Пример #1
0
  /**
   * Converts a partially qualified KeyRange into a KeyRange with a inclusive lower bound and an
   * exclusive upper bound, widening as necessary.
   */
  public static KeyRange convertToInclusiveExclusiveRange(
      KeyRange partialRange, RowKeySchema schema, ImmutableBytesWritable ptr) {
    // Ensure minMaxRange is lower inclusive and upper exclusive, as that's
    // what we need to intersect against for the HBase scan.
    byte[] lowerRange = partialRange.getLowerRange();
    if (!partialRange.lowerUnbound()) {
      if (!partialRange.isLowerInclusive()) {
        lowerRange = ScanUtil.nextKey(lowerRange, schema, ptr);
      }
    }

    byte[] upperRange = partialRange.getUpperRange();
    if (!partialRange.upperUnbound()) {
      if (partialRange.isUpperInclusive()) {
        upperRange = ScanUtil.nextKey(upperRange, schema, ptr);
      }
    }
    if (partialRange.getLowerRange() != lowerRange || partialRange.getUpperRange() != upperRange) {
      partialRange = KeyRange.getKeyRange(lowerRange, upperRange);
    }
    return partialRange;
  }
Пример #2
0
 public static int getMaxKeyLength(RowKeySchema schema, List<List<KeyRange>> slots) {
   int maxKeyLength = getTerminatorCount(schema) * 2;
   for (List<KeyRange> slot : slots) {
     int maxSlotLength = 0;
     for (KeyRange range : slot) {
       int maxRangeLength = Math.max(range.getLowerRange().length, range.getUpperRange().length);
       if (maxSlotLength < maxRangeLength) {
         maxSlotLength = maxRangeLength;
       }
     }
     maxKeyLength += maxSlotLength;
   }
   return maxKeyLength;
 }
Пример #3
0
  public static TimeRange getDescTimeRange(
      KeyRange lowestKeyRange, KeyRange highestKeyRange, Field f) throws IOException {
    boolean lowerUnbound = lowestKeyRange.lowerUnbound();
    boolean lowerInclusive = lowestKeyRange.isLowerInclusive();
    boolean upperUnbound = highestKeyRange.upperUnbound();
    boolean upperInclusive = highestKeyRange.isUpperInclusive();

