/* * Copyright (c) 1995, 2025, 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. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * 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. */ package java.util.zip; import java.io.Closeable; import java.io.InputStream; import java.io.IOException; import java.io.EOFException; import java.io.File; import java.io.RandomAccessFile; import java.io.UncheckedIOException; import java.lang.ref.Cleaner.Cleanable; import java.nio.charset.Charset; import java.nio.file.InvalidPathException; import java.nio.file.attribute.BasicFileAttributes; import java.nio.file.Files; import java.util.*; import java.util.function.Consumer; import java.util.function.IntFunction; import java.util.jar.JarEntry; import java.util.jar.JarFile; import java.util.stream.Stream; import java.util.stream.StreamSupport; import jdk.internal.access.JavaUtilZipFileAccess; import jdk.internal.access.JavaUtilJarAccess; import jdk.internal.access.SharedSecrets; import jdk.internal.util.ArraysSupport; import jdk.internal.util.DecimalDigits; import jdk.internal.util.OperatingSystem; import jdk.internal.perf.PerfCounter; import jdk.internal.ref.CleanerFactory; import jdk.internal.vm.annotation.Stable; import sun.nio.cs.UTF_8; import sun.nio.fs.DefaultFileSystemProvider; import sun.security.util.SignatureFileVerifier; import static java.util.zip.ZipConstants64.*; import static java.util.zip.ZipUtils.*; /** * This class is used to read entries from a ZIP file. * *

Unless otherwise noted, passing a {@code null} argument to a constructor * or method in this class will cause a {@link NullPointerException} to be * thrown. * * @apiNote * To release resources used by this {@code ZipFile}, the {@link #close()} method * should be called explicitly or by try-with-resources. Subclasses are responsible * for the cleanup of resources acquired by the subclass. Subclasses that override * {@link #finalize()} in order to perform cleanup should be modified to use alternative * cleanup mechanisms such as {@link java.lang.ref.Cleaner} and remove the overriding * {@code finalize} method. * * @author David Connelly * @since 1.1 */ public class ZipFile implements ZipConstants, Closeable { private final String filePath; // ZIP file path private final String fileName; // name of the file // Used when decoding entry names and comments private final ZipCoder zipCoder; private volatile boolean closeRequested; // The "resource" used by this ZIP file that needs to be // cleaned after use. // a) the input streams that need to be closed // b) the list of cached Inflater objects // c) the "native" source of this ZIP file. private final @Stable CleanableResource res; private static final int STORED = ZipEntry.STORED; private static final int DEFLATED = ZipEntry.DEFLATED; /** * Mode flag to open a ZIP file for reading. */ public static final int OPEN_READ = 0x1; /** * Mode flag to open a ZIP file and mark it for deletion. The file will be * deleted some time between the moment that it is opened and the moment * that it is closed, but its contents will remain accessible via the * {@code ZipFile} object until either the close method is invoked or the * virtual machine exits. */ public static final int OPEN_DELETE = 0x4; /** * Flag to specify whether the Extra ZIP64 validation should be * disabled. */ private static final boolean DISABLE_ZIP64_EXTRA_VALIDATION = getDisableZip64ExtraFieldValidation(); /** * Opens a ZIP file for reading. * *

The UTF-8 {@link java.nio.charset.Charset charset} is used to * decode the entry names and comments. * * @param name the name of the ZIP file * @throws ZipException if a ZIP format error has occurred * @throws IOException if an I/O error has occurred */ public ZipFile(String name) throws IOException { this(new File(name), OPEN_READ); } /** * Opens a new {@code ZipFile} to read from the specified * {@code File} object in the specified mode. The mode argument * must be either {@code OPEN_READ} or {@code OPEN_READ | OPEN_DELETE}. * *

The UTF-8 {@link java.nio.charset.Charset charset} is used to * decode the entry names and comments * * @param file the ZIP file to be opened for reading * @param mode the mode in which the file is to be opened * @throws ZipException if a ZIP format error has occurred * @throws IOException if an I/O error has occurred * @throws IllegalArgumentException if the {@code mode} argument is invalid * @since 1.3 */ public ZipFile(File file, int mode) throws IOException { this(file, mode, UTF_8.INSTANCE); } /** * Opens a ZIP file for reading given the specified File object. * *

The UTF-8 {@link java.nio.charset.Charset charset} is used to * decode the entry names and comments. * * @param file the ZIP file to be opened for reading * @throws ZipException if a ZIP format error has occurred * @throws IOException if an I/O error has occurred */ public ZipFile(File file) throws ZipException, IOException { this(file, OPEN_READ); } /** * Opens a new {@code ZipFile} to read from the specified * {@code File} object in the specified mode. The mode argument * must be either {@code OPEN_READ} or {@code OPEN_READ | OPEN_DELETE}. * * @param file the ZIP file to be opened for reading * @param mode the mode in which the file is to be opened * @param charset * the {@linkplain java.nio.charset.Charset charset} to * be used to decode the ZIP entry name and comment that are not * encoded by using UTF-8 encoding (indicated by entry's general * purpose flag). * * @throws ZipException if a ZIP format error has occurred * @throws IOException if an I/O error has occurred * * @throws IllegalArgumentException if the {@code mode} argument is invalid * * @since 1.7 */ @SuppressWarnings("this-escape") public ZipFile(File file, int mode, Charset charset) throws IOException { if (((mode & OPEN_READ) == 0) || ((mode & ~(OPEN_READ | OPEN_DELETE)) != 0)) { throw new IllegalArgumentException("Illegal mode: 0x"+ Integer.toHexString(mode)); } String name = file.getPath(); file = new File(name); Objects.requireNonNull(charset, "charset"); this.filePath = name; this.fileName = file.getName(); long t0 = System.nanoTime(); this.zipCoder = ZipCoder.get(charset); this.res = new CleanableResource(this, zipCoder, file, mode); PerfCounter.getZipFileOpenTime().addElapsedTimeFrom(t0); PerfCounter.getZipFileCount().increment(); } /** * Opens a ZIP file for reading. * * @param name the name of the ZIP file * @param charset * the {@linkplain java.nio.charset.Charset charset} to * be used to decode the ZIP entry name and comment that are not * encoded by using UTF-8 encoding (indicated by entry's general * purpose flag). * * @throws ZipException if a ZIP format error has occurred * @throws IOException if an I/O error has occurred * * @since 1.7 */ public ZipFile(String name, Charset charset) throws IOException { this(new File(name), OPEN_READ, charset); } /** * Opens a ZIP file for reading given the specified File object. * * @param file the ZIP file to be opened for reading * @param charset * The {@linkplain