package jdk.nio.zipfs;
import java.io.BufferedOutputStream;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.EOFException;
import java.io.FilterOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.nio.ByteBuffer;
import java.nio.MappedByteBuffer;
import java.nio.channels.FileChannel;
import java.nio.channels.FileLock;
import java.nio.channels.ReadableByteChannel;
import java.nio.channels.SeekableByteChannel;
import java.nio.channels.WritableByteChannel;
import java.nio.file.*;
import java.nio.file.attribute.FileAttribute;
import java.nio.file.attribute.FileTime;
import java.nio.file.attribute.UserPrincipalLookupService;
import java.nio.file.spi.FileSystemProvider;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.security.PrivilegedActionException;
import java.security.PrivilegedExceptionAction;
import java.util.*;
import java.util.concurrent.locks.ReadWriteLock;
import java.util.concurrent.locks.ReentrantReadWriteLock;
import java.util.regex.Pattern;
import java.util.zip.CRC32;
import java.util.zip.Deflater;
import java.util.zip.DeflaterOutputStream;
import java.util.zip.Inflater;
import java.util.zip.InflaterInputStream;
import java.util.zip.ZipException;
import static java.lang.Boolean.TRUE;
import static java.nio.file.StandardCopyOption.COPY_ATTRIBUTES;
import static java.nio.file.StandardCopyOption.REPLACE_EXISTING;
import static java.nio.file.StandardOpenOption.APPEND;
import static java.nio.file.StandardOpenOption.CREATE;
import static java.nio.file.StandardOpenOption.CREATE_NEW;
import static java.nio.file.StandardOpenOption.READ;
import static java.nio.file.StandardOpenOption.TRUNCATE_EXISTING;
import static java.nio.file.StandardOpenOption.WRITE;
import static jdk.nio.zipfs.ZipConstants.*;
import static jdk.nio.zipfs.ZipUtils.*;
class ZipFileSystem extends FileSystem {
private final ZipFileSystemProvider provider;
private final Path zfpath;
final ZipCoder zc;
private final ZipPath rootdir;
private boolean readOnly = false;
private final boolean noExtt;
private final boolean useTempFile;
private static final boolean isWindows = AccessController.doPrivileged(
(PrivilegedAction<Boolean>)() -> System.getProperty("os.name")
.startsWith("Windows"));
private final boolean forceEnd64;
private final int defaultMethod;
ZipFileSystem(ZipFileSystemProvider provider,
Path zfpath,
Map<String, ?> env) throws IOException
{
String nameEncoding = env.containsKey("encoding") ?
(String)env.get("encoding") : "UTF-8";
this.noExtt = "false".equals(env.get("zipinfo-time"));
this.useTempFile = isTrue(env, "useTempFile");
this.forceEnd64 = isTrue(env, "forceZIP64End");
this.defaultMethod = isTrue(env, "noCompression") ? METHOD_STORED: METHOD_DEFLATED;
if (Files.notExists(zfpath)) {
if (isTrue(env, "create")) {
try (OutputStream os = Files.newOutputStream(zfpath, CREATE_NEW, WRITE)) {
new END().write(os, 0, forceEnd64);
}
} else {
throw new FileSystemNotFoundException(zfpath.toString());
}
}
zfpath.getFileSystem().provider().checkAccess(zfpath, AccessMode.READ);
boolean writeable = AccessController.doPrivileged(
(PrivilegedAction<Boolean>) () -> Files.isWritable(zfpath));
this.readOnly = !writeable;
this.zc = ZipCoder.get(nameEncoding);
this.rootdir = new ZipPath(this, new byte[]{'/'});
this.ch = Files.newByteChannel(zfpath, READ);
try {
this.cen = initCEN();
} catch (IOException x) {
try {
this.ch.close();
} catch (IOException xx) {
x.addSuppressed(xx);
}
throw x;
}
this.provider = provider;
this.zfpath = zfpath;
}
private static boolean isTrue(Map<String, ?> env, String name) {
return "true".equals(env.get(name)) || TRUE.equals(env.get(name));
}
@Override
public FileSystemProvider provider() {
return provider;
}
@Override
public String getSeparator() {
return "/";
}
@Override
public boolean isOpen() {
return isOpen;
}
@Override
public boolean isReadOnly() {
return readOnly;
}
private void checkWritable() throws IOException {
if (readOnly)
throw new ReadOnlyFileSystemException();
}
void setReadOnly() {
this.readOnly = true;
}
@Override
public Iterable<Path> getRootDirectories() {
return List.of(rootdir);
}
ZipPath getRootDir() {
return rootdir;
}
@Override
public ZipPath getPath(String first, String... more) {
if (more.length == 0) {
return new ZipPath(this, first);
}
StringBuilder sb = new StringBuilder();
sb.append(first);
for (String path : more) {
if (path.length() > 0) {
if (sb.length() > 0) {
sb.append('/');
}
sb.append(path);
}
}
return new ZipPath(this, sb.toString());
}
@Override
public UserPrincipalLookupService getUserPrincipalLookupService() {
throw new UnsupportedOperationException();
}
@Override
public WatchService newWatchService() {
throw new UnsupportedOperationException();
}
FileStore getFileStore(ZipPath path) {
return new ZipFileStore(path);
}
@Override
public Iterable<FileStore> getFileStores() {
return List.of(new ZipFileStore(rootdir));
}
private static final Set<String> supportedFileAttributeViews =
Set.of("basic", "zip");
@Override
public Set<String> supportedFileAttributeViews() {
return supportedFileAttributeViews;
}
@Override
public String toString() {
return zfpath.toString();
}
Path getZipFile() {
return zfpath;
}
private static final String GLOB_SYNTAX = "glob";
private static final String REGEX_SYNTAX = "regex";
@Override
public PathMatcher getPathMatcher(String syntaxAndInput) {
int pos = syntaxAndInput.indexOf(':');
if (pos <= 0 || pos == syntaxAndInput.length()) {
throw new IllegalArgumentException();
}
String syntax = syntaxAndInput.substring(0, pos);
String input = syntaxAndInput.substring(pos + 1);
String expr;
if (syntax.equalsIgnoreCase(GLOB_SYNTAX)) {
expr = toRegexPattern(input);
} else {
if (syntax.equalsIgnoreCase(REGEX_SYNTAX)) {
expr = input;
} else {
throw new UnsupportedOperationException("Syntax '" + syntax +
"' not recognized");
}
}
final Pattern pattern = Pattern.compile(expr);
return new PathMatcher() {
@Override
public boolean matches(Path path) {
return pattern.matcher(path.toString()).matches();
}
};
}
@Override
public void close() throws IOException {
beginWrite();
try {
if (!isOpen)
return;
isOpen = false;
} finally {
endWrite();
}
if (!streams.isEmpty()) {
Set<InputStream> copy = new HashSet<>(streams);
for (InputStream is : copy)
is.close();
}
beginWrite();
