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VFS.java
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VFS.java
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/*
* JBoss, Home of Professional Open Source
* Copyright 2006, JBoss Inc., and individual contributors as indicated
* by the @authors tag. See the copyright.txt in the distribution for a
* full listing of individual contributors.
*
* This is free software; you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License as
* published by the Free Software Foundation; either version 2.1 of
* the License, or (at your option) any later version.
*
* This software 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this software; if not, write to the Free
* Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
* 02110-1301 USA, or see the FSF site: http://www.fsf.org.
*/
package org.jboss.vfs;
import java.io.Closeable;
import java.io.File;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.net.URI;
import java.net.URISyntaxException;
import java.net.URL;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.util.AbstractSet;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.atomic.AtomicBoolean;
import org.jboss.logging.Logger;
import org.jboss.net.protocol.URLStreamHandlerFactory;
import org.jboss.vfs.spi.AssemblyFileSystem;
import org.jboss.vfs.spi.FileSystem;
import org.jboss.vfs.spi.JavaZipFileSystem;
import org.jboss.vfs.spi.MountHandle;
import org.jboss.vfs.spi.RealFileSystem;
import org.jboss.vfs.spi.RootFileSystem;
/**
* Virtual File System
*
* @author <a href="adrian@jboss.com">Adrian Brock</a>
* @author Scott.Stark@jboss.org
* @author <a href="ales.justin@jboss.com">Ales Justin</a>
* @author <a href="mailto:david.lloyd@redhat.com">David M. Lloyd</a>
* @version $Revision: 1.1 $
*/
public class VFS {
private static final Logger log = Logger.getLogger("org.jboss.vfs");
public static final boolean LEAK_DEBUGGING;
public static final boolean FORCE_CANONICAL;
private static final ConcurrentMap<VirtualFile, Map<String, Mount>> mounts = new ConcurrentHashMap<VirtualFile, Map<String, Mount>>();
private static final VirtualFile rootVirtualFile = createDefaultRoot();
private static VirtualFile createDefaultRoot() {
return isWindows() ? getChild("/") : new VirtualFile("/", null);
}
// Note that rootVirtualFile is ignored by RootFS
private static final Mount rootMount = new Mount(RootFileSystem.ROOT_INSTANCE, rootVirtualFile);
// todo - LRU VirtualFiles?
// todo - LRU String intern?
static {
init();
LEAK_DEBUGGING = AccessController.doPrivileged(new PrivilegedAction<Boolean>() {
public Boolean run() {
return Boolean.valueOf(System.getProperty("jboss.vfs.leakDebugging", "true"));
}
}).booleanValue();
FORCE_CANONICAL = AccessController.doPrivileged(new PrivilegedAction<Boolean>() {
public Boolean run() {
return Boolean.valueOf(System.getProperty("jboss.vfs.forceCanonical", "false"));
}
}).booleanValue();
if (FORCE_CANONICAL)
log.info("Canonical path lookup enabled.");
}
/**
* Do not allow construction
*/
private VFS() {
}
/**
* Initialize VFS protocol handlers package property.
*/
private static void init() {
// If this doesn't work, hopefully the existing URLStreamHandlerFactory supports updates to the 'java.protocol.handler.pkgs' property.
try {
URL.setURLStreamHandlerFactory(new URLStreamHandlerFactory());
} catch (Throwable ignored) {
log.warn("VFS was unable to set the URLStreamHandlerFactory. This will have unpredictable results");
}
String pkgs = System.getProperty("java.protocol.handler.pkgs");
if (pkgs == null || pkgs.trim().length() == 0) {
pkgs = "org.jboss.net.protocol|org.jboss.vfs.protocol";
System.setProperty("java.protocol.handler.pkgs", pkgs);
} else if (pkgs.contains("org.jboss.vfs.protocol") == false) {
if(pkgs.contains("org.jboss.net.protocol") == false)
pkgs += "|org.jboss.net.protocol";
pkgs += "|org.jboss.vfs.protocol";
System.setProperty("java.protocol.handler.pkgs", pkgs);
}
}
/**
* Mount a filesystem on a mount point in the VFS. The mount point is any valid file name, existant or non-existant.
* If a relative path is given, it will be treated as relative to the VFS root.
