Пример #1
0
  protected boolean storeCheckpoint(DispatcherState curState, Checkpoint cp, SCN winScn)
      throws IOException {
    boolean debugEnabled = _log.isDebugEnabled();

    if (debugEnabled) _log.debug("About to store checkpoint");

    boolean success = true;

    // processBatch - returns false ; then
    ConsumerCallbackResult callbackResult = getAsyncCallback().onCheckpoint(winScn);
    boolean persistCheckpoint =
        !ConsumerCallbackResult.isSkipCheckpoint(callbackResult)
            && ConsumerCallbackResult.isSuccess(callbackResult);
    if (persistCheckpoint) {
      if (null != getCheckpointPersistor()) {
        getCheckpointPersistor().storeCheckpointV3(getSubsciptionsList(), cp, _registrationId);
        ++_numCheckPoints;
      }
      curState.storeCheckpoint(cp, winScn);
      removeEvents(curState);
      if (debugEnabled) _log.debug("Checkpoint saved: " + cp.toString());
    } else {
      if (debugEnabled)
        _log.debug("Checkpoint " + cp + " not saved as callback returned " + callbackResult);
    }
    return success;
  }
Пример #2
0
 public static Checkpoint createOnlineConsumptionCheckpoint(
     long lastCompleteWindowScn, long lastEowTsNsecs, DispatcherState curState, DbusEvent event) {
   // TODO: What does this mean? "For online consumption ; this means that a complete event window
   // hasn't been read yet."
   // So until we have support from RelayPuller resuming from mid-window ; there is no point in
   // trying to save  a parital window
   long windowScn = lastCompleteWindowScn;
   if (windowScn < 0) {
     if (event.isCheckpointMessage()) {
       // control event; then safe to set to sequence; useful when relayPuller writes checkpoint to
       // buffer to
       // be passed on to bootstrapPuller
       windowScn = event.sequence();
       // TODO: According to DbusEventFactory.createCheckpointEvent, event,sequence() is always 0!
       // Is this even executed? If we send a checkpoint event from the relay, we could be screwed!
     } else {
       // there's no sufficient data: not a single window has been processed.
       windowScn = event.sequence() > 0 ? event.sequence() - 1 : 0;
       // TODO Can't do this math for timestamp. See DDSDBUS-3149
     }
   }
   return Checkpoint.createOnlineConsumptionCheckpoint(windowScn, lastEowTsNsecs);
 }
Пример #3
0
  protected void doDispatchEvents() {
    boolean debugEnabled = _log.isDebugEnabled();
    boolean traceEnabled = _log.isTraceEnabled();

    // need to remove eventually but for now I want to avoid a nasty diff
    final DispatcherState curState = _internalState;

    // DbusEventIterator eventIter = curState.getEventsIterator();

    if (!_stopDispatch.get()
        && !curState.getEventsIterator().hasNext()
        && !checkForShutdownRequest()) {
      if (debugEnabled) _log.debug("Waiting for events");
      curState.getEventsIterator().await(50, TimeUnit.MILLISECONDS);
    }
    boolean success = true;
    boolean hasQueuedEvents = false;
    while (success
        && !_stopDispatch.get()
        && curState.getStateId() != DispatcherState.StateId.STOP_DISPATCH_EVENTS
        && null != curState.getEventsIterator()
        && curState.getEventsIterator().hasNext()
        && !checkForShutdownRequest()
        &&
        // exit the event processing loop if there are other queued notifications
        !hasMessages()) {
      DbusEventInternalReadable nextEvent = curState.getEventsIterator().next();
      _currentWindowSizeInBytes += nextEvent.size();
      if (traceEnabled) _log.trace("Got event:" + nextEvent);
      Long eventSrcId = (long) nextEvent.srcId();
      if (curState.isSCNRegress()) {
        SingleSourceSCN scn =
            new SingleSourceSCN(nextEvent.physicalPartitionId(), nextEvent.sequence());
        _log.info("We are regressing to SCN: " + scn);
        curState.switchToRollback();
        doRollback(curState, scn, false, false);
        curState.setSCNRegress(false);
        curState.switchToExpectEventWindow();
      }

      if (null != getAsyncCallback().getStats())
        getAsyncCallback()
            .getStats()
            .registerWindowSeen(nextEvent.timestampInNanos(), nextEvent.sequence());

      if (nextEvent.isControlMessage()) {
        // control event
        if (nextEvent.isEndOfPeriodMarker()) {
          if (curState.isEventsSeen()) {
            if (null != curState.getCurrentSource()) {
              curState.switchToEndStreamSource();
              success = doEndStreamSource(curState);
            }

            SCN endWinScn = null;
            if (success) {
              _lastWindowScn = nextEvent.sequence();
              _lastEowTsNsecs = nextEvent.timestampInNanos();
              endWinScn = new SingleSourceSCN(nextEvent.physicalPartitionId(), _lastWindowScn);
              curState.switchToEndStreamEventWindow(endWinScn);
              success = doEndStreamEventWindow(curState);
            }
            if (success) {
              try {
                // end of period event
                Checkpoint cp = createCheckpoint(curState, nextEvent);
                success = doStoreCheckpoint(curState, nextEvent, cp, endWinScn);
              } catch (SharedCheckpointException e) {
                // shutdown
                return;
              }
            }
          } else {
            // empty window
            success = true;
            if (_log.isDebugEnabled()) {
              _log.debug("skipping empty window: " + nextEvent.sequence());
            }

