test/jdk/java/util/zip/DeInflate.java - platform/libcore - Git at Google

 /*
  * Copyright (c) 2011, 2018, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.
  *
  * This code 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 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */

 /**
  * @test
  * @bug 7110149 8184306 6341887
  * @summary Test basic deflater & inflater functionality
  * @key randomness
  */

 import java.io.*;
 import java.nio.*;
 import java.util.*;
 import java.util.zip.*;

 import static java.nio.charset.StandardCharsets.UTF_8;

 public class DeInflate {

     private static Random rnd = new Random();


     static void checkStream(Deflater def, byte[] in, int len,
                             byte[] out1, byte[] out2, boolean nowrap)
         throws Throwable
     {
         Arrays.fill(out1, (byte)0);
         Arrays.fill(out2, (byte)0);

         ByteArrayOutputStream baos = new ByteArrayOutputStream();
         try (DeflaterOutputStream defos = new DeflaterOutputStream(baos, def)) {
             defos.write(in, 0, len);
         }
         out1 = baos.toByteArray();
         int m = out1.length;

         Inflater inf = new Inflater(nowrap);
         inf.setInput(out1, 0, m);
         int n = inf.inflate(out2);

         if (n != len ||
             !Arrays.equals(Arrays.copyOf(in, len), Arrays.copyOf(out2, len)) ||
             inf.inflate(out2) != 0) {
             System.out.printf("m=%d, n=%d, len=%d, eq=%b%n",
                               m, n, len, Arrays.equals(in, out2));
             throw new RuntimeException("De/inflater failed:" + def);
         }
     }

     static void checkByteBuffer(Deflater def, Inflater inf,
                                 ByteBuffer in, ByteBuffer out1, ByteBuffer out2,
                                 byte[] expected, int len, byte[] result,
                                 boolean out1ReadOnlyWhenInflate)
             throws Throwable {
         def.reset();
         inf.reset();

         def.setInput(in);
         def.finish();
         int m = def.deflate(out1);

         out1.flip();
         if (out1ReadOnlyWhenInflate)
             out1 = out1.asReadOnlyBuffer();
         inf.setInput(out1);
         int n = inf.inflate(out2);

         out2.flip();
         out2.get(result, 0, n);

         if (n != len || out2.position() != len ||
             !Arrays.equals(Arrays.copyOf(expected, len), Arrays.copyOf(result, len)) ||
             inf.inflate(result) != 0) {
             throw new RuntimeException("De/inflater(buffer) failed:" + def);
         }
     }

     static void checkByteBufferReadonly(Deflater def, Inflater inf,
                                         ByteBuffer in, ByteBuffer out1, ByteBuffer out2)
             throws Throwable {
         def.reset();
         inf.reset();
         def.setInput(in);
         def.finish();
         int m = -1;
         if (!out2.isReadOnly())
             out2 = out2.asReadOnlyBuffer();
         try {
             m = def.deflate(out2);
             throw new RuntimeException("deflater: ReadOnlyBufferException: failed");
         } catch (ReadOnlyBufferException robe) {}
         m = def.deflate(out1);
         out1.flip();
         inf.setInput(out1);
         try {
             inf.inflate(out2);
             throw new RuntimeException("inflater: ReadOnlyBufferException: failed");
         } catch (ReadOnlyBufferException robe) {}
     }

     static void check(Deflater def, byte[] in, int len,
                       byte[] out1, byte[] out2, boolean nowrap)
         throws Throwable
     {
         Arrays.fill(out1, (byte)0);
         Arrays.fill(out2, (byte)0);

         def.setInput(in, 0, len);
         def.finish();
         int m = def.deflate(out1);

         Inflater inf = new Inflater(nowrap);
         inf.setInput(out1, 0, m);
         int n = inf.inflate(out2);

         if (n != len ||
             !Arrays.equals(Arrays.copyOf(in, len), Arrays.copyOf(out2, len)) ||
             inf.inflate(out2) != 0) {
             System.out.printf("m=%d, n=%d, len=%d, eq=%b%n",
                               m, n, len, Arrays.equals(in, out2));
             throw new RuntimeException("De/inflater failed:" + def);
         }

