/*
* Copyright (c) 2014 Cisco Systems, Inc. and others. All rights reserved.
*
* This program and the accompanying materials are made available under the
* terms of the Eclipse Public License v1.0 which accompanies this distribution,
* and is available at http://www.eclipse.org/legal/epl-v10.html
*/
package org.opendaylight.controller.cluster.raft.behaviors;
import akka.actor.ActorRef;
import akka.actor.ActorSelection;
import akka.actor.Cancellable;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Optional;
import com.google.common.base.Preconditions;
import com.google.protobuf.ByteString;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicLong;
import org.opendaylight.controller.cluster.raft.ClientRequestTracker;
import org.opendaylight.controller.cluster.raft.ClientRequestTrackerImpl;
import org.opendaylight.controller.cluster.raft.FollowerLogInformation;
import org.opendaylight.controller.cluster.raft.FollowerLogInformationImpl;
import org.opendaylight.controller.cluster.raft.RaftActorContext;
import org.opendaylight.controller.cluster.raft.RaftState;
import org.opendaylight.controller.cluster.raft.ReplicatedLogEntry;
import org.opendaylight.controller.cluster.raft.base.messages.CaptureSnapshot;
import org.opendaylight.controller.cluster.raft.base.messages.InitiateInstallSnapshot;
import org.opendaylight.controller.cluster.raft.base.messages.Replicate;
import org.opendaylight.controller.cluster.raft.base.messages.SendHeartBeat;
import org.opendaylight.controller.cluster.raft.base.messages.SendInstallSnapshot;
import org.opendaylight.controller.cluster.raft.messages.AppendEntries;
import org.opendaylight.controller.cluster.raft.messages.AppendEntriesReply;
import org.opendaylight.controller.cluster.raft.messages.InstallSnapshot;
import org.opendaylight.controller.cluster.raft.messages.InstallSnapshotReply;
import org.opendaylight.controller.cluster.raft.messages.RaftRPC;
import org.opendaylight.controller.cluster.raft.messages.RequestVoteReply;
import scala.concurrent.duration.FiniteDuration;
/**
* The behavior of a RaftActor when it is in the Leader state
*
* Leaders:
*
* - Upon election: send initial empty AppendEntries RPCs
* (heartbeat) to each server; repeat during idle periods to
* prevent election timeouts (§5.2)
*
- If command received from client: append entry to local log,
* respond after entry applied to state machine (§5.3)
*
- If last log index ≥ nextIndex for a follower: send
* AppendEntries RPC with log entries starting at nextIndex
*
* - If successful: update nextIndex and matchIndex for
* follower (§5.3)
*
- If AppendEntries fails because of log inconsistency:
* decrement nextIndex and retry (§5.3)
*
* - If there exists an N such that N > commitIndex, a majority
* of matchIndex[i] ≥ N, and log[N].term == currentTerm:
* set commitIndex = N (§5.3, §5.4).
*/
public abstract class AbstractLeader extends AbstractRaftActorBehavior {
// The index of the first chunk that is sent when installing a snapshot
public static final int FIRST_CHUNK_INDEX = 1;
// The index that the follower should respond with if it needs the install snapshot to be reset
public static final int INVALID_CHUNK_INDEX = -1;
// This would be passed as the hash code of the last chunk when sending the first chunk
public static final int INITIAL_LAST_CHUNK_HASH_CODE = -1;
protected final Map followerToLog = new HashMap<>();
protected final Map mapFollowerToSnapshot = new HashMap<>();
protected final Set followers;
private Cancellable heartbeatSchedule = null;
private List trackerList = new ArrayList<>();
protected final int minReplicationCount;
protected final int minIsolatedLeaderPeerCount;
private Optional snapshot;
public AbstractLeader(RaftActorContext context) {
super(context);
followers = context.getPeerAddresses().keySet();
for (String followerId : followers) {
FollowerLogInformation followerLogInformation =
new FollowerLogInformationImpl(followerId,
new AtomicLong(context.getCommitIndex()),
new AtomicLong(-1),
context.getConfigParams().getElectionTimeOutInterval());
followerToLog.put(followerId, followerLogInformation);
}
leaderId = context.getId();
if(LOG.isDebugEnabled()) {
LOG.debug("Election:Leader has following peers: {}", followers);
}
minReplicationCount = getMajorityVoteCount(followers.size());
// the isolated Leader peer count will be 1 less than the majority vote count.
