1 /* 2 * Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved. 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. 4 * 5 * This code is free software; you can redistribute it and/or modify it 6 * under the terms of the GNU General Public License version 2 only, as 7 * published by the Free Software Foundation. Oracle designates this 8 * particular file as subject to the "Classpath" exception as provided 9 * by Oracle in the LICENSE file that accompanied this code. 10 * 11 * This code is distributed in the hope that it will be useful, but WITHOUT 12 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 13 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License 14 * version 2 for more details (a copy is included in the LICENSE file that 15 * accompanied this code). 16 * 17 * You should have received a copy of the GNU General Public License version 18 * 2 along with this work; if not, write to the Free Software Foundation, 19 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. 20 * 21 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA 22 * or visit www.oracle.com if you need additional information or have any 23 * questions. 24 */ 25 26 27 package com.sun.java.util.jar.pack; 28 29 import java.io.BufferedInputStream; 30 import java.io.File; 31 import java.io.FileInputStream; 32 import java.io.IOException; 33 import java.io.InputStream; 34 import java.nio.ByteBuffer; 35 import java.util.jar.JarOutputStream; 36 import java.util.jar.Pack200; 37 import java.util.zip.CRC32; 38 import java.util.zip.Deflater; 39 import java.util.zip.ZipEntry; 40 import java.util.zip.ZipOutputStream; 41 42 class NativeUnpack { 43 // Pointer to the native unpacker obj 44 private long unpackerPtr; 45 46 // Input stream. 47 private BufferedInputStream in; 48 49 private static synchronized native void initIDs(); 50 51 // Starts processing at the indicated position in the buffer. 52 // If the buffer is null, the readInputFn callback is used to get bytes. 53 // Returns (s<<32|f), the number of following segments and files. 54 private synchronized native long start(ByteBuffer buf, long offset); 55 56 // Returns true if there's another, and fills in the parts. 57 private synchronized native boolean getNextFile(Object[] parts); 58 59 private synchronized native ByteBuffer getUnusedInput(); 60 61 // Resets the engine and frees all resources. 62 // Returns total number of bytes consumed by the engine. 63 private synchronized native long finish(); 64 65 // Setting state in the unpacker. 66 protected synchronized native boolean setOption(String opt, String value); 67 protected synchronized native String getOption(String opt); 68 69 private int _verbose; 70 71 // State for progress bar: 72 private long _byteCount; // bytes read in current segment 73 private int _segCount; // number of segs scanned 74 private int _fileCount; // number of files written 75 private long _estByteLimit; // estimate of eventual total 76 private int _estSegLimit; // ditto 77 private int _estFileLimit; // ditto 78 private int _prevPercent = -1; // for monotonicity 79 80 private final CRC32 _crc32 = new CRC32(); 81 private byte[] _buf = new byte[1<<14]; 82 83 private UnpackerImpl _p200; 84 private PropMap _props; 85 86 static { 87 // If loading from stand alone build uncomment this. 88 // System.loadLibrary("unpack"); 89 java.security.AccessController.doPrivileged( 90 new sun.security.action.LoadLibraryAction("unpack")); 91 initIDs(); 92 } 93 94 NativeUnpack(UnpackerImpl p200) { 95 super(); 96 _p200 = p200; 97 _props = p200.props; 98 p200._nunp = this; 