            // write a checkpoint; takes care of slow sources ; but skip storing the first control
            // eop with 0 scn
            if (nextEvent.sequence() > 0) {
              _lastWindowScn = nextEvent.sequence();
              // the first window (startEvents()) can have a eop whose sequence() is non-zero but
              // timestamp 0 e.g. in chained relay .
              // The reason is that the eop's timestamp is the max timestamp of all data events seen
              // so far.
              if (nextEvent.timestampInNanos() > 0) {
                _lastEowTsNsecs = nextEvent.timestampInNanos();
              }
              Checkpoint ckpt = createCheckpoint(curState, nextEvent);
              try {
                success =
                    doStoreCheckpoint(
                        curState,
                        nextEvent,
                        ckpt,
                        new SingleSourceSCN(nextEvent.physicalPartitionId(), nextEvent.sequence()));
              } catch (SharedCheckpointException e) {
                // shutdown
                return;
              }
            } else {
              _log.warn("EOP with scn=" + nextEvent.sequence());
            }
          }
          if (success) {
            curState.switchToExpectEventWindow();
            // we have recovered from the error  and it's not the dummy window
            if (nextEvent.sequence() > 0) {
              if (!getStatus().isRunningStatus()) getStatus().resume();
            }
          }
        } else if (nextEvent.isErrorEvent()) {
          _log.info("Error event: " + nextEvent.sequence());
          success = processErrorEvent(curState, nextEvent);
        } else {
          // control event
          success = processSysEvent(curState, nextEvent);
          if (success) {

            if (nextEvent.isCheckpointMessage()) {
              Checkpoint sysCheckpt = createCheckpoint(curState, nextEvent);
              try {
                long scn =
                    sysCheckpt.getConsumptionMode() == DbusClientMode.ONLINE_CONSUMPTION
                        ? nextEvent.sequence()
                        : sysCheckpt.getBootstrapSinceScn();
                // ensure that control event with 0 scn doesn't get saved unless it is during
                // snapshot of bootstrap
                if (scn > 0
                    || sysCheckpt.getConsumptionMode() == DbusClientMode.BOOTSTRAP_SNAPSHOT) {
                  success =
                      doStoreCheckpoint(
                          curState,
                          nextEvent,
                          sysCheckpt,
                          new SingleSourceSCN(nextEvent.physicalPartitionId(), scn));
                }
              } catch (SharedCheckpointException e) {
                // shutdown
                return;
              }
            }
          }
        }
      } else {
        curState.setEventsSeen(true);

        // not a control event
        if (curState.getStateId().equals(StateId.EXPECT_EVENT_WINDOW)
            || curState.getStateId().equals(StateId.REPLAY_DATA_EVENTS)) {
          SCN startScn = new SingleSourceSCN(nextEvent.physicalPartitionId(), nextEvent.sequence());
          curState.switchToStartStreamEventWindow(startScn);
          success = doStartStreamEventWindow(curState);

          if (success && (eventSrcId.longValue() >= 0)) {
            success = doCheckStartSource(curState, eventSrcId, new SchemaId(nextEvent.schemaId()));
          }
        } else {
          if (null != curState.getCurrentSource()
              && !eventSrcId.equals(curState.getCurrentSource().getId())) {
            curState.switchToEndStreamSource();
            success = doEndStreamSource(curState);
          }

          if (success) {
            // Check if schemas of the source exist.
            // Also check if the exact schema id present in event exists in the client. This is
            // worthwhile if there's a
            // guarantee that the entire window is written with the same schemaId, which is the case
            // if the relay does not use a new schema
            // mid-window
            success = doCheckStartSource(curState, eventSrcId, new SchemaId(nextEvent.schemaId()));
          }
        }

        if (success) {
          // finally: process data event
          success = processDataEvent(curState, nextEvent);
          if (success) {