*
* @param mountPoint the mount point
* @param fileSystem the file system to mount
*
* @return a handle which can be used to unmount the filesystem
*
* @throws IOException if an I/O error occurs, such as a filesystem already being mounted at the given mount point
*/
public static Closeable mount(VirtualFile mountPoint, FileSystem fileSystem) throws IOException {
final VirtualFile parent = mountPoint.getParent();
if (parent == null) {
throw new IOException("Root filsystem already mounted");
}
final String name = mountPoint.getName();
final Mount mount = new Mount(fileSystem, mountPoint);
final ConcurrentMap<VirtualFile, Map<String, Mount>> mounts = VFS.mounts;
for (; ;) {
Map<String, Mount> childMountMap = mounts.get(parent);
Map<String, Mount> newMap;
if (childMountMap == null) {
childMountMap = mounts.putIfAbsent(parent, Collections.singletonMap(name, mount));
if (childMountMap == null) {
return mount;
}
}
newMap = new HashMap<String, Mount>(childMountMap);
if (newMap.put(name, mount) != null) {
throw new IOException("Filsystem already mounted at mount point \"" + mountPoint + "\"");
}
if (mounts.replace(parent, childMountMap, newMap)) {
log.tracef("Mounted filesystem %s on mount point %s", fileSystem, mountPoint);
return mount;
}
}
}
/**
* Find a virtual file.
*
* @param url the URL whose path component is the child path
*
* @return the child
*
* @throws IllegalArgumentException if the path is null
* @throws java.net.URISyntaxException for any uri error
* @deprecated use getChild(URI) instead
*/
@Deprecated
public static VirtualFile getChild(URL url) throws URISyntaxException {
return getChild(url.toURI());
}
private static boolean isWindows()
{
// Not completely accurate, but good enough
return File.separatorChar == '\\';
}
/**
* Find a virtual file.
*
* @param uri the URI whose path component is the child path
*
* @return the child
*
* @throws IllegalArgumentException if the path is null
*/
public static VirtualFile getChild(URI uri) {
return getChild(uri.getPath());
}
/**
* Find a virtual file.
*
* @param path the child path
*
* @return the child
*
* @throws IllegalArgumentException if the path is null
*/
public static VirtualFile getChild(String path) {
if (path == null)
throw new IllegalArgumentException("Null path");
VirtualFile root = null;
if (isWindows()) {
// Normalize the path using java.io.File
// TODO Consider creating our own normalization routine, which would
// allow for testing on non-Windows
String absolute = new File(path).getAbsolutePath();
if (absolute.length() > 2) {
if (absolute.charAt(1) == ':') {
// Drive form
root = new VirtualFile("/" + absolute.charAt(0) + ":/", null);
path = absolute.substring(2).replace('\\', '/');
} else if (absolute.charAt(0) == '\\' && absolute.charAt(1) == '\\') {
// UNC form
for (int i = 2; i < absolute.length(); i++) {
if (absolute.charAt(i) == '\\') {
// Switch \\ to // just like java file URLs.
// Note, it turns out that File.toURL puts this portion
// in the path portion of the URL, which is actually not
// correct, since // is supposed to signify the authority.
root = new VirtualFile("//" + absolute.substring(0,i), null);
path = absolute.substring(i).replace('\\', '/');
break;
}
}
}
}
if (root == null)
throw new IllegalArgumentException("Invalid Win32 path: " + path);
} else {
root = rootVirtualFile;
}
return root.getChild(path);
}
/**
* Get the root virtual file for this VFS instance.
