func (r *Replica) handleForward(fwd *paxosproto.Forward) {
if state.IsRead(&fwd.Command) {
if r.maintainReadStats {
r.readStats.AddRead(fwd.Command.K, fwd.ReplicaId)
}
//make sure that the channel is not going to be full,
//because this may cause the consumer to block when trying to
//put request back
for len(r.fwdReadsChannel) >= READ_CHAN_SIZE-10000 {
time.Sleep(1000)
}
r.fwdReadsChannel <- fwd
} else {
// the forward is a write
r.handlePropose(&genericsmr.Propose{&genericsmrproto.Propose{0, fwd.Command, 0}, fwd.ReplicaId, fwd.PropId, nil, nil})
}
}
func (r *Replica) handlePropose(propose *genericsmr.Propose) {
batches := make(map[int64][]state.Command, 10)
proposals := make(map[int64][]*genericsmr.Propose, 10)
haveWrites := false
totalLen := len(r.ProposeChan) + 1
if totalLen > MAX_BATCH {
totalLen = MAX_BATCH
}
for i := 0; i < totalLen; i++ {
if state.IsRead(&propose.Command) && (r.IsLeader || r.isKeyGranted(propose.Command.K)) {
reads++
//make sure that the channel is not going to be full,
//because this may cause the consumer to block when trying to
//put request back
for len(r.readsChannel) >= READ_CHAN_SIZE-10000 {
time.Sleep(1000)
}
r.readsChannel <- propose
} else if !r.IsLeader {
if state.IsRead(&propose.Command) {
reads++
}
r.fwdId++
r.fwdPropMap[r.fwdId] = propose
r.SendMsg(r.leaderId, r.forwardRPC, &paxosproto.Forward{r.Id, r.fwdId, propose.Command})
} else {
q := quorumToInt64(r.getLeaseQuorumForKey(propose.Command.K, r.Id))
var cmds []state.Command
var present bool
var props []*genericsmr.Propose
props = proposals[q]
if cmds, present = batches[q]; !present {
cmds = make([]state.Command, 0, totalLen/2+1)
props = make([]*genericsmr.Propose, 0, totalLen/2+1)
}
cmds = append(cmds, propose.Command)
batches[q] = cmds
props = append(props, propose)
proposals[q] = props
haveWrites = true
}
if i < totalLen-1 {
propose = <-r.ProposeChan
}
}
if !haveWrites {
return
}
/* if !r.IsLeader {
preply := &genericsmrproto.ProposeReplyTS{FALSE, -1, state.NIL, 0}
r.ReplyProposeTS(preply, propose)
return
}*/
for r.instanceSpace[r.crtInstance] != nil {
r.crtInstance++
}
//dlog.Printf("Batched %d\n", batchSize)
status := PREPARING
ballot := r.makeUniqueBallot(0)
if r.defaultBallot > -1 {
status = PREPARED
ballot = r.defaultBallot
}
for q, cmds := range batches {
if len(cmds) == 0 {
continue
}
//log.Printf("Batching %d\n", len(cmds))
props := proposals[q]
r.instanceSpace[r.crtInstance] = &Instance{
cmds,
ballot,
status,
&LeaderBookkeeping{props, 0, 0, 0, 0, 0},
0, false}
if status == PREPARING {
r.bcastPrepare(r.crtInstance, ballot, true)
dlog.Printf("Classic round for instance %d\n", r.crtInstance)
} else {
r.recordInstanceMetadata(r.instanceSpace[r.crtInstance])
r.recordCommands(cmds)
r.sync()
if r.crtInstance > r.latestAcceptedInst {
r.latestAcceptedInst = r.crtInstance
}
if props[0].FwdReplica >= 0 && props[0].FwdReplica != r.Id {
r.addUpdatingKeys(cmds)
}
//TODO: make sure it supports Forwards
r.instanceSpace[r.crtInstance].lb.acceptOKsToWait, _ = r.bcastAccept(r.crtInstance, ballot, cmds, props[0].FwdReplica, props[0].FwdId)
dlog.Printf("Fast round for instance %d\n", r.crtInstance)
if genericsmr.SendError {
log.Println("BCAST ERROR")
r.delayedInstances <- r.crtInstance
}
}
r.crtInstance++
}
}
