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Easy Redis Java client and Real-Time Data Platform. Valkey compatible. Sync/Async/RxJava3/Reactive API. Client side caching. Over 50 Redis based Java objects and services: JCache API, Apache Tomcat, Hibernate, Spring, Set, Multimap, SortedSet, Map, List, Queue, Deque, Semaphore, Lock, AtomicLong, Map Reduce, Bloom filter, Scheduler, RPC
/*
* Created: Apr 12, 2013
*/
package org.xerial.snappy;
import static org.xerial.snappy.SnappyFramed.COMPRESSED_DATA_FLAG;
import static org.xerial.snappy.SnappyFramed.HEADER_BYTES;
import static org.xerial.snappy.SnappyFramed.UNCOMPRESSED_DATA_FLAG;
import static org.xerial.snappy.SnappyFramed.maskedCrc32c;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
import java.nio.channels.Channels;
import java.nio.channels.ClosedChannelException;
import java.nio.channels.ReadableByteChannel;
import java.nio.channels.WritableByteChannel;
import java.util.zip.Checksum;
import org.xerial.snappy.pool.BufferPool;
import org.xerial.snappy.pool.DefaultPoolFactory;
/**
* Implements the x-snappy-framed as an {@link OutputStream} and
* {@link WritableByteChannel}.
*
* @author Brett Okken
* @since 1.1.0
*/
public final class SnappyFramedOutputStream
extends OutputStream
implements
WritableByteChannel
{
/**
* The x-snappy-framed specification allows for a chunk size up to
* 16,777,211 bytes in length. However, it also goes on to state:
*
*
* We place an additional restriction that the uncompressed data in a chunk
* must be no longer than 65536 bytes. This allows consumers to easily use
* small fixed-size buffers.
*
*
*/
public static final int MAX_BLOCK_SIZE = 64 * 1024;
/**
* The default block size to use.
*/
public static final int DEFAULT_BLOCK_SIZE = MAX_BLOCK_SIZE;
/**
* The default min compression ratio to use.
*/
public static final double DEFAULT_MIN_COMPRESSION_RATIO = 0.85d;
private final Checksum crc32 = SnappyFramed.getCRC32C();
private final ByteBuffer headerBuffer = ByteBuffer.allocate(8).order(
ByteOrder.LITTLE_ENDIAN);
private final BufferPool bufferPool;
private final int blockSize;
private final ByteBuffer buffer;
private final ByteBuffer directInputBuffer;
private final ByteBuffer outputBuffer;
private final double minCompressionRatio;
private final WritableByteChannel out;
// private int position;
private boolean closed;
/**
* Creates a new {@link SnappyFramedOutputStream} using the {@link #DEFAULT_BLOCK_SIZE}
* and {@link #DEFAULT_MIN_COMPRESSION_RATIO}.
*
* Uses {@link DefaultPoolFactory} to obtain {@link BufferPool} for buffers.
*
*
* @param out The underlying {@link OutputStream} to write to. Must not be
* {@code null}.
* @throws IOException
*/
public SnappyFramedOutputStream(OutputStream out)
throws IOException
{
this(out, DEFAULT_BLOCK_SIZE, DEFAULT_MIN_COMPRESSION_RATIO, DefaultPoolFactory.getDefaultPool());
}
/**
* Creates a new {@link SnappyFramedOutputStream} using the {@link #DEFAULT_BLOCK_SIZE}
* and {@link #DEFAULT_MIN_COMPRESSION_RATIO}.
*
* @param out The underlying {@link OutputStream} to write to. Must not be
* {@code null}.
* @param bufferPool Used to obtain buffer instances. Must not be {@code null}.
* @throws IOException
*/
public SnappyFramedOutputStream(OutputStream out, BufferPool bufferPool)
throws IOException
{
this(out, DEFAULT_BLOCK_SIZE, DEFAULT_MIN_COMPRESSION_RATIO, bufferPool);
}
/**
* Creates a new {@link SnappyFramedOutputStream} instance.
*
* Uses {@link DefaultPoolFactory} to obtain {@link BufferPool} for buffers.
