package org.opendaylight.controller.cluster.raft;
-import akka.persistence.UntypedEventsourcedProcessor;
+import akka.actor.ActorRef;
+import akka.actor.ActorSelection;
+import akka.event.Logging;
+import akka.event.LoggingAdapter;
+import akka.japi.Procedure;
+import akka.persistence.RecoveryCompleted;
+import akka.persistence.SaveSnapshotFailure;
+import akka.persistence.SaveSnapshotSuccess;
+import akka.persistence.SnapshotOffer;
+import akka.persistence.SnapshotSelectionCriteria;
+import akka.persistence.UntypedPersistentActor;
+import org.opendaylight.controller.cluster.raft.base.messages.ApplySnapshot;
+import org.opendaylight.controller.cluster.raft.base.messages.ApplyState;
+import org.opendaylight.controller.cluster.raft.base.messages.Replicate;
+import com.google.common.base.Optional;
import org.opendaylight.controller.cluster.raft.behaviors.Candidate;
import org.opendaylight.controller.cluster.raft.behaviors.Follower;
import org.opendaylight.controller.cluster.raft.behaviors.Leader;
import org.opendaylight.controller.cluster.raft.behaviors.RaftActorBehavior;
+import org.opendaylight.controller.cluster.raft.client.messages.AddRaftPeer;
+import org.opendaylight.controller.cluster.raft.client.messages.FindLeader;
+import org.opendaylight.controller.cluster.raft.client.messages.FindLeaderReply;
+import org.opendaylight.controller.cluster.raft.client.messages.RemoveRaftPeer;
+import org.opendaylight.controller.cluster.raft.protobuff.client.messages.Payload;
-import java.util.Collections;
+import java.io.Serializable;
+import java.util.List;
+import java.util.Map;
/**
* RaftActor encapsulates a state machine that needs to be kept synchronized
* in a cluster. It implements the RAFT algorithm as described in the paper
* <a href='https://ramcloud.stanford.edu/wiki/download/attachments/11370504/raft.pdf'>
- * In Search of an Understandable Consensus Algorithm</a>
- * <p>
+ * In Search of an Understandable Consensus Algorithm</a>
+ * <p/>
* RaftActor has 3 states and each state has a certain behavior associated
* with it. A Raft actor can behave as,
* <ul>
- * <li> A Leader </li>
- * <li> A Follower (or) </li>
- * <li> A Candidate </li>
+ * <li> A Leader </li>
+ * <li> A Follower (or) </li>
+ * <li> A Candidate </li>
* </ul>
- *
- * <p>
+ * <p/>
+ * <p/>
* A RaftActor MUST be a Leader in order to accept requests from clients to
* change the state of it's encapsulated state machine. Once a RaftActor becomes
* a Leader it is also responsible for ensuring that all followers ultimately
* have the same log and therefore the same state machine as itself.
- *
- * <p>
+ * <p/>
+ * <p/>
* The current behavior of a RaftActor determines how election for leadership
* is initiated and how peer RaftActors react to request for votes.
- *
- * <p>
+ * <p/>
+ * <p/>
* Each RaftActor also needs to know the current election term. It uses this
* information for a couple of things. One is to simply figure out who it
* voted for in the last election. Another is to figure out if the message
* it received to update it's state is stale.
- *
- * <p>
+ * <p/>
+ * <p/>
* The RaftActor uses akka-persistence to store it's replicated log.
