public static void logIv2InitiateTaskMessage( Iv2InitiateTaskMessage itask, long localHSId, long txnid, long spHandle) { if (iv2log.isTraceEnabled()) { String logmsg = "rxInitMsg %s from %s ciHandle %s txnId %s spHandle %s trunc %s"; if (itask.getTxnId() != Long.MIN_VALUE && itask.getTxnId() != txnid) { iv2log.error( "Iv2InitiateTaskMessage TXN ID conflict. Message: " + itask.getTxnId() + ", locally held: " + txnid); } if (itask.getSpHandle() != Long.MIN_VALUE && itask.getSpHandle() != spHandle) { iv2log.error( "Iv2InitiateTaskMessage SP HANDLE conflict. Message: " + itask.getSpHandle() + ", locally held: " + spHandle); } iv2log.trace( String.format( logmsg, CoreUtils.hsIdToString(localHSId), CoreUtils.hsIdToString(itask.m_sourceHSId), ClientInterfaceHandleManager.handleToString(itask.getClientInterfaceHandle()), txnIdToString(txnid), txnIdToString(spHandle), txnIdToString(itask.getTruncationHandle()))); } }
private void handleIv2InitiateTaskMessageRepair( List<Long> needsRepair, Iv2InitiateTaskMessage message) { if (!message.isSinglePartition()) { throw new RuntimeException( "SpScheduler.handleIv2InitiateTaskMessageRepair " + "should never receive multi-partition initiations."); } // set up duplicate counter. expect exactly the responses corresponding // to needsRepair. These may, or may not, include the local site. // We currently send the final response into the ether, since we don't // have the original ClientInterface HSID stored. It would be more // useful to have the original ClienInterface HSId somewhere handy. List<Long> expectedHSIds = new ArrayList<Long>(needsRepair); DuplicateCounter counter = new DuplicateCounter( HostMessenger.VALHALLA, message.getTxnId(), expectedHSIds, message.getStoredProcedureName()); m_duplicateCounters.put( new DuplicateCounterKey(message.getTxnId(), message.getSpHandle()), counter); m_uniqueIdGenerator.updateMostRecentlyGeneratedUniqueId(message.getUniqueId()); // is local repair necessary? if (needsRepair.contains(m_mailbox.getHSId())) { needsRepair.remove(m_mailbox.getHSId()); // make a copy because handleIv2 non-repair case does? Iv2InitiateTaskMessage localWork = new Iv2InitiateTaskMessage( message.getInitiatorHSId(), message.getCoordinatorHSId(), message); doLocalInitiateOffer(localWork); } // is remote repair necessary? if (!needsRepair.isEmpty()) { Iv2InitiateTaskMessage replmsg = new Iv2InitiateTaskMessage(m_mailbox.getHSId(), m_mailbox.getHSId(), message); m_mailbox.send(com.google.common.primitives.Longs.toArray(needsRepair), replmsg); } }
// SpScheduler expects to see InitiateTaskMessages corresponding to single-partition // procedures only. public void handleIv2InitiateTaskMessage(Iv2InitiateTaskMessage message) { if (!message.isSinglePartition()) { throw new RuntimeException( "SpScheduler.handleIv2InitiateTaskMessage " + "should never receive multi-partition initiations."); } final String procedureName = message.getStoredProcedureName(); long newSpHandle; long uniqueId = Long.MIN_VALUE; Iv2InitiateTaskMessage msg = message; if (m_isLeader || message.isReadOnly()) { /* * A short circuit read is a read where the client interface is local to * this node. The CI will let a replica perform a read in this case and * it does looser tracking of client handles since it can't be * partitioned from the local replica. */ if (!m_isLeader && CoreUtils.getHostIdFromHSId(msg.getInitiatorHSId()) != CoreUtils.getHostIdFromHSId(m_mailbox.getHSId())) { VoltDB.crashLocalVoltDB("Only allowed to do short circuit reads locally", true, null); } /* * If this is for CL replay or DR, update the unique ID generator */ if (message.isForReplay()) { uniqueId = message.getUniqueId(); try { m_uniqueIdGenerator.updateMostRecentlyGeneratedUniqueId(uniqueId); } catch (Exception e) { hostLog.fatal(e.getMessage()); hostLog.fatal("Invocation: " + message); VoltDB.crashLocalVoltDB(e.getMessage(), true, e); } } else if (message.isForDR()) { uniqueId = message.getStoredProcedureInvocation().getOriginalUniqueId(); // @LoadSinglepartitionTable does not have a valid uid if (UniqueIdGenerator.getPartitionIdFromUniqueId(uniqueId) == m_partitionId) { m_uniqueIdGenerator.updateMostRecentlyGeneratedUniqueId(uniqueId); } } /* * If this is CL replay use the txnid from the CL and also * update the txnid to match the one from the CL */ if (message.isForReplay()) { newSpHandle = message.getTxnId(); setMaxSeenTxnId(newSpHandle); } else if (m_isLeader) { TxnEgo ego = advanceTxnEgo(); newSpHandle = ego.getTxnId(); uniqueId = m_uniqueIdGenerator.getNextUniqueId(); } else { /* * The short circuit read case. Since we are not a master * we can't create new transaction IDs, so reuse the last seen * txnid. For a timestamp, might as well give a reasonable one * for a read heavy workload so time isn't bursty. */ uniqueId = UniqueIdGenerator.makeIdFromComponents( Math.max(System.currentTimeMillis(), m_uniqueIdGenerator.lastUsedTime), 0, m_uniqueIdGenerator.partitionId); // Don't think it wise to make a new one for a short circuit read newSpHandle = getCurrentTxnId(); } // Need to set the SP handle on the received message // Need to copy this or the other local sites handling // the same initiate task message will overwrite each // other's memory -- the message isn't copied on delivery // to other local mailboxes. msg = new Iv2InitiateTaskMessage( message.getInitiatorHSId(), message.getCoordinatorHSId(), m_repairLogTruncationHandle, message.getTxnId(), message.getUniqueId(), message.isReadOnly(), message.isSinglePartition(), message.getStoredProcedureInvocation(), message.getClientInterfaceHandle(), message.getConnectionId(), message.isForReplay()); msg.setSpHandle(newSpHandle); // Also, if this is a vanilla single-part procedure, make the TXNID // be the SpHandle (for now) // Only system procedures are every-site, so we'll check through the SystemProcedureCatalog if (SystemProcedureCatalog.listing.get(procedureName) == null || !SystemProcedureCatalog.listing.get(procedureName).getEverysite()) { msg.setTxnId(newSpHandle); msg.setUniqueId(uniqueId); } // Don't replicate reads, this really assumes that DML validation // is going to be integrated soonish if (m_isLeader && !msg.isReadOnly() && m_sendToHSIds.length > 0) { Iv2InitiateTaskMessage replmsg = new Iv2InitiateTaskMessage( m_mailbox.getHSId(), m_mailbox.getHSId(), m_repairLogTruncationHandle, msg.getTxnId(), msg.getUniqueId(), msg.isReadOnly(), msg.isSinglePartition(), msg.getStoredProcedureInvocation(), msg.getClientInterfaceHandle(), msg.getConnectionId(), msg.isForReplay()); // Update the handle in the copy since the constructor doesn't set it replmsg.setSpHandle(newSpHandle); m_mailbox.send(m_sendToHSIds, replmsg); DuplicateCounter counter = new DuplicateCounter( msg.getInitiatorHSId(), msg.getTxnId(), m_replicaHSIds, msg.getStoredProcedureName()); m_duplicateCounters.put(new DuplicateCounterKey(msg.getTxnId(), newSpHandle), counter); } } else { setMaxSeenTxnId(msg.getSpHandle()); newSpHandle = msg.getSpHandle(); uniqueId = msg.getUniqueId(); } Iv2Trace.logIv2InitiateTaskMessage(message, m_mailbox.getHSId(), msg.getTxnId(), newSpHandle); doLocalInitiateOffer(msg); return; }
// Offer a new message to the repair log. This will truncate // the repairLog if the message includes a truncation hint. public void deliver(VoltMessage msg) { if (!m_isLeader && msg instanceof Iv2InitiateTaskMessage) { final Iv2InitiateTaskMessage m = (Iv2InitiateTaskMessage) msg; // We can't repair read only SP transactions. Just don't log them to the repair log. if (m.isReadOnly()) { return; } m_lastSpHandle = m.getSpHandle(); truncate(m.getTruncationHandle(), IS_SP); m_logSP.add(new Item(IS_SP, m, m.getSpHandle(), m.getTxnId())); } else if (msg instanceof FragmentTaskMessage) { final FragmentTaskMessage m = (FragmentTaskMessage) msg; // We can't repair read only SP transactions. Just don't log them to the repair log. if (m.isReadOnly()) { return; } truncate(m.getTruncationHandle(), IS_MP); // only log the first fragment of a procedure (and handle 1st case) if (m.getTxnId() > m_lastMpHandle || m_lastMpHandle == Long.MAX_VALUE) { m_logMP.add(new Item(IS_MP, m, m.getSpHandle(), m.getTxnId())); m_lastMpHandle = m.getTxnId(); m_lastSpHandle = m.getSpHandle(); } } else if (msg instanceof CompleteTransactionMessage) { // a CompleteTransactionMessage which indicates restart is not the end of the // transaction. We don't want to log it in the repair log. CompleteTransactionMessage ctm = (CompleteTransactionMessage) msg; // We can't repair read only SP transactions. Just don't log them to the repair log. // Restart transaction do not need to be repaired here, don't log them as well. if (ctm.isReadOnly() || ctm.isRestart()) { return; } truncate(ctm.getTruncationHandle(), IS_MP); m_logMP.add(new Item(IS_MP, ctm, ctm.getSpHandle(), ctm.getTxnId())); // Restore will send a complete transaction message with a lower mp transaction id because // the restore transaction precedes the loading of the right mp transaction id from the // snapshot // Hence Math.max m_lastMpHandle = Math.max(m_lastMpHandle, ctm.getTxnId()); m_lastSpHandle = ctm.getSpHandle(); } else if (msg instanceof DumpMessage) { String who = CoreUtils.hsIdToString(m_HSId); tmLog.warn( "Repair log dump for site: " + who + ", isLeader: " + m_isLeader + ", " + who + ": lastSpHandle: " + m_lastSpHandle + ", lastMpHandle: " + m_lastMpHandle); for (Iv2RepairLogResponseMessage il : contents(0l, false)) { tmLog.warn("[Repair log contents]" + who + ": msg: " + il); } } else if (msg instanceof RepairLogTruncationMessage) { final RepairLogTruncationMessage truncateMsg = (RepairLogTruncationMessage) msg; truncate(truncateMsg.getHandle(), IS_SP); } }