@Override
 public synchronized DynamicPartitionMapImpl getMap() {
   ClosableIterator<RowResult<Value>> iterator =
       storage.getRange(PARTITION_MAP_TABLE, RangeRequest.all(), 1L);
   Map<Cell, byte[]> cells = Maps.newHashMap();
   while (iterator.hasNext()) {
     RowResult<Value> row = iterator.next();
     for (Entry<Cell, Value> entry : row.getCells()) {
       assert !cells.containsKey(entry.getKey());
       cells.put(entry.getKey(), entry.getValue().getContents());
     }
   }
   iterator.close();
   return DynamicPartitionMapImpl.fromTable(cells);
 }
示例#2
0
  @Override
  public SweepResults run(String tableName, int batchSize, @Nullable byte[] startRow) {
    Preconditions.checkNotNull(tableName);
    Preconditions.checkState(!AtlasDbConstants.hiddenTables.contains(tableName));

    if (tableName.startsWith(AtlasDbConstants.NAMESPACE_PREFIX)) {
      // this happens sometimes; I think it's because some places in the code can
      // start this sweeper without doing the full normally ordered KVSModule startup.
      // I did check and sweep.stats did contain the FQ table name for all of the tables,
      // so it is at least broken in some way that still allows namespaced tables to eventually be
      // swept.
      log.warn("The sweeper should not be run on tables passed through namespace mapping.");
      return SweepResults.EMPTY_SWEEP;
    }

    // Earliest start timestamp of any currently open transaction, with two caveats:
    // (1) unreadableTimestamps are calculated via wall-clock time, and so may not be correct
    //     under pathological clock conditions
    // (2) immutableTimestamps do not account for locks have timed out after checking their locks;
    //     such a transaction may have a start timestamp less than the immutableTimestamp, and it
    //     could still get successfully committed (its commit timestamp may or may not be less than
    //     the immutableTimestamp
    // Note that this is fine, because we'll either
    // (1) force old readers to abort (if they read a garbage collection sentinel), or
    // (2) force old writers to retry (note that we must roll back any uncommitted transactions that
    //     we encounter
    SweepStrategy sweepStrategy = sweepStrategyManager.get().get(tableName);
    if (sweepStrategy == null) {
      sweepStrategy = SweepStrategy.CONSERVATIVE;
    } else if (sweepStrategy == SweepStrategy.NOTHING) {
      return SweepResults.EMPTY_SWEEP;
    }
    if (startRow == null) {
      startRow = new byte[0];
    }
    RangeRequest rangeRequest =
        RangeRequest.builder().startRowInclusive(startRow).batchHint(batchSize).build();

    long sweepTimestamp = getSweepTimestamp(sweepStrategy);
    ClosableIterator<RowResult<Value>> valueResults;
    if (sweepStrategy == SweepStrategy.CONSERVATIVE) {
      valueResults = ClosableIterators.wrap(ImmutableList.<RowResult<Value>>of().iterator());
    } else {
      valueResults = keyValueService.getRange(tableName, rangeRequest, sweepTimestamp);
    }

    ClosableIterator<RowResult<Set<Long>>> rowResults =
        keyValueService.getRangeOfTimestamps(tableName, rangeRequest, sweepTimestamp);

    try {
      List<RowResult<Set<Long>>> rowResultTimestamps =
          ImmutableList.copyOf(Iterators.limit(rowResults, batchSize));
      PeekingIterator<RowResult<Value>> peekingValues = Iterators.peekingIterator(valueResults);
      Set<Cell> sentinelsToAdd = Sets.newHashSet();
      Multimap<Cell, Long> rowTimestamps =
          getTimestampsFromRowResults(rowResultTimestamps, sweepStrategy);
      Multimap<Cell, Long> cellTsPairsToSweep =
          getCellTsPairsToSweep(
              rowTimestamps, peekingValues, sweepTimestamp, sweepStrategy, sentinelsToAdd);
      sweepCells(tableName, cellTsPairsToSweep, sentinelsToAdd);
      byte[] nextRow =
          rowResultTimestamps.size() < batchSize
              ? null
              : RangeRequests.getNextStartRow(
                  false, Iterables.getLast(rowResultTimestamps).getRowName());
      return new SweepResults(nextRow, rowResultTimestamps.size(), cellTsPairsToSweep.size());
    } finally {
      rowResults.close();
      valueResults.close();
    }
  }