + BrokerHeartbeatState broker = iterator.next(); + if (hasValidSession(broker)) { + break; + } + nodes.add(broker.id); + } + return nodes; + } + + /** + * Place replicas on unfenced brokers. + * + * @param numPartitions The number of partitions to place. + * @param numReplicas The number of replicas for each partition. + * @param idToRack A function mapping broker id to broker rack. + * @param policy The replica placement policy to use. + * + * @return A list of replica lists. + * + * @throws InvalidReplicationFactorException If too many replicas were requested. + */ + List<List<Integer>> placeReplicas(int numPartitions, short numReplicas, + Function<Integer, Optional<String>> idToRack, + ReplicaPlacementPolicy policy) { + // TODO: support using fenced brokers here if necessary to get to the desired + // number of replicas. We probably need to add a fenced boolean in UsableBroker. + Iterator<UsableBroker> iterator = new UsableBrokerIterator( + unfenced.iterator(), idToRack); + return policy.createPlacement(numPartitions, numReplicas, iterator); + } + + static class UsableBrokerIterator implements Iterator<UsableBroker> { + private final Iterator<BrokerHeartbeatState> iterator; + private final Function<Integer, Optional<String>> idToRack; + private UsableBroker next; + + UsableBrokerIterator(Iterator<BrokerHeartbeatState> iterator, + Function<Integer, Optional<String>> idToRack) { + this.iterator = iterator; + this.idToRack = idToRack; + this.next = null; + } + + @Override + public boolean hasNext() { + if (next != null) { + return true; + } + BrokerHeartbeatState result; + do { + if (!iterator.hasNext()) { + return false; + } + result = iterator.next(); + } while (result.shuttingDown()); + Optional<String> rack = idToRack.apply(result.id()); + next = new UsableBroker(result.id(), rack); + return true; + } + + @Override + public UsableBroker next() { + if (!hasNext()) { + throw new NoSuchElementException(); + } + UsableBroker result = next; + next = null; + return result; + } + } + + BrokerControlState currentBrokerState(BrokerHeartbeatState broker) { + if (broker.shuttingDown()) { + return CONTROLLED_SHUTDOWN; + } else if (broker.fenced()) { + return FENCED; + } else { + return UNFENCED; + } + } + + /** + * Calculate the next broker state for a broker that just sent a heartbeat request. + * + * @param brokerId The broker id. + * @param request The incoming heartbeat request. + * @param lastCommittedOffset The last committed offset of the quorum controller. + * @param hasLeaderships True if the broker leads at least one partition. + * + * @return The current and next broker states. + */ + BrokerControlStates calculateNextBrokerState(int brokerId, + BrokerHeartbeatRequestData request, + long lastCommittedOffset, + boolean hasLeaderships) { + BrokerHeartbeatState broker = brokers.getOrDefault(brokerId, + new BrokerHeartbeatState(brokerId)); + BrokerControlState currentState = currentBrokerState(broker); + switch (currentState) { + case FENCED: + if (request.wantShutDown()) { + log.info("Fenced broker {} has requested and been granted an immediate " + + "shutdown.", brokerId); + return new BrokerControlStates(currentState, SHUTDOWN_NOW); + } else if (!request.wantFence()) { + if (request.currentMetadataOffset() >= lastCommittedOffset) { + log.info("The request from broker {} to unfence has been granted " + + "because it has caught up with the last committed metadata " + + "offset {}.", brokerId, lastCommittedOffset); + return new BrokerControlStates(currentState, UNFENCED); + } else { + if (log.isDebugEnabled()) { + log.debug("The request from broker {} to unfence cannot yet " + + "be granted because it has not caught up with the last " + + "committed metadata offset {}. It is still at offset {}.", + brokerId, lastCommittedOffset, request.currentMetadataOffset()); + } + return new BrokerControlStates(currentState, FENCED); + } + } + return new BrokerControlStates(currentState, FENCED); + + case UNFENCED: + if (request.wantShutDown()) { + if (hasLeaderships) { + log.info("Unfenced broker {} has requested and been granted a " + + "controlled shutdown.", brokerId); + return new BrokerControlStates(currentState, CONTROLLED_SHUTDOWN); + } else { + log.info("Unfenced broker {} has requested and been granted an " + + "immediate shutdown.", brokerId); + return new BrokerControlStates(currentState, SHUTDOWN_NOW); Review comment: OK, that makes sense. I will remove it from all non-singleton ISRs as well as removing it from all leaderships. ---------------------------------------------------------------- This is an automated message from the Apache Git Service. To respond to the message, please log on to GitHub and use the URL above to go to the specific comment. For queries about this service, please contact Infrastructure at: us...@infra.apache.org
