/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * */ package org.apache.commons.compress.archivers.zip; import java.io.BufferedInputStream; import java.io.ByteArrayInputStream; import java.io.Closeable; import java.io.EOFException; import java.io.File; import java.io.IOException; import java.io.InputStream; import java.io.SequenceInputStream; import java.nio.ByteBuffer; import java.nio.channels.FileChannel; import java.nio.channels.SeekableByteChannel; import java.nio.file.Files; import java.nio.file.StandardOpenOption; import java.util.Arrays; import java.util.Collections; import java.util.Comparator; import java.util.Enumeration; import java.util.EnumSet; import java.util.HashMap; import java.util.LinkedList; import java.util.List; import java.util.Map; import java.util.zip.Inflater; import java.util.zip.ZipException; import org.apache.commons.compress.compressors.bzip2.BZip2CompressorInputStream; import org.apache.commons.compress.compressors.deflate64.Deflate64CompressorInputStream; import org.apache.commons.compress.utils.CountingInputStream; import org.apache.commons.compress.utils.IOUtils; import org.apache.commons.compress.utils.InputStreamStatistics; import static org.apache.commons.compress.archivers.zip.ZipConstants.DWORD; import static org.apache.commons.compress.archivers.zip.ZipConstants.SHORT; import static org.apache.commons.compress.archivers.zip.ZipConstants.WORD; import static org.apache.commons.compress.archivers.zip.ZipConstants.ZIP64_MAGIC; import static org.apache.commons.compress.archivers.zip.ZipConstants.ZIP64_MAGIC_SHORT; /** * Replacement for java.util.ZipFile. * *

This class adds support for file name encodings other than UTF-8 * (which is required to work on ZIP files created by native zip tools * and is able to skip a preamble like the one found in self * extracting archives. Furthermore it returns instances of * org.apache.commons.compress.archivers.zip.ZipArchiveEntry * instead of java.util.zip.ZipEntry.

* *

It doesn't extend java.util.zip.ZipFile as it would * have to reimplement all methods anyway. Like * java.util.ZipFile, it uses SeekableByteChannel under the * covers and supports compressed and uncompressed entries. As of * Apache Commons Compress 1.3 it also transparently supports Zip64 * extensions and thus individual entries and archives larger than 4 * GB or with more than 65536 entries.

* *

The method signatures mimic the ones of * java.util.zip.ZipFile, with a couple of exceptions: * *

* */ public class ZipFile implements Closeable { private static final int HASH_SIZE = 509; static final int NIBLET_MASK = 0x0f; static final int BYTE_SHIFT = 8; private static final int POS_0 = 0; private static final int POS_1 = 1; private static final int POS_2 = 2; private static final int POS_3 = 3; private static final byte[] ONE_ZERO_BYTE = new byte[1]; /** * List of entries in the order they appear inside the central * directory. */ private final List entries = new LinkedList<>(); /** * Maps String to list of ZipArchiveEntrys, name -> actual entries. */ private final Map> nameMap = new HashMap<>(HASH_SIZE); /** * The encoding to use for filenames and the file comment. * *

For a list of possible values see http://java.sun.com/j2se/1.5.0/docs/guide/intl/encoding.doc.html. * Defaults to UTF-8.