try {
AccessController.doPrivileged((PrivilegedExceptionAction<Void>)() -> {
sync(); return null;
});
ch.close();
} catch (PrivilegedActionException e) {
throw (IOException)e.getException();
} finally {
endWrite();
}
synchronized (inflaters) {
for (Inflater inf : inflaters)
inf.end();
}
synchronized (deflaters) {
for (Deflater def : deflaters)
def.end();
}
IOException ioe = null;
synchronized (tmppaths) {
for (Path p : tmppaths) {
try {
AccessController.doPrivileged(
(PrivilegedExceptionAction<Boolean>)() -> Files.deleteIfExists(p));
} catch (PrivilegedActionException e) {
IOException x = (IOException)e.getException();
if (ioe == null)
ioe = x;
else
ioe.addSuppressed(x);
}
}
}
provider.removeFileSystem(zfpath, this);
if (ioe != null)
throw ioe;
}
ZipFileAttributes getFileAttributes(byte[] path)
throws IOException
{
Entry e;
beginRead();
try {
ensureOpen();
e = getEntry(path);
if (e == null) {
IndexNode inode = getInode(path);
if (inode == null)
return null;
e = new Entry(inode.name, inode.isdir, METHOD_STORED);
e.mtime = e.atime = e.ctime = zfsDefaultTimeStamp;
}
} finally {
endRead();
}
return e;
}
void checkAccess(byte[] path) throws IOException {
beginRead();
try {
ensureOpen();
if (getInode(path) == null) {
throw new NoSuchFileException(toString());
}
} finally {
endRead();
}
}
void setTimes(byte[] path, FileTime mtime, FileTime atime, FileTime ctime)
throws IOException
{
checkWritable();
beginWrite();
try {
ensureOpen();
Entry e = getEntry(path);
if (e == null)
throw new NoSuchFileException(getString(path));
if (e.type == Entry.CEN)
e.type = Entry.COPY;
if (mtime != null)
e.mtime = mtime.toMillis();
if (atime != null)
e.atime = atime.toMillis();
if (ctime != null)
e.ctime = ctime.toMillis();
update(e);
} finally {
endWrite();
}
}
boolean exists(byte[] path)
throws IOException
{
beginRead();
try {
ensureOpen();
return getInode(path) != null;
} finally {
endRead();
}
}
boolean isDirectory(byte[] path)
throws IOException
{
beginRead();
try {
IndexNode n = getInode(path);
return n != null && n.isDir();
} finally {
endRead();
}
}
Iterator<Path> iteratorOf(ZipPath dir,
DirectoryStream.Filter<? super Path> filter)
throws IOException
{
beginWrite();
try {
ensureOpen();
byte[] path = dir.getResolvedPath();
IndexNode inode = getInode(path);
if (inode == null)
throw new NotDirectoryException(getString(path));
List<Path> list = new ArrayList<>();
IndexNode child = inode.child;
while (child != null) {
byte[] cname = child.name;
if (!dir.isAbsolute()) {
cname = Arrays.copyOfRange(cname, 1, cname.length);
}
ZipPath zpath = new ZipPath(this, cname, true);
if (filter == null || filter.accept(zpath))
list.add(zpath);
child = child.sibling;
}
return list.iterator();
} finally {
endWrite();
}
}
void createDirectory(byte[] dir, FileAttribute<?>... attrs)
throws IOException
{
checkWritable();
beginWrite();
try {
ensureOpen();
if (dir.length == 0 || exists(dir))
throw new FileAlreadyExistsException(getString(dir));
checkParents(dir);
Entry e = new Entry(dir, Entry.NEW, true, METHOD_STORED);
update(e);
} finally {
endWrite();
}
}
void copyFile(boolean deletesrc, byte[]src, byte[] dst, CopyOption... options)
throws IOException
{
checkWritable();
if (Arrays.equals(src, dst))
return;
beginWrite();
try {
ensureOpen();
Entry eSrc = getEntry(src);
if (eSrc == null)
throw new NoSuchFileException(getString(src));
if (eSrc.isDir()) {
createDirectory(dst);
return;
}
boolean hasReplace = false;
boolean hasCopyAttrs = false;
for (CopyOption opt : options) {
if (opt == REPLACE_EXISTING)
hasReplace = true;
else if (opt == COPY_ATTRIBUTES)
hasCopyAttrs = true;
}
Entry eDst = getEntry(dst);
if (eDst != null) {
if (!hasReplace)
throw new FileAlreadyExistsException(getString(dst));
} else {
checkParents(dst);
}
Entry u = new Entry(eSrc, Entry.COPY);
u.name(dst);
if (eSrc.type == Entry.NEW || eSrc.type == Entry.FILECH)
{
u.type = eSrc.type;
if (deletesrc) {
u.bytes = eSrc.bytes;
u.file = eSrc.file;
} else {
if (eSrc.bytes != null)
u.bytes = Arrays.copyOf(eSrc.bytes, eSrc.bytes.length);
else if (eSrc.file != null) {
u.file = getTempPathForEntry(null);
Files.copy(eSrc.file, u.file, REPLACE_EXISTING);
}
}
}
if (!hasCopyAttrs)
u.mtime = u.atime= u.ctime = System.currentTimeMillis();
update(u);
if (deletesrc)
updateDelete(eSrc);
} finally {
endWrite();
}
}
OutputStream newOutputStream(byte[] path, OpenOption... options)
throws IOException
{
checkWritable();
boolean hasCreateNew = false;
boolean hasCreate = false;
boolean hasAppend = false;
boolean hasTruncate = false;
for (OpenOption opt : options) {
if (opt == READ)
throw new IllegalArgumentException("READ not allowed");
if (opt == CREATE_NEW)
hasCreateNew = true;
if (opt == CREATE)
hasCreate = true;
if (opt == APPEND)
hasAppend = true;
if (opt == TRUNCATE_EXISTING)
hasTruncate = true;
}
if (hasAppend && hasTruncate)
throw new IllegalArgumentException("APPEND + TRUNCATE_EXISTING not allowed");
beginRead();
try {
ensureOpen();
Entry e = getEntry(path);
if (e != null) {
if (e.isDir() || hasCreateNew)
throw new FileAlreadyExistsException(getString(path));
if (hasAppend) {
InputStream is = getInputStream(e);
OutputStream os = getOutputStream(new Entry(e, Entry.NEW));
is.transferTo(os);
is.close();
return os;
}
return getOutputStream(new Entry(e, Entry.NEW));
} else {
if (!hasCreate && !hasCreateNew)
throw new NoSuchFileException(getString(path));
checkParents(path);
return getOutputStream(new Entry(path, Entry.NEW, false, defaultMethod));
}
} finally {
endRead();
}
}
InputStream newInputStream(byte[] path) throws IOException {
beginRead();
try {
ensureOpen();
Entry e = getEntry(path);
if (e == null)
throw new NoSuchFileException(getString(path));
if (e.isDir())
throw new FileSystemException(getString(path), "is a directory", null);
return getInputStream(e);
} finally {
endRead();
}
}
private void checkOptions(Set<? extends OpenOption> options) {
for (OpenOption option : options) {
if (option == null)
throw new NullPointerException();
if (!(option instanceof StandardOpenOption))
throw new IllegalArgumentException();
}
if (options.contains(APPEND) && options.contains(TRUNCATE_EXISTING))
throw new IllegalArgumentException("APPEND + TRUNCATE_EXISTING not allowed");
}
private class EntryOutputChannel extends ByteArrayChannel {
