コード例 #1
0
// updateState updates the transaction state in both the success and
// error cases, applying those updates to the corresponding txnMeta
// object when adequate. It also updates certain errors with the
// updated transaction for use by client restarts.
func (tc *TxnCoordSender) updateState(ctx context.Context, ba proto.BatchRequest, br *proto.BatchResponse, pErr *proto.Error) *proto.Error {
	trace := tracer.FromCtx(ctx)
	newTxn := &proto.Transaction{}
	newTxn.Update(ba.GetTxn())
	err := pErr.GoError()
	switch t := err.(type) {
	case nil:
		newTxn.Update(br.GetTxn())
		// Move txn timestamp forward to response timestamp if applicable.
		// TODO(tschottdorf): see (*Replica).executeBatch and comments within.
		// Looks like this isn't necessary any more, nor did it prevent a bug
		// referenced in a TODO there.
		newTxn.Timestamp.Forward(br.Timestamp)
	case *proto.TransactionStatusError:
		// Likely already committed or more obscure errors such as epoch or
		// timestamp regressions; consider txn dead.
		defer tc.cleanupTxn(trace, t.Txn)
	case *proto.OpRequiresTxnError:
		// TODO(tschottdorf): range-spanning autowrap currently broken.
		panic("TODO(tschottdorf): disabled")
	case *proto.ReadWithinUncertaintyIntervalError:
		// Mark the host as certain. See the protobuf comment for
		// Transaction.CertainNodes for details.
		if t.NodeID == 0 {
			panic("no replica set in header on uncertainty restart")
		}
		newTxn.CertainNodes.Add(t.NodeID)
		// If the reader encountered a newer write within the uncertainty
		// interval, move the timestamp forward, just past that write or
		// up to MaxTimestamp, whichever comes first.
		candidateTS := newTxn.MaxTimestamp
		candidateTS.Backward(t.ExistingTimestamp.Add(0, 1))
		newTxn.Timestamp.Forward(candidateTS)
		newTxn.Restart(ba.GetUserPriority(), newTxn.Priority, newTxn.Timestamp)
		t.Txn = *newTxn
	case *proto.TransactionAbortedError:
		// Increase timestamp if applicable.
		newTxn.Timestamp.Forward(t.Txn.Timestamp)
		newTxn.Priority = t.Txn.Priority
		t.Txn = *newTxn
		// Clean up the freshly aborted transaction in defer(), avoiding a
		// race with the state update below.
		defer tc.cleanupTxn(trace, t.Txn)
	case *proto.TransactionPushError:
		// Increase timestamp if applicable, ensuring that we're
		// just ahead of the pushee.
		newTxn.Timestamp.Forward(t.PusheeTxn.Timestamp.Add(0, 1))
		newTxn.Restart(ba.GetUserPriority(), t.PusheeTxn.Priority-1, newTxn.Timestamp)
		t.Txn = newTxn
	case *proto.TransactionRetryError:
		// Increase timestamp if applicable.
		newTxn.Timestamp.Forward(t.Txn.Timestamp)
		newTxn.Restart(ba.GetUserPriority(), t.Txn.Priority, newTxn.Timestamp)
		t.Txn = *newTxn
	case proto.TransactionRestartError:
		// Assertion: The above cases should exhaust all ErrorDetails which
		// carry a Transaction.
		if pErr.Detail != nil {
			panic(fmt.Sprintf("unhandled TransactionRestartError %T", err))
		}
	}

	return func() *proto.Error {
		if len(newTxn.ID) <= 0 {
			return pErr
		}
		id := string(newTxn.ID)
		tc.Lock()
		defer tc.Unlock()
		txnMeta := tc.txns[id]
		// For successful transactional requests, keep the written intents and
		// the updated transaction record to be sent along with the reply.
		// The transaction metadata is created with the first writing operation
		// TODO(tschottdorf): already computed the intents prior to sending,
		// consider re-using those.
		if intents := ba.GetIntents(); len(intents) > 0 && err == nil {
			if txnMeta == nil {
				newTxn.Writing = true
				txnMeta = &txnMetadata{
					txn:              *newTxn,
					keys:             cache.NewIntervalCache(cache.Config{Policy: cache.CacheNone}),
					firstUpdateNanos: tc.clock.PhysicalNow(),
					lastUpdateNanos:  tc.clock.PhysicalNow(),
					timeoutDuration:  tc.clientTimeout,
					txnEnd:           make(chan struct{}),
				}
				tc.txns[id] = txnMeta
				// If the transaction is already over, there's no point in
				// launching a one-off coordinator which will shut down right
				// away.
				if _, isEnding := ba.GetArg(proto.EndTransaction); !isEnding {
					trace.Event("coordinator spawns")
					if !tc.stopper.RunAsyncTask(func() {
						tc.heartbeatLoop(id)
					}) {
						// The system is already draining and we can't start the
						// heartbeat. We refuse new transactions for now because
						// they're likely not going to have all intents committed.
						// In principle, we can relax this as needed though.
						tc.unregisterTxnLocked(id)
						return proto.NewError(&proto.NodeUnavailableError{})
					}
				}
			}
			for _, intent := range intents {
				txnMeta.addKeyRange(intent.Key, intent.EndKey)
			}
		}
		// Update our record of this transaction, even on error.
		if txnMeta != nil {
			txnMeta.txn.Update(newTxn) // better to replace after #2300
			if !txnMeta.txn.Writing {
				panic("tracking a non-writing txn")
			}
			txnMeta.setLastUpdate(tc.clock.PhysicalNow())
		}
		if err == nil {
			// For successful transactional requests, always send the updated txn
			// record back.
			if br.Txn == nil {
				br.Txn = &proto.Transaction{}
			}
			*br.Txn = *newTxn
		}
		return pErr
	}()
}