*/ private final String encoding; /** * The zip encoding to use for filenames and the file comment. */ private final ZipEncoding zipEncoding; /** * File name of actual source. */ private final String archiveName; /** * The actual data source. */ private final SeekableByteChannel archive; /** * Whether to look for and use Unicode extra fields. */ private final boolean useUnicodeExtraFields; /** * Whether the file is closed. */ private volatile boolean closed = true; // cached buffers - must only be used locally in the class (COMPRESS-172 - reduce garbage collection) private final byte[] dwordBuf = new byte[DWORD]; private final byte[] wordBuf = new byte[WORD]; private final byte[] cfhBuf = new byte[CFH_LEN]; private final byte[] shortBuf = new byte[SHORT]; private final ByteBuffer dwordBbuf = ByteBuffer.wrap(dwordBuf); private final ByteBuffer wordBbuf = ByteBuffer.wrap(wordBuf); private final ByteBuffer cfhBbuf = ByteBuffer.wrap(cfhBuf); /** * Opens the given file for reading, assuming "UTF8" for file names. * * @param f the archive. * * @throws IOException if an error occurs while reading the file. */ public ZipFile(final File f) throws IOException { this(f, ZipEncodingHelper.UTF8); } /** * Opens the given file for reading, assuming "UTF8". * * @param name name of the archive. * * @throws IOException if an error occurs while reading the file. */ public ZipFile(final String name) throws IOException { this(new File(name), ZipEncodingHelper.UTF8); } /** * Opens the given file for reading, assuming the specified * encoding for file names, scanning unicode extra fields. * * @param name name of the archive. * @param encoding the encoding to use for file names, use null * for the platform's default encoding * * @throws IOException if an error occurs while reading the file. */ public ZipFile(final String name, final String encoding) throws IOException { this(new File(name), encoding, true); } /** * Opens the given file for reading, assuming the specified * encoding for file names and scanning for unicode extra fields. * * @param f the archive. * @param encoding the encoding to use for file names, use null * for the platform's default encoding * * @throws IOException if an error occurs while reading the file. */ public ZipFile(final File f, final String encoding) throws IOException { this(f, encoding, true); } /** * Opens the given file for reading, assuming the specified * encoding for file names. * * @param f the archive. * @param encoding the encoding to use for file names, use null * for the platform's default encoding * @param useUnicodeExtraFields whether to use InfoZIP Unicode * Extra Fields (if present) to set the file names. * * @throws IOException if an error occurs while reading the file. */ public ZipFile(final File f, final String encoding, final boolean useUnicodeExtraFields) throws IOException { this(Files.newByteChannel(f.toPath(), EnumSet.of(StandardOpenOption.READ)), f.getAbsolutePath(), encoding, useUnicodeExtraFields, true); } /** * Opens the given channel for reading, assuming "UTF8" for file names. * *

{@link * org.apache.commons.compress.utils.SeekableInMemoryByteChannel} * allows you to read from an in-memory archive.

* * @param channel the archive. * * @throws IOException if an error occurs while reading the file. * @since 1.13 */ public ZipFile(final SeekableByteChannel channel) throws IOException { this(channel, "unknown archive", ZipEncodingHelper.UTF8, true); } /** * Opens the given channel for reading, assuming the specified * encoding for file names. * *

{@link * org.apache.commons.compress.utils.SeekableInMemoryByteChannel} * allows you to read from an in-memory archive.

* * @param channel the archive. * @param encoding the encoding to use for file names, use null * for the platform's default encoding * * @throws IOException if an error occurs while reading the file. * @since 1.13 */ public ZipFile(final SeekableByteChannel channel, final String encoding) throws IOException { this(channel, "unknown archive", encoding, true); } /** * Opens the given channel for reading, assuming the specified * encoding for file names. * *

{@link * org.apache.commons.compress.utils.SeekableInMemoryByteChannel} * allows you to read from an in-memory archive.

* * @param channel the archive. * @param archiveName name of the archive, used for error messages only. * @param encoding the encoding to use for file names, use null * for the platform's default encoding * @param useUnicodeExtraFields whether to use InfoZIP Unicode * Extra Fields (if present) to set the file names. * * @throws IOException if an error occurs while reading the file. * @since 1.13 */ public ZipFile(final SeekableByteChannel channel, final String archiveName, final String encoding, final boolean useUnicodeExtraFields) throws IOException { this(channel, archiveName, encoding, useUnicodeExtraFields, false); } private ZipFile(final SeekableByteChannel channel, final String archiveName, final String encoding, final boolean useUnicodeExtraFields, final boolean closeOnError) throws IOException { this.archiveName = archiveName; this.encoding = encoding; this.zipEncoding = ZipEncodingHelper.getZipEncoding(encoding); this.useUnicodeExtraFields = useUnicodeExtraFields; archive = channel; boolean success = false; try { final Map entriesWithoutUTF8Flag = populateFromCentralDirectory(); resolveLocalFileHeaderData(entriesWithoutUTF8Flag); success = true; } finally { closed = !success; if (!success && closeOnError) { IOUtils.closeQuietly(archive); } } } /** * The encoding to use for filenames and the file comment. * * @return null if using the platform's default character encoding. */ public String getEncoding() { return encoding; } /** * Closes the archive. * @throws IOException if an error occurs closing the archive. */ @Override public void close() throws IOException { // this flag is only written here and read in finalize() which // can never be run in parallel. // no synchronization needed. closed = true; archive.close(); } /** * close a zipfile quietly; throw no io fault, do nothing * on a null parameter * @param zipfile file to close, can be null */ public static void closeQuietly(final ZipFile zipfile) { IOUtils.closeQuietly(zipfile); } /** * Returns all entries. * *

Entries will be returned in the same order they appear * within the archive's central directory.