* Furthermore through it's behaviors a Raft Actor determines
- *
+ * <p/>
* <ul>
* <li> when a log entry should be persisted </li>
* <li> when a log entry should be applied to the state machine (and) </li>
* <li> when a snapshot should be saved </li>
* </ul>
- *
- * <a href="http://doc.akka.io/api/akka/2.3.3/index.html#akka.persistence.UntypedEventsourcedProcessor">UntypeEventSourceProcessor</a>
*/
-public abstract class RaftActor extends UntypedEventsourcedProcessor {
+public abstract class RaftActor extends UntypedPersistentActor {
+ protected final LoggingAdapter LOG =
+ Logging.getLogger(getContext().system(), this);
/**
- * The current state determines the current behavior of a RaftActor
+ * The current state determines the current behavior of a RaftActor
* A Raft Actor always starts off in the Follower State
*/
private RaftActorBehavior currentBehavior;
*/
private RaftActorContext context;
- public RaftActor(String id){
+ /**
+ * The in-memory journal
+ */
+ private ReplicatedLogImpl replicatedLog = new ReplicatedLogImpl();
+
+
+ public RaftActor(String id, Map<String, String> peerAddresses) {
+ this(id, peerAddresses, Optional.<ConfigParams>absent());
+ }
+
+ public RaftActor(String id, Map<String, String> peerAddresses,
+ Optional<ConfigParams> configParams) {
+
context = new RaftActorContextImpl(this.getSelf(),
- this.getContext(),
- id, new ElectionTermImpl(id),
- 0, 0, new ReplicatedLogImpl());
- currentBehavior = switchBehavior(RaftState.Follower);
+ this.getContext(), id, new ElectionTermImpl(),
+ -1, -1, replicatedLog, peerAddresses,
+ (configParams.isPresent() ? configParams.get(): new DefaultConfigParamsImpl()),
+ LOG);
}
@Override public void onReceiveRecover(Object message) {
- throw new UnsupportedOperationException("onReceiveRecover");
+ if (message instanceof SnapshotOffer) {
+ LOG.debug("SnapshotOffer called..");
+ SnapshotOffer offer = (SnapshotOffer) message;
+ Snapshot snapshot = (Snapshot) offer.snapshot();
+
+ // Create a replicated log with the snapshot information
+ // The replicated log can be used later on to retrieve this snapshot
+ // when we need to install it on a peer
+ replicatedLog = new ReplicatedLogImpl(snapshot);
+
+ context.setReplicatedLog(replicatedLog);
+
+ LOG.debug("Applied snapshot to replicatedLog. " +
+ "snapshotIndex={}, snapshotTerm={}, journal-size={}",
+ replicatedLog.snapshotIndex, replicatedLog.snapshotTerm,
+ replicatedLog.size());
+
+ // Apply the snapshot to the actors state
+ applySnapshot(snapshot.getState());
+
+ } else if (message instanceof ReplicatedLogEntry) {
+ replicatedLog.append((ReplicatedLogEntry) message);
+ } else if (message instanceof DeleteEntries) {
+ replicatedLog.removeFrom(((DeleteEntries) message).getFromIndex());
+ } else if (message instanceof UpdateElectionTerm) {
+ context.getTermInformation().update(((UpdateElectionTerm) message).getCurrentTerm(), ((UpdateElectionTerm) message).getVotedFor());
+ } else if (message instanceof RecoveryCompleted) {
+ LOG.debug(
+ "RecoveryCompleted - Switching actor to Follower - " +
+ "Last index in log:{}, snapshotIndex={}, snapshotTerm={}, " +
+ "journal-size={}",
+ replicatedLog.lastIndex(), replicatedLog.snapshotIndex,
+ replicatedLog.snapshotTerm, replicatedLog.size());
+ currentBehavior = switchBehavior(RaftState.Follower);
+ onStateChanged();
+ }
}
@Override public void onReceiveCommand(Object message) {
- RaftState state = currentBehavior.handleMessage(getSender(), message);
- currentBehavior = switchBehavior(state);
+ if (message instanceof ApplyState){
+ ApplyState applyState = (ApplyState) message;
+
+ LOG.debug("Applying state for log index {} data {}",
+ applyState.getReplicatedLogEntry().getIndex(),
+ applyState.getReplicatedLogEntry().getData());
+
+ applyState(applyState.getClientActor(), applyState.getIdentifier(),
+ applyState.getReplicatedLogEntry().getData());
+
+ } else if(message instanceof ApplySnapshot ) {
+ applySnapshot(((ApplySnapshot) message).getSnapshot());
+
+ } else if (message instanceof FindLeader) {
+ getSender().tell(
+ new FindLeaderReply(getLeaderAddress()),
+ getSelf()
+ );
+
+ } else if (message instanceof SaveSnapshotSuccess) {
+ SaveSnapshotSuccess success = (SaveSnapshotSuccess) message;
+
+ // TODO: Not sure if we want to be this aggressive with trimming stuff
+ trimPersistentData(success.metadata().sequenceNr());
+
+ } else if (message instanceof SaveSnapshotFailure) {
+
+ // TODO: Handle failure in saving the snapshot
+
+ } else if (message instanceof AddRaftPeer){
+
+ // FIXME : Do not add raft peers like this.