*
*
* @param out The underlying {@link OutputStream} to write to. Must not be
* {@code null}.
* @param blockSize The block size (of raw data) to compress before writing frames
* to out. Must be in (0, 65536].
* @param minCompressionRatio Defines the minimum compression ratio (
* {@code compressedLength / rawLength}) that must be achieved to
* write the compressed data. This must be in (0, 1.0].
* @throws IOException
*/
public SnappyFramedOutputStream(OutputStream out, int blockSize,
double minCompressionRatio)
throws IOException
{
this(Channels.newChannel(out), blockSize, minCompressionRatio, DefaultPoolFactory.getDefaultPool());
}
/**
* Creates a new {@link SnappyFramedOutputStream} instance.
*
* @param out The underlying {@link OutputStream} to write to. Must not be
* {@code null}.
* @param blockSize The block size (of raw data) to compress before writing frames
* to out. Must be in (0, 65536].
* @param minCompressionRatio Defines the minimum compression ratio (
* {@code compressedLength / rawLength}) that must be achieved to
* write the compressed data. This must be in (0, 1.0].
* @param bufferPool Used to obtain buffer instances. Must not be {@code null}.
* @throws IOException
*/
public SnappyFramedOutputStream(OutputStream out, int blockSize,
double minCompressionRatio, BufferPool bufferPool)
throws IOException
{
this(Channels.newChannel(out), blockSize, minCompressionRatio, bufferPool);
}
/**
* Creates a new {@link SnappyFramedOutputStream} using the
* {@link #DEFAULT_BLOCK_SIZE} and {@link #DEFAULT_MIN_COMPRESSION_RATIO}.
*
* Uses {@link DefaultPoolFactory} to obtain {@link BufferPool} for buffers.
*
*
* @param out The underlying {@link WritableByteChannel} to write to. Must
* not be {@code null}.
* @throws IOException
* @since 1.1.1
*/
public SnappyFramedOutputStream(WritableByteChannel out)
throws IOException
{
this(out, DEFAULT_BLOCK_SIZE, DEFAULT_MIN_COMPRESSION_RATIO, DefaultPoolFactory.getDefaultPool());
}
/**
* Creates a new {@link SnappyFramedOutputStream} using the
* {@link #DEFAULT_BLOCK_SIZE} and {@link #DEFAULT_MIN_COMPRESSION_RATIO}.
*
* Uses {@link DefaultPoolFactory} to obtain {@link BufferPool} for buffers.
*
*
* @param out The underlying {@link WritableByteChannel} to write to. Must
* not be {@code null}.
* @param bufferPool Used to obtain buffer instances. Must not be {@code null}.
* @throws IOException
*/
public SnappyFramedOutputStream(WritableByteChannel out, BufferPool bufferPool)
throws IOException
{
this(out, DEFAULT_BLOCK_SIZE, DEFAULT_MIN_COMPRESSION_RATIO, bufferPool);
}
/**
* Creates a new {@link SnappyFramedOutputStream} instance.
*
* @param out The underlying {@link WritableByteChannel} to write to. Must
* not be {@code null}.
* @param blockSize The block size (of raw data) to compress before writing frames
* to out. Must be in (0, 65536].
* @param minCompressionRatio Defines the minimum compression ratio (
* {@code compressedLength / rawLength}) that must be achieved to
* write the compressed data. This must be in (0, 1.0].
* @throws IOException
* @since 1.1.1
*/
public SnappyFramedOutputStream(WritableByteChannel out, int blockSize,
double minCompressionRatio)
throws IOException
{
this(out, blockSize, minCompressionRatio, DefaultPoolFactory.getDefaultPool());
}
/**
* Creates a new {@link SnappyFramedOutputStream} instance.
*
* @param out The underlying {@link WritableByteChannel} to write to. Must
* not be {@code null}.
* @param blockSize The block size (of raw data) to compress before writing frames
* to out. Must be in (0, 65536].