* * @return all entries as {@link ZipArchiveEntry} instances */ public Enumeration getEntries() { return Collections.enumeration(entries); } /** * Returns all entries in physical order. * *

Entries will be returned in the same order their contents * appear within the archive.

* * @return all entries as {@link ZipArchiveEntry} instances * * @since 1.1 */ public Enumeration getEntriesInPhysicalOrder() { final ZipArchiveEntry[] allEntries = entries.toArray(new ZipArchiveEntry[entries.size()]); Arrays.sort(allEntries, offsetComparator); return Collections.enumeration(Arrays.asList(allEntries)); } /** * Returns a named entry - or {@code null} if no entry by * that name exists. * *

If multiple entries with the same name exist the first entry * in the archive's central directory by that name is * returned.

* * @param name name of the entry. * @return the ZipArchiveEntry corresponding to the given name - or * {@code null} if not present. */ public ZipArchiveEntry getEntry(final String name) { final LinkedList entriesOfThatName = nameMap.get(name); return entriesOfThatName != null ? entriesOfThatName.getFirst() : null; } /** * Returns all named entries in the same order they appear within * the archive's central directory. * * @param name name of the entry. * @return the Iterable<ZipArchiveEntry> corresponding to the * given name * @since 1.6 */ public Iterable getEntries(final String name) { final List entriesOfThatName = nameMap.get(name); return entriesOfThatName != null ? entriesOfThatName : Collections.emptyList(); } /** * Returns all named entries in the same order their contents * appear within the archive. * * @param name name of the entry. * @return the Iterable<ZipArchiveEntry> corresponding to the * given name * @since 1.6 */ public Iterable getEntriesInPhysicalOrder(final String name) { ZipArchiveEntry[] entriesOfThatName = new ZipArchiveEntry[0]; if (nameMap.containsKey(name)) { entriesOfThatName = nameMap.get(name).toArray(entriesOfThatName); Arrays.sort(entriesOfThatName, offsetComparator); } return Arrays.asList(entriesOfThatName); } /** * Whether this class is able to read the given entry. * *

May return false if it is set up to use encryption or a * compression method that hasn't been implemented yet.

* @since 1.1 * @param ze the entry * @return whether this class is able to read the given entry. */ public boolean canReadEntryData(final ZipArchiveEntry ze) { return ZipUtil.canHandleEntryData(ze); } /** * Expose the raw stream of the archive entry (compressed form). * *

This method does not relate to how/if we understand the payload in the * stream, since we really only intend to move it on to somewhere else.

* * @param ze The entry to get the stream for * @return The raw input stream containing (possibly) compressed data. * @since 1.11 */ public InputStream getRawInputStream(final ZipArchiveEntry ze) { if (!(ze instanceof Entry)) { return null; } final long start = ze.getDataOffset(); return createBoundedInputStream(start, ze.getCompressedSize()); } /** * Transfer selected entries from this zipfile to a given #ZipArchiveOutputStream. * Compression and all other attributes will be as in this file. *

This method transfers entries based on the central directory of the zip file.

* * @param target The zipArchiveOutputStream to write the entries to * @param predicate A predicate that selects which entries to write * @throws IOException on error */ public void copyRawEntries(final ZipArchiveOutputStream target, final ZipArchiveEntryPredicate predicate) throws IOException { final Enumeration src = getEntriesInPhysicalOrder(); while (src.hasMoreElements()) { final ZipArchiveEntry entry = src.nextElement(); if (predicate.test( entry)) { target.addRawArchiveEntry(entry, getRawInputStream(entry)); } } } /** * Returns an InputStream for reading the contents of the given entry. * * @param ze the entry to get the stream for. * @return a stream to read the entry from. The returned stream * implements {@link InputStreamStatistics}. * @throws IOException if unable to create an input stream from the zipentry */ public InputStream getInputStream(final ZipArchiveEntry ze) throws IOException { if (!(ze instanceof Entry)) { return null; } // cast validity is checked just above ZipUtil.checkRequestedFeatures(ze); final long start = ze.getDataOffset(); // doesn't get closed if the method is not supported - which // should never happen because of the checkRequestedFeatures // call above final InputStream is = new BufferedInputStream(createBoundedInputStream(start, ze.getCompressedSize())); //NOSONAR switch (ZipMethod.getMethodByCode(ze.getMethod())) { case STORED: return new StoredStatisticsStream(is); case UNSHRINKING: return new UnshrinkingInputStream(is); case IMPLODING: return new ExplodingInputStream(ze.getGeneralPurposeBit().getSlidingDictionarySize(), ze.getGeneralPurposeBit().getNumberOfShannonFanoTrees(), is); case DEFLATED: final Inflater inflater = new Inflater(true); // Inflater with nowrap=true has this odd contract for a zero padding // byte following the data stream; this used to be zlib's requirement // and has been fixed a long time ago, but the contract persists so // we comply. // https://docs.oracle.com/javase/7/docs/api/java/util/zip/Inflater.html#Inflater(boolean) return new InflaterInputStreamWithStatistics(new SequenceInputStream(is, new ByteArrayInputStream(ONE_ZERO_BYTE)), inflater) { @Override public void close() throws IOException { try { super.close(); } finally { inflater.end(); } } }; case BZIP2: return new BZip2CompressorInputStream(is); case ENHANCED_DEFLATED: return new Deflate64CompressorInputStream(is); case AES_ENCRYPTED: case EXPANDING_LEVEL_1: case EXPANDING_LEVEL_2: case EXPANDING_LEVEL_3: case EXPANDING_LEVEL_4: case JPEG: case LZMA: case PKWARE_IMPLODING: case PPMD: case TOKENIZATION: case UNKNOWN: case WAVPACK: case XZ: default: throw new ZipException("Found unsupported compression method " + ze.getMethod()); } } /** *