         // readable
         Arrays.fill(out1, (byte)0);
         Arrays.fill(out2, (byte)0);
         ByteBuffer bbIn = ByteBuffer.wrap(in, 0, len);
         ByteBuffer bbOut1 = ByteBuffer.wrap(out1);
         ByteBuffer bbOut2 = ByteBuffer.wrap(out2);
         checkByteBuffer(def, inf, bbIn, bbOut1, bbOut2, in, len, out2, false);
         checkByteBufferReadonly(def, inf, bbIn, bbOut1, bbOut2);

         // readonly in
         Arrays.fill(out1, (byte)0);
         Arrays.fill(out2, (byte)0);
         bbIn = ByteBuffer.wrap(in, 0, len).asReadOnlyBuffer();
         bbOut1 = ByteBuffer.wrap(out1);
         bbOut2 = ByteBuffer.wrap(out2);
         checkByteBuffer(def, inf, bbIn, bbOut1, bbOut2, in, len, out2, false);
         checkByteBufferReadonly(def, inf, bbIn, bbOut1, bbOut2);

         // readonly out1 when inflate
         Arrays.fill(out1, (byte)0);
         Arrays.fill(out2, (byte)0);
         bbIn = ByteBuffer.wrap(in, 0, len);
         bbOut1 = ByteBuffer.wrap(out1);
         bbOut2 = ByteBuffer.wrap(out2);
         checkByteBuffer(def, inf, bbIn, bbOut1, bbOut2, in, len, out2, true);
         checkByteBufferReadonly(def, inf, bbIn, bbOut1, bbOut2);

         // direct
         bbIn = ByteBuffer.allocateDirect(in.length);
         bbIn.put(in, 0, n).flip();
         bbOut1 = ByteBuffer.allocateDirect(out1.length);
         bbOut2 = ByteBuffer.allocateDirect(out2.length);
         checkByteBuffer(def, inf, bbIn, bbOut1, bbOut2, in, len, out2, false);
         checkByteBufferReadonly(def, inf, bbIn, bbOut1, bbOut2);
     }

     static void checkDict(Deflater def, Inflater inf, byte[] src,
                           byte[] dstDef, byte[] dstInf,
                           ByteBuffer dictDef,  ByteBuffer dictInf) throws Throwable {
         def.reset();
         inf.reset();

         def.setDictionary(dictDef);
         def.setInput(src);
         def.finish();
         int n = def.deflate(dstDef);

         inf.setInput(dstDef, 0, n);
         n = inf.inflate(dstInf);
         if (n != 0 || !inf.needsDictionary()) {
             throw new RuntimeException("checkDict failed: need dict to continue");
         }
         inf.setDictionary(dictInf);
         n = inf.inflate(dstInf);
         // System.out.println("result: " + new String(dstInf, 0, n));
         if (n != src.length || !Arrays.equals(Arrays.copyOf(dstInf, n), src)) {
             throw new RuntimeException("checkDict failed: inflate result");
         }
     }

     static void checkDict(int level, int strategy) throws Throwable {

         Deflater def = newDeflater(level, strategy, false, new byte[0]);
         Inflater inf = new Inflater();

         byte[] src = "hello world, hello world, hello sherman".getBytes();
         byte[] dict = "hello".getBytes();

         byte[] dstDef = new byte[1024];
         byte[] dstInf = new byte[1024];

         def.setDictionary(dict);
         def.setInput(src);
         def.finish();
         int n = def.deflate(dstDef);

         inf.setInput(dstDef, 0, n);
         n = inf.inflate(dstInf);
         if (n != 0 || !inf.needsDictionary()) {
             throw new RuntimeException("checkDict failed: need dict to continue");
         }
         inf.setDictionary(dict);
         n = inf.inflate(dstInf);
         //System.out.println("result: " + new String(dstInf, 0, n));
         if (n != src.length || !Arrays.equals(Arrays.copyOf(dstInf, n), src)) {
             throw new RuntimeException("checkDict failed: inflate result");
         }

         ByteBuffer dictDef = ByteBuffer.wrap(dict);
         ByteBuffer dictInf = ByteBuffer.wrap(dict);
         checkDict(def, inf, src, dstDef, dstInf, dictDef, dictInf);

         dictDef = ByteBuffer.allocateDirect(dict.length);
         dictInf = ByteBuffer.allocateDirect(dict.length);
         dictDef.put(dict).flip();
         dictInf.put(dict).flip();
         checkDict(def, inf, src, dstDef, dstInf, dictDef, dictInf);

