/* * Copyright (c) 2011, 2023, 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.*; 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); try (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) {} } /** * Uses the {@code def} deflater to deflate the input data {@code in} of length {@code len}. * A new {@link Inflater} is then created within this method to inflate the deflated data. The * inflated data is then compared with the {@code in} to assert that it matches the original * input data. * This method repeats these checks for the different overloaded methods of * {@code Deflater.deflate(...)} and {@code Inflater.inflate(...)} * * @param def the deflater to use for deflating the contents in {@code in} * @param in the input content * @param len the length of the input content to use * @param nowrap will be passed to the constructor of the {@code Inflater} used in this * method * @throws Throwable if any error occurs during the check */ static void check(Deflater def, byte[] in, int len, boolean nowrap) throws Throwable { byte[] tempBuffer = new byte[1024]; byte[] out1, out2; int m = 0, n = 0; Inflater inf = new Inflater(nowrap); def.setInput(in, 0, len); def.finish(); try (ByteArrayOutputStream baos = new ByteArrayOutputStream()) { while (!def.finished()) { int temp_counter = def.deflate(tempBuffer); m += temp_counter; baos.write(tempBuffer, 0, temp_counter); } out1 = baos.toByteArray(); baos.reset(); inf.setInput(out1, 0, m); while (!inf.finished()) { int temp_counter = inf.inflate(tempBuffer); n += temp_counter; baos.write(tempBuffer, 0, temp_counter); } out2 = baos.toByteArray(); if (n != len || !Arrays.equals(in, 0, len, out2, 0, 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); System.out.println("iteration: " + (i + 1) + " input length: " + len); // use a new deflater Deflater def = newDeflater(level, strategy, dowrap, dataOut2); check(def, dataIn, len, 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); } } } }