* Convenience method to return the entry's content as a String if isUnixSymlink() * returns true for it, otherwise returns null. *

* *

This method assumes the symbolic link's file name uses the * same encoding that as been specified for this ZipFile.

* * @param entry ZipArchiveEntry object that represents the symbolic link * @return entry's content as a String * @throws IOException problem with content's input stream * @since 1.5 */ public String getUnixSymlink(final ZipArchiveEntry entry) throws IOException { if (entry != null && entry.isUnixSymlink()) { try (InputStream in = getInputStream(entry)) { return zipEncoding.decode(IOUtils.toByteArray(in)); } } return null; } /** * Ensures that the close method of this zipfile is called when * there are no more references to it. * @see #close() */ @Override protected void finalize() throws Throwable { try { if (!closed) { System.err.println("Cleaning up unclosed ZipFile for archive " + archiveName); close(); } } finally { super.finalize(); } } /** * Length of a "central directory" entry structure without file * name, extra fields or comment. */ private static final int CFH_LEN = /* version made by */ SHORT /* version needed to extract */ + SHORT /* general purpose bit flag */ + SHORT /* compression method */ + SHORT /* last mod file time */ + SHORT /* last mod file date */ + SHORT /* crc-32 */ + WORD /* compressed size */ + WORD /* uncompressed size */ + WORD /* filename length */ + SHORT /* extra field length */ + SHORT /* file comment length */ + SHORT /* disk number start */ + SHORT /* internal file attributes */ + SHORT /* external file attributes */ + WORD /* relative offset of local header */ + WORD; private static final long CFH_SIG = ZipLong.getValue(ZipArchiveOutputStream.CFH_SIG); /** * Reads the central directory of the given archive and populates * the internal tables with ZipArchiveEntry instances. * *

The ZipArchiveEntrys will know all data that can be obtained from * the central directory alone, but not the data that requires the * local file header or additional data to be read.