Entry e;
EntryOutputChannel(Entry e) throws IOException {
super(e.size > 0? (int)e.size : 8192, false);
this.e = e;
if (e.mtime == -1)
e.mtime = System.currentTimeMillis();
if (e.method == -1)
e.method = defaultMethod;
e.flag = FLAG_DATADESCR;
if (zc.isUTF8())
e.flag |= FLAG_USE_UTF8;
}
@Override
public void close() throws IOException {
try (OutputStream os = getOutputStream(e)) {
os.write(toByteArray());
}
super.close();
}
}
private int getCompressMethod() {
return defaultMethod;
}
SeekableByteChannel newByteChannel(byte[] path,
Set<? extends OpenOption> options,
FileAttribute<?>... attrs)
throws IOException
{
checkOptions(options);
if (options.contains(StandardOpenOption.WRITE) ||
options.contains(StandardOpenOption.APPEND)) {
checkWritable();
beginRead();
try {
Entry e = getEntry(path);
if (e != null) {
if (e.isDir() || options.contains(CREATE_NEW))
throw new FileAlreadyExistsException(getString(path));
SeekableByteChannel sbc =
new EntryOutputChannel(new Entry(e, Entry.NEW));
if (options.contains(APPEND)) {
try (InputStream is = getInputStream(e)) {
byte[] buf = new byte[8192];
ByteBuffer bb = ByteBuffer.wrap(buf);
int n;
while ((n = is.read(buf)) != -1) {
bb.position(0);
bb.limit(n);
sbc.write(bb);
}
}
}
return sbc;
}
if (!options.contains(CREATE) && !options.contains(CREATE_NEW))
throw new NoSuchFileException(getString(path));
checkParents(path);
return new EntryOutputChannel(
new Entry(path, Entry.NEW, false, getCompressMethod()));
} finally {
endRead();
}
} else {
beginRead();
try {
ensureOpen();
Entry e = getEntry(path);
if (e == null || e.isDir())
throw new NoSuchFileException(getString(path));
try (InputStream is = getInputStream(e)) {
return new ByteArrayChannel(is.readAllBytes(), true);
}
} finally {
endRead();
}
}
}
FileChannel newFileChannel(byte[] path,
Set<? extends OpenOption> options,
FileAttribute<?>... attrs)
throws IOException
{
checkOptions(options);
final boolean forWrite = (options.contains(StandardOpenOption.WRITE) ||
options.contains(StandardOpenOption.APPEND));
beginRead();
try {
ensureOpen();
Entry e = getEntry(path);
if (forWrite) {
checkWritable();
if (e == null) {
if (!options.contains(StandardOpenOption.CREATE) &&
!options.contains(StandardOpenOption.CREATE_NEW)) {
throw new NoSuchFileException(getString(path));
}
} else {
if (options.contains(StandardOpenOption.CREATE_NEW)) {
throw new FileAlreadyExistsException(getString(path));
}
if (e.isDir())
throw new FileAlreadyExistsException("directory <"
+ getString(path) + "> exists");
}
options = new HashSet<>(options);
options.remove(StandardOpenOption.CREATE_NEW);
} else if (e == null || e.isDir()) {
throw new NoSuchFileException(getString(path));
}
final boolean isFCH = (e != null && e.type == Entry.FILECH);
final Path tmpfile = isFCH ? e.file : getTempPathForEntry(path);
final FileChannel fch = tmpfile.getFileSystem()
.provider()
.newFileChannel(tmpfile, options, attrs);
final Entry u = isFCH ? e : new Entry(path, tmpfile, Entry.FILECH);
if (forWrite) {
u.flag = FLAG_DATADESCR;
u.method = getCompressMethod();
}
return new FileChannel() {
public int write(ByteBuffer src) throws IOException {
return fch.write(src);
}
public long write(ByteBuffer[] srcs, int offset, int length)
throws IOException
{
return fch.write(srcs, offset, length);
}
public long position() throws IOException {
return fch.position();
}
public FileChannel position(long newPosition)
throws IOException
{
fch.position(newPosition);
return this;
}
public long size() throws IOException {
return fch.size();
}
public FileChannel truncate(long size)
throws IOException
{
fch.truncate(size);
return this;
}
public void force(boolean metaData)
throws IOException
{
fch.force(metaData);
}
public long transferTo(long position, long count,
WritableByteChannel target)
throws IOException
{
return fch.transferTo(position, count, target);
}
public long transferFrom(ReadableByteChannel src,
long position, long count)
throws IOException
{
return fch.transferFrom(src, position, count);
}
public int read(ByteBuffer dst) throws IOException {
return fch.read(dst);
}
public int read(ByteBuffer dst, long position)
throws IOException
{
return fch.read(dst, position);
}
public long read(ByteBuffer[] dsts, int offset, int length)
throws IOException
{
return fch.read(dsts, offset, length);
}
public int write(ByteBuffer src, long position)
throws IOException
{
return fch.write(src, position);
}
public MappedByteBuffer map(MapMode mode,
long position, long size)
throws IOException
{
throw new UnsupportedOperationException();
}
public FileLock lock(long position, long size, boolean shared)
throws IOException
{
return fch.lock(position, size, shared);
}
public FileLock tryLock(long position, long size, boolean shared)
throws IOException
{
return fch.tryLock(position, size, shared);
}
protected void implCloseChannel() throws IOException {
fch.close();
if (forWrite) {
u.mtime = System.currentTimeMillis();
u.size = Files.size(u.file);
update(u);
} else {
if (!isFCH)
removeTempPathForEntry(tmpfile);
}
}
};
} finally {
endRead();
}
}
private Set<InputStream> streams =
Collections.synchronizedSet(new HashSet<>());
private Set<ExistingChannelCloser> exChClosers = new HashSet<>();
private Set<Path> tmppaths = Collections.synchronizedSet(new HashSet<Path>());
private Path getTempPathForEntry(byte[] path) throws IOException {
Path tmpPath = createTempFileInSameDirectoryAs(zfpath);
if (path != null) {
Entry e = getEntry(path);
if (e != null) {
try (InputStream is = newInputStream(path)) {
Files.copy(is, tmpPath, REPLACE_EXISTING);
}
}
}
return tmpPath;
}
private void removeTempPathForEntry(Path path) throws IOException {
Files.delete(path);
tmppaths.remove(path);
}
private void checkParents(byte[] path) throws IOException {
beginRead();
try {
while ((path = getParent(path)) != null &&
path != ROOTPATH) {
if (!inodes.containsKey(IndexNode.keyOf(path))) {
throw new NoSuchFileException(getString(path));
}
}
} finally {
endRead();
}
}
private static byte[] ROOTPATH = new byte[] { '/' };
private static byte[] getParent(byte[] path) {
int off = getParentOff(path);
if (off <= 1)
return ROOTPATH;
return Arrays.copyOf(path, off);
}
private static int getParentOff(byte[] path) {
int off = path.length - 1;