java.nio.charset.Charset charset} to be * used to decode the ZIP entry name and comment (ignored if * the language * encoding bit of the ZIP entry's general purpose bit * flag is set). * * @throws ZipException if a ZIP format error has occurred * @throws IOException if an I/O error has occurred * * @since 1.7 */ public ZipFile(File file, Charset charset) throws IOException { this(file, OPEN_READ, charset); } /** * Returns the ZIP file comment. If a comment does not exist or an error is * encountered decoding the comment using the charset specified * when opening the ZIP file, then {@code null} is returned. * * @return the comment string for the ZIP file, or null if none * * @throws IllegalStateException if the ZIP file has been closed * * @since 1.7 */ public String getComment() { synchronized (this) { ensureOpen(); if (res.zsrc.comment == null) { return null; } // If there is a problem decoding the byte array which represents // the ZIP file comment, return null; try { return zipCoder.toString(res.zsrc.comment); } catch (IllegalArgumentException iae) { return null; } } } /** * Returns the ZIP file entry for the specified name, or null * if not found. * * @param name the name of the entry * @return the ZIP file entry, or null if not found * @throws IllegalStateException if the ZIP file has been closed */ public ZipEntry getEntry(String name) { Objects.requireNonNull(name, "name"); ZipEntry entry = null; synchronized (this) { ensureOpen(); // Look up the name and CEN header position of the entry. // The resolved name may include a trailing slash. // See Source::getEntryPos for details. EntryPos pos = res.zsrc.getEntryPos(name, true, zipCoder); if (pos != null) { entry = getZipEntry(pos.name, pos.pos); } } return entry; } /** * Returns an input stream for reading the contents of the specified * ZIP file entry. *

* Closing this ZIP file will, in turn, close all input streams that * have been returned by invocations of this method. * * @apiNote The {@code InputStream} returned by this method can wrap an * {@link java.util.zip.InflaterInputStream InflaterInputStream}, whose * {@link java.util.zip.InflaterInputStream#read(byte[], int, int) * read(byte[], int, int)} method can modify any element of the output * buffer. * * @param entry the ZIP file entry * @return the input stream for reading the contents of the specified * ZIP file entry or null if the ZIP file entry does not exist * within the ZIP file. * @throws ZipException if a ZIP format error has occurred * @throws IOException if an I/O error has occurred * @throws IllegalStateException if the ZIP file has been closed */ public InputStream getInputStream(ZipEntry entry) throws IOException { Objects.requireNonNull(entry, "entry"); int pos; ZipFileInputStream in; Source zsrc = res.zsrc; Set istreams = res.istreams; synchronized (this) { ensureOpen(); if (Objects.equals(lastEntryName, entry.name)) { pos = lastEntryPos; } else { EntryPos entryPos = zsrc.getEntryPos(entry.name, false, zipCoder); if (entryPos != null) { pos = entryPos.pos; } else { pos = -1; } } if (pos == -1) { return null; } in = new ZipFileInputStream(zsrc.cen, pos, entry.locOffset); switch (CENHOW(zsrc.cen, pos)) { case STORED: synchronized (istreams) { istreams.add(in); } return in; case DEFLATED: // Inflater likes a bit of slack // MORE: Compute good size for inflater stream: long inputBufSize = CENSIZ(zsrc.cen, pos); if (inputBufSize > 65536 || inputBufSize <= 0) { inputBufSize = 8192; } InputStream is = new ZipFileInflaterInputStream(in, res, (int) inputBufSize); synchronized (istreams) { istreams.add(is); } return is; default: throw new ZipException("invalid compression method"); } } } /** * Determines and returns a {@link ZipCoder} to use for decoding * name and comment fields of the ZIP entry identified by the {@code pos} * in the ZIP file's {@code cen}. *

* A ZIP entry's name and comment fields may be encoded using UTF-8, in * which case this method returns a UTF-8 capable {@code ZipCoder}. If the * entry doesn't require UTF-8, then this method returns the {@code fallback} * {@code ZipCoder}. * * @param cen the CEN * @param pos the ZIP entry's position in CEN * @param fallback the fallback ZipCoder to return if the entry doesn't require UTF-8 */ private static ZipCoder zipCoderFor(final byte[] cen, final int pos, final ZipCoder fallback) { if (fallback.isUTF8()) { // the fallback ZipCoder is capable of handling UTF-8, // so no need to parse the entry flags to determine if // the entry has UTF-8 flag. return fallback; } if ((CENFLG(cen, pos) & USE_UTF8) != 0) { // entry requires a UTF-8 ZipCoder return ZipCoder.UTF8; } // entry doesn't require a UTF-8 ZipCoder return fallback; } private static class InflaterCleanupAction implements Runnable { private final Inflater inf; private final CleanableResource res; InflaterCleanupAction(Inflater inf, CleanableResource res) { this.inf = inf; this.res = res; } @Override public void run() { res.releaseInflater(inf); } } private class ZipFileInflaterInputStream extends InflaterInputStream { private volatile boolean closeRequested; private boolean eof = false; private final Cleanable cleanable; ZipFileInflaterInputStream(ZipFileInputStream zfin, CleanableResource res, int inputBufSize) { this(zfin, res, res.getInflater(), inputBufSize); } private ZipFileInflaterInputStream(ZipFileInputStream zfin, CleanableResource res, Inflater inf, int inputBufSize) { super(zfin, inf, inputBufSize); this.cleanable = CleanerFactory.cleaner().register(this, new InflaterCleanupAction(inf, res)); } public void close() throws IOException { if (closeRequested) return; closeRequested = true; super.close(); synchronized (res.istreams) { res.istreams.remove(this); } cleanable.clean(); } // Override fill() method to provide an extra "dummy" byte // at the end of the input stream. This is required when // using the "nowrap" Inflater option. protected void fill() throws IOException { if (eof) { throw new EOFException("Unexpected end of ZLIB input stream"); } len = in.read(buf, 0, buf.length); if (len == -1) { buf[0] = 0; len = 1; eof = true; } inf.setInput(buf, 0, len); } public int available() throws IOException { if (closeRequested) return 0; long avail = ((ZipFileInputStream)in).size() - inf.getBytesWritten(); return (avail > (long) Integer.MAX_VALUE ? Integer.MAX_VALUE : (int) avail); } } /** * {@return the path name of the ZIP file} */ public String getName() { return filePath; } /** * {@return a string identifying this {@code ZipFile}, for debugging} */ @Override public String toString() { return this.fileName + "@" + Integer.toHexString(System.identityHashCode(this)); } private class ZipEntryIterator implements Enumeration, Iterator { private int i = 0; private final int entryCount; public ZipEntryIterator(int entryCount) { this.entryCount = entryCount; } @Override public boolean hasMoreElements() { return hasNext(); } @Override public boolean hasNext() { return i < entryCount; } @Override public T nextElement() { return next(); } @Override @SuppressWarnings("unchecked") public T next() { synchronized (ZipFile.this) { ensureOpen(); if (!hasNext()) { throw new NoSuchElementException(); } // each "entry" has 3 ints in table entries int pos = res.zsrc.getEntryPos(i++ * 3); return (T)getZipEntry(getEntryName(pos), pos); } } @Override public Iterator asIterator() { return this; } } /** * {@return an enumeration of the ZIP file entries} * @throws IllegalStateException if the ZIP file has been closed */ public Enumeration entries() { synchronized (this) { ensureOpen(); return new ZipEntryIterator(res.zsrc.total); } } private Enumeration jarEntries() { synchronized (this) { ensureOpen(); return new ZipEntryIterator(res.zsrc.total); } } private class EntrySpliterator extends Spliterators.AbstractSpliterator { private int index; private final int fence; private final IntFunction gen; EntrySpliterator(int index, int fence, IntFunction gen) { super((long)fence, Spliterator.ORDERED | Spliterator.DISTINCT | Spliterator.IMMUTABLE | Spliterator.NONNULL); this.index = index; this.fence = fence; this.gen = gen; } @Override public boolean tryAdvance(Consumer action) { if (action == null) throw new NullPointerException(); if (index >= 0 && index < fence) { synchronized (ZipFile.this) { ensureOpen(); action.accept(gen.apply(res.zsrc.getEntryPos(index++ * 3))); } return true; } return false; } } /** * Returns an ordered {@code Stream} over the ZIP file entries. * * Entries appear in the {@code Stream} in the order they appear in * the central directory of the ZIP file. * * @return an ordered {@code Stream} of entries in this ZIP file * @throws IllegalStateException if the ZIP file has been closed * @since 1.8 */ public Stream stream() { synchronized (this) { ensureOpen(); return StreamSupport.stream(new EntrySpliterator<>(0, res.zsrc.total, pos -> getZipEntry(getEntryName(pos), pos)), false); } } private String getEntryName(int pos) { byte[] cen = res.zsrc.cen; int nlen = CENNAM(cen, pos); ZipCoder zc = zipCoderFor(cen, pos, zipCoder); return zc.toString(cen, pos + CENHDR, nlen); } /* * Returns an ordered {@code Stream} over the ZIP file entry names. * * Entry names appear in the {@code Stream} in the order they appear in * the central directory of the ZIP file. * * @return an ordered {@code Stream} of entry names in this ZIP file * @throws IllegalStateException if the ZIP file has been closed * @since 10 */ private Stream entryNameStream() { synchronized (this) { ensureOpen(); return StreamSupport.stream( new EntrySpliterator<>(0, res.zsrc.total, this::getEntryName), false); } } /* * Returns an ordered {@code Stream} over the ZIP file entries. * * Entries appear in the {@code Stream} in the order they appear in * the central directory of the jar file. * * @return an ordered {@code Stream} of entries in this ZIP file * @throws IllegalStateException if the ZIP file has been closed * @since 10 */ private Stream jarStream() { synchronized (this) { ensureOpen(); return StreamSupport.stream(new EntrySpliterator<>(0, res.zsrc.total, pos -> (JarEntry)getZipEntry(getEntryName(pos), pos)), false); } } private String lastEntryName; private int lastEntryPos; /* Check ensureOpen() before invoking this method */ private ZipEntry getZipEntry(String name, int pos) { byte[] cen = res.zsrc.cen; ZipEntry e = this instanceof JarFile jarFile ? Source.JUJA.entryFor(jarFile, name) : new ZipEntry(name); e.flag = CENFLG(cen, pos); e.xdostime = CENTIM(cen, pos); e.crc = CENCRC(cen, pos); e.size = CENLEN(cen, pos); e.csize = CENSIZ(cen, pos); e.method = CENHOW(cen, pos); if (CENVEM_FA(cen, pos) == FILE_ATTRIBUTES_UNIX) { // read all bits in this field, including sym link attributes e.externalFileAttributes = CENATX_PERMS(cen, pos) & 0xFFFF; } e.locOffset = CENOFF(cen, pos); int nlen = CENNAM(cen, pos); int elen = CENEXT(cen, pos); int clen = CENCOM(cen, pos); if (elen != 0) { int start = pos + CENHDR + nlen; e.setExtra0(Arrays.copyOfRange(cen, start, start + elen), true, false); } if (clen != 0) { int start = pos + CENHDR + nlen + elen; ZipCoder zc = zipCoderFor(cen, pos, zipCoder); e.comment = zc.toString(cen, start, clen); } lastEntryName = e.name; lastEntryPos = pos; return e; } /** * Returns the number of entries in the ZIP file. * * @return the number of entries in the ZIP file * @throws IllegalStateException if the ZIP file has been closed */ public int size() { synchronized (this) { ensureOpen(); return res.zsrc.total; } } private static class CleanableResource implements Runnable { // The outstanding inputstreams that need to be closed final Set istreams; // List of cached Inflater objects for decompression Deque inflaterCache; final Cleanable cleanable; Source zsrc; CleanableResource(ZipFile zf, ZipCoder zipCoder, File file, int mode) throws IOException { assert zipCoder != null : "null ZipCoder"; this.cleanable = CleanerFactory.cleaner().register(zf, this); this.istreams = Collections.newSetFromMap(new WeakHashMap<>()); this.inflaterCache = new ArrayDeque<>(); this.zsrc = Source.get(file, (mode & OPEN_DELETE) != 0, zipCoder); } void clean() { cleanable.clean(); } /* * Gets an inflater from the list of available inflaters or allocates * a new one. */ Inflater getInflater() { Inflater inf; synchronized (inflaterCache) { if ((inf = inflaterCache.poll()) != null) { return inf; } } return new Inflater(true); } /* * Releases the specified inflater to the list of available inflaters. */ void releaseInflater(Inflater inf) { Deque inflaters = this.inflaterCache; if (inflaters != null) { synchronized (inflaters) { // double checked! if (inflaters == this.inflaterCache) { inf.reset(); inflaters.add(inf); return; } } } // inflaters cache already closed - just end it. inf.end(); } public void run() { IOException ioe = null; // Release cached inflaters and close the cache first Deque inflaters = this.inflaterCache; if (inflaters != null) { synchronized (inflaters) { // no need to double-check as only one thread gets a // chance to execute run() (Cleaner guarantee)... Inflater inf; while ((inf = inflaters.poll()) != null) { inf.end(); } // close inflaters cache this.inflaterCache = null; } } // Close streams, release their inflaters if (istreams != null) { synchronized (istreams) { if (!istreams.isEmpty()) { InputStream[] copy = istreams.toArray(new InputStream[0]); istreams.clear(); for (InputStream is : copy) { try { is.close(); } catch (IOException e) { if (ioe == null) ioe = e; else ioe.addSuppressed(e); } } } } } // Release ZIP src if (zsrc != null) { synchronized (zsrc) { try { Source.release(zsrc); zsrc = null; } catch (IOException e) { if (ioe == null) ioe = e; else ioe.addSuppressed(e); } } } if (ioe != null) { throw new UncheckedIOException(ioe); } } } /** * Closes the ZIP file. * *