* * @return a map of zipentries that didn't have the language * encoding flag set when read. */ private Map populateFromCentralDirectory() throws IOException { final HashMap noUTF8Flag = new HashMap<>(); positionAtCentralDirectory(); wordBbuf.rewind(); IOUtils.readFully(archive, wordBbuf); long sig = ZipLong.getValue(wordBuf); if (sig != CFH_SIG && startsWithLocalFileHeader()) { throw new IOException("central directory is empty, can't expand" + " corrupt archive."); } while (sig == CFH_SIG) { readCentralDirectoryEntry(noUTF8Flag); wordBbuf.rewind(); IOUtils.readFully(archive, wordBbuf); sig = ZipLong.getValue(wordBuf); } return noUTF8Flag; } /** * Reads an individual entry of the central directory, creats an * ZipArchiveEntry from it and adds it to the global maps. * * @param noUTF8Flag map used to collect entries that don't have * their UTF-8 flag set and whose name will be set by data read * from the local file header later. The current entry may be * added to this map. */ private void readCentralDirectoryEntry(final Map noUTF8Flag) throws IOException { cfhBbuf.rewind(); IOUtils.readFully(archive, cfhBbuf); int off = 0; final Entry ze = new Entry(); final int versionMadeBy = ZipShort.getValue(cfhBuf, off); off += SHORT; ze.setVersionMadeBy(versionMadeBy); ze.setPlatform((versionMadeBy >> BYTE_SHIFT) & NIBLET_MASK); ze.setVersionRequired(ZipShort.getValue(cfhBuf, off)); off += SHORT; // version required final GeneralPurposeBit gpFlag = GeneralPurposeBit.parse(cfhBuf, off); final boolean hasUTF8Flag = gpFlag.usesUTF8ForNames(); final ZipEncoding entryEncoding = hasUTF8Flag ? ZipEncodingHelper.UTF8_ZIP_ENCODING : zipEncoding; if (hasUTF8Flag) { ze.setNameSource(ZipArchiveEntry.NameSource.NAME_WITH_EFS_FLAG); } ze.setGeneralPurposeBit(gpFlag); ze.setRawFlag(ZipShort.getValue(cfhBuf, off)); off += SHORT; //noinspection MagicConstant ze.setMethod(ZipShort.getValue(cfhBuf, off)); off += SHORT; final long time = ZipUtil.dosToJavaTime(ZipLong.getValue(cfhBuf, off)); ze.setTime(time); off += WORD; ze.setCrc(ZipLong.getValue(cfhBuf, off)); off += WORD; ze.setCompressedSize(ZipLong.getValue(cfhBuf, off)); off += WORD; ze.setSize(ZipLong.getValue(cfhBuf, off)); off += WORD; final int fileNameLen = ZipShort.getValue(cfhBuf, off); off += SHORT; final int extraLen = ZipShort.getValue(cfhBuf, off); off += SHORT; final int commentLen = ZipShort.getValue(cfhBuf, off); off += SHORT; final int diskStart = ZipShort.getValue(cfhBuf, off); off += SHORT; ze.setInternalAttributes(ZipShort.getValue(cfhBuf, off)); off += SHORT; ze.setExternalAttributes(ZipLong.getValue(cfhBuf, off)); off += WORD; final byte[] fileName = new byte[fileNameLen]; IOUtils.readFully(archive, ByteBuffer.wrap(fileName)); ze.setName(entryEncoding.decode(fileName), fileName); // LFH offset, ze.setLocalHeaderOffset(ZipLong.getValue(cfhBuf, off)); // data offset will be filled later entries.add(ze); final byte[] cdExtraData = new byte[extraLen]; IOUtils.readFully(archive, ByteBuffer.wrap(cdExtraData)); ze.setCentralDirectoryExtra(cdExtraData); setSizesAndOffsetFromZip64Extra(ze, diskStart); final byte[] comment = new byte[commentLen]; IOUtils.readFully(archive, ByteBuffer.wrap(comment)); ze.setComment(entryEncoding.decode(comment)); if (!hasUTF8Flag && useUnicodeExtraFields) { noUTF8Flag.put(ze, new NameAndComment(fileName, comment)); } } /** * If the entry holds a Zip64 extended information extra field, * read sizes from there if the entry's sizes are set to * 0xFFFFFFFFF, do the same for the offset of the local file * header. * *

Ensures the Zip64 extra either knows both compressed and * uncompressed size or neither of both as the internal logic in * ExtraFieldUtils forces the field to create local header data * even if they are never used - and here a field with only one * size would be invalid.