if (off > 0 && path[off] == '/')
off--;
while (off > 0 && path[off] != '/') { off--; }
return off;
}
private final void beginWrite() {
rwlock.writeLock().lock();
}
private final void endWrite() {
rwlock.writeLock().unlock();
}
private final void beginRead() {
rwlock.readLock().lock();
}
private final void endRead() {
rwlock.readLock().unlock();
}
private volatile boolean isOpen = true;
private final SeekableByteChannel ch;
final byte[] cen;
private END end;
private long locpos;
private final ReadWriteLock rwlock = new ReentrantReadWriteLock();
private LinkedHashMap<IndexNode, IndexNode> inodes;
final byte[] getBytes(String name) {
return zc.getBytes(name);
}
final String getString(byte[] name) {
return zc.toString(name);
}
@SuppressWarnings("deprecation")
protected void finalize() throws IOException {
close();
}
final long readFullyAt(byte[] buf, int off, long len, long pos)
throws IOException
{
ByteBuffer bb = ByteBuffer.wrap(buf);
bb.position(off);
bb.limit((int)(off + len));
return readFullyAt(bb, pos);
}
private final long readFullyAt(ByteBuffer bb, long pos)
throws IOException
{
synchronized(ch) {
return ch.position(pos).read(bb);
}
}
private END findEND() throws IOException
{
byte[] buf = new byte[READBLOCKSZ];
long ziplen = ch.size();
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) {
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");
for (int i = buf.length - ENDHDR; i >= 0; i--) {
if (buf[i+0] == (byte)'P' &&
buf[i+1] == (byte)'K' &&
buf[i+2] == (byte)'\005' &&
buf[i+3] == (byte)'\006' &&
(pos + i + ENDHDR + ENDCOM(buf, i) == ziplen)) {
buf = Arrays.copyOfRange(buf, i, i + ENDHDR);
END end = new END();
end.endsub = ENDSUB(buf);
end.centot = ENDTOT(buf);
end.cenlen = ENDSIZ(buf);
end.cenoff = ENDOFF(buf);
end.comlen = ENDCOM(buf);
end.endpos = pos + i;
byte[] loc64 = new byte[ZIP64_LOCHDR];
if (end.endpos < ZIP64_LOCHDR ||
readFullyAt(loc64, 0, loc64.length, end.endpos - ZIP64_LOCHDR)
!= loc64.length ||
!locator64SigAt(loc64, 0)) {
return end;
}
long end64pos = ZIP64_LOCOFF(loc64);
byte[] end64buf = new byte[ZIP64_ENDHDR];
if (readFullyAt(end64buf, 0, end64buf.length, end64pos)
!= end64buf.length ||
!end64SigAt(end64buf, 0)) {
return end;
}
long cenlen64 = ZIP64_ENDSIZ(end64buf);
long cenoff64 = ZIP64_ENDOFF(end64buf);
long centot64 = ZIP64_ENDTOT(end64buf);
if (cenlen64 != end.cenlen && end.cenlen != ZIP64_MINVAL ||
cenoff64 != end.cenoff && end.cenoff != ZIP64_MINVAL ||
centot64 != end.centot && end.centot != ZIP64_MINVAL32) {
return end;
}
end.cenlen = cenlen64;
end.cenoff = cenoff64;
end.centot = (int)centot64;
end.endpos = end64pos;
return end;
}
}
}
zerror("zip END header not found");
return null;
}
private byte[] initCEN() throws IOException {
end = findEND();
if (end.endpos == 0) {
inodes = new LinkedHashMap<>(10);
locpos = 0;
buildNodeTree();
return null;
}
if (end.cenlen > end.endpos)
zerror("invalid END header (bad central directory size)");
long cenpos = end.endpos - end.cenlen;
locpos = cenpos - end.cenoff;
if (locpos < 0)
zerror("invalid END header (bad central directory offset)");
byte[] cen = new byte[(int)(end.cenlen + ENDHDR)];
if (readFullyAt(cen, 0, cen.length, cenpos) != end.cenlen + ENDHDR) {
zerror("read CEN tables failed");
}
inodes = new LinkedHashMap<>(end.centot + 1);
int pos = 0;
int limit = cen.length - ENDHDR;
while (pos < limit) {
if (!cenSigAt(cen, pos))
zerror("invalid CEN header (bad signature)");
int method = CENHOW(cen, pos);
int nlen = CENNAM(cen, pos);
int elen = CENEXT(cen, pos);
int clen = CENCOM(cen, pos);
if ((CENFLG(cen, pos) & 1) != 0) {
zerror("invalid CEN header (encrypted entry)");
}
if (method != METHOD_STORED && method != METHOD_DEFLATED) {
zerror("invalid CEN header (unsupported compression method: " + method + ")");
}
if (pos + CENHDR + nlen > limit) {
zerror("invalid CEN header (bad header size)");
}
IndexNode inode = new IndexNode(cen, pos, nlen);
inodes.put(inode, inode);
pos += (CENHDR + nlen + elen + clen);
}
if (pos + ENDHDR != cen.length) {
zerror("invalid CEN header (bad header size)");
}
buildNodeTree();
return cen;
}
private void ensureOpen() throws IOException {
if (!isOpen)
throw new ClosedFileSystemException();
}
private Path createTempFileInSameDirectoryAs(Path path)
throws IOException
{
Path parent = path.toAbsolutePath().getParent();
Path dir = (parent == null) ? path.getFileSystem().getPath(".") : parent;
Path tmpPath = Files.createTempFile(dir, "zipfstmp", null);
tmppaths.add(tmpPath);
return tmpPath;
}
private boolean hasUpdate = false;
private final IndexNode LOOKUPKEY = new IndexNode(null, -1);
private void updateDelete(IndexNode inode) {
beginWrite();
try {
removeFromTree(inode);
inodes.remove(inode);
hasUpdate = true;
} finally {
endWrite();
}
}
private void update(Entry e) {
beginWrite();
try {
IndexNode old = inodes.put(e, e);
if (old != null) {
removeFromTree(old);
}
if (e.type == Entry.NEW || e.type == Entry.FILECH || e.type == Entry.COPY) {
IndexNode parent = inodes.get(LOOKUPKEY.as(getParent(e.name)));
e.sibling = parent.child;
parent.child = e;
}
hasUpdate = true;
} finally {
endWrite();
}
}
private long copyLOCEntry(Entry e, boolean updateHeader,
OutputStream os,
long written, byte[] buf)
throws IOException
{
long locoff = e.locoff;
e.locoff = written;
long size = 0;
if ((e.flag & FLAG_DATADESCR) != 0) {
if (e.size >= ZIP64_MINVAL || e.csize >= ZIP64_MINVAL)
size = 24;
else
size = 16;
}
if (readFullyAt(buf, 0, LOCHDR + 1 , locoff) != LOCHDR + 1)
throw new ZipException("loc: reading failed");
if (updateHeader || LOCNAM(buf) > 0 && buf[LOCHDR] == '/') {
locoff += LOCHDR + LOCNAM(buf) + LOCEXT(buf);
size += e.csize;
written = e.writeLOC(os) + size;
} else {
os.write(buf, 0, LOCHDR);
locoff += LOCHDR;
size += LOCNAM(buf) + LOCEXT(buf) + e.csize;
written = LOCHDR + size;
}
int n;
while (size > 0 &&
(n = (int)readFullyAt(buf, 0, buf.length, locoff)) != -1)
{
if (size < n)
n = (int)size;
os.write(buf, 0, n);
size -= n;
locoff += n;
}
return written;
}
private long writeEntry(Entry e, OutputStream os)
throws IOException {
if (e.bytes == null && e.file == null)
return 0;
long written = 0;
if (e.csize > 0 && (e.crc != 0 || e.size == 0)) {
writeTo(e, os);
} else {
try (OutputStream os2 = (e.method == METHOD_STORED) ?