+ // When adding a new Peer we have to ensure that the a majority of
+ // the peers know about the new Peer. Doing it this way may cause
+ // a situation where multiple Leaders may emerge
+ AddRaftPeer arp = (AddRaftPeer)message;
+ context.addToPeers(arp.getName(), arp.getAddress());
+
+ } else if (message instanceof RemoveRaftPeer){
+
+ RemoveRaftPeer rrp = (RemoveRaftPeer)message;
+ context.removePeer(rrp.getName());
+
+ } else {
+
+ RaftState state =
+ currentBehavior.handleMessage(getSender(), message);
+ RaftActorBehavior oldBehavior = currentBehavior;
+ currentBehavior = switchBehavior(state);
+ if(oldBehavior != currentBehavior){
+ onStateChanged();
+ }
+ }
+ }
+
+ public java.util.Set<String> getPeers() {
+ return context.getPeerAddresses().keySet();
+ }
+
+ protected String getReplicatedLogState() {
+ return "snapshotIndex=" + context.getReplicatedLog().getSnapshotIndex()
+ + ", snapshotTerm=" + context.getReplicatedLog().getSnapshotTerm()
+ + ", im-mem journal size=" + context.getReplicatedLog().size();
+ }
+
+
+ /**
+ * When a derived RaftActor needs to persist something it must call
+ * persistData.
+ *
+ * @param clientActor
+ * @param identifier
+ * @param data
+ */
+ protected void persistData(ActorRef clientActor, String identifier,
+ Payload data) {
+
+ ReplicatedLogEntry replicatedLogEntry = new ReplicatedLogImplEntry(
+ context.getReplicatedLog().lastIndex() + 1,
+ context.getTermInformation().getCurrentTerm(), data);
+
+ LOG.debug("Persist data {}", replicatedLogEntry);
+
+ replicatedLog
+ .appendAndPersist(clientActor, identifier, replicatedLogEntry);
+ }
+
+ protected String getId() {
+ return context.getId();
+ }
+
+ /**
+ * Derived actors can call the isLeader method to check if the current
+ * RaftActor is the Leader or not
+ *
+ * @return true it this RaftActor is a Leader false otherwise
+ */
+ protected boolean isLeader() {
+ return context.getId().equals(currentBehavior.getLeaderId());
+ }
+
+ /**
+ * Derived actor can call getLeader if they need a reference to the Leader.
+ * This would be useful for example in forwarding a request to an actor
+ * which is the leader
+ *
+ * @return A reference to the leader if known, null otherwise
+ */
+ protected ActorSelection getLeader(){
+ String leaderAddress = getLeaderAddress();
+
+ if(leaderAddress == null){
+ return null;
+ }
+
+ return context.actorSelection(leaderAddress);
+ }
+
+ /**
+ *
+ * @return the current leader's id
+ */
+ protected String getLeaderId(){
+ return currentBehavior.getLeaderId();
+ }
+
+ protected RaftState getRaftState() {
+ return currentBehavior.state();
}
- private RaftActorBehavior switchBehavior(RaftState state){
+ protected ReplicatedLogEntry getLastLogEntry() {
+ return replicatedLog.last();
+ }
+
+ protected Long getCurrentTerm(){
+ return context.getTermInformation().getCurrentTerm();
+ }
+
+ protected Long getCommitIndex(){
+ return context.getCommitIndex();
+ }
+
+ protected Long getLastApplied(){
+ return context.getLastApplied();
+ }
+
+ /**
+ * setPeerAddress sets the address of a known peer at a later time.
+ * <p>
+ * This is to account for situations where a we know that a peer
+ * exists but we do not know an address up-front. This may also be used in
+ * situations where a known peer starts off in a different location and we
+ * need to change it's address
+ * <p>
+ * Note that if the peerId does not match the list of peers passed to
+ * this actor during construction an IllegalStateException will be thrown.