*/ private void setSizesAndOffsetFromZip64Extra(final ZipArchiveEntry ze, final int diskStart) throws IOException { final Zip64ExtendedInformationExtraField z64 = (Zip64ExtendedInformationExtraField) ze.getExtraField(Zip64ExtendedInformationExtraField.HEADER_ID); if (z64 != null) { final boolean hasUncompressedSize = ze.getSize() == ZIP64_MAGIC; final boolean hasCompressedSize = ze.getCompressedSize() == ZIP64_MAGIC; final boolean hasRelativeHeaderOffset = ze.getLocalHeaderOffset() == ZIP64_MAGIC; z64.reparseCentralDirectoryData(hasUncompressedSize, hasCompressedSize, hasRelativeHeaderOffset, diskStart == ZIP64_MAGIC_SHORT); if (hasUncompressedSize) { ze.setSize(z64.getSize().getLongValue()); } else if (hasCompressedSize) { z64.setSize(new ZipEightByteInteger(ze.getSize())); } if (hasCompressedSize) { ze.setCompressedSize(z64.getCompressedSize().getLongValue()); } else if (hasUncompressedSize) { z64.setCompressedSize(new ZipEightByteInteger(ze.getCompressedSize())); } if (hasRelativeHeaderOffset) { ze.setLocalHeaderOffset(z64.getRelativeHeaderOffset().getLongValue()); } } } /** * Length of the "End of central directory record" - which is * supposed to be the last structure of the archive - without file * comment. */ static final int MIN_EOCD_SIZE = /* end of central dir signature */ WORD /* number of this disk */ + SHORT /* number of the disk with the */ /* start of the central directory */ + SHORT /* total number of entries in */ /* the central dir on this disk */ + SHORT /* total number of entries in */ /* the central dir */ + SHORT /* size of the central directory */ + WORD /* offset of start of central */ /* directory with respect to */ /* the starting disk number */ + WORD /* zipfile comment length */ + SHORT; /** * Maximum length of the "End of central directory record" with a * file comment. */ private static final int MAX_EOCD_SIZE = MIN_EOCD_SIZE /* maximum length of zipfile comment */ + ZIP64_MAGIC_SHORT; /** * Offset of the field that holds the location of the first * central directory entry inside the "End of central directory * record" relative to the start of the "End of central directory * record". */ private static final int CFD_LOCATOR_OFFSET = /* end of central dir signature */ WORD /* number of this disk */ + SHORT /* number of the disk with the */ /* start of the central directory */ + SHORT /* total number of entries in */ /* the central dir on this disk */ + SHORT /* total number of entries in */ /* the central dir */ + SHORT /* size of the central directory */ + WORD; /** * Length of the "Zip64 end of central directory locator" - which * should be right in front of the "end of central directory * record" if one is present at all. */ private static final int ZIP64_EOCDL_LENGTH = /* zip64 end of central dir locator sig */ WORD /* number of the disk with the start */ /* start of the zip64 end of */ /* central directory */ + WORD /* relative offset of the zip64 */ /* end of central directory record */ + DWORD /* total number of disks */ + WORD; /** * Offset of the field that holds the location of the "Zip64 end * of central directory record" inside the "Zip64 end of central * directory locator" relative to the start of the "Zip64 end of * central directory locator". */ private static final int ZIP64_EOCDL_LOCATOR_OFFSET = /* zip64 end of central dir locator sig */ WORD /* number of the disk with the start */ /* start of the zip64 end of */ /* central directory */ + WORD; /** * Offset of the field that holds the location of the first * central directory entry inside the "Zip64 end of central * directory record" relative to the start of the "Zip64 end of * central directory record". */ private static final int ZIP64_EOCD_CFD_LOCATOR_OFFSET = /* zip64 end of central dir */ /* signature */ WORD /* size of zip64 end of central */ /* directory record */ + DWORD /* version made by */ + SHORT /* version needed to extract */ + SHORT /* number of this disk */ + WORD /* number of the disk with the */ /* start of the central directory */ + WORD /* total number of entries in the */ /* central directory on this disk */ + DWORD /* total number of entries in the */ /* central directory */ + DWORD /* size of the central directory */ + DWORD; /** * Searches for either the "Zip64 end of central directory * locator" or the "End of central dir