new EntryOutputStreamCRC32(e, os) : new EntryOutputStreamDef(e, os)) {
writeTo(e, os2);
}
}
written += e.csize;
if ((e.flag & FLAG_DATADESCR) != 0) {
written += e.writeEXT(os);
}
return written;
}
private void writeTo(Entry e, OutputStream os) throws IOException {
if (e.bytes != null) {
os.write(e.bytes, 0, e.bytes.length);
} else if (e.file != null) {
if (e.type == Entry.NEW || e.type == Entry.FILECH) {
try (InputStream is = Files.newInputStream(e.file)) {
is.transferTo(os);
}
}
Files.delete(e.file);
tmppaths.remove(e.file);
}
}
private void sync() throws IOException {
if (!exChClosers.isEmpty()) {
for (ExistingChannelCloser ecc : exChClosers) {
if (ecc.closeAndDeleteIfDone()) {
exChClosers.remove(ecc);
}
}
}
if (!hasUpdate)
return;
Path tmpFile = createTempFileInSameDirectoryAs(zfpath);
try (OutputStream os = new BufferedOutputStream(Files.newOutputStream(tmpFile, WRITE))) {
ArrayList<Entry> elist = new ArrayList<>(inodes.size());
long written = 0;
byte[] buf = null;
Entry e;
for (IndexNode inode : inodes.values()) {
if (inode instanceof Entry) {
e = (Entry)inode;
try {
if (e.type == Entry.COPY) {
if (buf == null)
buf = new byte[8192];
written += copyLOCEntry(e, true, os, written, buf);
} else {
e.locoff = written;
written += e.writeLOC(os);
written += writeEntry(e, os);
}
elist.add(e);
} catch (IOException x) {
x.printStackTrace();
}
} else {
if (inode.pos == -1) {
continue;
}
if (inode.name.length == 1 && inode.name[0] == '/') {
continue;
}
e = Entry.readCEN(this, inode);
try {
if (buf == null)
buf = new byte[8192];
written += copyLOCEntry(e, false, os, written, buf);
elist.add(e);
} catch (IOException x) {
x.printStackTrace();
}
}
}
end.cenoff = written;
for (Entry entry : elist) {
written += entry.writeCEN(os);
}
end.centot = elist.size();
end.cenlen = written - end.cenoff;
end.write(os, written, forceEnd64);
}
if (!streams.isEmpty()) {
Path path = createTempFileInSameDirectoryAs(zfpath);
ExistingChannelCloser ecc = new ExistingChannelCloser(path,
ch,
streams);
Files.move(zfpath, path, REPLACE_EXISTING);
exChClosers.add(ecc);
streams = Collections.synchronizedSet(new HashSet<>());
} else {
ch.close();
Files.delete(zfpath);
}
Files.move(tmpFile, zfpath, REPLACE_EXISTING);
hasUpdate = false;
}
IndexNode getInode(byte[] path) {
if (path == null)
throw new NullPointerException("path");
return inodes.get(IndexNode.keyOf(path));
}
Entry getEntry(byte[] path) throws IOException {
IndexNode inode = getInode(path);
if (inode instanceof Entry)
return (Entry)inode;
if (inode == null || inode.pos == -1)
return null;
return Entry.readCEN(this, inode);
}
public void deleteFile(byte[] path, boolean failIfNotExists)
throws IOException
{
checkWritable();
IndexNode inode = getInode(path);
if (inode == null) {
if (path != null && path.length == 0)
throw new ZipException("root directory </> can't not be delete");
if (failIfNotExists)
throw new NoSuchFileException(getString(path));
} else {
if (inode.isDir() && inode.child != null)
throw new DirectoryNotEmptyException(getString(path));
updateDelete(inode);
}
}
private OutputStream getOutputStream(Entry e) throws IOException {
if (e.mtime == -1)
e.mtime = System.currentTimeMillis();
if (e.method == -1)
e.method = defaultMethod;
e.flag = FLAG_DATADESCR;
if (zc.isUTF8())
e.flag |= FLAG_USE_UTF8;
OutputStream os;
if (useTempFile) {
e.file = getTempPathForEntry(null);
os = Files.newOutputStream(e.file, WRITE);
} else {
os = new ByteArrayOutputStream((e.size > 0)? (int)e.size : 8192);
}
if (e.method == METHOD_DEFLATED) {
return new DeflatingEntryOutputStream(e, os);
} else {
return new EntryOutputStream(e, os);
}
}
private class EntryOutputStream extends FilterOutputStream {
private final Entry e;
private long written;
private boolean isClosed;
EntryOutputStream(Entry e, OutputStream os) throws IOException {
super(os);
this.e = Objects.requireNonNull(e, "Zip entry is null");
}
@Override
public synchronized void write(int b) throws IOException {
out.write(b);
written += 1;
}
@Override
public synchronized void write(byte b[], int off, int len)
throws IOException {
out.write(b, off, len);
written += len;
}
@Override
public synchronized void close() throws IOException {
if (isClosed) {
return;
}
isClosed = true;
e.size = written;
if (out instanceof ByteArrayOutputStream)
e.bytes = ((ByteArrayOutputStream)out).toByteArray();
super.close();
update(e);
}
}
private class DeflatingEntryOutputStream extends DeflaterOutputStream {
private final CRC32 crc;
private final Entry e;
private boolean isClosed;
DeflatingEntryOutputStream(Entry e, OutputStream os) throws IOException {
super(os, getDeflater());
this.e = Objects.requireNonNull(e, "Zip entry is null");
this.crc = new CRC32();
}
@Override
public synchronized void write(int b) throws IOException {
super.write(b);
crc.update(b);
}
@Override
public synchronized void write(byte b[], int off, int len)
throws IOException {
super.write(b, off, len);
crc.update(b, off, len);
}
@Override
public synchronized void close() throws IOException {
if (isClosed)
return;
isClosed = true;
finish();
e.size = def.getBytesRead();
e.csize = def.getBytesWritten();
e.crc = crc.getValue();
if (out instanceof ByteArrayOutputStream)
e.bytes = ((ByteArrayOutputStream)out).toByteArray();
super.close();
update(e);
releaseDeflater(def);
}
}
private class EntryOutputStreamCRC32 extends FilterOutputStream {
private final CRC32 crc;
private final Entry e;
private long written;
private boolean isClosed;
EntryOutputStreamCRC32(Entry e, OutputStream os) throws IOException {
super(os);
this.e = Objects.requireNonNull(e, "Zip entry is null");
this.crc = new CRC32();
}
@Override
public void write(int b) throws IOException {
out.write(b);
crc.update(b);
written += 1;
}
@Override
public void write(byte b[], int off, int len)
throws IOException {
out.write(b, off, len);
crc.update(b, off, len);
written += len;
}
@Override
public void close() throws IOException {
if (isClosed)
return;
isClosed = true;
e.size = e.csize = written;
e.crc = crc.getValue();
}
}
private class EntryOutputStreamDef extends DeflaterOutputStream {
private final CRC32 crc;
private final Entry e;
private boolean isClosed;
EntryOutputStreamDef(Entry e, OutputStream os) throws IOException {
super(os, getDeflater());
this.e = Objects.requireNonNull(e, "Zip entry is null");
this.crc = new CRC32();
}
@Override
public void write(byte b[], int off, int len)
throws IOException {
super.write(b, off, len);
crc.update(b, off, len);
}
@Override
public void close() throws IOException {
if (isClosed)
return;
isClosed = true;
finish();
e.size = def.getBytesRead();
e.csize = def.getBytesWritten();
e.crc = crc.getValue();
releaseDeflater(def);
}
}
private InputStream getInputStream(Entry e)
throws IOException
{
InputStream eis;
if (e.type == Entry.NEW) {
if (e.bytes != null)
eis = new ByteArrayInputStream(e.bytes);
else if (e.file != null)
eis = Files.newInputStream(e.file);
else
throw new ZipException("update entry data is missing");
} else if (e.type == Entry.FILECH) {
eis = Files.newInputStream(e.file);
return eis;
} else {
eis = new EntryInputStream(e, ch);
}
if (e.method == METHOD_DEFLATED) {
long bufSize = e.size + 2;
if (bufSize > 65536)
bufSize = 8192;
final long size = e.size;
eis = new InflaterInputStream(eis, getInflater(), (int)bufSize) {
private boolean isClosed = false;
public void close() throws IOException {
if (!isClosed) {
releaseInflater(inf);
this.in.close();
isClosed = true;
streams.remove(this);
}
}
protected void fill() throws IOException {
if (eof) {
throw new EOFException(
"Unexpected end of ZLIB input stream");
}
len = this.in.read(buf, 0, buf.length);
if (len == -1) {
buf[0] = 0;
len = 1;
eof = true;
}
inf.setInput(buf, 0, len);
}
private boolean eof;
public int available() throws IOException {
if (isClosed)
return 0;
long avail = size - inf.getBytesWritten();
return avail > (long) Integer.MAX_VALUE ?
