import akka.actor.ActorSelection;
import org.opendaylight.controller.cluster.raft.RaftActorContext;
import org.opendaylight.controller.cluster.raft.RaftState;
-import org.opendaylight.controller.cluster.raft.internal.messages.ElectionTimeout;
+import org.opendaylight.controller.cluster.raft.base.messages.ElectionTimeout;
import org.opendaylight.controller.cluster.raft.messages.AppendEntries;
import org.opendaylight.controller.cluster.raft.messages.AppendEntriesReply;
+import org.opendaylight.controller.cluster.raft.messages.RaftRPC;
import org.opendaylight.controller.cluster.raft.messages.RequestVote;
import org.opendaylight.controller.cluster.raft.messages.RequestVoteReply;
-import java.util.HashMap;
-import java.util.List;
-import java.util.Map;
+import java.util.Set;
/**
* The behavior of a RaftActor when it is in the CandidateState
- * <p>
+ * <p/>
* Candidates (§5.2):
* <ul>
* <li> On conversion to candidate, start election:
*/
public class Candidate extends AbstractRaftActorBehavior {
- private final Map<String, ActorSelection> peerToActor = new HashMap<>();
-
private int voteCount;
private final int votesRequired;
- public Candidate(RaftActorContext context, List<String> peerPaths) {
+ private final Set<String> peers;
+
+ public Candidate(RaftActorContext context) {
super(context);
- for (String peerPath : peerPaths) {
- peerToActor.put(peerPath,
- context.actorSelection(peerPath));
- }
+ peers = context.getPeerAddresses().keySet();
- if(peerPaths.size() > 0) {
+ context.getLogger().debug("Election:Candidate has following peers:"+ peers);
+
+ if(peers.size() > 0) {
// Votes are required from a majority of the peers including self.
// The votesRequired field therefore stores a calculated value
// of the number of votes required for this candidate to win an
// 0 peers = 1 votesRequired (0 + 1) / 2 + 1 = 1
// 2 peers = 2 votesRequired (2 + 1) / 2 + 1 = 2
// 4 peers = 3 votesRequired (4 + 1) / 2 + 1 = 3
- int noOfPeers = peerPaths.size();
+ int noOfPeers = peers.size();
int self = 1;
votesRequired = (noOfPeers + self) / 2 + 1;
} else {
}
@Override protected RaftState handleAppendEntries(ActorRef sender,
- AppendEntries appendEntries, RaftState suggestedState) {
+ AppendEntries appendEntries) {
- // There is some peer who thinks it's a leader but is not
- // I will not accept this append entries
- sender.tell(new AppendEntriesReply(
- context.getTermInformation().getCurrentTerm(), false),
- context.getActor());
+ context.getLogger().debug(appendEntries.toString());
- return suggestedState;
+ return state();
}
@Override protected RaftState handleAppendEntriesReply(ActorRef sender,
- AppendEntriesReply appendEntriesReply, RaftState suggestedState) {
-
- // Some peer thinks I was a leader and sent me a reply
+ AppendEntriesReply appendEntriesReply) {
- return suggestedState;
+ return state();
}
@Override protected RaftState handleRequestVoteReply(ActorRef sender,
- RequestVoteReply requestVoteReply, RaftState suggestedState) {
- if(suggestedState == RaftState.Follower) {
- // If base class thinks I should be follower then I am
- return suggestedState;
- }
+ RequestVoteReply requestVoteReply) {
- if(requestVoteReply.isVoteGranted()){
+ if (requestVoteReply.isVoteGranted()) {
voteCount++;
}
- if(voteCount >= votesRequired){
+ if (voteCount >= votesRequired) {
return RaftState.Leader;
}
return state();
}
- @Override protected RaftState state() {
+ @Override public RaftState state() {
return RaftState.Candidate;
}
@Override
- public RaftState handleMessage(ActorRef sender, Object message) {
- if(message instanceof ElectionTimeout){
- if(votesRequired == 0){
+ public RaftState handleMessage(ActorRef sender, Object originalMessage) {
+
+ Object message = fromSerializableMessage(originalMessage);
+
+ if (message instanceof RaftRPC) {
+
+ RaftRPC rpc = (RaftRPC) message;
+
+ context.getLogger().debug("RaftRPC message received {} my term is {}", rpc.toString(), context.getTermInformation().getCurrentTerm());
+
+ // 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 RaftState.Follower;
+ }
+ }
+
+ if (message instanceof ElectionTimeout) {
+ if (votesRequired == 0) {
// If there are no peers then we should be a Leader
// We wait for the election timeout to occur before declare
// ourselves the leader. This gives enough time for a leader
scheduleElection(electionDuration());
return state();
}
+
return super.handleMessage(sender, message);
}
- private void startNewTerm(){
+ private void startNewTerm() {
+
+
// set voteCount back to 1 (that is voting for self)
voteCount = 1;
// Increment the election term and vote for self
long currentTerm = context.getTermInformation().getCurrentTerm();
- context.getTermInformation().update(currentTerm+1, context.getId());
+ context.getTermInformation().updateAndPersist(currentTerm + 1,
+ context.getId());
+
+ context.getLogger().debug("Starting new term " + (currentTerm + 1));
// Request for a vote
- for(ActorSelection peerActor : peerToActor.values()){
- peerActor.tell(new RequestVote(
- context.getTermInformation().getCurrentTerm(),
- context.getId(), context.getReplicatedLog().last().getIndex(),
- context.getReplicatedLog().last().getTerm()),
- context.getActor());
+ // TODO: Retry request for vote if replies do not arrive in a reasonable
+ // amount of time TBD
+ for (String peerId : peers) {
+ ActorSelection peerActor = context.getPeerActorSelection(peerId);
+ if(peerActor != null) {
+ peerActor.tell(new RequestVote(
+ context.getTermInformation().getCurrentTerm(),
+ context.getId(),
+ context.getReplicatedLog().lastIndex(),
+ context.getReplicatedLog().lastTerm()),
+ context.getActor()
+ );
+ }
}
}
+ @Override public void close() throws Exception {
+ stopElection();
+ }
}