org.apache.hadoop.util.DataChecksum Maven / Gradle / Ivy
/**
* 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.hadoop.util;
import java.io.DataInputStream;
import java.io.DataOutputStream;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.util.zip.CRC32;
import java.util.zip.Checksum;
import org.apache.hadoop.classification.InterfaceAudience;
import org.apache.hadoop.classification.InterfaceStability;
import org.apache.hadoop.fs.ChecksumException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import java.lang.invoke.MethodHandle;
import java.lang.invoke.MethodHandles;
import java.lang.invoke.MethodType;
/**
* This class provides interface and utilities for processing checksums for
* DFS data transfers.
*/
@InterfaceAudience.LimitedPrivate({"HDFS", "MapReduce"})
@InterfaceStability.Evolving
public class DataChecksum implements Checksum {
// checksum types
public static final int CHECKSUM_NULL = 0;
public static final int CHECKSUM_CRC32 = 1;
public static final int CHECKSUM_CRC32C = 2;
public static final int CHECKSUM_DEFAULT = 3;
public static final int CHECKSUM_MIXED = 4;
private static final Logger LOG = LoggerFactory.getLogger(DataChecksum.class);
private static volatile boolean useJava9Crc32C = Shell.isJavaVersionAtLeast(9);
/** The checksum types */
public enum Type {
NULL (CHECKSUM_NULL, 0),
CRC32 (CHECKSUM_CRC32, 4),
CRC32C(CHECKSUM_CRC32C, 4),
DEFAULT(CHECKSUM_DEFAULT, 0), // This cannot be used to create DataChecksum
MIXED (CHECKSUM_MIXED, 0); // This cannot be used to create DataChecksum
public final int id;
public final int size;
Type(int id, int size) {
this.id = id;
this.size = size;
}
/** @return the type corresponding to the id. */
public static Type valueOf(int id) {
if (id < 0 || id >= values().length) {
throw new IllegalArgumentException("id=" + id
+ " out of range [0, " + values().length + ")");
}
return values()[id];
}
}
/**
* Create a Crc32 Checksum object. The implementation of the Crc32 algorithm
* is chosen depending on the platform.
*/
public static Checksum newCrc32() {
return new CRC32();
}
/**
* The flag is volatile to avoid synchronization here.
* Re-entrancy is unlikely except in failure mode (and inexpensive).
*/
static Checksum newCrc32C() {
try {
return useJava9Crc32C ? Java9Crc32CFactory.createChecksum()
: new PureJavaCrc32C();
} catch (ExceptionInInitializerError | RuntimeException e) {
// should not happen
LOG.error("CRC32C creation failed, switching to PureJavaCrc32C", e);
useJava9Crc32C = false;
return new PureJavaCrc32C();
}
}
/**
* @return the int representation of the polynomial associated with the
* CRC {@code type}, suitable for use with further CRC arithmetic.
* @throws IOException if there is no CRC polynomial applicable
* to the given {@code type}.
*/
public static int getCrcPolynomialForType(Type type) throws IOException {
switch (type) {
case CRC32:
return CrcUtil.GZIP_POLYNOMIAL;
case CRC32C:
return CrcUtil.CASTAGNOLI_POLYNOMIAL;
default:
throw new IOException(
"No CRC polynomial could be associated with type: " + type);
}
}
public static DataChecksum newDataChecksum(Type type, int bytesPerChecksum ) {
if ( bytesPerChecksum <= 0 ) {
return null;
}
switch ( type ) {
case NULL :
return new DataChecksum(type, new ChecksumNull(), bytesPerChecksum );
case CRC32 :
return new DataChecksum(type, newCrc32(), bytesPerChecksum );
case CRC32C:
return new DataChecksum(type, newCrc32C(), bytesPerChecksum);
default:
return null;
}
}
/**
* Creates a DataChecksum from HEADER_LEN bytes from arr[offset].
* @return DataChecksum of the type in the array or null in case of an error.