Integer.MAX_VALUE : (int) avail;
}
};
} else if (e.method == METHOD_STORED) {
} else {
throw new ZipException("invalid compression method");
}
streams.add(eis);
return eis;
}
private class EntryInputStream extends InputStream {
private final SeekableByteChannel zfch;
private long pos;
protected long rem;
EntryInputStream(Entry e, SeekableByteChannel zfch)
throws IOException
{
this.zfch = zfch;
rem = e.csize;
pos = e.locoff;
if (pos == -1) {
Entry e2 = getEntry(e.name);
if (e2 == null) {
throw new ZipException("invalid loc for entry <" + e.name + ">");
}
pos = e2.locoff;
}
pos = -pos;
}
public int read(byte b[], int off, int len) throws IOException {
ensureOpen();
initDataPos();
if (rem == 0) {
return -1;
}
if (len <= 0) {
return 0;
}
if (len > rem) {
len = (int) rem;
}
long n;
ByteBuffer bb = ByteBuffer.wrap(b);
bb.position(off);
bb.limit(off + len);
synchronized(zfch) {
n = zfch.position(pos).read(bb);
}
if (n > 0) {
pos += n;
rem -= n;
}
if (rem == 0) {
close();
}
return (int)n;
}
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 {
ensureOpen();
if (n > rem)
n = rem;
pos += n;
rem -= n;
if (rem == 0) {
close();
}
return n;
}
public int available() {
return rem > Integer.MAX_VALUE ? Integer.MAX_VALUE : (int) rem;
}
public void close() {
rem = 0;
streams.remove(this);
}
private void initDataPos() throws IOException {
if (pos <= 0) {
pos = -pos + locpos;
byte[] buf = new byte[LOCHDR];
if (readFullyAt(buf, 0, buf.length, pos) != LOCHDR) {
throw new ZipException("invalid loc " + pos + " for entry reading");
}
pos += LOCHDR + LOCNAM(buf) + LOCEXT(buf);
}
}
}
static void zerror(String msg) throws ZipException {
throw new ZipException(msg);
}
private final int MAX_FLATER = 20;
private final List<Inflater> inflaters = new ArrayList<>();
private Inflater getInflater() {
synchronized (inflaters) {
int size = inflaters.size();
if (size > 0) {
Inflater inf = inflaters.remove(size - 1);
return inf;
} else {
return new Inflater(true);
}
}
}
private void releaseInflater(Inflater inf) {
synchronized (inflaters) {
if (inflaters.size() < MAX_FLATER) {
inf.reset();
inflaters.add(inf);
} else {
inf.end();
}
}
}
private final List<Deflater> deflaters = new ArrayList<>();
private Deflater getDeflater() {
synchronized (deflaters) {
int size = deflaters.size();
if (size > 0) {
Deflater def = deflaters.remove(size - 1);
return def;
} else {
return new Deflater(Deflater.DEFAULT_COMPRESSION, true);
}
}
}
private void releaseDeflater(Deflater def) {
synchronized (deflaters) {
if (inflaters.size() < MAX_FLATER) {
def.reset();
deflaters.add(def);
} else {
def.end();
}
}
}
static class END {
int endsub;
int centot;
long cenlen;
long cenoff;
int comlen;
byte[] ;
long endpos;
void write(OutputStream os, long offset, boolean forceEnd64) throws IOException {
boolean hasZip64 = forceEnd64;
long xlen = cenlen;
long xoff = cenoff;
if (xlen >= ZIP64_MINVAL) {
xlen = ZIP64_MINVAL;
hasZip64 = true;
}
if (xoff >= ZIP64_MINVAL) {
xoff = ZIP64_MINVAL;
hasZip64 = true;
}
int count = centot;
if (count >= ZIP64_MINVAL32) {
count = ZIP64_MINVAL32;
hasZip64 = true;
}
if (hasZip64) {
long off64 = offset;
writeInt(os, ZIP64_ENDSIG);
writeLong(os, ZIP64_ENDHDR - 12);
writeShort(os, 45);
writeShort(os, 45);
writeInt(os, 0);
writeInt(os, 0);
writeLong(os, centot);
writeLong(os, centot);
writeLong(os, cenlen);
writeLong(os, cenoff);
writeInt(os, ZIP64_LOCSIG);
writeInt(os, 0);
writeLong(os, off64);
writeInt(os, 1);
}
writeInt(os, ENDSIG);
writeShort(os, 0);
writeShort(os, 0);
writeShort(os, count);
writeShort(os, count);
writeInt(os, xlen);
writeInt(os, xoff);
if (comment != null) {
writeShort(os, comment.length);
writeBytes(os, comment);
} else {
writeShort(os, 0);
}
}
}
static class IndexNode {
byte[] name;
int hashcode;
int pos = -1;
boolean isdir;
IndexNode(byte[] name, boolean isdir) {
name(name);
this.isdir = isdir;
this.pos = -1;
}
IndexNode(byte[] name, int pos) {
name(name);
this.pos = pos;
}
IndexNode(byte[] cen, int pos, int nlen) {
int noff = pos + CENHDR;
if (cen[noff + nlen - 1] == '/') {
isdir = true;
nlen--;
}
if (nlen > 0 && cen[noff] == '/') {
name = Arrays.copyOfRange(cen, noff, noff + nlen);
} else {
name = new byte[nlen + 1];
System.arraycopy(cen, noff, name, 1, nlen);
name[0] = '/';
}
name(name);
this.pos = pos;
}
private static final ThreadLocal<IndexNode> cachedKey = new ThreadLocal<>();
final static IndexNode keyOf(byte[] name) {
IndexNode key = cachedKey.get();
if (key == null) {
key = new IndexNode(name, -1);
cachedKey.set(key);
}
return key.as(name);
}
final void name(byte[] name) {
this.name = name;
this.hashcode = Arrays.hashCode(name);
}
final IndexNode as(byte[] name) {
name(name);
return this;
}
boolean isDir() {
return isdir;
}
public boolean equals(Object other) {
if (!(other instanceof IndexNode)) {
return false;
}
if (other instanceof ParentLookup) {
return ((ParentLookup)other).equals(this);
}
return Arrays.equals(name, ((IndexNode)other).name);
}
public int hashCode() {
return hashcode;
}
IndexNode() {}
IndexNode sibling;
IndexNode child;
}
static class Entry extends IndexNode implements ZipFileAttributes {
static final int CEN = 1;
static final int NEW = 2;
static final int FILECH = 3;
static final int COPY = 4;
byte[] bytes;
Path file;
int type = CEN;
int version;
int flag;
int method = -1;
long mtime = -1;
long atime = -1;
long ctime = -1;
long crc = -1;
long csize = -1;
long size = -1;
byte[] ;
long locoff;
byte[] ;
Entry() {}
Entry(byte[] name, boolean isdir, int method) {
name(name);
this.isdir = isdir;
this.mtime = this.ctime = this.atime = System.currentTimeMillis();
this.crc = 0;
this.size = 0;
this.csize = 0;
this.method = method;
}
Entry(byte[] name, int type, boolean isdir, int method) {
this(name, isdir, method);
this.type = type;
}
Entry(Entry e, int type) {
name(e.name);
this.isdir = e.isdir;
this.version = e.version;
this.ctime = e.ctime;
this.atime = e.atime;
this.mtime = e.mtime;
this.crc = e.crc;
this.size = e.size;
this.csize = e.csize;
this.method = e.method;
this.extra = e.extra;
this.locoff = e.locoff;
this.comment = e.comment;