*
* @return the root virtual file
*/
public static VirtualFile getRootVirtualFile() {
return rootVirtualFile;
}
/**
* Get the children
*
* @return the children
*
* @throws IOException for any problem accessing the virtual file system
*/
public static List<VirtualFile> getChildren() throws IOException {
return getRootVirtualFile().getChildren(null);
}
/**
* Get the children
*
* @param filter to filter the children
*
* @return the children
*
* @throws IOException for any problem accessing the virtual file system
*/
public static List<VirtualFile> getChildren(VirtualFileFilter filter) throws IOException {
return getRootVirtualFile().getChildren(filter);
}
/**
* Get all the children recursively<p>
* <p/>
* This always uses {@link VisitorAttributes#RECURSE}
*
* @return the children
*
* @throws IOException for any problem accessing the virtual file system
*/
public static List<VirtualFile> getChildrenRecursively() throws IOException {
return getRootVirtualFile().getChildrenRecursively(null);
}
/**
* Get all the children recursively<p>
* <p/>
* This always uses {@link VisitorAttributes#RECURSE}
*
* @param filter to filter the children
*
* @return the children
*
* @throws IOException for any problem accessing the virtual file system
*/
public static List<VirtualFile> getChildrenRecursively(VirtualFileFilter filter) throws IOException {
return getRootVirtualFile().getChildrenRecursively(filter);
}
/**
* Visit the virtual file system from the root
*
* @param visitor the visitor
*
* @throws IOException for any problem accessing the VFS
* @throws IllegalArgumentException if the visitor is null
*/
public static void visit(VirtualFileVisitor visitor) throws IOException {
visitor.visit(getRootVirtualFile());
}
/**
* Visit the virtual file system
*
* @param file the file
* @param visitor the visitor
*
* @throws IOException for any problem accessing the VFS
* @throws IllegalArgumentException if the file or visitor is null
*/
protected static void visit(VirtualFile file, VirtualFileVisitor visitor) throws IOException {
if (file == null)
throw new IllegalArgumentException("Null file");
visitor.visit(file);
}
static Mount getMount(VirtualFile virtualFile) {
final ConcurrentMap<VirtualFile, Map<String, Mount>> mounts = VFS.mounts;
for (; ;) {
final VirtualFile parent = virtualFile.getParent();
if (parent == null) {
return rootMount;
}
final Map<String, Mount> parentMounts = mounts.get(parent);
if (parentMounts == null) {
virtualFile = parent;
} else {
final Mount mount = parentMounts.get(virtualFile.getName());
if (mount == null) {
virtualFile = parent;
} else {
return mount;
}
}
}
}
/**
* Get all immediate submounts for a path.
*
* @param virtualFile the path
*
* @return the collection of present mount (simple) names
*/
static Set<String> getSubmounts(VirtualFile virtualFile) {
final ConcurrentMap<VirtualFile, Map<String, Mount>> mounts = VFS.mounts;
final Map<String, Mount> mountMap = mounts.get(virtualFile);
if (mountMap == null) {
return emptyRemovableSet();
}
return new HashSet<String>(mountMap.keySet());
}
private static MountHandle doMount(final FileSystem fileSystem, final VirtualFile mountPoint, Closeable... additionalCloseables) throws IOException {
boolean ok = false;
try {
final Closeable mountHandle = mount(mountPoint, fileSystem);
ok = true;
return new BasicMountHandle(fileSystem, mountHandle, additionalCloseables);
} finally {
if (!ok) {
VFSUtils.safeClose(fileSystem);
}
}
}
/**
* Create and mount a zip file into the filesystem, returning a single handle which will unmount and close the file
* system when closed.
*
* @param zipFile the zip file to mount
* @param mountPoint the point at which the filesystem should be mounted
* @param tempFileProvider the temporary file provider
*
* @return a handle
*
* @throws IOException if an error occurs
*/
public static Closeable mountZip(File zipFile, VirtualFile mountPoint, TempFileProvider tempFileProvider) throws IOException {
boolean ok = false;
final TempDir tempDir = tempFileProvider.createTempDir(zipFile.getName());
try {
final MountHandle handle = doMount(new JavaZipFileSystem(zipFile, tempDir), mountPoint);
ok = true;
return handle;
} finally {
if (!ok) {
VFSUtils.safeClose(tempDir);
}
}
}
/**
* Create and mount a zip file into the filesystem, returning a single handle which will unmount and close the file
* system when closed.
*
* @param zipData an input stream containing the zip data
* @param zipName the name of the archive
* @param mountPoint the point at which the filesystem should be mounted
* @param tempFileProvider the temporary file provider
*
* @return a handle
*
* @throws IOException if an error occurs
*/
public static Closeable mountZip(InputStream zipData, String zipName, VirtualFile mountPoint, TempFileProvider tempFileProvider) throws IOException {
boolean ok = false;
try {
final TempDir tempDir = tempFileProvider.createTempDir(zipName);
try {
final MountHandle handle = doMount(new JavaZipFileSystem(zipName, zipData, tempDir), mountPoint);
ok = true;
return handle;
} finally {
if (!ok) {
VFSUtils.safeClose(tempDir);
}
}
} finally {
VFSUtils.safeClose(zipData);
}
}
/**
* Create and mount a zip file into the filesystem, returning a single handle which will unmount and close the file
* system when closed.