         def.end();
         inf.end();
     }

     private static Deflater newDeflater(int level, int strategy, boolean dowrap, byte[] tmp) {
         Deflater def = new Deflater(level, dowrap);
         if (strategy != Deflater.DEFAULT_STRATEGY) {
             def.setStrategy(strategy);
             // The first invocation after setLevel/Strategy()
             // with a different level/stragety returns 0, if
             // there is no need to flush out anything for the
             // previous setting/"data", this is tricky and
             // appears un-documented.
             def.deflate(tmp);
         }
         return def;
     }

     private static Deflater resetDeflater(Deflater def, int level, int strategy) {
         def.setLevel(level);
         def.setStrategy(strategy);
         def.reset();
         return def;
     }

     public static void main(String[] args) throws Throwable {

         byte[] dataIn = new byte[1024 * 512];
         rnd.nextBytes(dataIn);
         byte[] dataOut1 = new byte[dataIn.length + 1024];
         byte[] dataOut2 = new byte[dataIn.length];

         Deflater defNotWrap = new Deflater(Deflater.DEFAULT_COMPRESSION, false);
         Deflater defWrap = new Deflater(Deflater.DEFAULT_COMPRESSION, true);

         for (int level = Deflater.DEFAULT_COMPRESSION;
                  level <= Deflater.BEST_COMPRESSION; level++) {
             for (int strategy = Deflater.DEFAULT_STRATEGY;
                      strategy <= Deflater.HUFFMAN_ONLY; strategy++) {
                 for (boolean dowrap : new boolean[] { false, true }) {
                     System.out.println("level:" + level +
                                      ", strategy: " + strategy +
                                      ", dowrap: " + dowrap);
                     for (int i = 0; i < 5; i++) {
                         int len = (i == 0)? dataIn.length
                                           : new Random().nextInt(dataIn.length);
                         // use a new deflater
                         Deflater def = newDeflater(level, strategy, dowrap, dataOut2);
                         check(def, dataIn, len, dataOut1, dataOut2, dowrap);
                         def.end();

                         // reuse the deflater (with reset) and test on stream, which
                         // uses a "smaller" buffer (smaller than the overall data)
                         def = resetDeflater(dowrap ? defWrap : defNotWrap, level, strategy);
                         checkStream(def, dataIn, len, dataOut1, dataOut2, dowrap);
                     }
                 }
                 // test setDictionary()
                 checkDict(level, strategy);
             }
         }
     }
 }
	/*
	* Copyright (c) 2011, 2018, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation.
	*
	* This code 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 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/

	/**
	* @test
	* @bug 7110149 8184306 6341887
	* @summary Test basic deflater & inflater functionality
	* @key randomness
	*/

	import java.io.*;
	import java.nio.*;
	import java.util.*;
	import java.util.zip.*;

	import static java.nio.charset.StandardCharsets.UTF_8;

	public class DeInflate {

	private static Random rnd = new Random();


	static void checkStream(Deflater def, byte[] in, int len,
	byte[] out1, byte[] out2, boolean nowrap)
	throws Throwable
	{
	Arrays.fill(out1, (byte)0);
	Arrays.fill(out2, (byte)0);

	ByteArrayOutputStream baos = new ByteArrayOutputStream();
	try (DeflaterOutputStream defos = new DeflaterOutputStream(baos, def)) {
	defos.write(in, 0, len);
	}
	out1 = baos.toByteArray();
	int m = out1.length;

	Inflater inf = new Inflater(nowrap);
	inf.setInput(out1, 0, m);
	int n = inf.inflate(out2);

	if (n != len \|\|
	!Arrays.equals(Arrays.copyOf(in, len), Arrays.copyOf(out2, len)) \|\|
	inf.inflate(out2) != 0) {
	System.out.printf("m=%d, n=%d, len=%d, eq=%b%n",
	m, n, len, Arrays.equals(in, out2));
	throw new RuntimeException("De/inflater failed:" + def);
	}
	}

	static void checkByteBuffer(Deflater def, Inflater inf,
	ByteBuffer in, ByteBuffer out1, ByteBuffer out2,
	byte[] expected, int len, byte[] result,
	boolean out1ReadOnlyWhenInflate)
	throws Throwable {
	def.reset();
	inf.reset();

	def.setInput(in);
	def.finish();
	int m = def.deflate(out1);

	out1.flip();
	if (out1ReadOnlyWhenInflate)
	out1 = out1.asReadOnlyBuffer();
	inf.setInput(out1);
	int n = inf.inflate(out2);

	out2.flip();
	out2.get(result, 0, n);