this.type = type;
}
Entry(byte[] name, Path file, int type) {
this(name, type, false, METHOD_STORED);
this.file = file;
}
int version() throws ZipException {
if (method == METHOD_DEFLATED)
return 20;
else if (method == METHOD_STORED)
return 10;
throw new ZipException("unsupported compression method");
}
static Entry readCEN(ZipFileSystem zipfs, IndexNode inode)
throws IOException
{
return new Entry().cen(zipfs, inode);
}
private Entry cen(ZipFileSystem zipfs, IndexNode inode)
throws IOException
{
byte[] cen = zipfs.cen;
int pos = inode.pos;
if (!cenSigAt(cen, pos))
zerror("invalid CEN header (bad signature)");
version = CENVER(cen, pos);
flag = CENFLG(cen, pos);
method = CENHOW(cen, pos);
mtime = dosToJavaTime(CENTIM(cen, pos));
crc = CENCRC(cen, pos);
csize = CENSIZ(cen, pos);
size = CENLEN(cen, pos);
int nlen = CENNAM(cen, pos);
int elen = CENEXT(cen, pos);
int clen = CENCOM(cen, pos);
locoff = CENOFF(cen, pos);
pos += CENHDR;
this.name = inode.name;
this.isdir = inode.isdir;
this.hashcode = inode.hashcode;
pos += nlen;
if (elen > 0) {
extra = Arrays.copyOfRange(cen, pos, pos + elen);
pos += elen;
readExtra(zipfs);
}
if (clen > 0) {
comment = Arrays.copyOfRange(cen, pos, pos + clen);
}
return this;
}
int writeCEN(OutputStream os) throws IOException {
int version0 = version();
long csize0 = csize;
long size0 = size;
long locoff0 = locoff;
int elen64 = 0;
int elenNTFS = 0;
int elenEXTT = 0;
boolean foundExtraTime = false;
byte[] zname = isdir ? toDirectoryPath(name) : name;
int nlen = (zname != null) ? zname.length - 1 : 0;
int elen = (extra != null) ? extra.length : 0;
int eoff = 0;
int clen = (comment != null) ? comment.length : 0;
if (csize >= ZIP64_MINVAL) {
csize0 = ZIP64_MINVAL;
elen64 += 8;
}
if (size >= ZIP64_MINVAL) {
size0 = ZIP64_MINVAL;
elen64 += 8;
}
if (locoff >= ZIP64_MINVAL) {
locoff0 = ZIP64_MINVAL;
elen64 += 8;
}
if (elen64 != 0) {
elen64 += 4;
}
while (eoff + 4 < elen) {
int tag = SH(extra, eoff);
int sz = SH(extra, eoff + 2);
if (tag == EXTID_EXTT || tag == EXTID_NTFS) {
foundExtraTime = true;
}
eoff += (4 + sz);
}
if (!foundExtraTime) {
if (isWindows) {
elenNTFS = 36;
} else {
elenEXTT = 9;
}
}
writeInt(os, CENSIG);
if (elen64 != 0) {
writeShort(os, 45);
writeShort(os, 45);
} else {
writeShort(os, version0);
writeShort(os, version0);
}
writeShort(os, flag);
writeShort(os, method);
writeInt(os, (int)javaToDosTime(mtime));
writeInt(os, crc);
writeInt(os, csize0);
writeInt(os, size0);
writeShort(os, nlen);
writeShort(os, elen + elen64 + elenNTFS + elenEXTT);
if (comment != null) {
writeShort(os, Math.min(clen, 0xffff));
} else {
writeShort(os, 0);
}
writeShort(os, 0);
writeShort(os, 0);
writeInt(os, 0);
writeInt(os, locoff0);
writeBytes(os, zname, 1, nlen);
if (elen64 != 0) {
writeShort(os, EXTID_ZIP64);
writeShort(os, elen64 - 4);
if (size0 == ZIP64_MINVAL)
writeLong(os, size);
if (csize0 == ZIP64_MINVAL)
writeLong(os, csize);
if (locoff0 == ZIP64_MINVAL)
writeLong(os, locoff);
}
if (elenNTFS != 0) {
writeShort(os, EXTID_NTFS);
writeShort(os, elenNTFS - 4);
writeInt(os, 0);
writeShort(os, 0x0001);
writeShort(os, 24);
writeLong(os, javaToWinTime(mtime));
writeLong(os, javaToWinTime(atime));
writeLong(os, javaToWinTime(ctime));
}
if (elenEXTT != 0) {
writeShort(os, EXTID_EXTT);
writeShort(os, elenEXTT - 4);
if (ctime == -1)
os.write(0x3);
else
os.write(0x7);
writeInt(os, javaToUnixTime(mtime));
}
if (extra != null)
writeBytes(os, extra);
if (comment != null)
writeBytes(os, comment);
return CENHDR + nlen + elen + clen + elen64 + elenNTFS + elenEXTT;
}
int writeLOC(OutputStream os) throws IOException {
int version0 = version();
byte[] zname = isdir ? toDirectoryPath(name) : name;
int nlen = (zname != null) ? zname.length - 1 : 0;
int elen = (extra != null) ? extra.length : 0;
boolean foundExtraTime = false;
int eoff = 0;
int elen64 = 0;
int elenEXTT = 0;
int elenNTFS = 0;
writeInt(os, LOCSIG);
if ((flag & FLAG_DATADESCR) != 0) {
writeShort(os, version0);
writeShort(os, flag);
writeShort(os, method);
writeInt(os, (int)javaToDosTime(mtime));
writeInt(os, 0);
writeInt(os, 0);
writeInt(os, 0);
} else {
if (csize >= ZIP64_MINVAL || size >= ZIP64_MINVAL) {
elen64 = 20;
writeShort(os, 45);
} else {
writeShort(os, version0);
}
writeShort(os, flag);
writeShort(os, method);
writeInt(os, (int)javaToDosTime(mtime));
writeInt(os, crc);
if (elen64 != 0) {
writeInt(os, ZIP64_MINVAL);
writeInt(os, ZIP64_MINVAL);
} else {
writeInt(os, csize);
writeInt(os, size);
}
}
while (eoff + 4 < elen) {
int tag = SH(extra, eoff);
int sz = SH(extra, eoff + 2);
if (tag == EXTID_EXTT || tag == EXTID_NTFS) {
foundExtraTime = true;
}
eoff += (4 + sz);
}
if (!foundExtraTime) {
if (isWindows) {
elenNTFS = 36;
} else {
elenEXTT = 9;
if (atime != -1)
elenEXTT += 4;
if (ctime != -1)
elenEXTT += 4;
}
}
writeShort(os, nlen);
writeShort(os, elen + elen64 + elenNTFS + elenEXTT);
writeBytes(os, zname, 1, nlen);
if (elen64 != 0) {
writeShort(os, EXTID_ZIP64);
writeShort(os, 16);
writeLong(os, size);
writeLong(os, csize);
}
if (elenNTFS != 0) {
writeShort(os, EXTID_NTFS);
writeShort(os, elenNTFS - 4);
writeInt(os, 0);
writeShort(os, 0x0001);
writeShort(os, 24);
writeLong(os, javaToWinTime(mtime));
writeLong(os, javaToWinTime(atime));
writeLong(os, javaToWinTime(ctime));
}
if (elenEXTT != 0) {
writeShort(os, EXTID_EXTT);
writeShort(os, elenEXTT - 4);
int fbyte = 0x1;
if (atime != -1)
fbyte |= 0x2;
if (ctime != -1)
fbyte |= 0x4;
os.write(fbyte);
writeInt(os, javaToUnixTime(mtime));
if (atime != -1)
writeInt(os, javaToUnixTime(atime));
if (ctime != -1)
writeInt(os, javaToUnixTime(ctime));
}
if (extra != null) {
writeBytes(os, extra);
}
return LOCHDR + nlen + elen + elen64 + elenNTFS + elenEXTT;
}
int writeEXT(OutputStream os) throws IOException {
writeInt(os, EXTSIG);
writeInt(os, crc);
if (csize >= ZIP64_MINVAL || size >= ZIP64_MINVAL) {
writeLong(os, csize);
writeLong(os, size);
return 24;
} else {
writeInt(os, csize);
writeInt(os, size);
return 16;
}
}
void (ZipFileSystem zipfs) throws IOException {
if (extra == null)
return;
int elen = extra.length;
int off = 0;
int newOff = 0;
