// Must be called from the processing goroutine. func processNack(node uint16, conn *connect.BaseConn, content []byte) { var msg coproto.Nack if err := proto.Unmarshal(content, &msg); err != nil { conn.Close() return } store.StartTransaction() defer store.EndTransaction() // If we don't consider ourselves the leader, discard. if !amLeader { return } msgProposal, msgLeader := *msg.Proposal, uint16(*msg.Leader) proposal, leader := store.Proposal() if msgProposal == proposal && msgLeader == leader { return } if store.CompareProposals(msgProposal, msgLeader, proposal, leader) { stopBeingLeader() store.SetProposal(msgProposal, msgLeader) } }
// Must be called from the processing goroutine. func processAccept(node uint16, conn *connect.BaseConn, content []byte) { var msg coproto.Accept if err := proto.Unmarshal(content, &msg); err != nil { conn.Close() return } store.StartTransaction() defer store.EndTransaction() proposal, leader := store.Proposal() msgProposal, msgLeader := *msg.Proposal, node if proposal != msgProposal || leader != msgLeader { // Send a nack message and return, // if this accept relates to an earlier proposal. if store.CompareProposals(proposal, leader, msgProposal, msgLeader) { var nack coproto.Nack nack.Proposal = new(uint64) nack.Leader = new(uint32) *nack.Proposal = proposal *nack.Leader = uint32(leader) conn.SendProto(6, &nack) return } store.SetProposal(msgProposal, msgLeader) } addAccept(node, &msg) }
func handleLeader(f *followConn, content []byte) { var msg fproto.Leader if err := proto.Unmarshal(content, &msg); err != nil { f.lock.Lock() f.Close() f.lock.Unlock() return } store.StartTransaction() defer store.EndTransaction() proposal, leader := store.Proposal() msgProposal, msgLeader := *msg.Proposal, uint16(*msg.Leader) if store.CompareProposals(msgProposal, msgLeader, proposal, leader) { store.SetProposal(msgProposal, msgLeader) } }
// Top-level function of the processing goroutine. func process() { connections = make(map[uint16][]*connect.BaseConn) // On startup, make an outgoing connection attempt to all other // core nodes, before continuing. for _, node := range config.CoreNodes() { if node == config.Id() { continue } conn, err := connect.Dial( connect.CONSENSUS_PROTOCOL, node) if err != nil { // Can't reach the other node. continue } log.Print("core/consensus: made outgoing connection to ", node) connections[node] = append(connections[node], conn) go handleConn(node, conn) } // Retry connections once per config.CHANGE_TIMEOUT_PERIOD. // Largely arbitrary. reconnectTicker := time.Tick(config.CHANGE_TIMEOUT_PERIOD) for { select { // Connection retry tick. // We should try to make an outgoing connection to any node // that we do not have at least one connection to. // We need to make these asynchronously, because connections // are slow. case <-reconnectTicker: for _, node := range config.CoreNodes() { if node == config.Id() { continue } if len(connections[node]) > 0 { continue } go outgoingConn(node) } // New change request, for us to propose as leader. case req := <-newChangeCh: store.StartTransaction() if !amLeader && receivedPromises != nil { waitingRequests = append(waitingRequests, req) } else if !amLeader { waitingRequests = append(waitingRequests, req) // Start attempting to be leader. m := make(map[uint16]*coproto.Promise) receivedPromises = m proposal, _ := store.Proposal() proposal++ store.SetProposal(proposal, config.Id()) firstUn := store.InstructionFirstUnapplied() // Send prepare messages to all other nodes. var prepare coproto.Prepare prepare.Proposal = new(uint64) prepare.FirstUnapplied = new(uint64) *prepare.Proposal = proposal *prepare.FirstUnapplied = firstUn for _, node := range config.CoreNodes() { if node == config.Id() { continue } if len(connections[node]) != 0 { c := connections[node][0] c.SendProto(2, &prepare) } } // Behave as if we got a promise message // from ourselves. var promise