* @param minCompressionRatio Defines the minimum compression ratio (
* {@code compressedLength / rawLength}) that must be achieved to
* write the compressed data. This must be in (0, 1.0].
* @param bufferPool Used to obtain buffer instances. Must not be {@code null}.
* @throws IOException
* @since 1.1.1
*/
public SnappyFramedOutputStream(WritableByteChannel out, int blockSize,
double minCompressionRatio, BufferPool bufferPool)
throws IOException
{
if (out == null) {
throw new NullPointerException("out is null");
}
if (bufferPool == null) {
throw new NullPointerException("buffer pool is null");
}
if (minCompressionRatio <= 0 || minCompressionRatio > 1.0) {
throw new IllegalArgumentException("minCompressionRatio "
+ minCompressionRatio + " must be in (0,1.0]");
}
if (blockSize <= 0 || blockSize > MAX_BLOCK_SIZE) {
throw new IllegalArgumentException("block size " + blockSize
+ " must be in (0, 65536]");
}
this.blockSize = blockSize;
this.out = out;
this.minCompressionRatio = minCompressionRatio;
this.bufferPool = bufferPool;
buffer = ByteBuffer.wrap(bufferPool.allocateArray(blockSize), 0, blockSize);
directInputBuffer = bufferPool.allocateDirect(blockSize);
outputBuffer = bufferPool.allocateDirect(Snappy
.maxCompressedLength(blockSize));
writeHeader(out);
}
/**
* Writes the implementation specific header or "marker bytes" to
* out.
*
* @param out The underlying {@link OutputStream}.
* @throws IOException
*/
private void writeHeader(WritableByteChannel out)
throws IOException
{
out.write(ByteBuffer.wrap(HEADER_BYTES));
}
/**
* {@inheritDoc}
*/
@Override
public boolean isOpen()
{
return !closed;
}
@Override
public void write(int b)
throws IOException
{
if (closed) {
throw new IOException("Stream is closed");
}
if (buffer.remaining() <= 0) {
flushBuffer();
}
buffer.put((byte) b);
}
@Override
public void write(byte[] input, int offset, int length)
throws IOException
{
if (closed) {
throw new IOException("Stream is closed");
}
if (input == null) {
throw new NullPointerException();
}
else if ((offset < 0) || (offset > input.length) || (length < 0)
|| ((offset + length) > input.length)
|| ((offset + length) < 0)) {
throw new IndexOutOfBoundsException();
}
while (length > 0) {
if (buffer.remaining() <= 0) {
flushBuffer();
}
final int toPut = Math.min(length, buffer.remaining());
buffer.put(input, offset, toPut);
offset += toPut;
length -= toPut;
}
}
/**
* {@inheritDoc}
*/
@Override
public int write(ByteBuffer src)
throws IOException
{
if (closed) {
throw new ClosedChannelException();
}
if (buffer.remaining() <= 0) {
flushBuffer();
}
final int srcLength = src.remaining();
// easy case: enough free space in buffer for entire input
if (buffer.remaining() >= src.remaining()) {
buffer.put(src);
return srcLength;
}
// store current limit
final int srcEnd = src.position() + src.remaining();
while ((src.position() + buffer.remaining()) <= srcEnd) {
// fill partial buffer as much as possible and flush
src.limit(src.position() + buffer.remaining());
buffer.put(src);
flushBuffer();
}
// reset original limit
src.limit(srcEnd);
// copy remaining partial block into now-empty buffer
buffer.put(src);
return srcLength;
}
/**
* Transfers all the content from is to this {@link OutputStream}.
* This potentially limits the amount of buffering required to compress
* content.
*
* @param is The source of data to compress.
* @return The number of bytes read from is.
