Esempio n. 1
0
func newTwoBTxnVotesSender(outcome *msgs.Outcome, txnId *common.TxnId, submitter common.RMId, recipients ...common.RMId) *twoBTxnVotesSender {
	submitterSeg := capn.NewBuffer(nil)
	submitterMsg := msgs.NewRootMessage(submitterSeg)
	submitterMsg.SetSubmissionOutcome(*outcome)

	if outcome.Which() == msgs.OUTCOME_ABORT {
		abort := outcome.Abort()
		abort.SetResubmit() // nuke out the updates as proposers don't need them.
	}

	seg := capn.NewBuffer(nil)
	msg := msgs.NewRootMessage(seg)
	twoB := msgs.NewTwoBTxnVotes(seg)
	msg.SetTwoBTxnVotes(twoB)
	twoB.SetOutcome(*outcome)

	server.Log(txnId, "Sending 2B to", recipients)

	return &twoBTxnVotesSender{
		msg:          server.SegToBytes(seg),
		recipients:   recipients,
		submitterMsg: server.SegToBytes(submitterSeg),
		submitter:    submitter,
	}
}
Esempio n. 2
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func (am *AcceptorManager) OneATxnVotesReceived(sender common.RMId, txnId *common.TxnId, oneATxnVotes *msgs.OneATxnVotes) {
	instanceRMId := common.RMId(oneATxnVotes.RmId())
	server.Log(txnId, "1A received from", sender, "; instance:", instanceRMId)
	instId := instanceId([instanceIdLen]byte{})
	instIdSlice := instId[:]
	copy(instIdSlice, txnId[:])
	binary.BigEndian.PutUint32(instIdSlice[common.KeyLen:], uint32(instanceRMId))

	replySeg := capn.NewBuffer(nil)
	msg := msgs.NewRootMessage(replySeg)
	oneBTxnVotes := msgs.NewOneBTxnVotes(replySeg)
	msg.SetOneBTxnVotes(oneBTxnVotes)
	oneBTxnVotes.SetRmId(oneATxnVotes.RmId())
	oneBTxnVotes.SetTxnId(oneATxnVotes.TxnId())

	proposals := oneATxnVotes.Proposals()
	promises := msgs.NewTxnVotePromiseList(replySeg, proposals.Len())
	oneBTxnVotes.SetPromises(promises)
	for idx, l := 0, proposals.Len(); idx < l; idx++ {
		proposal := proposals.At(idx)
		vUUId := common.MakeVarUUId(proposal.VarId())
		copy(instIdSlice[common.KeyLen+4:], vUUId[:])
		promise := promises.At(idx)
		promise.SetVarId(vUUId[:])
		am.ensureInstance(txnId, &instId, vUUId).OneATxnVotesReceived(&proposal, &promise)
	}

	NewOneShotSender(server.SegToBytes(replySeg), am.ConnectionManager, sender)
}
Esempio n. 3
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func (cr *connectionRun) start() (bool, error) {
	log.Printf("Connection established to %v (%v)\n", cr.remoteHost, cr.remoteRMId)

	seg := capn.NewBuffer(nil)
	message := msgs.NewRootMessage(seg)
	message.SetHeartbeat()
	cr.beatBytes = server.SegToBytes(seg)

	if cr.isServer {
		cr.connectionManager.ServerEstablished(cr.Connection)
	}
	if cr.isClient {
		topology, servers := cr.connectionManager.ClientEstablished(cr.ConnectionNumber, cr.Connection)
		cr.connectionManager.AddSender(cr.Connection)
		cr.submitter = client.NewClientTxnSubmitter(cr.connectionManager.RMId, cr.connectionManager.BootCount, topology, cr.connectionManager)
		cr.submitter.TopologyChange(nil, servers)
	}
	cr.mustSendBeat = true
	cr.missingBeats = 0

	cr.beater = newConnectionBeater(cr.Connection)
	go cr.beater.beat()

	cr.reader = newConnectionReader(cr.Connection)
	go cr.reader.read()