*
* @param zipFile a zip file in the VFS
* @param mountPoint the point at which the filesystem should be mounted
* @param tempFileProvider the temporary file provider
*
* @return a handle
*
* @throws IOException if an error occurs
*/
public static Closeable mountZip(VirtualFile zipFile, VirtualFile mountPoint, TempFileProvider tempFileProvider) throws IOException {
return mountZip(zipFile.openStream(), zipFile.getName(), mountPoint, tempFileProvider);
}
/**
* Create and mount a real file system, returning a single handle which will unmount and close the filesystem when
* closed.
*
* @param realRoot the real filesystem root
* @param mountPoint the point at which the filesystem should be mounted
*
* @return a handle
*
* @throws IOException if an error occurs
*/
public static Closeable mountReal(File realRoot, VirtualFile mountPoint) throws IOException {
return doMount(new RealFileSystem(realRoot), mountPoint);
}
/**
* Create and mount a temporary file system, returning a single handle which will unmount and close the filesystem
* when closed.
*
* @param mountPoint the point at which the filesystem should be mounted
* @param tempFileProvider the temporary file provider
*
* @return a handle
*
* @throws IOException if an error occurs
*/
public static Closeable mountTemp(VirtualFile mountPoint, TempFileProvider tempFileProvider) throws IOException {
boolean ok = false;
final TempDir tempDir = tempFileProvider.createTempDir("tmpfs");
try {
final MountHandle handle = doMount(new RealFileSystem(tempDir.getRoot()), mountPoint, tempDir);
ok = true;
return handle;
} finally {
if (!ok) {
VFSUtils.safeClose(tempDir);
}
}
}
/**
* Create and mount an expanded zip file in a temporary file system, returning a single handle which will unmount and
* close the filesystem when closed.
*
* @param zipFile the zip file to mount
* @param mountPoint the point at which the filesystem should be mounted
* @param tempFileProvider the temporary file provider
*
* @return a handle
*
* @throws IOException if an error occurs
*/
public static Closeable mountZipExpanded(File zipFile, VirtualFile mountPoint, TempFileProvider tempFileProvider) throws IOException {
boolean ok = false;
final TempDir tempDir = tempFileProvider.createTempDir(zipFile.getName());
try {
final File rootFile = tempDir.getRoot();
VFSUtils.unzip(zipFile, rootFile);
final MountHandle handle = doMount(new RealFileSystem(rootFile), mountPoint, tempDir);
ok = true;
return handle;
} finally {
if (!ok) {
VFSUtils.safeClose(tempDir);
}
}
}
/**
* Create and mount an expanded zip file in a temporary file system, returning a single handle which will unmount and
* close the filesystem when closed. The given zip data stream is closed.
*
* @param zipData an input stream containing the zip data
* @param zipName the name of the archive
* @param mountPoint the point at which the filesystem should be mounted
* @param tempFileProvider the temporary file provider
*
* @return a handle
*
* @throws IOException if an error occurs
*/
public static Closeable mountZipExpanded(InputStream zipData, String zipName, VirtualFile mountPoint, TempFileProvider tempFileProvider) throws IOException {
try {
boolean ok = false;
final TempDir tempDir = tempFileProvider.createTempDir(zipName);
try {
final File zipFile = File.createTempFile(zipName + "-", ".tmp", tempDir.getRoot());
try {
final FileOutputStream os = new FileOutputStream(zipFile);
try {
// allow an error on close to terminate the unzip
VFSUtils.copyStream(zipData, os);
zipData.close();
os.close();
} finally {
VFSUtils.safeClose(zipData);
VFSUtils.safeClose(os);
}
final File rootFile = tempDir.getRoot();
VFSUtils.unzip(zipFile, rootFile);
final MountHandle handle = doMount(new RealFileSystem(rootFile), mountPoint, tempDir);
ok = true;
return handle;
} finally {
//noinspection ResultOfMethodCallIgnored
zipFile.delete();
}
} finally {
if (!ok) {
VFSUtils.safeClose(tempDir);
}
}
} finally {
VFSUtils.safeClose(zipData);
}
}
/**
* Create and mount an expanded zip file in a temporary file system, returning a single handle which will unmount and
* close the filesystem when closed. The given zip data stream is closed.
*
* @param zipFile a zip file in the VFS
* @param mountPoint the point at which the filesystem should be mounted
* @param tempFileProvider the temporary file provider
*
* @return a handle
*
* @throws IOException if an error occurs
*/
public static Closeable mountZipExpanded(VirtualFile zipFile, VirtualFile mountPoint, TempFileProvider tempFileProvider) throws IOException {
return mountZipExpanded(zipFile.openStream(), zipFile.getName(), mountPoint, tempFileProvider);
}
/**
* Create and mount an assembly file system, returning a single handle which will unmount and
* close the filesystem when closed.