* @throws IOException
* @since 1.1.1
*/
public long transferFrom(InputStream is)
throws IOException
{
if (closed) {
throw new ClosedChannelException();
}
if (is == null) {
throw new NullPointerException();
}
if (buffer.remaining() == 0) {
flushBuffer();
}
assert buffer.hasArray();
final byte[] bytes = buffer.array();
final int arrayOffset = buffer.arrayOffset();
long totTransfered = 0;
int read;
while ((read = is.read(bytes, arrayOffset + buffer.position(),
buffer.remaining())) != -1) {
buffer.position(buffer.position() + read);
if (buffer.remaining() == 0) {
flushBuffer();
}
totTransfered += read;
}
return totTransfered;
}
/**
* Transfers all the content from rbc to this
* {@link WritableByteChannel}. This potentially limits the amount of
* buffering required to compress content.
*
* @param rbc The source of data to compress.
* @return The number of bytes read from rbc.
* @throws IOException
* @since 1.1.1
*/
public long transferFrom(ReadableByteChannel rbc)
throws IOException
{
if (closed) {
throw new ClosedChannelException();
}
if (rbc == null) {
throw new NullPointerException();
}
if (buffer.remaining() == 0) {
flushBuffer();
}
long totTransfered = 0;
int read;
while ((read = rbc.read(buffer)) != -1) {
if (buffer.remaining() == 0) {
flushBuffer();
}
totTransfered += read;
}
return totTransfered;
}
@Override
public final void flush()
throws IOException
{
if (closed) {
throw new IOException("Stream is closed");
}
flushBuffer();
}
@Override
public final void close()
throws IOException
{
if (closed) {
return;
}
try {
flush();
out.close();
}
finally {
closed = true;
bufferPool.releaseArray(buffer.array());
bufferPool.releaseDirect(directInputBuffer);
bufferPool.releaseDirect(outputBuffer);
}
}
/**
* Compresses and writes out any buffered data. This does nothing if there
* is no currently buffered data.
*
* @throws IOException
*/
private void flushBuffer()
throws IOException
{
if (buffer.position() > 0) {
buffer.flip();
writeCompressed(buffer);
buffer.clear();
buffer.limit(blockSize);
}
}
/**
* {@link SnappyFramed#maskedCrc32c(byte[], int, int)} the crc, compresses
* the data, determines if the compression ratio is acceptable and calls
* {@link #writeBlock(java.nio.channels.WritableByteChannel, java.nio.ByteBuffer, boolean, int)} to
* actually write the frame.
*
* @param buffer
* @throws IOException
*/
private void writeCompressed(ByteBuffer buffer)
throws IOException
{
final byte[] input = buffer.array();
final int length = buffer.remaining();
// crc is based on the user supplied input data
final int crc32c = maskedCrc32c(crc32, input, 0, length);
directInputBuffer.clear();
directInputBuffer.put(buffer);
directInputBuffer.flip();
outputBuffer.clear();
Snappy.compress(directInputBuffer, outputBuffer);
final int compressedLength = outputBuffer.remaining();
// only use the compressed data if compression ratio is <= the
// minCompressonRatio
if (((double) compressedLength / (double) length) <= minCompressionRatio) {
writeBlock(out, outputBuffer, true, crc32c);
}
else {
// otherwise use the uncompressed data.
buffer.flip();
writeBlock(out, buffer, false, crc32c);
}
}
/**
* Write a frame (block) to out.
*
* @param out The {@link OutputStream} to write to.
* @param data The data to write.
* @param compressed Indicates if data is the compressed or raw content.
* This is based on whether the compression ratio desired is
* reached.
* @param crc32c The calculated checksum.
* @throws IOException
*/
private void writeBlock(final WritableByteChannel out, ByteBuffer data,
boolean compressed, int crc32c)
throws IOException
{
headerBuffer.clear();
headerBuffer.put((byte) (compressed ? COMPRESSED_DATA_FLAG
: UNCOMPRESSED_DATA_FLAG));
// the length written out to the header is both the checksum and the
// frame
final int headerLength = data.remaining() + 4;
// write length
headerBuffer.put((byte) headerLength);
headerBuffer.put((byte) (headerLength >>> 8));
headerBuffer.put((byte) (headerLength >>> 16));
// write crc32c of user input data
headerBuffer.putInt(crc32c);
headerBuffer.flip();
// write the header
out.write(headerBuffer);
// write the raw data
out.write(data);
}
}
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