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/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package org.apache.hudi.common.util;

import org.apache.hudi.common.fs.SizeAwareDataOutputStream;
import org.apache.hudi.common.model.HoodieAvroRecord;
import org.apache.hudi.common.model.HoodieKey;
import org.apache.hudi.common.model.HoodieOperation;
import org.apache.hudi.common.model.HoodieRecord;
import org.apache.hudi.common.model.HoodieRecordPayload;
import org.apache.hudi.common.util.collection.BitCaskDiskMap.FileEntry;
import org.apache.hudi.common.util.collection.Pair;
import org.apache.hudi.exception.HoodieCorruptedDataException;

import org.apache.avro.Schema;
import org.apache.avro.generic.GenericData;
import org.apache.avro.generic.GenericRecord;

import java.io.IOException;
import java.io.RandomAccessFile;

import static org.apache.hudi.avro.HoodieAvroUtils.getNullableValAsString;
import static org.apache.hudi.common.util.BinaryUtil.generateChecksum;

/**
 * A utility class supports spillable map.
 */
public class SpillableMapUtils {

  /**
   * Using the schema and payload class, read and convert the bytes on disk to a HoodieRecord.
   */
  public static byte[] readBytesFromDisk(RandomAccessFile file, long valuePosition, int valueLength)
      throws IOException {
    FileEntry fileEntry = readInternal(file, valuePosition, valueLength);
    return fileEntry.getValue();
  }

  /**
   * Reads the given file with specific pattern(|crc|timestamp|sizeOfKey|SizeOfValue|key|value|) then
   * returns an instance of {@link FileEntry}.
   */
  private static FileEntry readInternal(RandomAccessFile file, long valuePosition, int valueLength) throws IOException {
    file.seek(valuePosition);
    long crc = file.readLong();
    long timestamp = file.readLong();
    int keySize = file.readInt();
    int valueSize = file.readInt();
    byte[] key = new byte[keySize];
    file.readFully(key, 0, keySize);
    byte[] value = new byte[valueSize];
    if (valueSize != valueLength) {
      throw new HoodieCorruptedDataException("unequal size of payload written to external file, data may be corrupted");
    }
    file.readFully(value, 0, valueSize);
    long crcOfReadValue = generateChecksum(value);
    if (crc != crcOfReadValue) {
      throw new HoodieCorruptedDataException(
          "checksum of payload written to external disk does not match, data may be corrupted");
    }
    return new FileEntry(crc, keySize, valueSize, key, value, timestamp);
  }

  /**
   * Write Value and other metadata necessary to disk. Each entry has the following sequence of data
   * 

* |crc|timestamp|sizeOfKey|SizeOfValue|key|value| */ public static long spillToDisk(SizeAwareDataOutputStream outputStream, FileEntry fileEntry) throws IOException { return spill(outputStream, fileEntry); } private static long spill(SizeAwareDataOutputStream outputStream, FileEntry fileEntry) throws IOException { outputStream.writeLong(fileEntry.getCrc()); outputStream.writeLong(fileEntry.getTimestamp()); outputStream.writeInt(fileEntry.getSizeOfKey()); outputStream.writeInt(fileEntry.getSizeOfValue()); outputStream.write(fileEntry.getKey()); outputStream.write(fileEntry.getValue()); return outputStream.getSize(); } /** * Compute a bytes representation of the payload by serializing the contents This is used to estimate the size of the * payload (either in memory or when written to disk). */ public static long computePayloadSize(R value, SizeEstimator valueSizeEstimator) throws IOException { return valueSizeEstimator.sizeEstimate(value); } /** * Utility method to convert bytes to HoodieRecord using schema and payload class. */ public static HoodieRecord convertToHoodieRecordPayload(GenericRecord rec, String payloadClazz, String preCombineField, boolean withOperationField) { return convertToHoodieRecordPayload(rec, payloadClazz, preCombineField, Pair.of(HoodieRecord.RECORD_KEY_METADATA_FIELD, HoodieRecord.PARTITION_PATH_METADATA_FIELD), withOperationField, Option.empty(), Option.empty()); } public static HoodieRecord convertToHoodieRecordPayload(GenericRecord record, String payloadClazz, String preCombineField, boolean withOperationField, Option partitionName, Option schemaWithoutMetaFields) { return convertToHoodieRecordPayload(record, payloadClazz, preCombineField, Pair.of(HoodieRecord.RECORD_KEY_METADATA_FIELD, HoodieRecord.PARTITION_PATH_METADATA_FIELD), withOperationField, partitionName, schemaWithoutMetaFields); } /** * Utility method to convert bytes to HoodieRecord using schema and payload class. */ public static HoodieRecord convertToHoodieRecordPayload(GenericRecord record, String payloadClazz, String preCombineField, Pair recordKeyPartitionPathFieldPair, boolean withOperationField, Option partitionName, Option schemaWithoutMetaFields) { final String recKey = record.get(recordKeyPartitionPathFieldPair.getKey()).toString(); final String partitionPath = (partitionName.isPresent() ? partitionName.get() : record.get(recordKeyPartitionPathFieldPair.getRight()).toString()); Object preCombineVal = getPreCombineVal(record, preCombineField); HoodieOperation operation = withOperationField ? HoodieOperation.fromName(getNullableValAsString(record, HoodieRecord.OPERATION_METADATA_FIELD)) : null; if (schemaWithoutMetaFields.isPresent()) { Schema schema = schemaWithoutMetaFields.get(); GenericRecord recordWithoutMetaFields = new GenericData.Record(schema); for (Schema.Field f : schema.getFields()) { recordWithoutMetaFields.put(f.name(), record.get(f.name())); } record = recordWithoutMetaFields; } HoodieRecord hoodieRecord = new HoodieAvroRecord<>(new HoodieKey(recKey, partitionPath), HoodieRecordUtils.loadPayload(payloadClazz, new Object[] {record, preCombineVal}, GenericRecord.class, Comparable.class), operation); return (HoodieRecord) hoodieRecord; } /** * Returns the preCombine value with given field name. * * @param rec The avro record * @param preCombineField The preCombine field name * @return the preCombine field value or 0 if the field does not exist in the avro schema */ private static Object getPreCombineVal(GenericRecord rec, String preCombineField) { if (preCombineField == null) { return 0; } Schema.Field field = rec.getSchema().getField(preCombineField); return field == null ? 0 : rec.get(field.pos()); } /** * Utility method to convert bytes to HoodieRecord using schema and payload class. */ public static R generateEmptyPayload(String recKey, String partitionPath, Comparable orderingVal, String payloadClazz) { HoodieRecord hoodieRecord = new HoodieAvroRecord<>(new HoodieKey(recKey, partitionPath), HoodieRecordUtils.loadPayload(payloadClazz, new Object[] {null, orderingVal}, GenericRecord.class, Comparable.class)); return (R) hoodieRecord; } }





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