func TxnFromCap(exe *dispatcher.Executor, vd *VarDispatcher, stateChange TxnLocalStateChange, ourRMId common.RMId, txnCap *msgs.Txn) *Txn { txnId := common.MakeTxnId(txnCap.Id()) actions := txnCap.Actions() txn := &Txn{ Id: txnId, Retry: txnCap.Retry(), writes: make([]*common.VarUUId, 0, actions.Len()), TxnCap: txnCap, exe: exe, vd: vd, stateChange: stateChange, } allocations := txnCap.Allocations() for idx, l := 0, allocations.Len(); idx < l; idx++ { alloc := allocations.At(idx) rmId := common.RMId(alloc.RmId()) if ourRMId == rmId { txn.populate(alloc.ActionIndices(), actions) break } } return txn }
func NewProposal(pm *ProposerManager, txnId *common.TxnId, txn *msgs.Txn, fInc int, ballots []*eng.Ballot, instanceRMId common.RMId, acceptors []common.RMId, skipPhase1 bool) *proposal { allocs := txn.Allocations() activeRMIds := make(map[common.RMId]uint32, allocs.Len()) for idx, l := 0, allocs.Len(); idx < l; idx++ { alloc := allocs.At(idx) bootCount := alloc.Active() if bootCount == 0 { break } rmId := common.RMId(alloc.RmId()) activeRMIds[rmId] = bootCount } p := &proposal{ proposerManager: pm, instanceRMId: instanceRMId, acceptors: acceptors, activeRMIds: activeRMIds, fInc: fInc, txn: txn, txnId: txnId, skipPhase1: skipPhase1, instances: make(map[common.VarUUId]*proposalInstance, len(ballots)), pending: make([]*proposalInstance, 0, len(ballots)), finished: false, } for _, ballot := range ballots { pi := newProposalInstance(p, ballot) p.instances[*ballot.VarUUId] = pi pi.init() pi.start() } return p }
func deflateTxn(txn *msgs.Txn, seg *capn.Segment) *msgs.Txn { if isDeflated(txn) { return txn } deflatedTxn := msgs.NewTxn(seg) deflatedTxn.SetId(txn.Id()) deflatedTxn.SetRetry(txn.Retry()) deflatedTxn.SetSubmitter(txn.Submitter()) deflatedTxn.SetSubmitterBootCount(txn.SubmitterBootCount()) deflatedTxn.SetFInc(txn.FInc()) deflatedTxn.SetTopologyVersion(txn.TopologyVersion()) deflatedTxn.SetAllocations(txn.Allocations()) actionsList := txn.Actions() deflatedActionsList := msgs.NewActionList(seg, actionsList.Len()) deflatedTxn.SetActions(deflatedActionsList) for idx, l := 0, actionsList.Len(); idx < l; idx++ { deflatedAction := deflatedActionsList.At(idx) deflatedAction.SetVarId(actionsList.At(idx).VarId()) deflatedAction.SetMissing() } return &deflatedTxn }
func NewBallotAccumulator(txnId *common.TxnId, txn *msgs.Txn) *BallotAccumulator { actions := txn.Actions() ba := &BallotAccumulator{ Txn: txn, txnId: txnId, vUUIdToBallots: make(map[common.VarUUId]*varBallot), outcome: nil, incompleteVars: actions.Len(), dirty: false, } vBallots := make([]varBallot, ba.incompleteVars) for idx := 0; idx < ba.incompleteVars; idx++ { action := actions.At(idx) vUUId := common.MakeVarUUId(action.VarId()) vBallot := &vBallots[idx] vBallot.vUUId = vUUId ba.vUUIdToBallots[*vUUId] = vBallot } allocs := txn.Allocations() for idx, l := 0, allocs.Len(); idx < l; idx++ { alloc := allocs.At(idx) if alloc.Active() == 0 { break } indices := alloc.ActionIndices() for idy, m := 0, indices.Len(); idy < m; idy++ { vBallots[int(indices.At(idy))].voters++ } } return ba }
func AllocForRMId(txn *msgs.Txn, rmId common.RMId) *msgs.Allocation { allocs := txn.Allocations() for idx, l := 0, allocs.Len(); idx < l; idx++ { alloc := allocs.At(idx) if common.RMId(alloc.RmId()) == rmId { return &alloc } } return nil }
func GetAcceptorsFromTxn(txnCap *msgs.Txn) common.RMIds { fInc := int(txnCap.FInc()) twoFInc := fInc + fInc - 1 acceptors := make([]common.RMId, twoFInc) allocations := txnCap.Allocations() idx := 0 for l := allocations.Len(); idx < l && idx < twoFInc; idx++ { alloc := allocations.At(idx) acceptors[idx] = common.RMId(alloc.RmId()) } // Danger! For the initial topology txns, there are _not_ twoFInc acceptors return acceptors[:idx] }
func TxnToRootBytes(txn *msgs.Txn) []byte { seg := capn.NewBuffer(nil) txnCap := msgs.NewRootTxn(seg) txnCap.SetId(txn.Id()) txnCap.SetRetry(txn.Retry()) txnCap.SetSubmitter(txn.Submitter()) txnCap.SetSubmitterBootCount(txn.SubmitterBootCount()) txnCap.SetActions(txn.Actions()) txnCap.SetAllocations(txn.Allocations()) txnCap.SetFInc(txn.FInc()) txnCap.SetTopologyVersion(txn.TopologyVersion()) return server.SegToBytes(seg) }