	return false, nil
}
Esempio n. 4
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func (cr *connectionRun) handleMsgFromPeer(msg *msgs.Message) error {
	if cr.currentState != cr {
		// probably just draining the queue from the reader after a restart
		return nil
	}
	cr.missingBeats = 0
	switch which := msg.Which(); which {
	case msgs.MESSAGE_HEARTBEAT:
		// do nothing
	case msgs.MESSAGE_CLIENTTXNSUBMISSION:
		ctxn := msg.ClientTxnSubmission()
		origTxnId := common.MakeTxnId(ctxn.Id())
		cr.submitter.SubmitClientTransaction(&ctxn, func(clientOutcome *msgs.ClientTxnOutcome, err error) {
			switch {
			case err != nil:
				cr.clientTxnError(&ctxn, err, origTxnId)
			case clientOutcome == nil: // shutdown
				return
			default:
				seg := capn.NewBuffer(nil)
				msg := msgs.NewRootMessage(seg)
				msg.SetClientTxnOutcome(*clientOutcome)
				cr.sendMessage(server.SegToBytes(msg.Segment))
			}
		})
	default:
		cr.connectionManager.Dispatchers.DispatchMessage(cr.remoteRMId, which, msg)
	}
	return nil
}
Esempio n. 5
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func (cr *connectionRun) submitTxn(txnMsg *connectionMsgTxn) error {
	if cr.currentState != cr {
		if !txnMsg.setOutcomeError(nil, nil, fmt.Errorf("Connection in wrong state: %v", cr.currentState)) {
			return fmt.Errorf("Live txn already closed")
		}
		return nil
	}
	if cr.liveTxn != nil {
		if !txnMsg.setOutcomeError(nil, nil, fmt.Errorf("Existing live txn")) {
			return fmt.Errorf("Live txn already closed")
		}
		return nil
	}
	binary.BigEndian.PutUint64(cr.namespace[:8], cr.nextTxnId)
	txnMsg.txn.SetId(cr.namespace)
	seg := capn.NewBuffer(nil)
	msg := msgs.NewRootMessage(seg)
	msg.SetClientTxnSubmission(*txnMsg.txn)
	if err := cr.sendMessage(&msg); err == nil {
		cr.liveTxn = txnMsg
		return nil
	} else {
		cr.nextTxnId++
		return err
	}
}
Esempio n. 6
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func (cr *connectionRun) start() (bool, error) {
	log.Printf("Connection established to %v (%v)\n", cr.serverHost, cr.rmId)

	seg := capn.NewBuffer(nil)
	message := msgs.NewRootMessage(seg)
	message.SetHeartbeat()
	buf := new(bytes.Buffer)
	_, err := seg.WriteTo(buf)
	if err != nil {
		return false, err
	}
	cr.beatBytes = buf.Bytes()

	cr.mustSendBeat = true
	cr.missingBeats = 0

	cr.beater = newConnectionBeater(cr.Connection)
	go cr.beater.beat()

	cr.reader = newConnectionReader(cr.Connection)
	go cr.reader.read()

	if cr.awaiting != nil {
		close(cr.awaiting.resultChan)
		cr.awaiting = nil
	}

	return false, nil
}
Esempio n. 7
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func (p *proposal) maybeSendOneA() {
	pendingPromises := p.pending[:0]
	for _, pi := range p.instances {
		if pi.currentState == &pi.proposalOneA {
			pendingPromises = append(pendingPromises, pi)
		}
	}
	if len(pendingPromises) == 0 {
		return
	}
	seg := capn.NewBuffer(nil)
	msg := msgs.NewRootMessage(seg)
	sender := newProposalSender(p, pendingPromises)
	oneACap := msgs.NewOneATxnVotes(seg)
	msg.SetOneATxnVotes(oneACap)
	oneACap.SetTxnId(p.txnId[:])
	oneACap.SetRmId(uint32(p.instanceRMId))
	proposals := msgs.NewTxnVoteProposalList(seg, len(pendingPromises))
	oneACap.SetProposals(proposals)
	for idx, pi := range pendingPromises {
		proposal := proposals.At(idx)
		pi.addOneAToProposal(&proposal, sender)
	}
	sender.msg = server.SegToBytes(seg)
	server.Log(p.txnId, "Adding sender for 1A")
	p.proposerManager.ConnectionManager.AddSender(sender)
}
Esempio n. 8
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func (p *proposal) maybeSendTwoA() {
	pendingAccepts := p.pending[:0]
	for _, pi := range p.instances {
		if pi.currentState == &pi.proposalTwoA {
			pendingAccepts = append(pendingAccepts, pi)
		}
	}
	if len(pendingAccepts) == 0 {
		return
	}
	seg := capn.NewBuffer(nil)
	msg := msgs.NewRootMessage(seg)
	sender := newProposalSender(p, pendingAccepts)
	twoACap := msgs.NewTwoATxnVotes(seg)
	msg.SetTwoATxnVotes(twoACap)
	twoACap.SetRmId(uint32(p.instanceRMId))
	acceptRequests := msgs.NewTxnVoteAcceptRequestList(seg, len(pendingAccepts))
	twoACap.SetAcceptRequests(acceptRequests)
	deflate := false
	for idx, pi := range pendingAccepts {
		acceptRequest := acceptRequests.At(idx)
		deflate = pi.addTwoAToAcceptRequest(seg, &acceptRequest, sender) || deflate
	}
	if deflate {
		deflated := deflateTxn(p.txn, seg)
		twoACap.SetTxn(*deflated)
	} else {
		twoACap.SetTxn(*p.txn)
	}
	sender.msg = server.SegToBytes(seg)
	server.Log(p.txnId, "Adding sender for 2A")
	p.proposerManager.ConnectionManager.AddSender(sender)
}
Esempio n. 9
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func MakeTxnSubmissionAbortMsg(txnId *common.TxnId) []byte {
	seg := capn.NewBuffer(nil)
	msg := msgs.NewRootMessage(seg)
	tsa := msgs.NewTxnSubmissionAbort(seg)
	msg.SetSubmissionAbort(tsa)
	tsa.SetTxnId(txnId[:])
	return server.SegToBytes(seg)
}
Esempio n. 10
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func MakeTxnSubmissionCompleteMsg(txnId *common.TxnId) []byte {
	seg := capn.NewBuffer(nil)
	msg := msgs.NewRootMessage(seg)
	tsc := msgs.NewTxnSubmissionComplete(seg)
	msg.SetSubmissionComplete(tsc)
	tsc.SetTxnId(txnId[:])
	return server.SegToBytes(seg)
}
Esempio n. 11
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func MakeTxnLocallyCompleteMsg(txnId *common.TxnId) []byte {
	seg := capn.NewBuffer(nil)
	msg := msgs.NewRootMessage(seg)
	tlc := msgs.NewTxnLocallyComplete(seg)
	msg.SetTxnLocallyComplete(tlc)
	tlc.SetTxnId(txnId[:])
	return server.SegToBytes(seg)
}
Esempio n. 12
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func (adfd *acceptorDeleteFromDisk) deletionDone() {
	if adfd.currentState == adfd {
		adfd.nextState(nil)
		adfd.acceptorManager.AcceptorFinished(adfd.txnId)