coproto.Promise promise.Proposal = prepare.Proposal promise.PrevProposal = promise.Proposal promise.Leader = new(uint32) *promise.Leader = uint32(config.Id()) promise.PrevLeader = promise.Leader addPromise(config.Id(), &promise) } else { newSlot := nextProposalSlot nextProposalSlot++ addProposalTimeout(newSlot, req) proposal, leader := store.Proposal() inst := makeInst(newSlot, proposal, leader, req) sendProposal(inst) } store.EndTransaction() // Leadership attempt timed out. case timedOutProposal := <-leaderTimeoutCh: store.StartTransaction() proposal, leader := store.Proposal() // If the proposal has changed since that // leadership attempt, ignore it. if leader != config.Id() { return } if proposal != timedOutProposal { return } // If we successfully became leader, ignore it. if amLeader { return } // Otherwise, stop our attempt to become leader. stopBeingLeader() store.EndTransaction() // Proposal timed out. case timeout := <-proposalTimeoutCh: store.StartTransaction() // If this timeout was not canceled, a proposal failed. // We stop being leader. if proposalTimeouts[timeout.slot] == timeout { stopBeingLeader() } store.EndTransaction() // New received connection. case receivedConn := <-receivedConnCh: node := receivedConn.node conn := receivedConn.conn connections[node] = append(connections[node], conn) // Received message. case recvMsg := <-receivedMsgCh: node := recvMsg.node conn := recvMsg.conn msg := recvMsg.msg switch *msg.MsgType { case 2: processPrepare(node, conn, msg.Content) case 3: processPromise(node, conn, msg.Content) case 4: processAccept(node, conn, msg.Content) case 5: processAccepted(node, conn, msg.Content) case 6: processNack(node, conn, msg.Content) default: // Unknown message. conn.Close() } // Terminate received connection. case terminatedConn := <-terminatedConnCh: node := terminatedConn.node conn := terminatedConn.conn for i, other := range connections[node] { if other != conn { continue } conns := connections[node] conns = append(conns[:i], conns[i+1:]...) connections[node] = conns break } } } }
// Must be called from the processing goroutine. func processPrepare(node uint16, conn *connect.BaseConn, content []byte) { var msg coproto.Prepare if err := proto.Unmarshal(content, &msg); err != nil { conn.Close() return } store.StartTransaction() defer store.EndTransaction() newProposal, newLeader := *msg.Proposal, node proposal, leader := store.Proposal() if store.CompareProposals(newProposal, newLeader, proposal, leader) { log.Print("core/consensus: sending promise to ", newLeader) // Create a promise message to send back. var promise coproto.Promise promise.Proposal = new(uint64) promise.Leader = new(uint32) promise.PrevProposal = new(uint64) promise.PrevLeader = new(uint32) *promise.Proposal = newProposal *promise.Leader = uint32(newLeader) *promise.PrevProposal = proposal *promise.PrevLeader = uint32(leader) // Add all the instructions we've previously accepted or chosen. slots := store.InstructionSlots() theirFirstUnapplied := *msg.FirstUnapplied ourStart := store.InstructionStart() relativeSlot := int(theirFirstUnapplied - ourStart) if relativeSlot < 0 { relativeSlot = 0 } var accepted []*coproto.Instruction for ; relativeSlot < len(slots); relativeSlot++ { slot := slots[relativeSlot] slotNum := ourStart + uint64(relativeSlot) for i, _ := range slot { if slot[i].IsChosen() { appendInst(&accepted, slotNum, slot[i]) break } weAccepted := false for _, node := range slot[i].Accepted() { if node == config.Id() { weAccepted = true break } } if weAccepted { appendInst(&accepted, slotNum, slot[i]) break } } } // Send promise message. conn.SendProto(3, &promise) // Accept the other node as our new leader. store.SetProposal(newProposal, newLeader) } else { var nack coproto.Nack nack.Proposal = new(uint64) nack.Leader = new(uint32) *nack.Proposal = proposal *nack.Leader = uint32(leader) conn.SendProto(6, &nack) } }