while (off + 4 < elen) {
int pos = off;
int tag = SH(extra, pos);
int sz = SH(extra, pos + 2);
pos += 4;
if (pos + sz > elen)
break;
switch (tag) {
case EXTID_ZIP64 :
if (size == ZIP64_MINVAL) {
if (pos + 8 > elen)
break;
size = LL(extra, pos);
pos += 8;
}
if (csize == ZIP64_MINVAL) {
if (pos + 8 > elen)
break;
csize = LL(extra, pos);
pos += 8;
}
if (locoff == ZIP64_MINVAL) {
if (pos + 8 > elen)
break;
locoff = LL(extra, pos);
pos += 8;
}
break;
case EXTID_NTFS:
if (sz < 32)
break;
pos += 4;
if (SH(extra, pos) != 0x0001)
break;
if (SH(extra, pos + 2) != 24)
break;
mtime = winToJavaTime(LL(extra, pos + 4));
atime = winToJavaTime(LL(extra, pos + 12));
ctime = winToJavaTime(LL(extra, pos + 20));
break;
case EXTID_EXTT:
if (zipfs.noExtt) {
if (sz == 5)
mtime = unixToJavaTime(LG(extra, pos + 1));
break;
}
byte[] buf = new byte[LOCHDR];
if (zipfs.readFullyAt(buf, 0, buf.length , locoff)
!= buf.length)
throw new ZipException("loc: reading failed");
if (!locSigAt(buf, 0))
throw new ZipException("loc: wrong sig ->"
+ Long.toString(getSig(buf, 0), 16));
int locElen = LOCEXT(buf);
if (locElen < 9)
break;
int locNlen = LOCNAM(buf);
buf = new byte[locElen];
if (zipfs.readFullyAt(buf, 0, buf.length , locoff + LOCHDR + locNlen)
!= buf.length)
throw new ZipException("loc extra: reading failed");
int locPos = 0;
while (locPos + 4 < buf.length) {
int locTag = SH(buf, locPos);
int locSZ = SH(buf, locPos + 2);
locPos += 4;
if (locTag != EXTID_EXTT) {
locPos += locSZ;
continue;
}
int end = locPos + locSZ - 4;
int flag = CH(buf, locPos++);
if ((flag & 0x1) != 0 && locPos <= end) {
mtime = unixToJavaTime(LG(buf, locPos));
locPos += 4;
}
if ((flag & 0x2) != 0 && locPos <= end) {
atime = unixToJavaTime(LG(buf, locPos));
locPos += 4;
}
if ((flag & 0x4) != 0 && locPos <= end) {
ctime = unixToJavaTime(LG(buf, locPos));
locPos += 4;
}
break;
}
break;
default:
System.arraycopy(extra, off, extra, newOff, sz + 4);
newOff += (sz + 4);
}
off += (sz + 4);
}
if (newOff != 0 && newOff != extra.length)
extra = Arrays.copyOf(extra, newOff);
else
extra = null;
}
@Override
public FileTime creationTime() {
return FileTime.fromMillis(ctime == -1 ? mtime : ctime);
}
@Override
public boolean isDirectory() {
return isDir();
}
@Override
public boolean isOther() {
return false;
}
@Override
public boolean isRegularFile() {
return !isDir();
}
@Override
public FileTime lastAccessTime() {
return FileTime.fromMillis(atime == -1 ? mtime : atime);
}
@Override
public FileTime lastModifiedTime() {
return FileTime.fromMillis(mtime);
}
@Override
public long size() {
return size;
}
@Override
public boolean isSymbolicLink() {
return false;
}
@Override
public Object fileKey() {
return null;
}
public long compressedSize() {
return csize;
}
public long crc() {
return crc;
}
public int method() {
return method;
}
public byte[] () {
if (extra != null)
return Arrays.copyOf(extra, extra.length);
return null;
}
public byte[] () {
if (comment != null)
return Arrays.copyOf(comment, comment.length);
return null;
}
public String toString() {
StringBuilder sb = new StringBuilder(1024);
Formatter fm = new Formatter(sb);
fm.format(" name : %s%n", new String(name));
fm.format(" creationTime : %tc%n", creationTime().toMillis());
fm.format(" lastAccessTime : %tc%n", lastAccessTime().toMillis());
fm.format(" lastModifiedTime: %tc%n", lastModifiedTime().toMillis());
fm.format(" isRegularFile : %b%n", isRegularFile());
fm.format(" isDirectory : %b%n", isDirectory());
fm.format(" isSymbolicLink : %b%n", isSymbolicLink());
fm.format(" isOther : %b%n", isOther());
fm.format(" fileKey : %s%n", fileKey());
fm.format(" size : %d%n", size());
fm.format(" compressedSize : %d%n", compressedSize());
fm.format(" crc : %x%n", crc());
fm.format(" method : %d%n", method());
fm.close();
return sb.toString();
}
}
private static class ExistingChannelCloser {
private final Path path;
private final SeekableByteChannel ch;
private final Set<InputStream> streams;
ExistingChannelCloser(Path path,
SeekableByteChannel ch,
Set<InputStream> streams) {
this.path = path;
this.ch = ch;
this.streams = streams;
}
public boolean closeAndDeleteIfDone() throws IOException {
if (streams.isEmpty()) {
ch.close();
Files.delete(path);
return true;
}
return false;
}
}
private long zfsDefaultTimeStamp = System.currentTimeMillis();
private void removeFromTree(IndexNode inode) {
IndexNode parent = inodes.get(LOOKUPKEY.as(getParent(inode.name)));
IndexNode child = parent.child;
if (child.equals(inode)) {
parent.child = child.sibling;
} else {
IndexNode last = child;
while ((child = child.sibling) != null) {
if (child.equals(inode)) {
last.sibling = child.sibling;
break;
} else {
last = child;
}
}
}
}
static class ParentLookup extends IndexNode {
int len;
ParentLookup() {}
final ParentLookup as(byte[] name, int len) {
name(name, len);
return this;
}
void name(byte[] name, int len) {
this.name = name;
this.len = len;
int result = 1;
for (int i = 0; i < len; i++)
result = 31 * result + name[i];
this.hashcode = result;
}
@Override
public boolean equals(Object other) {
if (!(other instanceof IndexNode)) {
return false;
}
byte[] oname = ((IndexNode)other).name;
return Arrays.equals(name, 0, len,
oname, 0, oname.length);
}
}
private void buildNodeTree() throws IOException {
beginWrite();
try {
IndexNode root = inodes.get(LOOKUPKEY.as(ROOTPATH));
if (root == null) {
root = new IndexNode(ROOTPATH, true);
} else {
inodes.remove(root);
}
IndexNode[] nodes = inodes.keySet().toArray(new IndexNode[0]);
inodes.put(root, root);
ParentLookup lookup = new ParentLookup();
for (IndexNode node : nodes) {
IndexNode parent;
while (true) {
int off = getParentOff(node.name);
if (off <= 1) {
node.sibling = root.child;
root.child = node;
break;
}
lookup = lookup.as(node.name, off);
if (inodes.containsKey(lookup)) {
parent = inodes.get(lookup);
node.sibling = parent.child;
parent.child = node;
break;
}
parent = new IndexNode(Arrays.copyOf(node.name, off), true);
inodes.put(parent, parent);
node.sibling = parent.child;
parent.child = node;
node = parent;
}
}
} finally {
endWrite();
}
}
}