*/
public static DataChecksum newDataChecksum( byte bytes[], int offset ) {
if (offset < 0 || bytes.length < offset + getChecksumHeaderSize()) {
return null;
}
// like readInt():
int bytesPerChecksum = ( (bytes[offset+1] & 0xff) << 24 ) |
( (bytes[offset+2] & 0xff) << 16 ) |
( (bytes[offset+3] & 0xff) << 8 ) |
( (bytes[offset+4] & 0xff) );
return newDataChecksum( Type.valueOf(bytes[offset]), bytesPerChecksum );
}
/**
* This constructs a DataChecksum by reading HEADER_LEN bytes from input
* stream in
*/
public static DataChecksum newDataChecksum( DataInputStream in )
throws IOException {
int type = in.readByte();
int bpc = in.readInt();
DataChecksum summer = newDataChecksum(Type.valueOf(type), bpc );
if ( summer == null ) {
throw new InvalidChecksumSizeException("Could not create DataChecksum "
+ "of type " + type + " with bytesPerChecksum " + bpc);
}
return summer;
}
/**
* Writes the checksum header to the output stream out.
*/
public void writeHeader( DataOutputStream out )
throws IOException {
out.writeByte( type.id );
out.writeInt( bytesPerChecksum );
}
public byte[] getHeader() {
byte[] header = new byte[getChecksumHeaderSize()];
header[0] = (byte) (type.id & 0xff);
// Writing in buffer just like DataOutput.WriteInt()
header[1+0] = (byte) ((bytesPerChecksum >>> 24) & 0xff);
header[1+1] = (byte) ((bytesPerChecksum >>> 16) & 0xff);
header[1+2] = (byte) ((bytesPerChecksum >>> 8) & 0xff);
header[1+3] = (byte) (bytesPerChecksum & 0xff);
return header;
}
/**
* Writes the current checksum to the stream.
* If reset is true, then resets the checksum.
* @return number of bytes written. Will be equal to getChecksumSize();
*/
public int writeValue( DataOutputStream out, boolean reset )
throws IOException {
if ( type.size <= 0 ) {
return 0;
}
if ( type.size == 4 ) {
out.writeInt( (int) summer.getValue() );
} else {
throw new IOException( "Unknown Checksum " + type );
}
if ( reset ) {
reset();
}
return type.size;
}
/**
* Writes the current checksum to a buffer.
* If reset is true, then resets the checksum.
* @return number of bytes written. Will be equal to getChecksumSize();
*/
public int writeValue( byte[] buf, int offset, boolean reset )
throws IOException {
if ( type.size <= 0 ) {
return 0;
}
if ( type.size == 4 ) {
int checksum = (int) summer.getValue();
buf[offset+0] = (byte) ((checksum >>> 24) & 0xff);
buf[offset+1] = (byte) ((checksum >>> 16) & 0xff);
buf[offset+2] = (byte) ((checksum >>> 8) & 0xff);
buf[offset+3] = (byte) (checksum & 0xff);
} else {
throw new IOException( "Unknown Checksum " + type );
}
if ( reset ) {
reset();
}
return type.size;
}
/**
* Compares the checksum located at buf[offset] with the current checksum.
* @return true if the checksum matches and false otherwise.
*/
public boolean compare( byte buf[], int offset ) {
if ( type.size == 4 ) {
int checksum = ( (buf[offset+0] & 0xff) << 24 ) |
( (buf[offset+1] & 0xff) << 16 ) |
( (buf[offset+2] & 0xff) << 8 ) |
( (buf[offset+3] & 0xff) );
return checksum == (int) summer.getValue();
}
return type.size == 0;
}
private final Type type;
private final Checksum summer;
private final int bytesPerChecksum;
private int inSum = 0;
private DataChecksum( Type type, Checksum checksum, int chunkSize ) {
this.type = type;
summer = checksum;
bytesPerChecksum = chunkSize;
}
/** @return the checksum algorithm type. */
public Type getChecksumType() {
return type;
}
/** @return the size for a checksum. */
public int getChecksumSize() {
return type.size;
}
/** @return the required checksum size given the data length. */
public int getChecksumSize(int dataSize) {
return ((dataSize - 1)/getBytesPerChecksum() + 1) * getChecksumSize();
}
public int getBytesPerChecksum() {
return bytesPerChecksum;
}
public int getNumBytesInSum() {
return inSum;
}
public static final int SIZE_OF_INTEGER = Integer.SIZE / Byte.SIZE;
static public int getChecksumHeaderSize() {
return 1 + SIZE_OF_INTEGER; // type byte, bytesPerChecksum int
}
//Checksum Interface. Just a wrapper around member summer.
@Override
public long getValue() {
return summer.getValue();
}
@Override
public void reset() {
summer.reset();
inSum = 0;
}
@Override
public void update( byte[] b, int off, int len ) {
if ( len > 0 ) {
summer.update( b, off, len );
inSum += len;
}
}
@Override
public void update( int b ) {
summer.update( b );
inSum += 1;
}
/**
* Verify that the given checksums match the given data.