99 } 100 101 // for JNI callbacks 102 static private Object currentInstance() { 103 UnpackerImpl p200 = (UnpackerImpl) Utils.getTLGlobals(); 104 return (p200 == null)? null: p200._nunp; 105 } 106 107 // Callback from the unpacker engine to get more data. 108 private long readInputFn(ByteBuffer pbuf, long minlen) throws IOException { 109 if (in == null) return 0; // nothing is readable 110 long maxlen = pbuf.capacity() - pbuf.position(); 111 assert(minlen <= maxlen); // don't talk nonsense 112 long numread = 0; 113 int steps = 0; 114 while (numread < minlen) { 115 steps++; 116 // read available input, up to buf.length or maxlen 117 int readlen = _buf.length; 118 if (readlen > (maxlen - numread)) 119 readlen = (int)(maxlen - numread); 120 int nr = in.read(_buf, 0, readlen); 121 if (nr <= 0) break; 122 numread += nr; 123 assert(numread <= maxlen); 124 // %%% get rid of this extra copy by using nio? 125 pbuf.put(_buf, 0, nr); 126 } 127 if (_verbose > 1) 128 Utils.log.fine("readInputFn("+minlen+","+maxlen+") => "+numread+" steps="+steps); 129 if (maxlen > 100) { 130 _estByteLimit = _byteCount + maxlen; 131 } else { 132 _estByteLimit = (_byteCount + numread) * 20; 133 } 134 _byteCount += numread; 135 updateProgress(); 136 return numread; 137 } 138 139 private void updateProgress() { 140 // Progress is a combination of segment reading and file writing. 141 final double READ_WT = 0.33; 142 final double WRITE_WT = 0.67; 143 double readProgress = _segCount; 144 if (_estByteLimit > 0 && _byteCount > 0) 145 readProgress += (double)_byteCount / _estByteLimit; 146 double writeProgress = _fileCount; 147 double scaledProgress 148 = READ_WT * readProgress / Math.max(_estSegLimit,1) 149 + WRITE_WT * writeProgress / Math.max(_estFileLimit,1); 150 int percent = (int) Math.round(100*scaledProgress); 151 if (percent > 100) percent = 100; 152 if (percent > _prevPercent) { 153 _prevPercent = percent; 154 _props.setInteger(Pack200.Unpacker.PROGRESS, percent); 155 if (_verbose > 0) 156 Utils.log.info("progress = "+percent); 157 } 158 } 159 160 private void copyInOption(String opt) { 161 String val = _props.getProperty(opt); 162 if (_verbose > 0) 163 Utils.log.info("set "+opt+"="+val); 164 if (val != null) { 165 boolean set = setOption(opt, val); 166 if (!set) 167 Utils.log.warning("Invalid option "+opt+"="+val); 168 } 169 } 170 171 void run(InputStream inRaw, JarOutputStream jstream, 172 ByteBuffer presetInput) throws IOException { 173 BufferedInputStream in0 = new BufferedInputStream(inRaw); 174 this.in = in0; // for readInputFn to see 175 _verbose = _props.getInteger(Utils.DEBUG_VERBOSE); 176 // Fix for BugId: 4902477, -unpack.modification.time = 1059010598000 177 // TODO eliminate and fix in unpack.cpp 178 179 final int modtime = Pack200.Packer.KEEP.equals(_props.getProperty(Utils.UNPACK_MODIFICATION_TIME, "0")) ? 180 Constants.NO_MODTIME : _props.getTime(Utils.UNPACK_MODIFICATION_TIME); 181 182 copyInOption(Utils.DEBUG_VERBOSE); 183 copyInOption(Pack200.Unpacker.DEFLATE_HINT); 184 if (modtime == Constants.NO_MODTIME) // Dont pass KEEP && NOW 185 copyInOption(Utils.UNPACK_MODIFICATION_TIME); 186 updateProgress(); // reset progress bar 187 for (;;) { 188 // Read the packed bits. 189 long counts = start(presetInput, 0); 190 _byteCount = _estByteLimit = 0; // reset partial scan counts 191 ++_segCount; // just finished scanning a whole segment... 192 int nextSeg = (int)( counts >>> 32 ); 193 int nextFile = (int)( counts >>> 0 ); 194 195 // Estimate eventual total number of segments and files. 