// this is because the vote count has the self vote counted in it
// for e.g
// 0 peers = 1 votesRequired , minIsolatedLeaderPeerCount = 0
// 2 peers = 2 votesRequired , minIsolatedLeaderPeerCount = 1
// 4 peers = 3 votesRequired, minIsolatedLeaderPeerCount = 2
minIsolatedLeaderPeerCount = minReplicationCount > 0 ? (minReplicationCount - 1) : 0;
snapshot = Optional.absent();
// Immediately schedule a heartbeat
// Upon election: send initial empty AppendEntries RPCs
// (heartbeat) to each server; repeat during idle periods to
// prevent election timeouts (§5.2)
scheduleHeartBeat(new FiniteDuration(0, TimeUnit.SECONDS));
}
private Optional getSnapshot() {
return snapshot;
}
@VisibleForTesting
void setSnapshot(Optional snapshot) {
this.snapshot = snapshot;
}
@Override
protected RaftActorBehavior handleAppendEntries(ActorRef sender,
AppendEntries appendEntries) {
if(LOG.isDebugEnabled()) {
LOG.debug(appendEntries.toString());
}
return this;
}
@Override
protected RaftActorBehavior handleAppendEntriesReply(ActorRef sender,
AppendEntriesReply appendEntriesReply) {
if(! appendEntriesReply.isSuccess()) {
if(LOG.isDebugEnabled()) {
LOG.debug(appendEntriesReply.toString());
}
}
// Update the FollowerLogInformation
String followerId = appendEntriesReply.getFollowerId();
FollowerLogInformation followerLogInformation =
followerToLog.get(followerId);
if(followerLogInformation == null){
LOG.error("Unknown follower {}", followerId);
return this;
}
followerLogInformation.markFollowerActive();
if (appendEntriesReply.isSuccess()) {
followerLogInformation
.setMatchIndex(appendEntriesReply.getLogLastIndex());
followerLogInformation
.setNextIndex(appendEntriesReply.getLogLastIndex() + 1);
} else {
// TODO: When we find that the follower is out of sync with the
// Leader we simply decrement that followers next index by 1.
// Would it be possible to do better than this? The RAFT spec
// does not explicitly deal with it but may be something for us to
// think about
followerLogInformation.decrNextIndex();
}
// Now figure out if this reply warrants a change in the commitIndex
// If there exists an N such that N > commitIndex, a majority
// of matchIndex[i] ≥ N, and log[N].term == currentTerm:
// set commitIndex = N (§5.3, §5.4).
for (long N = context.getCommitIndex() + 1; ; N++) {
int replicatedCount = 1;
for (FollowerLogInformation info : followerToLog.values()) {
if (info.getMatchIndex().get() >= N) {
replicatedCount++;
}
}
if (replicatedCount >= minReplicationCount) {
ReplicatedLogEntry replicatedLogEntry = context.getReplicatedLog().get(N);
if (replicatedLogEntry != null &&
replicatedLogEntry.getTerm() == currentTerm()) {
context.setCommitIndex(N);
}
} else {
break;
}
}
// Apply the change to the state machine
if (context.getCommitIndex() > context.getLastApplied()) {
applyLogToStateMachine(context.getCommitIndex());
}
return this;
}
protected ClientRequestTracker removeClientRequestTracker(long logIndex) {
ClientRequestTracker toRemove = findClientRequestTracker(logIndex);
if(toRemove != null) {
trackerList.remove(toRemove);
}
return toRemove;
}
protected ClientRequestTracker findClientRequestTracker(long logIndex) {
for (ClientRequestTracker tracker : trackerList) {
if (tracker.getIndex() == logIndex) {
return tracker;
}
}
return null;
}
@Override
protected RaftActorBehavior handleRequestVoteReply(ActorRef sender,
RequestVoteReply requestVoteReply) {
return this;
}
@Override
public RaftState state() {
return RaftState.Leader;
}
@Override
public RaftActorBehavior handleMessage(ActorRef sender, Object originalMessage) {
Preconditions.checkNotNull(sender, "sender should not be null");
Object message = fromSerializableMessage(originalMessage);
if (message instanceof RaftRPC) {
RaftRPC rpc = (RaftRPC) message;
// If RPC request or response contains term T > currentTerm:
// set currentTerm = T, convert to follower (§5.1)