Closing this ZIP file will close all of the input streams * previously returned by invocations of the {@link #getInputStream * getInputStream} method. * * @throws IOException if an I/O error has occurred */ public void close() throws IOException { if (closeRequested) { return; } closeRequested = true; synchronized (this) { // Close streams, release their inflaters, release cached inflaters // and release ZIP source try { res.clean(); } catch (UncheckedIOException ioe) { throw ioe.getCause(); } } } private void ensureOpen() { if (closeRequested) { throw new IllegalStateException("zip file closed"); } if (res.zsrc == null) { throw new IllegalStateException("The object is not initialized."); } } private void ensureOpenOrZipException() throws IOException { if (closeRequested) { throw new ZipException("ZipFile closed"); } } /* * Inner class implementing the input stream used to read a * (possibly compressed) ZIP file entry. */ private class ZipFileInputStream extends InputStream { private volatile boolean closeRequested; private long pos; // current position within entry data private long startingPos; // Start position for the entry data protected long rem; // number of remaining bytes within entry protected long size; // uncompressed size of this entry /** * @param cen the ZIP's CEN * @param cenpos the entry's offset within the CEN * @param locOffset the entry's LOC offset in the ZIP stream. If -1 is passed * then the LOC offset for the entry will be read from the * entry's central header */ ZipFileInputStream(byte[] cen, int cenpos, long locOffset) { rem = CENSIZ(cen, cenpos); size = CENLEN(cen, cenpos); if (locOffset == -1) { pos = CENOFF(cen, cenpos); } else { pos = locOffset; } // ZIP64 if (rem == ZIP64_MAGICVAL || size == ZIP64_MAGICVAL || pos == ZIP64_MAGICVAL) { checkZIP64(cen, cenpos); } // negative for lazy initialization, see getDataOffset(); pos = - (pos + ZipFile.this.res.zsrc.locpos); } private void checkZIP64(byte[] cen, int cenpos) { int off = cenpos + CENHDR + CENNAM(cen, cenpos); int end = off + CENEXT(cen, cenpos); while (off + 4 < end) { int tag = get16(cen, off); int sz = get16(cen, off + 2); off += 4; if (off + sz > end) // invalid data break; if (tag == EXTID_ZIP64) { if (size == ZIP64_MAGICVAL) { if (sz < 8 || (off + 8) > end) break; size = get64S(cen, off); sz -= 8; off += 8; } if (rem == ZIP64_MAGICVAL) { if (sz < 8 || (off + 8) > end) break; rem = get64S(cen, off); sz -= 8; off += 8; } if (pos == ZIP64_MAGICVAL) { if (sz < 8 || (off + 8) > end) break; pos = get64S(cen, off); sz -= 8; off += 8; } break; } off += sz; } } /* * The ZIP file spec explicitly allows the LOC extra data size to * be different from the CEN extra data size. Since we cannot trust * the CEN extra data size, we need to read the LOC to determine * the entry data offset. */ private long initDataOffset() throws IOException { if (pos <= 0) { byte[] loc = new byte[LOCHDR]; pos = -pos; int len = ZipFile.this.res.zsrc.readFullyAt(loc, 0, loc.length, pos); if (len != LOCHDR) { throw new ZipException("ZipFile error reading zip file"); } if (LOCSIG(loc) != LOCSIG) { throw new ZipException("ZipFile invalid LOC header (bad signature)"); } pos += LOCHDR + LOCNAM(loc) + LOCEXT(loc); startingPos = pos; // Save starting position for the entry } return pos; } public int read(byte[] b, int off, int len) throws IOException { synchronized (ZipFile.this) { ensureOpenOrZipException(); initDataOffset(); if (rem == 0) { return -1; } if (len > rem) { len = (int) rem; } if (len <= 0) { return 0; } len = ZipFile.this.res.zsrc.readAt(b, off, len, pos); if (len > 0) { pos += len; rem -= len; } } if (rem == 0) { close(); } return len; } public int read() throws IOException { byte[] b = new byte[1]; if (read(b, 0, 1) == 1) { return b[0] & 0xff; } else { return -1; } } public long skip(long n) throws IOException { synchronized (ZipFile.this) { initDataOffset(); long newPos = pos + n; if (n > 0) { // If we overflowed adding the skip value or are moving // past EOF, set the skip value to number of bytes remaining // to reach EOF if (newPos < 0 || n > rem) { n = rem; } } else if (newPos < startingPos) { // Tried to position before BOF so set position to the // BOF and return the number of bytes we moved backwards // to reach BOF n = startingPos - pos; } pos += n; rem -= n; } if (rem == 0) { close(); } return n; } public int available() { return rem > Integer.MAX_VALUE ? Integer.MAX_VALUE : (int) rem; } public long size() { return size; } public void close() { if (closeRequested) { return; } closeRequested = true; rem = 0; synchronized (res.istreams) { res.istreams.remove(this); } } } /** * Returns the names of the META-INF/MANIFEST.MF entry - if exists - * and any signature-related files under META-INF. This method is used in * JarFile, via SharedSecrets, as an optimization. */ private List getManifestAndSignatureRelatedFiles() { synchronized (this) { ensureOpen(); Source zsrc = res.zsrc; int[] metanames = zsrc.signatureMetaNames; List files = null; if (zsrc.manifestPos >= 0) { files = new ArrayList<>(); files.add(getEntryName(zsrc.manifestPos)); } if (metanames != null) { if (files == null) { files = new ArrayList<>(); } for (int i = 0; i < metanames.length; i++) { files.add(getEntryName(metanames[i])); } } return files == null ? List.of() : files; } } /** * Returns the number of the META-INF/MANIFEST.MF entries, case insensitive. * When this number is greater than 1, JarVerifier will treat a file as * unsigned. */ private int getManifestNum() { synchronized (this) { ensureOpen(); return res.zsrc.manifestNum; } } /** * Returns the name of the META-INF/MANIFEST.MF entry, ignoring * case. If {@code onlyIfSignatureRelatedFiles} is true, we only return the * manifest if there is also at least one signature-related file. * This method is used in JarFile, via SharedSecrets, as an optimization * when looking up the manifest file. */ private String getManifestName(boolean onlyIfSignatureRelatedFiles) { synchronized (this) { ensureOpen(); Source zsrc = res.zsrc; int pos = zsrc.manifestPos; if (pos >= 0 && (!onlyIfSignatureRelatedFiles || zsrc.signatureMetaNames != null)) { return getEntryName(pos); } } return null; } /** * Returns a BitSet where the set bits represents versions found for * the given entry name. For performance reasons, the name is looked * up only by hashcode, meaning the result is an over-approximation. * This method is used in JarFile, via SharedSecrets, as an * optimization when looking up potentially versioned entries. * Returns an empty BitSet if no versioned entries exist for this * name. */ private BitSet getMetaInfVersions(String name) { synchronized (this) { ensureOpen(); return res.zsrc.metaVersions.getOrDefault(ZipCoder.hash(name), EMPTY_VERSIONS); } } private static final BitSet EMPTY_VERSIONS = new BitSet(); /** * Returns the value of the System property which indicates whether the * Extra ZIP64 validation should be disabled. */ static boolean getDisableZip64ExtraFieldValidation() { boolean result; String value = System.getProperty("jdk.util.zip.disableZip64ExtraFieldValidation"); if (value == null) { result = false; } else { result = value.isEmpty() || value.equalsIgnoreCase("true"); } return result; } static { SharedSecrets.setJavaUtilZipFileAccess( new JavaUtilZipFileAccess() { @Override public