func makeIntChangeRequest(req *store.ChangeRequest) *coproto.ChangeRequest {
intReq := new(coproto.ChangeRequest)
intReq.RequestEntity = new(uint64)
intReq.RequestNode = new(uint32)
intReq.RequestId = new(uint64)
*intReq.RequestEntity = req.RequestEntity
*intReq.RequestNode = uint32(req.RequestNode)
*intReq.RequestId = req.RequestId
intReq.Changeset = make([]*coproto.Change, len(req.Changeset))
for i := range req.Changeset {
intCh := new(coproto.Change)
intCh.TargetEntity = new(uint64)
intCh.Key = new(string)
intCh.Value = new(string)
*intCh.TargetEntity = req.Changeset[i].TargetEntity
*intCh.Key = req.Changeset[i].Key
*intCh.Value = req.Changeset[i].Value
intReq.Changeset[i] = intCh
}
return intReq
}
// Must be called from the processing goroutine, inside a transaction.
func addPromise(node uint16, msg *coproto.Promise) {
receivedPromises[node] = msg
// If we have promises from a majority of core nodes,
// become leader.
if len(receivedPromises) > len(config.CoreNodes())/2 {
log.Print("core/consensus: became leader")
stopLeaderTimeout()
amLeader = true
proposal, leader := store.Proposal()
// Find a slot number above all those in promise messages,
// and above our first unapplied.
firstUnapplied := store.InstructionFirstUnapplied()
limit := firstUnapplied
for _, msg := range receivedPromises {
for _, accepted := range msg.Accepted {
if *accepted.Slot >= limit {
limit = *accepted.Slot + 1
}
}
}
// Start our next slot after the limit.
nextProposalSlot = limit
// For all slots between this and our first unapplied,
// submit a previously accepted instruction unless we
// know an instruction was already chosen.
// Fills these slots with proposals.
// This is O(n^2) in the number of instructions between our
// first unapplied and limit.
// TODO: Improve worst-case complexity.
start := store.InstructionStart()
slots := store.InstructionSlots()
for i := firstUnapplied; i < limit; i++ {
// If we already have a chosen instruction, skip.
rel := int(i - start)
if len(slots[rel]) == 1 && slots[rel][0].IsChosen() {
continue
}
// Find the previously accepted instruction
// accepted with the highest proposal number.
var bestInst *coproto.Instruction
var bp uint64 // Best proposal
var bl uint16 // Best leader
for _, msg := range receivedPromises {
for _, accepted := range msg.Accepted {
if *accepted.Slot != i {
continue
}
if bestInst == nil {
bestInst = accepted
bp = *accepted.Proposal
bl = uint16(*accepted.Leader)
continue
}
// TODO: This indent is just absurd.
p := *accepted.Proposal
l := uint16(*accepted.Leader)
if store.CompareProposals(p, l,
bp, bl) {
bestInst = accepted
bp = *accepted.Proposal
bl = uint16(*accepted.Leader)
}
}
}
// If we didn't find an instruction, make an empty one.
if bestInst == nil {
empty := new(coproto.ChangeRequest)
empty.RequestEntity = new(uint64)
empty.RequestNode = new(uint32)
*empty.RequestEntity = uint64(config.Id())
*empty.RequestNode = uint32(config.Id())
bestInst := new(coproto.Instruction)
bestInst.Slot = new(uint64)
*bestInst.Slot = i
bestInst.Request = empty
}
// Add proposal timeout.
req := makeExtChangeRequest(bestInst.Request)
addProposalTimeout(i, req)
// Send proposal.
bestInst.Proposal = new(uint64)
bestInst.Leader = new(uint32)
*bestInst.Proposal = proposal
*bestInst.Leader = uint32(leader)
sendProposal(bestInst)
}
// Discard received promise messages.
receivedPromises = nil
// Make an instruction proposal for each waiting change.
for _, req := range waitingRequests {
slot := nextProposalSlot
nextProposalSlot++
addProposalTimeout(slot, req)
inst := makeInst(slot, proposal, leader, req)
sendProposal(inst)
}
// Clear waiting changes.
waitingRequests = nil
}
}