            hasQueuedEvents = true;
            if (hasCheckpointThresholdBeenExceeded()) {
              _log.info(
                  "Attempting to checkpoint (only if the consumer callback for onCheckpoint returns SUCCESS), because "
                      + getCurrentWindowSizeInBytes()
                      + " bytes reached without checkpoint ");
              success = processDataEventsBatch(curState);
              if (success) {
                hasQueuedEvents = false;
                // checkpoint: for bootstrap it's the right checkpoint; that has been lazily created
                // by a checkpoint event
                // checkpoint: for relay: create a checkpoint that has the prevScn
                Checkpoint cp = createCheckpoint(curState, nextEvent);
                // DDSDBUS-1889 : scn for bootstrap is bootstrapSinceSCN
                // scn for online consumption is : currentWindow
                SCN lastScn =
                    cp.getConsumptionMode() == DbusClientMode.ONLINE_CONSUMPTION
                        ? curState.getStartWinScn()
                        : new SingleSourceSCN(
                            nextEvent.physicalPartitionId(), cp.getBootstrapSinceScn());
                try {
                  // Even if storeCheckpoint fails, we
                  // should continue (hoping for the best)
                  success = doStoreCheckpoint(curState, nextEvent, cp, lastScn);
                } catch (SharedCheckpointException e) {
                  // shutdown
                  return;
                }
                curState.switchToExpectStreamDataEvents();
                if (!getStatus().isRunningStatus()) getStatus().resume();
              }
            }
          }
        }
      }
      if (success) {
        // check if threshold has been exceeded for control events;
        // DDSDBUS-1776
        // this condition will take care of cases where checkpoint
        // persistence failed or onCheckpoint returned false
        // and the buffer was still left with events, at this juncture
        // we clear the buffer to make progress at the risk
        // of not being able to rollback should an error be encountered
        // before next successful checkpoint
        if (hasCheckpointThresholdBeenExceeded()) {
          // drain events just in case it hasn't been drained before; mainly control events that are
          // not checkpoint events
          success = processDataEventsBatch(curState);
          if (success) {
            _log.warn(
                "Checkpoint not stored, but removing older events from buffer to guarantee progress (checkpoint threshold has"
                    + " exceeded), consider checkpointing more frequently. Triggered on control-event="
                    + nextEvent.isControlMessage());
            // guarantee progress: risk being unable to rollback by
            // removing events, but hope for the best
            removeEvents(curState);
          }
        }
      }
    }

    if (!_stopDispatch.get() && !checkForShutdownRequest()) {
      if (success) {
        if (hasQueuedEvents) {
          success = processDataEventsBatch(curState);
          if (!success) {
            _log.error("Unable to flush partial window");
          }
        }
        if (debugEnabled) _log.debug("doDispatchEvents to " + curState.toString());
      }

      if (!success) {
        curState.switchToRollback();
        doRollback(curState);
      }

      enqueueMessage(curState); // loop around -- let any other messages be processed
    }
  }
  @Override
  protected DatabusRequest doProcess(DatabusRequest request)
      throws IOException, RequestProcessingException {
    BootstrapHttpStatsCollector bootstrapStatsCollector =
        _bootstrapServer.getBootstrapStatsCollector();
    long startTime = System.currentTimeMillis();
    String sources = request.getRequiredStringParam(SOURCES_PARAM);
    List<String> srcList = getSources(sources);

    Checkpoint ckpt = new Checkpoint(request.getRequiredStringParam(CHECKPOINT_PARAM));

    LOG.info("StartSCN requested for sources : (" + sources + "). CheckPoint is :" + ckpt);
    long sinceScn = ckpt.getBootstrapSinceScn();
    ObjectMapper mapper = new ObjectMapper();
    StringWriter out = new StringWriter(1024);
    long startSCN = -1;
    BootstrapSCNProcessor processor = null;

    try {
      processor =
          new BootstrapSCNProcessor(_config, _bootstrapServer.getInboundEventStatisticsCollector());
      List<SourceStatusInfo> srcStatusPairs = null;
      try {
        srcStatusPairs = processor.getSourceIdAndStatusFromName(srcList);
        startSCN = processor.getMinApplierWindowScn(sinceScn, srcStatusPairs);

        if (processor.shouldBypassSnapshot(sinceScn, startSCN, srcStatusPairs)) {
          LOG.info("Bootstrap Snapshot phase will be bypassed for startScn request :" + request);
          LOG.info(
              "Original startSCN is:"
                  + startSCN
                  + ", Setting startSCN to the sinceSCN:"
                  + sinceScn);
          startSCN = sinceScn;
        }

      } catch (BootstrapDatabaseTooOldException tooOldException) {
        if (bootstrapStatsCollector != null) {
          bootstrapStatsCollector.registerErrStartSCN();
          bootstrapStatsCollector.registerErrDatabaseTooOld();
        }

        LOG.error("The bootstrap database is too old!", tooOldException);
        throw new RequestProcessingException(tooOldException);
      } catch (SQLException e) {
        if (bootstrapStatsCollector != null) {
          bootstrapStatsCollector.registerErrStartSCN();
          bootstrapStatsCollector.registerErrSqlException();
        }
        LOG.error("Error encountered while fetching startSCN from database.", e);
        throw new RequestProcessingException(e);
      }
      mapper.writeValue(out, String.valueOf(startSCN));
      byte[] resultBytes = out.toString().getBytes();
      request.getResponseContent().write(ByteBuffer.wrap(resultBytes));
      LOG.info("startSCN: " + startSCN + "with server Info :" + _serverHostPort);
    } catch (Exception ex) {
      LOG.error("Got exception while calculating startSCN", ex);
      throw new RequestProcessingException(ex);
    } finally {
      if (null != processor) processor.shutdown();
    }

    if (bootstrapStatsCollector != null) {
      bootstrapStatsCollector.registerStartSCNReq(System.currentTimeMillis() - startTime);
    }
    return request;
  }