boolean startsWithLocHeader(ZipFile zip) { return zip.res.zsrc.startsWithLoc; } @Override public List getManifestAndSignatureRelatedFiles(JarFile jar) { return ((ZipFile)jar).getManifestAndSignatureRelatedFiles(); } @Override public int getManifestNum(JarFile jar) { return ((ZipFile)jar).getManifestNum(); } @Override public String getManifestName(JarFile jar, boolean onlyIfHasSignatureRelatedFiles) { return ((ZipFile)jar).getManifestName(onlyIfHasSignatureRelatedFiles); } @Override public BitSet getMetaInfVersions(JarFile jar, String name) { return ((ZipFile)jar).getMetaInfVersions(name); } @Override public Enumeration entries(ZipFile zip) { return zip.jarEntries(); } @Override public Stream stream(ZipFile zip) { return zip.jarStream(); } @Override public Stream entryNameStream(ZipFile zip) { return zip.entryNameStream(); } @Override public int getExternalFileAttributes(ZipEntry ze) { return ze.externalFileAttributes; } @Override public void setExternalFileAttributes(ZipEntry ze, int externalFileAttributes) { ze.externalFileAttributes = externalFileAttributes; } } ); } // Represents the resolved name and position of a CEN record static record EntryPos(String name, int pos) {} // Implementation note: This class is thread safe. private static class Source { // While this is only used from ZipFile, defining it there would cause // a bootstrap cycle that would leave this initialized as null private static final JavaUtilJarAccess JUJA = SharedSecrets.javaUtilJarAccess(); // "META-INF/".length() private static final int META_INF_LEN = 9; // "META-INF/versions//".length() private static final int META_INF_VERSIONS_LEN = 19; // CEN size is limited to the maximum array size in the JDK private static final int MAX_CEN_SIZE = ArraysSupport.SOFT_MAX_ARRAY_LENGTH; private final Key key; // the key in files private int refs = 1; private RandomAccessFile zfile; // zfile of the underlying ZIP file private byte[] cen; // CEN private long locpos; // position of first LOC header (usually 0) private byte[] comment; // ZIP file comment // list of meta entries in META-INF dir private int manifestPos = -1; // position of the META-INF/MANIFEST.MF, if exists private int manifestNum = 0; // number of META-INF/MANIFEST.MF, case insensitive private int[] signatureMetaNames; // positions of signature related entries, if such exist private Map metaVersions; // Versions found in META-INF/versions/, by entry name hash private final boolean startsWithLoc; // true, if ZIP file starts with LOCSIG (usually true) // A Hashmap for all entries. // // A cen entry of Zip/JAR file. As we have one for every entry in every active Zip/JAR, // We might have a lot of these in a typical system. In order to save space we don't // keep the name in memory, but merely remember a 32 bit {@code hash} value of the // entry name and its offset {@code pos} in the central directory hdeader. // // private static class Entry { // int hash; // 32 bit hashcode on name // int next; // hash chain: index into entries // int pos; // Offset of central directory file header // } // private Entry[] entries; // array of hashed cen entry // // To reduce the total size of entries further, we use a int[] here to store 3 "int" // {@code hash}, {@code next} and {@code pos} for each entry. The entry can then be // referred by their index of their positions in the {@code entries}. // private int[] entries; // array of hashed cen entry // Checks the entry at offset pos in the CEN, calculates the Entry values as per above, // then returns the length of the entry name. Uses the given zipCoder for processing the // entry name and the entry comment (if any). private int checkAndAddEntry(final int pos, final int index, final ZipCoder zipCoder) throws ZipException { byte[] cen = this.cen; if (CENSIG(cen, pos) != CENSIG) { zerror("invalid CEN header (bad signature)"); } int method = CENHOW(cen, pos); int flag = CENFLG(cen, pos); if ((flag & 1) != 0) { zerror("invalid CEN header (encrypted entry)"); } if (method != STORED && method != DEFLATED) { zerror("invalid CEN header (bad compression method: " + method + ")"); } int entryPos = pos + CENHDR; int nlen = CENNAM(cen, pos); int elen = CENEXT(cen, pos); int clen = CENCOM(cen, pos); int headerSize = CENHDR + nlen + clen + elen; // CEN header size + name length + comment length + extra length // should not exceed 65,535 bytes per the PKWare APP.NOTE // 4.4.10, 4.4.11, & 4.4.12. Also check that current CEN header will // not exceed the length of the CEN array if (headerSize > 0xFFFF || pos > cen.length - headerSize) { zerror("invalid CEN header (bad header size)"); } if (elen > 0 && !DISABLE_ZIP64_EXTRA_VALIDATION) { checkExtraFields(pos, entryPos + nlen, elen); } else if (elen == 0 && (CENSIZ(cen, pos) == ZIP64_MAGICVAL || CENLEN(cen, pos) == ZIP64_MAGICVAL || CENOFF(cen, pos) == ZIP64_MAGICVAL || CENDSK(cen, pos) == ZIP64_MAGICCOUNT)) { zerror("Invalid CEN header (invalid zip64 extra len size)"); } try { int hash = zipCoder.checkedHash(cen, entryPos, nlen); int hsh = (hash & 0x7fffffff) % tablelen; int next = table[hsh]; table[hsh] = index; // Record the CEN offset and the name hash in our hash cell. entries[index] = hash; entries[index + 1] = next; entries[index + 2] = pos; // Validate comment if it exists. // If the bytes representing the comment cannot be converted to // a String via zcp.toString, an Exception will be thrown if (clen > 0) { int start = entryPos + nlen + elen; zipCoder.toString(cen, start, clen); } } catch (Exception e) { zerror("invalid CEN header (bad entry name or comment)"); } return nlen; } /** * Validate the Zip64 Extra block fields * @param cenPos The CEN offset for the current Entry * @param startingOffset Extra Field starting offset within the CEN * @param extraFieldLen Length of this Extra field * @throws ZipException If an error occurs validating the Zip64 Extra * block */ private void checkExtraFields(int cenPos, int startingOffset, int extraFieldLen) throws ZipException { // Extra field Length cannot exceed 65,535 bytes per the PKWare // APP.note 4.4.11 if (extraFieldLen > 0xFFFF) { zerror("invalid extra field length"); } // CEN Offset where this Extra field ends int extraEndOffset = startingOffset + extraFieldLen; if (extraEndOffset > cen.length) { zerror("Invalid CEN header (extra data field size too long)"); } int currentOffset = startingOffset; // Walk through each Extra Header. Each Extra Header Must consist of: // Header ID - 2 bytes // Data Size - 2 bytes: while (currentOffset + Integer.BYTES <= extraEndOffset) { int tag = get16(cen, currentOffset); currentOffset += Short.BYTES; int tagBlockSize = get16(cen, currentOffset); currentOffset += Short.BYTES; long tagBlockEndingOffset = (long)currentOffset + tagBlockSize; // The ending offset for this tag block should not go past the // offset for the end of the extra field if (tagBlockEndingOffset > extraEndOffset) { zerror(String.format( "Invalid CEN header (invalid extra data field size for " + "tag: 0x%04x at %d)", tag, cenPos)); } if (tag == EXTID_ZIP64) { // Get the compressed size; long csize = CENSIZ(cen, cenPos); // Get the uncompressed size; long size = CENLEN(cen, cenPos); // Get the LOC offset long locoff = CENOFF(cen, cenPos); // Get the Disk Number int diskNo = CENDSK(cen, cenPos); checkZip64ExtraFieldValues(currentOffset, tagBlockSize, csize, size, locoff, diskNo); } currentOffset += tagBlockSize; } } /** * Validate the Zip64 Extended Information Extra Field (0x0001) block * size; that the uncompressed size, compressed size field and LOC * offset fields are not negative. Also make sure the field exists if * the CEN header field is set to 0xFFFFFFFF. * Note: As we do not use the Starting disk number field, * we will not validate its value * @param off the starting offset for the Zip64 field value * @param blockSize the size of the Zip64 Extended Extra Field * @param csize CEN header compressed size value * @param size CEN header uncompressed size value * @param locoff CEN header LOC offset * @param diskNo CEN header Disk number * @throws ZipException if an error occurs */ private void checkZip64ExtraFieldValues(int off, int blockSize, long csize, long size, long locoff, int diskNo) throws ZipException { byte[] cen = this.cen; // if EXTID_ZIP64 blocksize == 0, which may occur with some older // versions of Apache Ant and Commons Compress, validate csize and size // to make sure neither field == ZIP64_MAGICVAL if (blockSize == 0) { if (csize == ZIP64_MAGICVAL || size == ZIP64_MAGICVAL || locoff == ZIP64_MAGICVAL || diskNo == ZIP64_MAGICCOUNT) { zerror("Invalid CEN header (invalid zip64 extra data field size)"); } // Only validate the EXTID_ZIP64 data if the block size > 0 return; } // Validate the Zip64 Extended Information Extra Field (0x0001) // length. if (!isZip64ExtBlockSizeValid(blockSize, csize, size, locoff, diskNo)) { zerror("Invalid CEN header (invalid zip64 extra data field size)"); } // Check the uncompressed size is not negative if (size == ZIP64_MAGICVAL) { if ( blockSize >= Long.BYTES) { if (get64S(cen, off) < 0) { zerror("Invalid zip64 extra block size value"); } off += Long.BYTES; blockSize -= Long.BYTES; } else { zerror("Invalid Zip64 extra block, missing size"); } } // Check the compressed size is not negative if (csize == ZIP64_MAGICVAL) { if (blockSize >= Long.BYTES) { if (get64S(cen, off) < 0) { zerror("Invalid zip64 extra block compressed size value"); } off += Long.BYTES; blockSize -= Long.BYTES; } else { zerror("Invalid Zip64 extra block, missing compressed size"); } } // Check the LOC offset is not negative if (locoff == ZIP64_MAGICVAL) { if (blockSize >= Long.BYTES) { if (get64S(cen, off) < 0) { zerror("Invalid zip64 extra block LOC OFFSET value"); } // Note: We do not need to adjust the following fields as // this is the last field we are leveraging // off += Long.BYTES; // blockSize -= Long.BYTES; } else { zerror("Invalid Zip64 extra block, missing LOC offset value"); } } } /** * Validate the size and contents of a Zip64 extended information field * The order of the Zip64 fields is fixed, but the fields MUST * only appear if the corresponding LOC or CEN field is set to 0xFFFF: * or 0xFFFFFFFF: * Uncompressed Size - 8 bytes * Compressed Size - 8 bytes * LOC Header offset - 8 bytes * Disk Start Number - 4 bytes * See PKWare APP.Note Section 4.5.3 for more details * * @param blockSize the Zip64 Extended Information Extra Field size * @param csize CEN header compressed size value * @param size CEN header uncompressed size value * @param locoff CEN header LOC offset * @param diskNo CEN header Disk number * @return true if the extra block size is valid; false otherwise */ private static boolean isZip64ExtBlockSizeValid(int blockSize, long csize, long size, long locoff, int diskNo) { int expectedBlockSize = (csize == ZIP64_MAGICVAL ? Long.BYTES : 0) + (size == ZIP64_MAGICVAL ? Long.BYTES : 0) + (locoff == ZIP64_MAGICVAL ? Long.BYTES : 0) + (diskNo == ZIP64_MAGICCOUNT ? Integer.BYTES : 0); return expectedBlockSize == blockSize; } private int getEntryHash(int index) { return entries[index]; } private int getEntryNext(int index) { return entries[index + 1]; } private int getEntryPos(int index) { return entries[index + 2]; } private static final int ZIP_ENDCHAIN = -1; private int total; // total number of entries private int[] table; // Hash chain heads: indexes into entries private int tablelen; // number of hash heads /** * A class representing a key to the Source of a ZipFile. * The Key is composed of: * - The BasicFileAttributes.fileKey() if available, or the Path of the ZIP file * if the fileKey() is not available. * - The ZIP file's last modified time (to allow for cases * where a ZIP file is re-opened after it has been modified). * - The Charset that was provided when constructing the ZipFile instance. * The unique combination of these components identifies a Source of a ZipFile. */ private static class Key { private final BasicFileAttributes attrs; private final File file; // the Charset that was provided when constructing the ZipFile instance private final Charset charset; /** * Constructs a {@code Key} to a {@code Source} of a {@code ZipFile} * * @param file the ZIP file * @param attrs the attributes of the ZIP file * @param charset the Charset that was provided when constructing the ZipFile instance */ public Key(File file, BasicFileAttributes attrs, Charset charset) { this.attrs = attrs; this.file = file; this.charset = charset; } @Override public int hashCode() { long t = charset.hashCode(); t += attrs.lastModifiedTime().toMillis(); Object fk = attrs.fileKey(); return Long.hashCode(t) + (fk != null ? fk.hashCode() : file.hashCode()); } @Override public boolean equals(Object obj) { if (obj instanceof Key key) { if (!charset.equals(key.charset)) { return false; } if (!attrs.lastModifiedTime().equals(key.attrs.lastModifiedTime())) { return false; } Object fk = attrs.fileKey(); if (fk != null) { return fk.equals(key.attrs.fileKey()); } else { return file.equals(key.file); } } return false; } } private static final HashMap files = new HashMap<>(); /** * Use the platform's default file system to avoid * issues when the VM is configured to use a custom file system provider. */ private static final java.nio.file.FileSystem builtInFS = DefaultFileSystemProvider.theFileSystem(); static Source get(File file, boolean toDelete, ZipCoder zipCoder) throws IOException { final Key key; try { key = new Key(file, Files.readAttributes(builtInFS.getPath(file.getPath()), BasicFileAttributes.class), zipCoder.charset()); } catch (InvalidPathException ipe) { throw new IOException(ipe); } Source src; synchronized (files) { src = files.get(key); if (src != null) { src.refs++; return src; } } src = new Source(key, toDelete, zipCoder); synchronized (files) { Source prev = files.putIfAbsent(key, src); if (prev != null) { // someone else put in first src.close(); // close the newly created one prev.refs++; return prev; } return src; } } static void release(Source src) throws IOException { synchronized (files) { if (src != null && --src.refs == 0) { files.remove(src.key); src.close(); } } } private Source(Key key, boolean toDelete, ZipCoder zipCoder) throws IOException { this.key = key; if (toDelete) { if (OperatingSystem.isWindows()) { this.zfile = SharedSecrets.getJavaIORandomAccessFileAccess() .openAndDelete(key.file, "r"); } else { this.zfile = new RandomAccessFile(key.file, "r"); key.file.delete(); } } else { this.zfile = new RandomAccessFile(key.file, "r"); } try { initCEN(-1, zipCoder); byte[] buf = new byte[4]; readFullyAt(buf, 0, 4, 0); this.startsWithLoc = (LOCSIG(buf) == LOCSIG); } catch (IOException x) { try { this.zfile.close(); } catch (IOException xx) {} throw x; } } private void close() throws IOException { zfile.close(); zfile = null; cen = null; entries = null; table = null; manifestPos = -1; manifestNum = 0; signatureMetaNames = null; metaVersions = null; } private static final int BUF_SIZE = 8192; private final int readFullyAt(byte[] buf, int off, int len, long pos) throws IOException { synchronized (zfile) { zfile.seek(pos); int N = len; while (N > 0) { int n = Math.min(BUF_SIZE, N); zfile.readFully(buf, off, n); off += n; N -= n; } return len; } } private final int readAt(byte[] buf, int off, int len, long pos) throws IOException { synchronized (zfile) { zfile.seek(pos); return zfile.read(buf, off, len); } } private static class End { long centot; // 4 bytes long cenlen; // 4 bytes long cenoff; // 4 bytes long endpos; // 4 bytes } /* * Searches for end of central directory (END) header. The contents of * the END header will be read and placed in endbuf. Returns the file * position of the END header, otherwise returns -1 if the END header * was not found or an error occurred. */ private End findEND() throws IOException { long ziplen = zfile.length(); if (ziplen <= 0) zerror("zip file is empty"); End end = new End(); byte[] buf = new byte[READBLOCKSZ]; long minHDR = (ziplen - END_MAXLEN) > 0 ? ziplen - END_MAXLEN : 0; long minPos = minHDR - (buf.length - ENDHDR); for (long pos = ziplen - buf.length; pos >= minPos; pos -= (buf.length - ENDHDR)) { int off = 0; if (pos < 0) { // Pretend there are some NUL bytes before start of file off = (int)-pos; Arrays.fill(buf, 0, off, (byte)0); } int len = buf.length - off; if (readFullyAt(buf, off, len, pos + off) != len ) { zerror("zip END header not found"); } // Now scan the block backwards for END header signature for (int i = buf.length - ENDHDR; i >= 0; i--) { if (get32(buf, i) == ENDSIG) { // Found ENDSIG header byte[] endbuf = Arrays.copyOfRange(buf, i, i + ENDHDR); end.centot = ENDTOT(endbuf); end.cenlen = ENDSIZ(endbuf); end.cenoff = ENDOFF(endbuf); end.endpos = pos + i; int comlen = ENDCOM(endbuf); if (end.endpos + ENDHDR + comlen != ziplen) { // ENDSIG matched, however the size of file comment in it does // not match the real size. One "common" cause for this problem // is some "extra" bytes are padded at the end of the zipfile. // Let's do some extra verification, we don't care about the // performance in this situation. byte[] sbuf = new byte[4]; long cenpos = end.endpos - end.cenlen; long locpos = cenpos - end.cenoff; if (cenpos < 0 || locpos < 0 || readFullyAt(sbuf, 0, sbuf.length, cenpos) != 4 || get32(sbuf, 0) != CENSIG || readFullyAt(sbuf, 0, sbuf.length, locpos) != 4 || get32(sbuf, 0) != LOCSIG) { continue; } } if (comlen > 0) { // this zip file has comlen comment = new byte[comlen]; if (readFullyAt(comment, 0, comlen, end.endpos + ENDHDR) != comlen) { zerror("zip comment read failed"); } } // must check for a ZIP64 end record; it is always permitted to be present try { byte[] loc64 = new byte[ZIP64_LOCHDR]; if (end.endpos < ZIP64_LOCHDR || readFullyAt(loc64, 0, loc64.length, end.endpos - ZIP64_LOCHDR) != loc64.length || get32(loc64, 0) != ZIP64_LOCSIG) { return end; } long end64pos = ZIP64_LOCOFF(loc64); byte[] end64buf = new byte[ZIP64_ENDHDR]; if (readFullyAt(end64buf, 0, end64buf.length, end64pos) != end64buf.length || get32(end64buf, 0) != ZIP64_ENDSIG) { return end; } // end64 candidate found, long cenlen64 = ZIP64_ENDSIZ(end64buf); long cenoff64 = ZIP64_ENDOFF(end64buf); long centot64 = ZIP64_ENDTOT(end64buf); // double-check if (cenlen64 != end.cenlen && end.cenlen != ZIP64_MAGICVAL || cenoff64 != end.cenoff && end.cenoff != ZIP64_MAGICVAL || centot64 != end.centot && end.centot != ZIP64_MAGICCOUNT) { return end; } // to use the end64 values end.cenlen = cenlen64; end.cenoff = cenoff64; end.centot = centot64; end.endpos = end64pos; } catch (IOException x) {} // no ZIP64 loc/end return end; } } } throw new ZipException("zip END header not found"); } // Reads ZIP file central directory. private void initCEN(final int knownTotal, final ZipCoder zipCoder) throws IOException { // Prefer locals for better performance during startup byte[] cen; if (knownTotal == -1) { End end = findEND(); if (end.endpos == 0) { locpos = 0; total = 0; entries = new int[0]; this.cen = null; return; // only END header present } if (end.cenlen > end.endpos) zerror("invalid END header (bad central directory size)"); long cenpos = end.endpos - end.cenlen; // position of CEN table // Get position of first local file (LOC) header, taking into // account that there may be a stub prefixed to the ZIP file. locpos = cenpos - end.cenoff; if (locpos < 0) { zerror("invalid END header (bad central directory offset)"); } // read in the CEN if (end.cenlen > MAX_CEN_SIZE) { zerror("invalid END header (central directory size too large)"); } if (end.centot < 0 || end.centot > end.cenlen / CENHDR) { zerror("invalid END header (total entries count too large)"); } cen = this.cen = new byte[(int)end.cenlen]; if (readFullyAt(cen, 0, cen.length, cenpos) != end.cenlen) { zerror("read CEN tables failed"); } this.total = Math.toIntExact(end.centot); } else { cen = this.cen; this.total = knownTotal; } // hash table for entries int entriesLength = this.total * 3; entries = new int[entriesLength]; int tablelen = ((total/2) | 1); // Odd -> fewer collisions this.tablelen = tablelen; int[] table = new int[tablelen]; this.table = table; Arrays.fill(table, ZIP_ENDCHAIN); // list for all meta entries ArrayList signatureNames = null; // Iterate through the entries in the central directory int idx = 0; // Index into the entries array int pos = 0; manifestNum = 0; int limit = cen.length - CENHDR; while (pos <= limit) { if (idx >= entriesLength) { // This will only happen if the ZIP file has an incorrect // ENDTOT field, which usually means it contains more than // 65535 entries. initCEN(countCENHeaders(cen), zipCoder); return; } int entryPos = pos + CENHDR; // the ZipCoder for any non-UTF8 entries final ZipCoder entryZipCoder = zipCoderFor(cen, pos, zipCoder); // Checks the entry and adds values to entries[idx ... idx+2] int nlen = checkAndAddEntry(pos, idx, entryZipCoder); idx += 3; // Adds name to metanames. if (isMetaName(cen, entryPos, nlen)) { // nlen is at least META_INF_LENGTH if (isManifestName(entryPos + META_INF_LEN, nlen - META_INF_LEN)) { manifestPos = pos; manifestNum++; } else { if (isSignatureRelated(entryPos, nlen)) { if (signatureNames == null) signatureNames = new ArrayList<>(4); signatureNames.add(pos); } // If this is a versioned entry, parse the version // and store it for later. This optimizes lookup // performance in multi-release jar files int version = getMetaVersion(entryPos + META_INF_LEN, nlen - META_INF_LEN); if (version > 0) { try { // Compute hash code of name from "META-INF/versions/{version)/{name} int prefixLen = META_INF_VERSIONS_LEN + DecimalDigits.stringSize(version); int hashCode = entryZipCoder.checkedHash(cen, entryPos + prefixLen, nlen - prefixLen); // Register version for this hash code if (metaVersions == null) metaVersions = new HashMap<>(); metaVersions.computeIfAbsent(hashCode, _ -> new BitSet()).set(version); } catch (Exception e) { zerror("invalid CEN header (bad entry name or comment)"); } } } } // skip to the start of the next entry pos = nextEntryPos(pos, entryPos, nlen); } // Adjust the total entries this.total = idx / 3; if (signatureNames != null) { int len = signatureNames.size(); signatureMetaNames = new int[len]; for (int j = 0; j < len; j++) { signatureMetaNames[j] = signatureNames.get(j); } } if (metaVersions == null) { metaVersions = Map.of(); } if (pos != cen.length) { zerror("invalid CEN header (bad header size)"); } } private int nextEntryPos(int pos, int entryPos, int nlen) { return entryPos + nlen + CENCOM(cen, pos) + CENEXT(cen, pos); } private static void zerror(String msg) throws ZipException { throw new ZipException(msg); } /* * Returns the resolved name and position of the ZIP cen entry corresponding * to the specified entry name, or {@code null} if not found. */ private EntryPos getEntryPos(final String name, final boolean addSlash, final ZipCoder zipCoder) { if (total == 0) { return null; } int hsh = ZipCoder.hash(name); int idx = table[(hsh & 0x7fffffff) % tablelen]; int dirPos = -1; // Position of secondary match "name/" // Search down the target hash chain for a entry whose // 32 bit hash matches the hashed name. while (idx != ZIP_ENDCHAIN) { if (getEntryHash(idx) == hsh) { int pos = getEntryPos(idx); int noff = pos + CENHDR; int nlen = CENNAM(cen, pos); final ZipCoder zc = zipCoderFor(cen, pos, zipCoder); // Compare the lookup name with the name encoded in the CEN switch (zc.compare(name, cen, noff, nlen, addSlash)) { case ZipCoder.EXACT_MATCH: // We found an exact match for "name" return new EntryPos(name, pos); case ZipCoder.DIRECTORY_MATCH: // We found the directory "name/" // Track its position, then continue the search for "name" dirPos = pos; break; case ZipCoder.NO_MATCH: // Hash collision, continue searching } } idx = getEntryNext(idx); } // Reaching this point means we did not find "name". // Return the position of "name/" if we found it if (dirPos != -1) { return new EntryPos(name + "/", dirPos); } // No entry found return null; } /** * Returns true if the bytes represent a non-directory name * beginning with "META-INF/", disregarding ASCII case. */ private static boolean isMetaName(byte[] name, int off, int len) { // Use the "oldest ASCII trick in the book": // ch | 0x20 == Character.toLowerCase(ch) return len > META_INF_LEN // "META-INF/".length() && name[off + len - 1] != '/' // non-directory && (name[off++] | 0x20) == 'm' && (name[off++] | 0x20) == 'e' && (name[off++] | 0x20) == 't' && (name[off++] | 0x20) == 'a' && (name[off++] ) == '-' && (name[off++] | 0x20) == 'i' && (name[off++] | 0x20) == 'n' && (name[off++] | 0x20) == 'f' && (name[off] ) == '/'; } /* * Check if the bytes represents a name equals to MANIFEST.MF */ private boolean isManifestName(int off, int len) { byte[] name = cen; return (len == 11 // "MANIFEST.MF".length() && (name[off++] | 0x20) == 'm' && (name[off++] | 0x20) == 'a' && (name[off++] | 0x20) == 'n' && (name[off++] | 0x20) == 'i' && (name[off++] | 0x20) == 'f' && (name[off++] | 0x20) == 'e' && (name[off++] | 0x20) == 's' && (name[off++] | 0x20) == 't' && (name[off++] ) == '.' && (name[off++] | 0x20) == 'm' && (name[off] | 0x20) == 'f'); } private boolean isSignatureRelated(int off, int len) { // Only called when isMetaName(name, off, len) is true, which means // len is at least META_INF_LENGTH // assert isMetaName(name, off, len) boolean signatureRelated = false; byte[] name = cen; if (name[off + len - 3] == '.') { // Check if entry ends with .EC and .SF int b1 = name[off + len - 2] | 0x20; int b2 = name[off + len - 1] | 0x20; if ((b1 == 'e' && b2 == 'c') || (b1 == 's' && b2 == 'f')) { signatureRelated = true; } } else if (name[off + len - 4] == '.') { // Check if entry ends with .DSA and .RSA int b1 = name[off + len - 3] | 0x20; int b2 = name[off + len - 2] | 0x20; int b3 = name[off + len - 1] | 0x20; if ((b1 == 'r' || b1 == 'd') && b2 == 's' && b3 == 'a') { signatureRelated = true; } } // Above logic must match SignatureFileVerifier.isBlockOrSF assert(signatureRelated == SignatureFileVerifier .isBlockOrSF(new String(name, off, len, UTF_8.INSTANCE) .toUpperCase(Locale.ENGLISH))); // Signature related files must reside directly in META-INF/ if (signatureRelated && hasSlash(name, off + META_INF_LEN, off + len)) { signatureRelated = false; } return signatureRelated; } /* * Return true if the encoded name contains a '/' within the byte given range * This assumes an ASCII-compatible encoding, which is ok here since * it is already assumed in isMetaName */ private boolean hasSlash(byte[] name, int start, int end) { for (int i = start; i < end; i++) { int c = name[i]; if (c == '/') { return true; } } return false; } /* * If the bytes represents a non-directory name beginning * with "versions/", continuing with a positive integer, * followed by a '/', then return that integer value. * Otherwise, return 0 */ private int getMetaVersion(int off, int len) { byte[] name = cen; int nend = off + len; if (!(len > 10 // "versions//".length() && name[off + len - 1] != '/' // non-directory && (name[off++] | 0x20) == 'v' && (name[off++] | 0x20) == 'e' && (name[off++] | 0x20) == 'r' && (name[off++] | 0x20) == 's' && (name[off++] | 0x20) == 'i' && (name[off++] | 0x20) == 'o' && (name[off++] | 0x20) == 'n' && (name[off++] | 0x20) == 's' && (name[off++] ) == '/')) { return 0; } int version = 0; while (off < nend) { final byte c = name[off++]; if (c == '/') { return version; } if (c < '0' || c > '9') { return 0; } version = version * 10 + c - '0'; // Check for overflow and leading zeros if (version <= 0) { return 0; } } return 0; } /** * Returns the number of CEN headers in a central directory. * * @param cen copy of the bytes in a ZIP file's central directory * @throws ZipException if a CEN header exceeds the length of the CEN array */ private static int countCENHeaders(byte[] cen) throws ZipException { int count = 0; for (int p = 0; p <= cen.length - CENHDR;) { int headerSize = CENHDR + CENNAM(cen, p) + CENEXT(cen, p) + CENCOM(cen, p); if (p > cen.length - headerSize) { zerror("invalid CEN header (bad header size)"); } p += headerSize; count++; } return count; } } }