+ *
+ * @param peerId
+ * @param peerAddress
+ */
+ protected void setPeerAddress(String peerId, String peerAddress){
+ context.setPeerAddress(peerId, peerAddress);
+ }
+
+
+
+ /**
+ * The applyState method will be called by the RaftActor when some data
+ * needs to be applied to the actor's state
+ *
+ * @param clientActor A reference to the client who sent this message. This
+ * is the same reference that was passed to persistData
+ * by the derived actor. clientActor may be null when
+ * the RaftActor is behaving as a follower or during
+ * recovery.
+ * @param identifier The identifier of the persisted data. This is also
+ * the same identifier that was passed to persistData by
+ * the derived actor. identifier may be null when
+ * the RaftActor is behaving as a follower or during
+ * recovery
+ * @param data A piece of data that was persisted by the persistData call.
+ * This should NEVER be null.
+ */
+ protected abstract void applyState(ActorRef clientActor, String identifier,
+ Object data);
+
+ /**
+ * This method will be called by the RaftActor when a snapshot needs to be
+ * created. The derived actor should respond with its current state.
+ * <p/>
+ * During recovery the state that is returned by the derived actor will
+ * be passed back to it by calling the applySnapshot method
+ *
+ * @return The current state of the actor
+ */
+ protected abstract Object createSnapshot();
+
+ /**
+ * This method will be called by the RaftActor during recovery to
+ * reconstruct the state of the actor.
+ * <p/>
+ * This method may also be called at any other point during normal
+ * operations when the derived actor is out of sync with it's peers
+ * and the only way to bring it in sync is by applying a snapshot
+ *
+ * @param snapshot A snapshot of the state of the actor
+ */
+ protected abstract void applySnapshot(Object snapshot);
+
+ /**
+ * This method will be called by the RaftActor when the state of the
+ * RaftActor changes. The derived actor can then use methods like
+ * isLeader or getLeader to do something useful
+ */
+ protected abstract void onStateChanged();
+
+ private RaftActorBehavior switchBehavior(RaftState state) {
+ if (currentBehavior != null) {
+ if (currentBehavior.state() == state) {
+ return currentBehavior;
+ }
+ LOG.info("Switching from state " + currentBehavior.state() + " to "
+ + state);
+
+ try {
+ currentBehavior.close();
+ } catch (Exception e) {
+ LOG.error(e,
+ "Failed to close behavior : " + currentBehavior.state());
+ }
+
+ } else {
+ LOG.info("Switching behavior to " + state);
+ }
RaftActorBehavior behavior = null;
- if(state == RaftState.Candidate){
- behavior = new Candidate(context, Collections.EMPTY_LIST);
- } else if(state == RaftState.Follower){
+ if (state == RaftState.Candidate) {
+ behavior = new Candidate(context);
+ } else if (state == RaftState.Follower) {
behavior = new Follower(context);
} else {
- behavior = new Leader(context, Collections.EMPTY_LIST);
+ behavior = new Leader(context);
}
+
+
+
return behavior;
}
- private class ReplicatedLogImpl implements ReplicatedLog {
+ private void trimPersistentData(long sequenceNumber) {
+ // Trim akka snapshots
+ // FIXME : Not sure how exactly the SnapshotSelectionCriteria is applied
+ // For now guessing that it is ANDed.