// This applies to all RPC messages and responses
if (rpc.getTerm() > context.getTermInformation().getCurrentTerm()) {
context.getTermInformation().updateAndPersist(rpc.getTerm(), null);
return switchBehavior(new Follower(context));
}
}
try {
if (message instanceof SendHeartBeat) {
sendHeartBeat();
return this;
} else if(message instanceof InitiateInstallSnapshot) {
installSnapshotIfNeeded();
} else if(message instanceof SendInstallSnapshot) {
// received from RaftActor
setSnapshot(Optional.of(((SendInstallSnapshot) message).getSnapshot()));
sendInstallSnapshot();
} else if (message instanceof Replicate) {
replicate((Replicate) message);
} else if (message instanceof InstallSnapshotReply){
handleInstallSnapshotReply((InstallSnapshotReply) message);
}
} finally {
scheduleHeartBeat(context.getConfigParams().getHeartBeatInterval());
}
return super.handleMessage(sender, message);
}
private void handleInstallSnapshotReply(InstallSnapshotReply reply) {
String followerId = reply.getFollowerId();
FollowerToSnapshot followerToSnapshot = mapFollowerToSnapshot.get(followerId);
FollowerLogInformation followerLogInformation = followerToLog.get(followerId);
followerLogInformation.markFollowerActive();
if (followerToSnapshot != null &&
followerToSnapshot.getChunkIndex() == reply.getChunkIndex()) {
if (reply.isSuccess()) {
if(followerToSnapshot.isLastChunk(reply.getChunkIndex())) {
//this was the last chunk reply
if(LOG.isDebugEnabled()) {
LOG.debug("InstallSnapshotReply received, " +
"last chunk received, Chunk:{}. Follower:{} Setting nextIndex:{}",
reply.getChunkIndex(), followerId,
context.getReplicatedLog().getSnapshotIndex() + 1
);
}
followerLogInformation.setMatchIndex(
context.getReplicatedLog().getSnapshotIndex());
followerLogInformation.setNextIndex(
context.getReplicatedLog().getSnapshotIndex() + 1);
mapFollowerToSnapshot.remove(followerId);
if(LOG.isDebugEnabled()) {
LOG.debug("followerToLog.get(followerId).getNextIndex().get()=" +
followerToLog.get(followerId).getNextIndex().get());
}
if (mapFollowerToSnapshot.isEmpty()) {
// once there are no pending followers receiving snapshots
// we can remove snapshot from the memory
setSnapshot(Optional.absent());
}
} else {
followerToSnapshot.markSendStatus(true);
}
} else {
LOG.info("InstallSnapshotReply received, " +
"sending snapshot chunk failed, Will retry, Chunk:{}",
reply.getChunkIndex()
);
followerToSnapshot.markSendStatus(false);
}
} else {
LOG.error("ERROR!!" +
"FollowerId in InstallSnapshotReply not known to Leader" +
" or Chunk Index in InstallSnapshotReply not matching {} != {}",
followerToSnapshot.getChunkIndex(), reply.getChunkIndex()
);
if(reply.getChunkIndex() == INVALID_CHUNK_INDEX){
// Since the Follower did not find this index to be valid we should reset the follower snapshot
// so that Installing the snapshot can resume from the beginning
followerToSnapshot.reset();
}
}
}
private void replicate(Replicate replicate) {
long logIndex = replicate.getReplicatedLogEntry().getIndex();
if(LOG.isDebugEnabled()) {
LOG.debug("Replicate message {}", logIndex);
}
// Create a tracker entry we will use this later to notify the
// client actor
trackerList.add(
new ClientRequestTrackerImpl(replicate.getClientActor(),
replicate.getIdentifier(),
logIndex)
);
if (followers.size() == 0) {
context.setCommitIndex(logIndex);
applyLogToStateMachine(logIndex);
} else {
sendAppendEntries();
}
}
private void sendAppendEntries() {
// Send an AppendEntries to all followers
for (String followerId : followers) {
ActorSelection followerActor = context.getPeerActorSelection(followerId);
if (followerActor != null) {
FollowerLogInformation followerLogInformation = followerToLog.get(followerId);
long followerNextIndex = followerLogInformation.getNextIndex().get();
boolean isFollowerActive = followerLogInformation.isFollowerActive();
List entries = null;
if (mapFollowerToSnapshot.get(followerId) != null) {
