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JDBC Type 4 driver for MySQL.
/*
* Copyright (c) 2020, 2024, Oracle and/or its affiliates.
*
* This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License, version 2.0, as published by
* the Free Software Foundation.
*
* This program is designed to work with certain software that is licensed under separate terms, as designated in a particular file or component or in
* included license documentation. The authors of MySQL hereby grant you an additional permission to link the program and your derivative works with the
* separately licensed software that they have either included with the program or referenced in the documentation.
*
* Without limiting anything contained in the foregoing, this file, which is part of MySQL Connector/J, is also subject to the Universal FOSS Exception,
* version 1.0, a copy of which can be found at http://oss.oracle.com/licenses/universal-foss-exception.
*
* This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License, version 2.0, for more details.
*
* You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
package com.mysql.cj.protocol.x;
import java.io.InputStream;
import java.io.OutputStream;
import com.mysql.cj.Messages;
import com.mysql.cj.exceptions.CJException;
import com.mysql.cj.exceptions.ExceptionFactory;
import com.mysql.cj.exceptions.WrongArgumentException;
import com.mysql.cj.util.Util;
/**
* Factory class for producing inflating and deflating-able {@link InputStream} and {@link OutputStream} instances for a selected compression algorithm.
*/
public class CompressorStreamsFactory {
private CompressionAlgorithm compressionAlgorithm;
private InputStream compressorInputStreamInstance = null;
private ContinuousInputStream underlyingInputStream = null;
private OutputStream compressorOutputStreamInstance = null;
private ReusableOutputStream underlyingOutputStream = null;
public CompressorStreamsFactory(CompressionAlgorithm algorithm) {
this.compressionAlgorithm = algorithm;
}
public CompressionMode getCompressionMode() {
return this.compressionAlgorithm.getCompressionMode();
}
public boolean areCompressedStreamsContinuous() {
return getCompressionMode() == CompressionMode.STREAM;
}
/**
* Creates an instance of an {@link InputStream} that wraps around the given {@link InputStream} and knows how to inflate data using the algorithm given in
* this class' constructor.
*
* If the compression algorithm operates in steam mode (continuous) then create and reuse one single instance of the compressor {@link InputStream}, else
* create a new instance every time.
*
* @param in
* the {@link InputStream} to use as source of the bytes to inflate.
* @return
* the new inflater {@link InputStream} wrapper instance.
*/
public InputStream getInputStreamInstance(InputStream in) {
InputStream underlyingIn = in;
if (areCompressedStreamsContinuous()) {
if (this.compressorInputStreamInstance != null) {
this.underlyingInputStream.addInputStream(underlyingIn);
return this.compressorInputStreamInstance;
}
this.underlyingInputStream = new ContinuousInputStream(underlyingIn);
underlyingIn = this.underlyingInputStream;
}
InputStream compressionIn;
try {
compressionIn = Util.getInstance(InputStream.class, this.compressionAlgorithm.getInputStreamClassName(), new Class[] { InputStream.class },
new Object[] { underlyingIn }, null);
} catch (CJException e) {
throw ExceptionFactory.createException(WrongArgumentException.class, Messages.getString("Protocol.Compression.IoFactory.0",
new Object[] { this.compressionAlgorithm.getInputStreamClassName(), this.compressionAlgorithm.getAlgorithmIdentifier() }), e);
}
if (areCompressedStreamsContinuous()) {
this.compressorInputStreamInstance = compressionIn;
}
return compressionIn;
}
/**
* Creates an instance of an {@link OutputStream} that wraps around the given {@link OutputStream} and knows how to deflate data using the algorithm given
* in this class' constructor.
*
* If the compression algorithm operates in steam mode (continuous) then create and reuse one single instance of the compressor {@link OutputStream}, else
* create a new instance every time.
*
* @param out
* the {@link OutputStream} to use as target of the bytes to deflate.
* @return
* the new deflater {@link OutputStream} wrapper instance.
*/
public OutputStream getOutputStreamInstance(OutputStream out) {
OutputStream underlyingOut = out;
if (areCompressedStreamsContinuous()) {
if (this.compressorOutputStreamInstance != null) {
this.underlyingOutputStream.setOutputStream(underlyingOut);
return this.compressorOutputStreamInstance;
}
this.underlyingOutputStream = new ReusableOutputStream(underlyingOut);
underlyingOut = this.underlyingOutputStream;
}
OutputStream compressionOut;
try {
compressionOut = Util.getInstance(OutputStream.class, this.compressionAlgorithm.getOutputStreamClassName(), new Class[] { OutputStream.class },
new Object[] { underlyingOut }, null);
} catch (CJException e) {
throw ExceptionFactory.createException(WrongArgumentException.class, Messages.getString("Protocol.Compression.IoFactory.1",
new Object[] { this.compressionAlgorithm.getOutputStreamClassName(), this.compressionAlgorithm.getAlgorithmIdentifier() }), e);
}
if (areCompressedStreamsContinuous()) {
compressionOut = new ContinuousOutputStream(compressionOut);
this.compressorOutputStreamInstance = compressionOut;
}
return compressionOut;
}
}
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