+ deleteSnapshots(new SnapshotSelectionCriteria(
+ sequenceNumber - context.getConfigParams().getSnapshotBatchCount(), 43200000));
+
+ // Trim akka journal
+ deleteMessages(sequenceNumber);
+ }
+
+ private String getLeaderAddress(){
+ if(isLeader()){
+ return getSelf().path().toString();
+ }
+ String leaderId = currentBehavior.getLeaderId();
+ if (leaderId == null) {
+ return null;
+ }
+ String peerAddress = context.getPeerAddress(leaderId);
+ LOG.debug("getLeaderAddress leaderId = " + leaderId + " peerAddress = "
+ + peerAddress);
+
+ return peerAddress;
+ }
+
+
+ private class ReplicatedLogImpl extends AbstractReplicatedLogImpl {
+
+ public ReplicatedLogImpl(Snapshot snapshot) {
+ super(snapshot.getState(),
+ snapshot.getLastAppliedIndex(), snapshot.getLastAppliedTerm(),
+ snapshot.getUnAppliedEntries());
+ }
+
+ public ReplicatedLogImpl() {
+ super();
+ }
+
+ @Override public void removeFromAndPersist(long logEntryIndex) {
+ int adjustedIndex = adjustedIndex(logEntryIndex);
+
+ if (adjustedIndex < 0) {
+ return;
+ }
+
+ // FIXME: Maybe this should be done after the command is saved
+ journal.subList(adjustedIndex , journal.size()).clear();
+
+ persist(new DeleteEntries(adjustedIndex), new Procedure<DeleteEntries>(){
+
+ @Override public void apply(DeleteEntries param)
+ throws Exception {
+ //FIXME : Doing nothing for now
+ }
+ });
+ }
+
+ @Override public void appendAndPersist(
+ final ReplicatedLogEntry replicatedLogEntry) {
+ appendAndPersist(null, null, replicatedLogEntry);
+ }
+
+ public void appendAndPersist(final ActorRef clientActor,
+ final String identifier,
+ final ReplicatedLogEntry replicatedLogEntry) {
+ context.getLogger().debug(
+ "Append log entry and persist {} ", replicatedLogEntry);
+ // FIXME : By adding the replicated log entry to the in-memory journal we are not truly ensuring durability of the logs
+ journal.add(replicatedLogEntry);
+
+ // When persisting events with persist it is guaranteed that the
+ // persistent actor will not receive further commands between the
+ // persist call and the execution(s) of the associated event
+ // handler. This also holds for multiple persist calls in context
+ // of a single command.
+ persist(replicatedLogEntry,
+ new Procedure<ReplicatedLogEntry>() {
+ public void apply(ReplicatedLogEntry evt) throws Exception {
+ // FIXME : Tentatively create a snapshot every hundred thousand entries. To be tuned.
+ if (journal.size() > context.getConfigParams().getSnapshotBatchCount()) {
+ LOG.info("Initiating Snapshot Capture..");
+ long lastAppliedIndex = -1;
+ long lastAppliedTerm = -1;
+
+ ReplicatedLogEntry lastAppliedEntry = get(context.getLastApplied());
+ if (lastAppliedEntry != null) {
+ lastAppliedIndex = lastAppliedEntry.getIndex();
+ lastAppliedTerm = lastAppliedEntry.getTerm();
+ }
+
+ LOG.debug("Snapshot Capture logSize: {}", journal.size());
+ LOG.debug("Snapshot Capture lastApplied:{} ", context.getLastApplied());
+ LOG.debug("Snapshot Capture lastAppliedIndex:{}", lastAppliedIndex);
+ LOG.debug("Snapshot Capture lastAppliedTerm:{}", lastAppliedTerm);
+
+ // create a snapshot object from the state provided and save it
+ // when snapshot is saved async, SaveSnapshotSuccess is raised.