	if (n != len \|\| out2.position() != len \|\|
	!Arrays.equals(Arrays.copyOf(expected, len), Arrays.copyOf(result, len)) \|\|
	inf.inflate(result) != 0) {
	throw new RuntimeException("De/inflater(buffer) failed:" + def);
	}
	}

	static void checkByteBufferReadonly(Deflater def, Inflater inf,
	ByteBuffer in, ByteBuffer out1, ByteBuffer out2)
	throws Throwable {
	def.reset();
	inf.reset();
	def.setInput(in);
	def.finish();
	int m = -1;
	if (!out2.isReadOnly())
	out2 = out2.asReadOnlyBuffer();
	try {
	m = def.deflate(out2);
	throw new RuntimeException("deflater: ReadOnlyBufferException: failed");
	} catch (ReadOnlyBufferException robe) {}
	m = def.deflate(out1);
	out1.flip();
	inf.setInput(out1);
	try {
	inf.inflate(out2);
	throw new RuntimeException("inflater: ReadOnlyBufferException: failed");
	} catch (ReadOnlyBufferException robe) {}
	}

	static void check(Deflater def, byte[] in, int len,
	byte[] out1, byte[] out2, boolean nowrap)
	throws Throwable
	{
	Arrays.fill(out1, (byte)0);
	Arrays.fill(out2, (byte)0);

	def.setInput(in, 0, len);
	def.finish();
	int m = def.deflate(out1);

	Inflater inf = new Inflater(nowrap);
	inf.setInput(out1, 0, m);
	int n = inf.inflate(out2);

	if (n != len \|\|
	!Arrays.equals(Arrays.copyOf(in, len), Arrays.copyOf(out2, len)) \|\|
	inf.inflate(out2) != 0) {
	System.out.printf("m=%d, n=%d, len=%d, eq=%b%n",
	m, n, len, Arrays.equals(in, out2));
	throw new RuntimeException("De/inflater failed:" + def);
	}

	// readable
	Arrays.fill(out1, (byte)0);
	Arrays.fill(out2, (byte)0);
	ByteBuffer bbIn = ByteBuffer.wrap(in, 0, len);
	ByteBuffer bbOut1 = ByteBuffer.wrap(out1);
	ByteBuffer bbOut2 = ByteBuffer.wrap(out2);
	checkByteBuffer(def, inf, bbIn, bbOut1, bbOut2, in, len, out2, false);
	checkByteBufferReadonly(def, inf, bbIn, bbOut1, bbOut2);

	// readonly in
	Arrays.fill(out1, (byte)0);
	Arrays.fill(out2, (byte)0);
	bbIn = ByteBuffer.wrap(in, 0, len).asReadOnlyBuffer();
	bbOut1 = ByteBuffer.wrap(out1);
	bbOut2 = ByteBuffer.wrap(out2);
	checkByteBuffer(def, inf, bbIn, bbOut1, bbOut2, in, len, out2, false);
	checkByteBufferReadonly(def, inf, bbIn, bbOut1, bbOut2);

	// readonly out1 when inflate
	Arrays.fill(out1, (byte)0);
	Arrays.fill(out2, (byte)0);
	bbIn = ByteBuffer.wrap(in, 0, len);
	bbOut1 = ByteBuffer.wrap(out1);
	bbOut2 = ByteBuffer.wrap(out2);
	checkByteBuffer(def, inf, bbIn, bbOut1, bbOut2, in, len, out2, true);
	checkByteBufferReadonly(def, inf, bbIn, bbOut1, bbOut2);

	// direct
	bbIn = ByteBuffer.allocateDirect(in.length);
	bbIn.put(in, 0, n).flip();
	bbOut1 = ByteBuffer.allocateDirect(out1.length);
	bbOut2 = ByteBuffer.allocateDirect(out2.length);
	checkByteBuffer(def, inf, bbIn, bbOut1, bbOut2, in, len, out2, false);
	checkByteBufferReadonly(def, inf, bbIn, bbOut1, bbOut2);
	}

	static void checkDict(Deflater def, Inflater inf, byte[] src,
	byte[] dstDef, byte[] dstInf,
	ByteBuffer dictDef, ByteBuffer dictInf) throws Throwable {
	def.reset();
	inf.reset();

	def.setDictionary(dictDef);
	def.setInput(src);
	def.finish();
	int n = def.deflate(dstDef);

