/*
   * Test that {@link HFileOutputFormat2} creates an HFile with TIMERANGE
   * metadata used by time-restricted scans.
   */
  @Test
  public void test_TIMERANGE() throws Exception {
    Configuration conf = new Configuration(this.util.getConfiguration());
    RecordWriter<ImmutableBytesWritable, Cell> writer = null;
    TaskAttemptContext context = null;
    Path dir = util.getDataTestDir("test_TIMERANGE_present");
    LOG.info("Timerange dir writing to dir: " + dir);
    try {
      // build a record writer using HFileOutputFormat2
      Job job = new Job(conf);
      FileOutputFormat.setOutputPath(job, dir);
      context = createTestTaskAttemptContext(job);
      HFileOutputFormat2 hof = new HFileOutputFormat2();
      writer = hof.getRecordWriter(context);

      // Pass two key values with explicit times stamps
      final byte[] b = Bytes.toBytes("b");

      // value 1 with timestamp 2000
      KeyValue kv = new KeyValue(b, b, b, 2000, b);
      KeyValue original = kv.clone();
      writer.write(new ImmutableBytesWritable(), kv);
      assertEquals(original, kv);

      // value 2 with timestamp 1000
      kv = new KeyValue(b, b, b, 1000, b);
      original = kv.clone();
      writer.write(new ImmutableBytesWritable(), kv);
      assertEquals(original, kv);

      // verify that the file has the proper FileInfo.
      writer.close(context);

      // the generated file lives 1 directory down from the attempt directory
      // and is the only file, e.g.
      // _attempt__0000_r_000000_0/b/1979617994050536795
      FileSystem fs = FileSystem.get(conf);
      Path attemptDirectory = hof.getDefaultWorkFile(context, "").getParent();
      FileStatus[] sub1 = fs.listStatus(attemptDirectory);
      FileStatus[] file = fs.listStatus(sub1[0].getPath());

      // open as HFile Reader and pull out TIMERANGE FileInfo.
      HFile.Reader rd = HFile.createReader(fs, file[0].getPath(), new CacheConfig(conf), conf);
      Map<byte[], byte[]> finfo = rd.loadFileInfo();
      byte[] range = finfo.get("TIMERANGE".getBytes());
      assertNotNull(range);

      // unmarshall and check values.
      TimeRangeTracker timeRangeTracker = new TimeRangeTracker();
      Writables.copyWritable(range, timeRangeTracker);
      LOG.info(
          timeRangeTracker.getMinimumTimestamp() + "...." + timeRangeTracker.getMaximumTimestamp());
      assertEquals(1000, timeRangeTracker.getMinimumTimestamp());
      assertEquals(2000, timeRangeTracker.getMaximumTimestamp());
      rd.close();
    } finally {
      if (writer != null && context != null) writer.close(context);
      dir.getFileSystem(conf).delete(dir, true);
    }
  }
      /** {@inheritDoc} */
      @Override
      public void write(HFileKeyValue entry, NullWritable unused) throws IOException {

        final KeyValue kv = entry.getKeyValue();
        kv.updateLatestStamp(mLatestTimestampBytes);

        final long recordLength = kv.getLength();
        if (mCurrentHFileSize + recordLength >= mMaxFileSizeBytes) {
          // We can't fit this record in the current HFile without exceeding the max file size.

          if (Arrays.equals(mCurrentRow, kv.getRow())) {
            // But we're still adding data for a single row, so we can't close this HFile yet.
            LOG.debug("Reached max HFile size, but waiting to finish this row before closing.");
          } else {
            // Close it and open a new one.
            closeWriter(mWriter);
            mWriter = openNewWriter();
          }
        }

        mWriter.append(kv);
        mTimeRangeTracker.includeTimestamp(kv);
        mCurrentHFileSize += recordLength;

        // Remember the row so we know when we are transitioning.
        mCurrentRow = kv.getRow();
      }