196 _estSegLimit = _segCount + nextSeg; 197 double filesAfterThisSeg = _fileCount + nextFile; 198 _estFileLimit = (int)( (filesAfterThisSeg * 199 _estSegLimit) / _segCount ); 200 201 // Write the files. 202 int[] intParts = { 0,0, 0, 0 }; 203 // intParts = {size.hi/lo, mod, defl} 204 Object[] parts = { intParts, null, null, null }; 205 // parts = { {intParts}, name, data0/1 } 206 while (getNextFile(parts)) { 207 //BandStructure.printArrayTo(System.out, intParts, 0, parts.length); 208 String name = (String) parts[1]; 209 long size = ( (long)intParts[0] << 32) 210 + (((long)intParts[1] << 32) >>> 32); 211 212 long mtime = (modtime != Constants.NO_MODTIME ) ? 213 modtime : intParts[2] ; 214 boolean deflateHint = (intParts[3] != 0); 215 ByteBuffer data0 = (ByteBuffer) parts[2]; 216 ByteBuffer data1 = (ByteBuffer) parts[3]; 217 writeEntry(jstream, name, mtime, size, deflateHint, 218 data0, data1); 219 ++_fileCount; 220 updateProgress(); 221 } 222 presetInput = getUnusedInput(); 223 long consumed = finish(); 224 if (_verbose > 0) 225 Utils.log.info("bytes consumed = "+consumed); 226 if (presetInput == null && 227 !Utils.isPackMagic(Utils.readMagic(in0))) { 228 break; 229 } 230 if (_verbose > 0 ) { 231 if (presetInput != null) 232 Utils.log.info("unused input = "+presetInput); 233 } 234 } 235 } 236 237 void run(InputStream in, JarOutputStream jstream) throws IOException { 238 run(in, jstream, null); 239 } 240 241 void run(File inFile, JarOutputStream jstream) throws IOException { 242 // %%% maybe memory-map the file, and pass it straight into unpacker 243 ByteBuffer mappedFile = null; 244 try (FileInputStream fis = new FileInputStream(inFile)) { 245 run(fis, jstream, mappedFile); 246 } 247 // Note: caller is responsible to finish with jstream. 248 } 249 250 private void writeEntry(JarOutputStream j, String name, 251 long mtime, long lsize, boolean deflateHint, 252 ByteBuffer data0, ByteBuffer data1) throws IOException { 253 int size = (int)lsize; 254 if (size != lsize) 255 throw new IOException("file too large: "+lsize); 256 257 CRC32 crc32 = _crc32; 258 259 if (_verbose > 1) 260 Utils.log.fine("Writing entry: "+name+" size="+size 261 +(deflateHint?" deflated":"")); 262 263 if (_buf.length < size) { 264 int newSize = size; 265 while (newSize < _buf.length) { 266 newSize <<= 1; 267 if (newSize <= 0) { 268 newSize = size; 269 break; 270 } 271 } 272 _buf = new byte[newSize]; 273 } 274 assert(_buf.length >= size); 275 276 int fillp = 0; 277 if (data0 != null) { 278 int size0 = data0.capacity(); 279 data0.get(_buf, fillp, size0); 280 fillp += size0; 281 } 282 if (data1 != null) { 283 int size1 = data1.capacity(); 284 data1.get(_buf, fillp, size1); 285 fillp += size1; 286 } 287 while (fillp < size) { 288 // Fill in rest of data from the stream itself. 289 int nr = in.read(_buf, fillp, size - fillp); 290 if (nr <= 0) throw new IOException("EOF at end of archive"); 291 fillp += nr; 292 } 293 294 ZipEntry z = new ZipEntry(name); 295 z.setTime( (long)mtime * 1000); 296 297 if (size == 0) { 298 z.setMethod(ZipOutputStream.STORED); 299 z.setSize(0); 300 z.setCrc(0); 301 z.setCompressedSize(0); 302 } else if (!deflateHint) { 303 z.setMethod(ZipOutputStream.STORED); 304 z.setSize(size); 305 z.setCompressedSize(size); 306 crc32.reset(); 307 crc32.update(_buf, 0, size); 308 z.setCrc(crc32.getValue()); 309 } else { 310 z.setMethod(Deflater.DEFLATED); 311 z.setSize(size); 312 } 313 314 j.putNextEntry(z); 315 316 if (size > 0) 317 j.write(_buf, 0, size); 318 319 j.closeEntry(); 320 if (_verbose > 0) Utils.log.info("Writing " + Utils.zeString(z)); 321 } 322 }