		seg := capn.NewBuffer(nil)
		msg := msgs.NewRootMessage(seg)
		tgc := msgs.NewTxnGloballyComplete(seg)
		msg.SetTxnGloballyComplete(tgc)
		tgc.SetTxnId(adfd.txnId[:])
		server.Log(adfd.txnId, "Sending TGC to", adfd.tgcRecipients)
		NewOneShotSender(server.SegToBytes(seg), adfd.acceptorManager.ConnectionManager, adfd.tgcRecipients...)
	}
}
Esempio n. 13
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func (cr *connectionRun) clientTxnError(ctxn *msgs.ClientTxn, err error, origTxnId *common.TxnId) error {
	seg := capn.NewBuffer(nil)
	msg := msgs.NewRootMessage(seg)
	outcome := msgs.NewClientTxnOutcome(seg)
	msg.SetClientTxnOutcome(outcome)
	if origTxnId == nil {
		outcome.SetId(ctxn.Id())
	} else {
		outcome.SetId(origTxnId[:])
	}
	outcome.SetFinalId(ctxn.Id())
	outcome.SetError(err.Error())
	return cr.sendMessage(server.SegToBytes(seg))
}
Esempio n. 14
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func (am *AcceptorManager) TwoATxnVotesReceived(sender common.RMId, txnId *common.TxnId, twoATxnVotes *msgs.TwoATxnVotes) {
	instanceRMId := common.RMId(twoATxnVotes.RmId())
	server.Log(txnId, "2A received from", sender, "; instance:", instanceRMId)
	instId := instanceId([instanceIdLen]byte{})
	instIdSlice := instId[:]
	copy(instIdSlice, txnId[:])
	binary.BigEndian.PutUint32(instIdSlice[common.KeyLen:], uint32(instanceRMId))

	txnCap := twoATxnVotes.Txn()
	a := am.ensureAcceptor(txnId, &txnCap)
	requests := twoATxnVotes.AcceptRequests()
	failureInstances := make([]*instance, 0, requests.Len())
	failureRequests := make([]*msgs.TxnVoteAcceptRequest, 0, requests.Len())

	for idx, l := 0, requests.Len(); idx < l; idx++ {
		request := requests.At(idx)
		vUUId := common.MakeVarUUId(request.Ballot().VarId())
		copy(instIdSlice[common.KeyLen+4:], vUUId[:])
		inst := am.ensureInstance(txnId, &instId, vUUId)
		accepted, rejected := inst.TwoATxnVotesReceived(&request)
		if accepted {
			a.BallotAccepted(instanceRMId, inst, vUUId, &txnCap)
		} else if rejected {
			failureInstances = append(failureInstances, inst)
			failureRequests = append(failureRequests, &request)
		}
	}