record", parses * it and positions the stream at the first central directory * record. */ private void positionAtCentralDirectory() throws IOException { positionAtEndOfCentralDirectoryRecord(); boolean found = false; final boolean searchedForZip64EOCD = archive.position() > ZIP64_EOCDL_LENGTH; if (searchedForZip64EOCD) { archive.position(archive.position() - ZIP64_EOCDL_LENGTH); wordBbuf.rewind(); IOUtils.readFully(archive, wordBbuf); found = Arrays.equals(ZipArchiveOutputStream.ZIP64_EOCD_LOC_SIG, wordBuf); } if (!found) { // not a ZIP64 archive if (searchedForZip64EOCD) { skipBytes(ZIP64_EOCDL_LENGTH - WORD); } positionAtCentralDirectory32(); } else { positionAtCentralDirectory64(); } } /** * Parses the "Zip64 end of central directory locator", * finds the "Zip64 end of central directory record" using the * parsed information, parses that and positions the stream at the * first central directory record. * * Expects stream to be positioned right behind the "Zip64 * end of central directory locator"'s signature. */ private void positionAtCentralDirectory64() throws IOException { skipBytes(ZIP64_EOCDL_LOCATOR_OFFSET - WORD /* signature has already been read */); dwordBbuf.rewind(); IOUtils.readFully(archive, dwordBbuf); archive.position(ZipEightByteInteger.getLongValue(dwordBuf)); wordBbuf.rewind(); IOUtils.readFully(archive, wordBbuf); if (!Arrays.equals(wordBuf, ZipArchiveOutputStream.ZIP64_EOCD_SIG)) { throw new ZipException("archive's ZIP64 end of central " + "directory locator is corrupt."); } skipBytes(ZIP64_EOCD_CFD_LOCATOR_OFFSET - WORD /* signature has already been read */); dwordBbuf.rewind(); IOUtils.readFully(archive, dwordBbuf); archive.position(ZipEightByteInteger.getLongValue(dwordBuf)); } /** * Parses the "End of central dir record" and positions * the stream at the first central directory record. * * Expects stream to be positioned at the beginning of the * "End of central dir record". */ private void positionAtCentralDirectory32() throws IOException { skipBytes(CFD_LOCATOR_OFFSET); wordBbuf.rewind(); IOUtils.readFully(archive, wordBbuf); archive.position(ZipLong.getValue(wordBuf)); } /** * Searches for the and positions the stream at the start of the * "End of central dir record". */ private void positionAtEndOfCentralDirectoryRecord() throws IOException { final boolean found = tryToLocateSignature(MIN_EOCD_SIZE, MAX_EOCD_SIZE, ZipArchiveOutputStream.EOCD_SIG); if (!found) { throw new ZipException("archive is not a ZIP archive"); } } /** * Searches the archive backwards from minDistance to maxDistance * for the given signature, positions the RandomaccessFile right * at the signature if it has been found. */ private boolean tryToLocateSignature(final long minDistanceFromEnd, final long maxDistanceFromEnd, final byte[] sig) throws IOException { boolean found = false; long off = archive.size() - minDistanceFromEnd; final long stopSearching = Math.max(0L, archive.size() - maxDistanceFromEnd); if (off >= 0) { for (; off >= stopSearching; off--) { archive.position(off); try { wordBbuf.rewind(); IOUtils.readFully(archive, wordBbuf); wordBbuf.flip(); } catch (EOFException ex) { break; } int curr = wordBbuf.get(); if (curr == sig[POS_0]) { curr = wordBbuf.get(); if (curr == sig[POS_1]) { curr = wordBbuf.get(); if (curr == sig[POS_2]) { curr = wordBbuf.get(); if (curr == sig[POS_3]) { found = true; break; } } } } } } if (found) { archive.position(off); } return found; } /** * Skips the given number of bytes or throws an EOFException if * skipping failed. */ private void skipBytes(final int count) throws IOException { long currentPosition = archive.position(); long newPosition = currentPosition + count; if (newPosition > archive.size()) { throw new EOFException(); } archive.position(newPosition); } /** * Number of bytes in local file header up to the "length of * filename" entry. */ private static final long LFH_OFFSET_FOR_FILENAME_LENGTH = /* local file header signature */ WORD /* version needed to extract */ + SHORT /* general purpose bit flag */ + SHORT /* compression method */ + SHORT /* last mod file time */ + SHORT /* last mod file date */ + SHORT /* crc-32 */ + WORD /* compressed size */ + WORD /* uncompressed size */ + (long) WORD; /** * Walks through all recorded entries and adds the data available * from the local file header. * *