    long low =
        lowerUnbound
            ? -1
            : f.getDataType()
                .getCodec()
                .decodeLong(lowestKeyRange.getLowerRange(), 0, SortOrder.DESC);
    long high =
        upperUnbound
            ? -1
            : f.getDataType()
                .getCodec()
                .decodeLong(highestKeyRange.getUpperRange(), 0, SortOrder.DESC);
    long newHigh;
    long newLow;
    if (!lowerUnbound && !upperUnbound) {
      newHigh = lowerInclusive ? safelyIncrement(low) : low;
      newLow = upperInclusive ? high : safelyIncrement(high);
      return new TimeRange(newLow, newHigh);
    } else if (!lowerUnbound && upperUnbound) {
      newHigh = lowerInclusive ? safelyIncrement(low) : low;
      newLow = 0;
      return new TimeRange(newLow, newHigh);
    } else if (lowerUnbound && !upperUnbound) {
      newLow = upperInclusive ? high : safelyIncrement(high);
      newHigh = HConstants.LATEST_TIMESTAMP;
      return new TimeRange(newLow, newHigh);
    } else {
      newLow = 0;
      newHigh = HConstants.LATEST_TIMESTAMP;
      return new TimeRange(newLow, newHigh);
    }
  }
Пример #4
0
 private static TimeRange getAscTimeRange(KeyRange lowestRange, KeyRange highestRange, Field f)
     throws IOException {
   long low;
   long high;
   if (lowestRange.lowerUnbound()) {
     low = 0;
   } else {
     long lowerRange =
         f.getDataType().getCodec().decodeLong(lowestRange.getLowerRange(), 0, SortOrder.ASC);
     low = lowestRange.isLowerInclusive() ? lowerRange : safelyIncrement(lowerRange);
   }
   if (highestRange.upperUnbound()) {
     high = HConstants.LATEST_TIMESTAMP;
   } else {
     long upperRange =
         f.getDataType().getCodec().decodeLong(highestRange.getUpperRange(), 0, SortOrder.ASC);
     if (highestRange.isUpperInclusive()) {
       high = safelyIncrement(upperRange);
     } else {
       high = upperRange;
     }
   }
   return new TimeRange(low, high);
 }
Пример #5
0
 public void initializeScan(Scan scan) {
   scan.setStartRow(scanRange.getLowerRange());
   scan.setStopRow(scanRange.getUpperRange());
 }
Пример #6
0
  public static ScanRanges create(
      RowKeySchema schema,
      List<List<KeyRange>> ranges,
      int[] slotSpan,
      KeyRange minMaxRange,
      Integer nBuckets,
      boolean useSkipScan,
      int rowTimestampColIndex) {
    int offset = nBuckets == null ? 0 : SaltingUtil.NUM_SALTING_BYTES;
    int nSlots = ranges.size();
    if (nSlots == offset && minMaxRange == KeyRange.EVERYTHING_RANGE) {
      return EVERYTHING;
    } else if (minMaxRange == KeyRange.EMPTY_RANGE
        || (nSlots == 1 + offset
            && ranges.get(offset).size() == 1
            && ranges.get(offset).get(0) == KeyRange.EMPTY_RANGE)) {
      return NOTHING;
    }
    TimeRange rowTimestampRange = getRowTimestampColumnRange(ranges, schema, rowTimestampColIndex);
    boolean isPointLookup = isPointLookup(schema, ranges, slotSpan, useSkipScan);
    if (isPointLookup) {
      // TODO: consider keeping original to use for serialization as it would be smaller?
      List<byte[]> keys = ScanRanges.getPointKeys(ranges, slotSpan, schema, nBuckets);
      List<KeyRange> keyRanges = Lists.newArrayListWithExpectedSize(keys.size());
      KeyRange unsaltedMinMaxRange = minMaxRange;
      if (nBuckets != null && minMaxRange != KeyRange.EVERYTHING_RANGE) {
        unsaltedMinMaxRange =
            KeyRange.getKeyRange(
                stripPrefix(minMaxRange.getLowerRange(), offset),
                minMaxRange.lowerUnbound(),
                stripPrefix(minMaxRange.getUpperRange(), offset),
                minMaxRange.upperUnbound());
      }
      // We have full keys here, so use field from our varbinary schema
      BytesComparator comparator = ScanUtil.getComparator(SchemaUtil.VAR_BINARY_SCHEMA.getField(0));
      for (byte[] key : keys) {
        // Filter now based on unsalted minMaxRange and ignore the point key salt byte
        if (unsaltedMinMaxRange.compareLowerToUpperBound(
                    key, offset, key.length - offset, true, comparator)
                <= 0
            && unsaltedMinMaxRange.compareUpperToLowerBound(
                    key, offset, key.length - offset, true, comparator)
                >= 0) {
          keyRanges.add(KeyRange.getKeyRange(key));
        }
      }
      ranges = Collections.singletonList(keyRanges);
      useSkipScan = keyRanges.size() > 1;
      // Treat as binary if descending because we've got a separator byte at the end
      // which is not part of the value.
      if (keys.size() > 1
          || SchemaUtil.getSeparatorByte(schema.rowKeyOrderOptimizable(), false, schema.getField(0))
              == QueryConstants.DESC_SEPARATOR_BYTE) {
        schema = SchemaUtil.VAR_BINARY_SCHEMA;
        slotSpan = ScanUtil.SINGLE_COLUMN_SLOT_SPAN;
      } else {
        // Keep original schema and don't use skip scan as it's not necessary
        // when there's a single key.
        slotSpan = new int[] {schema.getMaxFields() - 1};
      }
    }
    List<List<KeyRange>> sortedRanges = Lists.newArrayListWithExpectedSize(ranges.size());
    for (int i = 0; i < ranges.size(); i++) {
      List<KeyRange> sorted = Lists.newArrayList(ranges.get(i));
      Collections.sort(sorted, KeyRange.COMPARATOR);
      sortedRanges.add(ImmutableList.copyOf(sorted));
    }

    // Don't set minMaxRange for point lookup because it causes issues during intersect
    // by going across region boundaries
    KeyRange scanRange = KeyRange.EVERYTHING_RANGE;
    // if (!isPointLookup && (nBuckets == null || !useSkipScanFilter)) {
    // if (! ( isPointLookup || (nBuckets != null && useSkipScanFilter) ) ) {
    // if (nBuckets == null || (nBuckets != null && (!isPointLookup || !useSkipScanFilter))) {
    if (nBuckets == null || !isPointLookup || !useSkipScan) {
      byte[] minKey = ScanUtil.getMinKey(schema, sortedRanges, slotSpan);
      byte[] maxKey = ScanUtil.getMaxKey(schema, sortedRanges, slotSpan);
      // If the maxKey has crossed the salt byte boundary, then we do not
      // have anything to filter at the upper end of the range
      if (ScanUtil.crossesPrefixBoundary(maxKey, ScanUtil.getPrefix(minKey, offset), offset)) {
        maxKey = KeyRange.UNBOUND;
      }
      // We won't filter anything at the low end of the range if we just have the salt byte
      if (minKey.length <= offset) {
        minKey = KeyRange.UNBOUND;
      }
      scanRange = KeyRange.getKeyRange(minKey, maxKey);
    }
    if (minMaxRange != KeyRange.EVERYTHING_RANGE) {
      minMaxRange =
          ScanUtil.convertToInclusiveExclusiveRange(
              minMaxRange, schema, new ImmutableBytesWritable());
      scanRange = scanRange.intersect(minMaxRange);
    }

    if (scanRange == KeyRange.EMPTY_RANGE) {
      return NOTHING;
    }
    return new ScanRanges(
        schema,
        slotSpan,
        sortedRanges,
        scanRange,
        minMaxRange,
        useSkipScan,
        isPointLookup,
        nBuckets,
        rowTimestampRange);
  }