*
* The 'mark' of the ByteBuffer parameters may be modified by this function,.
* but the position is maintained.
*
* @param data the DirectByteBuffer pointing to the data to verify.
* @param checksums the DirectByteBuffer pointing to a series of stored
* checksums
* @param fileName the name of the file being read, for error-reporting
* @param basePos the file position to which the start of 'data' corresponds
* @throws ChecksumException if the checksums do not match
*/
public void verifyChunkedSums(ByteBuffer data, ByteBuffer checksums,
String fileName, long basePos) throws ChecksumException {
if (type.size == 0) return;
if (data.hasArray() && checksums.hasArray()) {
final int dataOffset = data.arrayOffset() + data.position();
final int crcsOffset = checksums.arrayOffset() + checksums.position();
if (NativeCrc32.isAvailable()) {
NativeCrc32.verifyChunkedSumsByteArray(bytesPerChecksum, type.id,
checksums.array(), crcsOffset, data.array(), dataOffset,
data.remaining(), fileName, basePos);
} else {
verifyChunked(type, summer, data.array(), dataOffset, data.remaining(),
bytesPerChecksum, checksums.array(), crcsOffset, fileName,
basePos);
}
return;
}
if (NativeCrc32.isAvailable() && data.isDirect()) {
NativeCrc32.verifyChunkedSums(bytesPerChecksum, type.id, checksums, data,
fileName, basePos);
} else {
verifyChunked(type, summer, data, bytesPerChecksum, checksums, fileName,
basePos);
}
}
static void verifyChunked(final Type type, final Checksum algorithm,
final ByteBuffer data, final int bytesPerCrc, final ByteBuffer crcs,
final String filename, final long basePos) throws ChecksumException {
final byte[] bytes = new byte[bytesPerCrc];
final int dataOffset = data.position();
final int dataLength = data.remaining();
data.mark();
crcs.mark();
try {
int i = 0;
for(final int n = dataLength - bytesPerCrc + 1; i < n; i += bytesPerCrc) {
data.get(bytes);
algorithm.reset();
algorithm.update(bytes, 0, bytesPerCrc);
final int computed = (int)algorithm.getValue();
final int expected = crcs.getInt();
if (computed != expected) {
long errPos = basePos + data.position() - dataOffset - bytesPerCrc;
throwChecksumException(type, algorithm, filename, errPos, expected,
computed);
}
}
final int remainder = dataLength - i;
if (remainder > 0) {
data.get(bytes, 0, remainder);
algorithm.reset();
algorithm.update(bytes, 0, remainder);
final int computed = (int)algorithm.getValue();
final int expected = crcs.getInt();
if (computed != expected) {
long errPos = basePos + data.position() - dataOffset - remainder;
throwChecksumException(type, algorithm, filename, errPos, expected,
computed);
}
}
} finally {
data.reset();
crcs.reset();
}
}
/**
* Implementation of chunked verification specifically on byte arrays. This
* is to avoid the copy when dealing with ByteBuffers that have array backing.
*/
static void verifyChunked(final Type type, final Checksum algorithm,
final byte[] data, final int dataOffset, final int dataLength,
final int bytesPerCrc, final byte[] crcs, final int crcsOffset,
final String filename, final long basePos) throws ChecksumException {
final int dataEnd = dataOffset + dataLength;
int i = dataOffset;
int j = crcsOffset;
for(final int n = dataEnd-bytesPerCrc+1; i < n; i += bytesPerCrc, j += 4) {
algorithm.reset();
algorithm.update(data, i, bytesPerCrc);
final int computed = (int)algorithm.getValue();
final int expected = ((crcs[j] << 24) + ((crcs[j + 1] << 24) >>> 8))
+ (((crcs[j + 2] << 24) >>> 16) + ((crcs[j + 3] << 24) >>> 24));
if (computed != expected) {
final long errPos = basePos + i - dataOffset;
throwChecksumException(type, algorithm, filename, errPos, expected,
computed);
}
}
final int remainder = dataEnd - i;
if (remainder > 0) {
algorithm.reset();
algorithm.update(data, i, remainder);
final int computed = (int)algorithm.getValue();
final int expected = ((crcs[j] << 24) + ((crcs[j + 1] << 24) >>> 8))
+ (((crcs[j + 2] << 24) >>> 16) + ((crcs[j + 3] << 24) >>> 24));
if (computed != expected) {
final long errPos = basePos + i - dataOffset;
throwChecksumException(type, algorithm, filename, errPos, expected,
computed);
}
}
}
private static void throwChecksumException(Type type, Checksum algorithm,
String filename, long errPos, int expected, int computed)
throws ChecksumException {
throw new ChecksumException("Checksum " + type
+ " not matched for file " + filename + " at position "+ errPos
+ String.format(": expected=%X but computed=%X", expected, computed)
+ ", algorithm=" + algorithm.getClass().getSimpleName(), errPos);
}
/**
* Calculate checksums for the given data.