// if install snapshot is in process , then sent next chunk if possible
if (isFollowerActive && mapFollowerToSnapshot.get(followerId).canSendNextChunk()) {
sendSnapshotChunk(followerActor, followerId);
} else {
// we send a heartbeat even if we have not received a reply for the last chunk
sendAppendEntriesToFollower(followerActor, followerNextIndex,
Collections.emptyList());
}
} else {
long leaderLastIndex = context.getReplicatedLog().lastIndex();
long leaderSnapShotIndex = context.getReplicatedLog().getSnapshotIndex();
if (isFollowerActive &&
context.getReplicatedLog().isPresent(followerNextIndex)) {
// FIXME : Sending one entry at a time
entries = context.getReplicatedLog().getFrom(followerNextIndex, 1);
} else if (isFollowerActive && followerNextIndex >= 0 &&
leaderLastIndex >= followerNextIndex ) {
// if the followers next index is not present in the leaders log, and
// if the follower is just not starting and if leader's index is more than followers index
// then snapshot should be sent
if(LOG.isDebugEnabled()) {
LOG.debug("InitiateInstallSnapshot to follower:{}," +
"follower-nextIndex:{}, leader-snapshot-index:{}, " +
"leader-last-index:{}", followerId,
followerNextIndex, leaderSnapShotIndex, leaderLastIndex
);
}
actor().tell(new InitiateInstallSnapshot(), actor());
// we would want to sent AE as the capture snapshot might take time
entries = Collections.emptyList();
} else {
//we send an AppendEntries, even if the follower is inactive
// in-order to update the followers timestamp, in case it becomes active again
entries = Collections.emptyList();
}
sendAppendEntriesToFollower(followerActor, followerNextIndex, entries);
}
}
}
}
private void sendAppendEntriesToFollower(ActorSelection followerActor, long followerNextIndex,
List entries) {
followerActor.tell(
new AppendEntries(currentTerm(), context.getId(),
prevLogIndex(followerNextIndex),
prevLogTerm(followerNextIndex), entries,
context.getCommitIndex()).toSerializable(),
actor()
);
}
/**
* An installSnapshot is scheduled at a interval that is a multiple of
* a HEARTBEAT_INTERVAL. This is to avoid the need to check for installing
* snapshots at every heartbeat.
*
* Install Snapshot works as follows
* 1. Leader sends a InitiateInstallSnapshot message to self
* 2. Leader then initiates the capture snapshot by sending a CaptureSnapshot message to actor
* 3. RaftActor on receipt of the CaptureSnapshotReply (from Shard), stores the received snapshot in the replicated log
* and makes a call to Leader's handleMessage , with SendInstallSnapshot message.
* 4. Leader , picks the snapshot from im-mem ReplicatedLog and sends it in chunks to the Follower
* 5. On complete, Follower sends back a InstallSnapshotReply.
* 6. On receipt of the InstallSnapshotReply for the last chunk, Leader marks the install complete for that follower
* and replenishes the memory by deleting the snapshot in Replicated log.
*
*/
private void installSnapshotIfNeeded() {
for (String followerId : followers) {
ActorSelection followerActor =
context.getPeerActorSelection(followerId);
if(followerActor != null) {
FollowerLogInformation followerLogInformation =
followerToLog.get(followerId);
long nextIndex = followerLogInformation.getNextIndex().get();
if (!context.getReplicatedLog().isPresent(nextIndex) &&
context.getReplicatedLog().isInSnapshot(nextIndex)) {
LOG.info("{} follower needs a snapshot install", followerId);
if (snapshot.isPresent()) {
// if a snapshot is present in the memory, most likely another install is in progress
// no need to capture snapshot
sendSnapshotChunk(followerActor, followerId);
} else {
initiateCaptureSnapshot();
//we just need 1 follower who would need snapshot to be installed.
// when we have the snapshot captured, we would again check (in SendInstallSnapshot)
// who needs an install and send to all who need
break;
}
}
}
}
}
// on every install snapshot, we try to capture the snapshot.