	if len(failureInstances) != 0 {
		replySeg := capn.NewBuffer(nil)
		msg := msgs.NewRootMessage(replySeg)
		twoBTxnVotes := msgs.NewTwoBTxnVotes(replySeg)
		msg.SetTwoBTxnVotes(twoBTxnVotes)
		twoBTxnVotes.SetFailures()
		failuresCap := twoBTxnVotes.Failures()
		failuresCap.SetTxnId(txnId[:])
		failuresCap.SetRmId(uint32(instanceRMId))
		nacks := msgs.NewTxnVoteTwoBFailureList(replySeg, len(failureInstances))
		failuresCap.SetNacks(nacks)
		for idx, inst := range failureInstances {
			failure := nacks.At(idx)
			failure.SetVarId(inst.vUUId[:])
			failure.SetRoundNumber(failureRequests[idx].RoundNumber())
			failure.SetRoundNumberTooLow(uint32(inst.promiseNum >> 32))
		}
		server.Log(txnId, "Sending 2B failures to", sender, "; instance:", instanceRMId)
		NewOneShotSender(server.SegToBytes(replySeg), am.ConnectionManager, sender)
	}
}
Esempio n. 15
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func (sts *SimpleTxnSubmitter) SubmitTransaction(txnCap *msgs.Txn, activeRMs []common.RMId, continuation TxnCompletionConsumer, delay time.Duration) {
	seg := capn.NewBuffer(nil)
	msg := msgs.NewRootMessage(seg)
	msg.SetTxnSubmission(*txnCap)

	txnId := common.MakeTxnId(txnCap.Id())
	server.Log(txnId, "Submitting txn")
	txnSender := paxos.NewRepeatingSender(server.SegToBytes(seg), activeRMs...)
	if delay == 0 {
		sts.connectionManager.AddSender(txnSender)
	} else {
		go func() {
			// fmt.Printf("%v ", delay)
			time.Sleep(delay)
			sts.connectionManager.AddSender(txnSender)
		}()
	}
	acceptors := paxos.GetAcceptorsFromTxn(txnCap)

	shutdownFun := func(shutdown bool) {
		delete(sts.outcomeConsumers, *txnId)
		// fmt.Printf("sts%v ", len(sts.outcomeConsumers))
		sts.connectionManager.RemoveSenderAsync(txnSender)
		paxos.NewOneShotSender(paxos.MakeTxnSubmissionCompleteMsg(txnId), sts.connectionManager, acceptors...)
		if shutdown {
			if txnCap.Retry() {
				paxos.NewOneShotSender(paxos.MakeTxnSubmissionAbortMsg(txnId), sts.connectionManager, activeRMs...)
			}
			continuation(txnId, nil)
		}
	}
	shutdownFunPtr := &shutdownFun
	sts.onShutdown[shutdownFunPtr] = server.EmptyStructVal

	outcomeAccumulator := paxos.NewOutcomeAccumulator(int(txnCap.FInc()), acceptors)
	consumer := func(sender common.RMId, txnId *common.TxnId, outcome *msgs.Outcome) {
		if outcome, _ = outcomeAccumulator.BallotOutcomeReceived(sender, outcome); outcome != nil {
			delete(sts.onShutdown, shutdownFunPtr)
			shutdownFun(false)
			continuation(txnId, outcome)
		}
	}
	sts.outcomeConsumers[*txnId] = consumer
	// fmt.Printf("sts%v ", len(sts.outcomeConsumers))
}
Esempio n. 16
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func (am *AcceptorManager) TxnLocallyCompleteReceived(sender common.RMId, txnId *common.TxnId, tlc *msgs.TxnLocallyComplete) {
	if aInst, found := am.acceptors[*txnId]; found && aInst.acceptor != nil {
		server.Log(txnId, "TLC received from", sender, "(acceptor found)")
		aInst.acceptor.TxnLocallyCompleteReceived(sender)

	} else {
		// We must have deleted the acceptor state from disk,
		// immediately prior to sending TGC, and then died. Now we're
		// back up, the proposers have sent us more TLCs, and we should
		// just reply with TGCs.
		server.Log(txnId, "TLC received from", sender, "(acceptor not found)")
		seg := capn.NewBuffer(nil)
		msg := msgs.NewRootMessage(seg)
		tgc := msgs.NewTxnGloballyComplete(seg)
		msg.SetTxnGloballyComplete(tgc)
		tgc.SetTxnId(txnId[:])
		server.Log(txnId, "Sending single TGC to", sender)
		NewOneShotSender(server.SegToBytes(seg), am.ConnectionManager, sender)
	}
}