*
* The 'mark' of the ByteBuffer parameters may be modified by this function,
* but the position is maintained.
*
* @param data the DirectByteBuffer pointing to the data to checksum.
* @param checksums the DirectByteBuffer into which checksums will be
* stored. Enough space must be available in this
* buffer to put the checksums.
*/
public void calculateChunkedSums(ByteBuffer data, ByteBuffer checksums) {
if (type.size == 0) return;
if (data.hasArray() && checksums.hasArray()) {
calculateChunkedSums(data.array(), data.arrayOffset() + data.position(), data.remaining(),
checksums.array(), checksums.arrayOffset() + checksums.position());
return;
}
if (NativeCrc32.isAvailable()) {
NativeCrc32.calculateChunkedSums(bytesPerChecksum, type.id,
checksums, data);
return;
}
data.mark();
checksums.mark();
try {
byte[] buf = new byte[bytesPerChecksum];
while (data.remaining() > 0) {
int n = Math.min(data.remaining(), bytesPerChecksum);
data.get(buf, 0, n);
summer.reset();
summer.update(buf, 0, n);
checksums.putInt((int)summer.getValue());
}
} finally {
data.reset();
checksums.reset();
}
}
/**
* Implementation of chunked calculation specifically on byte arrays. This
* is to avoid the copy when dealing with ByteBuffers that have array backing.
*/
public void calculateChunkedSums(
byte[] data, int dataOffset, int dataLength,
byte[] sums, int sumsOffset) {
if (type.size == 0) return;
if (NativeCrc32.isAvailable()) {
NativeCrc32.calculateChunkedSumsByteArray(bytesPerChecksum, type.id,
sums, sumsOffset, data, dataOffset, dataLength);
return;
}
int remaining = dataLength;
while (remaining > 0) {
int n = Math.min(remaining, bytesPerChecksum);
summer.reset();
summer.update(data, dataOffset, n);
dataOffset += n;
remaining -= n;
long calculated = summer.getValue();
sums[sumsOffset++] = (byte) (calculated >> 24);
sums[sumsOffset++] = (byte) (calculated >> 16);
sums[sumsOffset++] = (byte) (calculated >> 8);
sums[sumsOffset++] = (byte) (calculated);
}
}
@Override
public boolean equals(Object other) {
if (!(other instanceof DataChecksum)) {
return false;
}
DataChecksum o = (DataChecksum)other;
return o.bytesPerChecksum == this.bytesPerChecksum &&
o.type == this.type;
}
@Override
public int hashCode() {
return (this.type.id + 31) * this.bytesPerChecksum;
}
@Override
public String toString() {
return "DataChecksum(type=" + type +
", chunkSize=" + bytesPerChecksum + ")";
}
/**
* This just provides a dummy implimentation for Checksum class
* This is used when there is no checksum available or required for
* data
*/
static class ChecksumNull implements Checksum {
public ChecksumNull() {}
//Dummy interface
@Override
public long getValue() { return 0; }
@Override
public void reset() {}
@Override
public void update(byte[] b, int off, int len) {}
@Override
public void update(int b) {}
};
/**
* Holds constructor handle to let it be initialized on demand.
*/
private static class Java9Crc32CFactory {
private static final MethodHandle NEW_CRC32C_MH;
static {
MethodHandle newCRC32C = null;
try {
newCRC32C = MethodHandles.publicLookup()
.findConstructor(
Class.forName("java.util.zip.CRC32C"),
MethodType.methodType(void.class)
);
} catch (ReflectiveOperationException e) {
// Should not reach here.
throw new RuntimeException(e);
}
NEW_CRC32C_MH = newCRC32C;
}
public static Checksum createChecksum() {
try {
// Should throw nothing
return (Checksum) NEW_CRC32C_MH.invoke();
} catch (Throwable t) {
throw (t instanceof RuntimeException) ? (RuntimeException) t
: new RuntimeException(t);
}
}
};
}
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