Also records the offsets for the data to read from the * entries.

*/ private void resolveLocalFileHeaderData(final Map entriesWithoutUTF8Flag) throws IOException { for (final ZipArchiveEntry zipArchiveEntry : entries) { // entries is filled in populateFromCentralDirectory and // never modified final Entry ze = (Entry) zipArchiveEntry; final long offset = ze.getLocalHeaderOffset(); archive.position(offset + LFH_OFFSET_FOR_FILENAME_LENGTH); wordBbuf.rewind(); IOUtils.readFully(archive, wordBbuf); wordBbuf.flip(); wordBbuf.get(shortBuf); final int fileNameLen = ZipShort.getValue(shortBuf); wordBbuf.get(shortBuf); final int extraFieldLen = ZipShort.getValue(shortBuf); skipBytes(fileNameLen); final byte[] localExtraData = new byte[extraFieldLen]; IOUtils.readFully(archive, ByteBuffer.wrap(localExtraData)); ze.setExtra(localExtraData); ze.setDataOffset(offset + LFH_OFFSET_FOR_FILENAME_LENGTH + SHORT + SHORT + fileNameLen + extraFieldLen); ze.setStreamContiguous(true); if (entriesWithoutUTF8Flag.containsKey(ze)) { final NameAndComment nc = entriesWithoutUTF8Flag.get(ze); ZipUtil.setNameAndCommentFromExtraFields(ze, nc.name, nc.comment); } final String name = ze.getName(); LinkedList entriesOfThatName = nameMap.get(name); if (entriesOfThatName == null) { entriesOfThatName = new LinkedList<>(); nameMap.put(name, entriesOfThatName); } entriesOfThatName.addLast(ze); } } /** * Checks whether the archive starts with a LFH. If it doesn't, * it may be an empty archive. */ private boolean startsWithLocalFileHeader() throws IOException { archive.position(0); wordBbuf.rewind(); IOUtils.readFully(archive, wordBbuf); return Arrays.equals(wordBuf, ZipArchiveOutputStream.LFH_SIG); } /** * Creates new BoundedInputStream, according to implementation of * underlying archive channel. */ private BoundedInputStream createBoundedInputStream(long start, long remaining) { return archive instanceof FileChannel ? new BoundedFileChannelInputStream(start, remaining) : new BoundedInputStream(start, remaining); } /** * InputStream that delegates requests to the underlying * SeekableByteChannel, making sure that only bytes from a certain * range can be read. */ private class BoundedInputStream extends InputStream { private ByteBuffer singleByteBuffer; private final long end; private long loc; BoundedInputStream(final long start, final long remaining) { this.end = start+remaining; if (this.end < start) { // check for potential vulnerability due to overflow throw new IllegalArgumentException("Invalid length of stream at offset="+start+", length="+remaining); } loc = start; } @Override public synchronized int read() throws IOException { if (loc >= end) { return -1; } if (singleByteBuffer == null) { singleByteBuffer = ByteBuffer.allocate(1); } else { singleByteBuffer.rewind(); } int read = read(loc, singleByteBuffer); if (read < 0) { return read; } loc++; return singleByteBuffer.get() & 0xff; } @Override public synchronized int read(final byte[] b, final int off, int len) throws IOException { if (len <= 0) { return 0; } if (len > end-loc) { if (loc >= end) { return -1; } len = (int)(end-loc); } ByteBuffer buf; buf = ByteBuffer.wrap(b, off, len); int ret = read(loc, buf); if (ret > 0) { loc += ret; return ret; } return ret; } protected int read(long pos, ByteBuffer buf) throws IOException { int read; synchronized (archive) { archive.position(pos); read = archive.read(buf); } buf.flip(); return read; } } /** * Lock-free implementation of BoundedInputStream. The * implementation uses positioned reads on the underlying archive * file channel and therefore performs significantly faster in * concurrent environment. */ private class BoundedFileChannelInputStream extends BoundedInputStream { private final FileChannel archive; BoundedFileChannelInputStream(final long start, final long remaining) { super(start, remaining); archive = (FileChannel)ZipFile.this.archive; } @Override protected int read(long pos, ByteBuffer buf) throws IOException { int read = archive.read(buf, pos); buf.flip(); return read; } } private static final class NameAndComment { private final byte[] name; private final byte[] comment; private NameAndComment(final byte[] name, final byte[] comment) { this.name = name; this.comment = comment; } } /** * Compares two ZipArchiveEntries based on their offset within the archive. * *

Won't return any meaningful results if one of the entries * isn't part of the archive at all.

* * @since 1.1 */ private final Comparator offsetComparator = new Comparator() { @Override public int compare(final ZipArchiveEntry e1, final ZipArchiveEntry e2) { if (e1 == e2) { return 0; } final Entry ent1 = e1 instanceof Entry ? (Entry) e1 : null; final Entry ent2 = e2 instanceof Entry ? (Entry) e2 : null; if (ent1 == null) { return 1; } if (ent2 == null) { return -1; } final long val = (ent1.getLocalHeaderOffset() - ent2.getLocalHeaderOffset()); return val == 0 ? 0 : val < 0 ? -1 : +1; } }; /** * Extends ZipArchiveEntry to store the offset within the archive. */ private static class Entry extends ZipArchiveEntry { Entry() { } @Override public int hashCode() { return 3 * super.hashCode() + (int) getLocalHeaderOffset()+(int)(getLocalHeaderOffset()>>32); } @Override public boolean equals(final Object other) { if (super.equals(other)) { // super.equals would return false if other were not an Entry final Entry otherEntry = (Entry) other; return getLocalHeaderOffset() == otherEntry.getLocalHeaderOffset() && getDataOffset() == otherEntry.getDataOffset(); } return false; } } private static class StoredStatisticsStream extends CountingInputStream implements InputStreamStatistics { StoredStatisticsStream(InputStream in) { super(in); } @Override public long getCompressedCount() { return super.getBytesRead(); } @Override public long getUncompressedCount() { return getCompressedCount(); } } }