// Once a capture is going on, another one issued will get ignored by RaftActor.
private void initiateCaptureSnapshot() {
LOG.info("Initiating Snapshot Capture to Install Snapshot, Leader:{}", getLeaderId());
ReplicatedLogEntry lastAppliedEntry = context.getReplicatedLog().get(context.getLastApplied());
long lastAppliedIndex = -1;
long lastAppliedTerm = -1;
if (lastAppliedEntry != null) {
lastAppliedIndex = lastAppliedEntry.getIndex();
lastAppliedTerm = lastAppliedEntry.getTerm();
} else if (context.getReplicatedLog().getSnapshotIndex() > -1) {
lastAppliedIndex = context.getReplicatedLog().getSnapshotIndex();
lastAppliedTerm = context.getReplicatedLog().getSnapshotTerm();
}
boolean isInstallSnapshotInitiated = true;
actor().tell(new CaptureSnapshot(lastIndex(), lastTerm(),
lastAppliedIndex, lastAppliedTerm, isInstallSnapshotInitiated),
actor());
}
private void sendInstallSnapshot() {
for (String followerId : followers) {
ActorSelection followerActor = context.getPeerActorSelection(followerId);
if(followerActor != null) {
FollowerLogInformation followerLogInformation = followerToLog.get(followerId);
long nextIndex = followerLogInformation.getNextIndex().get();
if (!context.getReplicatedLog().isPresent(nextIndex) &&
context.getReplicatedLog().isInSnapshot(nextIndex)) {
sendSnapshotChunk(followerActor, followerId);
}
}
}
}
/**
* Sends a snapshot chunk to a given follower
* InstallSnapshot should qualify as a heartbeat too.
*/
private void sendSnapshotChunk(ActorSelection followerActor, String followerId) {
try {
if (snapshot.isPresent()) {
followerActor.tell(
new InstallSnapshot(currentTerm(), context.getId(),
context.getReplicatedLog().getSnapshotIndex(),
context.getReplicatedLog().getSnapshotTerm(),
getNextSnapshotChunk(followerId,snapshot.get()),
mapFollowerToSnapshot.get(followerId).incrementChunkIndex(),
mapFollowerToSnapshot.get(followerId).getTotalChunks(),
Optional.of(mapFollowerToSnapshot.get(followerId).getLastChunkHashCode())
).toSerializable(),
actor()
);
LOG.info("InstallSnapshot sent to follower {}, Chunk: {}/{}",
followerActor.path(), mapFollowerToSnapshot.get(followerId).getChunkIndex(),
mapFollowerToSnapshot.get(followerId).getTotalChunks());
}
} catch (IOException e) {
LOG.error(e, "InstallSnapshot failed for Leader.");
}
}
/**
* Acccepts snaphot as ByteString, enters into map for future chunks
* creates and return a ByteString chunk
*/
private ByteString getNextSnapshotChunk(String followerId, ByteString snapshotBytes) throws IOException {
FollowerToSnapshot followerToSnapshot = mapFollowerToSnapshot.get(followerId);
if (followerToSnapshot == null) {
followerToSnapshot = new FollowerToSnapshot(snapshotBytes);
mapFollowerToSnapshot.put(followerId, followerToSnapshot);
}
ByteString nextChunk = followerToSnapshot.getNextChunk();
if (LOG.isDebugEnabled()) {
LOG.debug("Leader's snapshot nextChunk size:{}", nextChunk.size());
}
return nextChunk;
}
private void sendHeartBeat() {
if (followers.size() > 0) {
sendAppendEntries();
}
}
private void stopHeartBeat() {
if (heartbeatSchedule != null && !heartbeatSchedule.isCancelled()) {
heartbeatSchedule.cancel();
}
}
private void scheduleHeartBeat(FiniteDuration interval) {
if(followers.size() == 0){
// Optimization - do not bother scheduling a heartbeat as there are
// no followers
return;
}
stopHeartBeat();
// Schedule a heartbeat. When the scheduler triggers a SendHeartbeat
// message is sent to itself.