*
* @param assembly an {@link VirtualFileAssembly} to mount in the VFS
* @param mountPoint the point at which the filesystem should be mounted
* @return a handle
*
* @throws IOException if an error occurs
*/
public static Closeable mountAssembly(VirtualFileAssembly assembly, VirtualFile mountPoint) throws IOException {
return doMount(new AssemblyFileSystem(assembly), mountPoint);
}
@SuppressWarnings({ "unchecked" })
private static <E> Set<E> emptyRemovableSet() {
return EMPTY_REMOVABLE_SET;
}
@SuppressWarnings("unchecked")
private static final Set EMPTY_REMOVABLE_SET = new EmptyRemovableSet();
private static final class EmptyRemovableSet<E> extends AbstractSet<E> {
public boolean remove(Object o) {
return false;
}
public boolean retainAll(Collection<?> c) {
return false;
}
public void clear() {
}
public Iterator<E> iterator() {
return Collections.<E>emptySet().iterator();
}
public int size() {
return 0;
}
}
/**
* The mount representation. This instance represents a binding between a position in the virtual filesystem and the
* backing filesystem implementation; the same {@code FileSystem} may be mounted in more than one place, however only
* one {@code FileSystem} may be bound to a specific path at a time.
*/
final static class Mount implements Closeable {
private final FileSystem fileSystem;
private final VirtualFile mountPoint;
private final StackTraceElement[] allocationPoint;
private final AtomicBoolean closed = new AtomicBoolean(false);
Mount(FileSystem fileSystem, VirtualFile mountPoint) {
this.fileSystem = fileSystem;
this.mountPoint = mountPoint;
allocationPoint = Thread.currentThread().getStackTrace();
}
public void close() throws IOException {
if (closed.getAndSet(true)) {
return;
}
final String name = mountPoint.getName();
final VirtualFile parent = mountPoint.getParent();
final ConcurrentMap<VirtualFile, Map<String, Mount>> mounts = VFS.mounts;
for (; ;) {
final Map<String, Mount> parentMounts = mounts.get(parent);
if (parentMounts == null) {
return;
}
final VFS.Mount mount = parentMounts.get(name);
if (mount != this) {
return;
}
final Map<String, Mount> newParentMounts;
if (parentMounts.size() == 2) {
final Iterator<Map.Entry<String, Mount>> ei = parentMounts.entrySet().iterator();
final Map.Entry<String, Mount> e1 = ei.next();
if (e1.getKey().equals(name)) {
final Map.Entry<String, Mount> e2 = ei.next();
newParentMounts = Collections.singletonMap(e2.getKey(), e2.getValue());
} else {
newParentMounts = Collections.singletonMap(e1.getKey(), e1.getValue());
}
if (mounts.replace(parent, parentMounts, newParentMounts)) {
log.tracef("Unmounted filesystem %s on mount point %s", fileSystem, mountPoint);
return;
}
} else if (parentMounts.size() == 1) {
if (mounts.remove(parent, parentMounts)) {
log.tracef("Unmounted filesystem %s on mount point %s", fileSystem, mountPoint);
return;
}
} else {
newParentMounts = new HashMap<String, Mount>(parentMounts);
newParentMounts.remove(name);
if (mounts.replace(parent, parentMounts, newParentMounts)) {
log.tracef("Unmounted filesystem %s on mount point %s", fileSystem, mountPoint);
return;
}
}
}
}
FileSystem getFileSystem() {
return fileSystem;
}
VirtualFile getMountPoint() {
return mountPoint;
}
@SuppressWarnings({"FinalizeDoesntCallSuperFinalize"})
protected void finalize() throws IOException {
if (!closed.get()) {
final StackTraceElement[] allocationPoint = this.allocationPoint;
if (allocationPoint != null) {
final LeakDescriptor t = new LeakDescriptor();
t.setStackTrace(allocationPoint);
log.warnf(t, "A VFS mount (%s) was leaked!", mountPoint);
} else {
log.warnf("A VFS mount (%s) was leaked!", mountPoint);
}
close();
}
}
}
private static final class LeakDescriptor extends Throwable {
private static final long serialVersionUID = 6034058126740270584L;
public String toString() {
return "Allocation stack trace:";
}
}
}