	inf.setInput(dstDef, 0, n);
	n = inf.inflate(dstInf);
	if (n != 0 \|\| !inf.needsDictionary()) {
	throw new RuntimeException("checkDict failed: need dict to continue");
	}
	inf.setDictionary(dictInf);
	n = inf.inflate(dstInf);
	// System.out.println("result: " + new String(dstInf, 0, n));
	if (n != src.length \|\| !Arrays.equals(Arrays.copyOf(dstInf, n), src)) {
	throw new RuntimeException("checkDict failed: inflate result");
	}
	}

	static void checkDict(int level, int strategy) throws Throwable {

	Deflater def = newDeflater(level, strategy, false, new byte[0]);
	Inflater inf = new Inflater();

	byte[] src = "hello world, hello world, hello sherman".getBytes();
	byte[] dict = "hello".getBytes();

	byte[] dstDef = new byte[1024];
	byte[] dstInf = new byte[1024];

	def.setDictionary(dict);
	def.setInput(src);
	def.finish();
	int n = def.deflate(dstDef);

	inf.setInput(dstDef, 0, n);
	n = inf.inflate(dstInf);
	if (n != 0 \|\| !inf.needsDictionary()) {
	throw new RuntimeException("checkDict failed: need dict to continue");
	}
	inf.setDictionary(dict);
	n = inf.inflate(dstInf);
	//System.out.println("result: " + new String(dstInf, 0, n));
	if (n != src.length \|\| !Arrays.equals(Arrays.copyOf(dstInf, n), src)) {
	throw new RuntimeException("checkDict failed: inflate result");
	}

	ByteBuffer dictDef = ByteBuffer.wrap(dict);
	ByteBuffer dictInf = ByteBuffer.wrap(dict);
	checkDict(def, inf, src, dstDef, dstInf, dictDef, dictInf);

	dictDef = ByteBuffer.allocateDirect(dict.length);
	dictInf = ByteBuffer.allocateDirect(dict.length);
	dictDef.put(dict).flip();
	dictInf.put(dict).flip();
	checkDict(def, inf, src, dstDef, dstInf, dictDef, dictInf);

	def.end();
	inf.end();
	}

	private static Deflater newDeflater(int level, int strategy, boolean dowrap, byte[] tmp) {
	Deflater def = new Deflater(level, dowrap);
	if (strategy != Deflater.DEFAULT_STRATEGY) {
	def.setStrategy(strategy);
	// The first invocation after setLevel/Strategy()
	// with a different level/stragety returns 0, if
	// there is no need to flush out anything for the
	// previous setting/"data", this is tricky and
	// appears un-documented.
	def.deflate(tmp);
	}
	return def;
	}

	private static Deflater resetDeflater(Deflater def, int level, int strategy) {
	def.setLevel(level);
	def.setStrategy(strategy);
	def.reset();
	return def;
	}

	public static void main(String[] args) throws Throwable {

	byte[] dataIn = new byte[1024 * 512];
	rnd.nextBytes(dataIn);
	byte[] dataOut1 = new byte[dataIn.length + 1024];
	byte[] dataOut2 = new byte[dataIn.length];

	Deflater defNotWrap = new Deflater(Deflater.DEFAULT_COMPRESSION, false);
	Deflater defWrap = new Deflater(Deflater.DEFAULT_COMPRESSION, true);

	for (int level = Deflater.DEFAULT_COMPRESSION;
	level <= Deflater.BEST_COMPRESSION; level++) {
	for (int strategy = Deflater.DEFAULT_STRATEGY;
	strategy <= Deflater.HUFFMAN_ONLY; strategy++) {
	for (boolean dowrap : new boolean[] { false, true }) {
	System.out.println("level:" + level +
	", strategy: " + strategy +
	", dowrap: " + dowrap);
	for (int i = 0; i < 5; i++) {
	int len = (i == 0)? dataIn.length
	: new Random().nextInt(dataIn.length);
	// use a new deflater
	Deflater def = newDeflater(level, strategy, dowrap, dataOut2);
	check(def, dataIn, len, dataOut1, dataOut2, dowrap);
	def.end();

	// reuse the deflater (with reset) and test on stream, which
	// uses a "smaller" buffer (smaller than the overall data)
	def = resetDeflater(dowrap ? defWrap : defNotWrap, level, strategy);
	checkStream(def, dataIn, len, dataOut1, dataOut2, dowrap);
	}
	}
	// test setDictionary()
	checkDict(level, strategy);
	}
	}
	}
	}