// Scheduling the heartbeat only once here because heartbeats do not
// need to be sent if there are other messages being sent to the remote
// actor.
heartbeatSchedule = context.getActorSystem().scheduler().scheduleOnce(
interval, context.getActor(), new SendHeartBeat(),
context.getActorSystem().dispatcher(), context.getActor());
}
@Override
public void close() throws Exception {
stopHeartBeat();
}
@Override
public String getLeaderId() {
return context.getId();
}
protected boolean isLeaderIsolated() {
int minPresent = minIsolatedLeaderPeerCount;
for (FollowerLogInformation followerLogInformation : followerToLog.values()) {
if (followerLogInformation.isFollowerActive()) {
--minPresent;
if (minPresent == 0) {
break;
}
}
}
return (minPresent != 0);
}
/**
* Encapsulates the snapshot bytestring and handles the logic of sending
* snapshot chunks
*/
protected class FollowerToSnapshot {
private ByteString snapshotBytes;
private int offset = 0;
// the next snapshot chunk is sent only if the replyReceivedForOffset matches offset
private int replyReceivedForOffset;
// if replyStatus is false, the previous chunk is attempted
private boolean replyStatus = false;
private int chunkIndex;
private int totalChunks;
private int lastChunkHashCode = AbstractLeader.INITIAL_LAST_CHUNK_HASH_CODE;
private int nextChunkHashCode = AbstractLeader.INITIAL_LAST_CHUNK_HASH_CODE;
public FollowerToSnapshot(ByteString snapshotBytes) {
this.snapshotBytes = snapshotBytes;
int size = snapshotBytes.size();
totalChunks = ( size / context.getConfigParams().getSnapshotChunkSize()) +
((size % context.getConfigParams().getSnapshotChunkSize()) > 0 ? 1 : 0);
if(LOG.isDebugEnabled()) {
LOG.debug("Snapshot {} bytes, total chunks to send:{}",
size, totalChunks);
}
replyReceivedForOffset = -1;
chunkIndex = AbstractLeader.FIRST_CHUNK_INDEX;
}
public ByteString getSnapshotBytes() {
return snapshotBytes;
}
public int incrementOffset() {
if(replyStatus) {
// if prev chunk failed, we would want to sent the same chunk again
offset = offset + context.getConfigParams().getSnapshotChunkSize();
}
return offset;
}
public int incrementChunkIndex() {
if (replyStatus) {
// if prev chunk failed, we would want to sent the same chunk again
chunkIndex = chunkIndex + 1;
}
return chunkIndex;
}
public int getChunkIndex() {
return chunkIndex;
}
public int getTotalChunks() {
return totalChunks;
}
public boolean canSendNextChunk() {
// we only send a false if a chunk is sent but we have not received a reply yet
return replyReceivedForOffset == offset;
}
public boolean isLastChunk(int chunkIndex) {
return totalChunks == chunkIndex;
}
public void markSendStatus(boolean success) {
if (success) {
// if the chunk sent was successful
replyReceivedForOffset = offset;
replyStatus = true;
lastChunkHashCode = nextChunkHashCode;
} else {
// if the chunk sent was failure
replyReceivedForOffset = offset;
replyStatus = false;
}
}
public ByteString getNextChunk() {
int snapshotLength = getSnapshotBytes().size();
int start = incrementOffset();
int size = context.getConfigParams().getSnapshotChunkSize();
if (context.getConfigParams().getSnapshotChunkSize() > snapshotLength) {
size = snapshotLength;
} else {
if ((start + context.getConfigParams().getSnapshotChunkSize()) > snapshotLength) {
size = snapshotLength - start;
}
}
if(LOG.isDebugEnabled()) {
LOG.debug("length={}, offset={},size={}",
snapshotLength, start, size);
}
ByteString substring = getSnapshotBytes().substring(start, start + size);
nextChunkHashCode = substring.hashCode();
return substring;
}
/**
* reset should be called when the Follower needs to be sent the snapshot from the beginning
*/
public void reset(){
offset = 0;
replyStatus = false;
replyReceivedForOffset = offset;
chunkIndex = AbstractLeader.FIRST_CHUNK_INDEX;
lastChunkHashCode = AbstractLeader.INITIAL_LAST_CHUNK_HASH_CODE;
}
public int getLastChunkHashCode() {
return lastChunkHashCode;
}
}
// called from example-actor for printing the follower-states
public String printFollowerStates() {
StringBuilder sb = new StringBuilder();
for(FollowerLogInformation followerLogInformation : followerToLog.values()) {
boolean isFollowerActive = followerLogInformation.isFollowerActive();
sb.append("{"+followerLogInformation.getId() + " state:" + isFollowerActive + "},");
}
return "[" + sb.toString() + "]";
}
@VisibleForTesting
void markFollowerActive(String followerId) {
followerToLog.get(followerId).markFollowerActive();
}
}