+ Snapshot sn = Snapshot.create(createSnapshot(),
+ getFrom(context.getLastApplied() + 1),
+ lastIndex(), lastTerm(), lastAppliedIndex,
+ lastAppliedTerm);
+ saveSnapshot(sn);
+
+ LOG.info("Persisting of snapshot done:{}", sn.getLogMessage());
+
+ //be greedy and remove entries from in-mem journal which are in the snapshot
+ // and update snapshotIndex and snapshotTerm without waiting for the success,
+ // TODO: damage-recovery to be done on failure
+ journal.subList(0, (int) (lastAppliedIndex - snapshotIndex)).clear();
+ snapshotIndex = lastAppliedIndex;
+ snapshotTerm = lastAppliedTerm;
+
+ LOG.info("Removed in-memory snapshotted entries, " +
+ "adjusted snaphsotIndex:{}" +
+ "and term:{}", snapshotIndex, lastAppliedTerm);
+ }
+ // Send message for replication
+ if (clientActor != null) {
+ currentBehavior.handleMessage(getSelf(),
+ new Replicate(clientActor, identifier,
+ replicatedLogEntry)
+ );
+ }
+ }
+ }
+ );
+ }
+
+ }
+
+ private static class DeleteEntries implements Serializable {
+ private final int fromIndex;
- @Override public ReplicatedLogEntry getReplicatedLogEntry(long index) {
- throw new UnsupportedOperationException("getReplicatedLogEntry");
+
+ public DeleteEntries(int fromIndex) {
+ this.fromIndex = fromIndex;
+ }
+
+ public int getFromIndex() {
+ return fromIndex;
+ }
+ }
+
+
+ private static class Snapshot implements Serializable {
+ private final Object state;
+ private final List<ReplicatedLogEntry> unAppliedEntries;
+ private final long lastIndex;
+ private final long lastTerm;
+ private final long lastAppliedIndex;
+ private final long lastAppliedTerm;
+
+ private Snapshot(Object state,
+ List<ReplicatedLogEntry> unAppliedEntries, long lastIndex,
+ long lastTerm, long lastAppliedIndex, long lastAppliedTerm) {
+ this.state = state;
+ this.unAppliedEntries = unAppliedEntries;
+ this.lastIndex = lastIndex;
+ this.lastTerm = lastTerm;
+ this.lastAppliedIndex = lastAppliedIndex;
+ this.lastAppliedTerm = lastAppliedTerm;
+ }
+
+
+ public static Snapshot create(Object state,
+ List<ReplicatedLogEntry> entries, long lastIndex, long lastTerm,
+ long lastAppliedIndex, long lastAppliedTerm) {
+ return new Snapshot(state, entries, lastIndex, lastTerm,
+ lastAppliedIndex, lastAppliedTerm);
+ }
+
+ public Object getState() {
+ return state;
+ }
+
+ public List<ReplicatedLogEntry> getUnAppliedEntries() {
+ return unAppliedEntries;
+ }
+
+ public long getLastTerm() {
+ return lastTerm;
+ }
+
+ public long getLastAppliedIndex() {
+ return lastAppliedIndex;
+ }
+
+ public long getLastAppliedTerm() {
+ return lastAppliedTerm;
+ }
+
+ public String getLogMessage() {
+ StringBuilder sb = new StringBuilder();
+ return sb.append("Snapshot={")
+ .append("lastTerm:" + this.getLastTerm() + ", ")
+ .append("LastAppliedIndex:" + this.getLastAppliedIndex() + ", ")
+ .append("LastAppliedTerm:" + this.getLastAppliedTerm() + ", ")
+ .append("UnAppliedEntries size:" + this.getUnAppliedEntries().size() + "}")
+ .toString();
+
+ }
+ }
+
+ private class ElectionTermImpl implements ElectionTerm {
+ /**
+ * Identifier of the actor whose election term information this is
+ */
+ private long currentTerm = 0;
+ private String votedFor = null;
+
+ public long getCurrentTerm() {
+ return currentTerm;
+ }
+
+ public String getVotedFor() {
+ return votedFor;
+ }
+
+ @Override public void update(long currentTerm, String votedFor) {
+ LOG.debug("Set currentTerm={}, votedFor={}", currentTerm, votedFor);
+
+ this.currentTerm = currentTerm;
+ this.votedFor = votedFor;
}
- @Override public ReplicatedLogEntry last() {
- throw new UnsupportedOperationException("last");
+ @Override
+ public void updateAndPersist(long currentTerm, String votedFor){
+ update(currentTerm, votedFor);
+ // FIXME : Maybe first persist then update the state
+ persist(new UpdateElectionTerm(this.currentTerm, this.votedFor), new Procedure<UpdateElectionTerm>(){
+
+ @Override public void apply(UpdateElectionTerm param)
+ throws Exception {
+
+ }
+ });
}
}
+
+ private static class UpdateElectionTerm implements Serializable {
+ private final long currentTerm;
+ private final String votedFor;
+
+ public UpdateElectionTerm(long currentTerm, String votedFor) {
+ this.currentTerm = currentTerm;
+ this.votedFor = votedFor;
+ }
+
+ public long getCurrentTerm() {
+ return currentTerm;
+ }
+
+ public String getVotedFor() {
+ return votedFor;
+ }
+ }
+
}
Code Review / controller.git / blobdiff