Mercurial > hg > icedtea8-forest > jdk
view src/share/demo/nio/zipfs/src/com/sun/nio/zipfs/ZipPath.java @ 14952:cb08a9788178
8061777: (zipfs) IllegalArgumentException in ZipCoder.toString when using Shitft_JIS
Reviewed-by: andrew
| author | sgehwolf |
|---|---|
| date | Mon, 22 Feb 2021 06:07:01 +0000 |
| parents | d13abc740e42 |
| children |
line wrap: on
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/* * Copyright (c) 2009, 2011, Oracle and/or its affiliates. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * - Neither the name of Oracle nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * This source code is provided to illustrate the usage of a given feature * or technique and has been deliberately simplified. Additional steps * required for a production-quality application, such as security checks, * input validation and proper error handling, might not be present in * this sample code. */ package com.sun.nio.zipfs; import java.io.*; import java.net.URI; import java.nio.channels.*; import java.nio.file.*; import java.nio.file.DirectoryStream.Filter; import java.nio.file.attribute.*; import java.util.*; import static java.nio.file.StandardOpenOption.*; import static java.nio.file.StandardCopyOption.*; /** * * @author Xueming Shen, Rajendra Gutupalli,Jaya Hangal */ public class ZipPath implements Path { private final ZipFileSystem zfs; private final byte[] path; private volatile int[] offsets; private int hashcode = 0; // cached hashcode (created lazily) ZipPath(ZipFileSystem zfs, byte[] path) { this(zfs, path, false); } ZipPath(ZipFileSystem zfs, byte[] path, boolean normalized) { this.zfs = zfs; if (normalized) { this.path = path; } else { if (zfs.zc.isUTF8()) { this.path = normalize(path); } else { // see normalize(String); this.path = normalize(zfs.getString(path)); } } } ZipPath(ZipFileSystem zfs, String path) { this.zfs = zfs; if (zfs.zc.isUTF8()) { this.path = normalize(zfs.getBytes(path)); } else { // see normalize(String); this.path = normalize(path); } } @Override public ZipPath getRoot() { if (this.isAbsolute()) return new ZipPath(zfs, new byte[]{path[0]}); else return null; } @Override public Path getFileName() { initOffsets(); int count = offsets.length; if (count == 0) return null; // no elements so no name if (count == 1 && path[0] != '/') return this; int lastOffset = offsets[count-1]; int len = path.length - lastOffset; byte[] result = new byte[len]; System.arraycopy(path, lastOffset, result, 0, len); return new ZipPath(zfs, result); } @Override public ZipPath getParent() { initOffsets(); int count = offsets.length; if (count == 0) // no elements so no parent return null; int len = offsets[count-1] - 1; if (len <= 0) // parent is root only (may be null) return getRoot(); byte[] result = new byte[len]; System.arraycopy(path, 0, result, 0, len); return new ZipPath(zfs, result); } @Override public int getNameCount() { initOffsets(); return offsets.length; } @Override public ZipPath getName(int index) { initOffsets(); if (index < 0 || index >= offsets.length) throw new IllegalArgumentException(); int begin = offsets[index]; int len; if (index == (offsets.length-1)) len = path.length - begin; else len = offsets[index+1] - begin - 1; // construct result byte[] result = new byte[len]; System.arraycopy(path, begin, result, 0, len); return new ZipPath(zfs, result); } @Override public ZipPath subpath(int beginIndex, int endIndex) { initOffsets(); if (beginIndex < 0 || beginIndex >= offsets.length || endIndex > offsets.length || beginIndex >= endIndex) throw new IllegalArgumentException(); // starting offset and length int begin = offsets[beginIndex]; int len; if (endIndex == offsets.length) len = path.length - begin; else len = offsets[endIndex] - begin - 1; // construct result byte[] result = new byte[len]; System.arraycopy(path, begin, result, 0, len); return new ZipPath(zfs, result); } @Override public ZipPath toRealPath(LinkOption... options) throws IOException { ZipPath realPath = new ZipPath(zfs, getResolvedPath()).toAbsolutePath(); realPath.checkAccess(); return realPath; } boolean isHidden() { return false; } @Override public ZipPath toAbsolutePath() { if (isAbsolute()) { return this; } else { //add / bofore the existing path byte[] defaultdir = zfs.getDefaultDir().path; int defaultlen = defaultdir.length; boolean endsWith = (defaultdir[defaultlen - 1] == '/'); byte[] t = null; if (endsWith) t = new byte[defaultlen + path.length]; else t = new byte[defaultlen + 1 + path.length]; System.arraycopy(defaultdir, 0, t, 0, defaultlen); if (!endsWith) t[defaultlen++] = '/'; System.arraycopy(path, 0, t, defaultlen, path.length); return new ZipPath(zfs, t, true); // normalized } } @Override public URI toUri() { try { return new URI("jar", zfs.getZipFile().toUri() + "!" + zfs.getString(toAbsolutePath().path), null); } catch (Exception ex) { throw new AssertionError(ex); } } private boolean equalsNameAt(ZipPath other, int index) { int mbegin = offsets[index]; int mlen = 0; if (index == (offsets.length-1)) mlen = path.length - mbegin; else mlen = offsets[index + 1] - mbegin - 1; int obegin = other.offsets[index]; int olen = 0; if (index == (other.offsets.length - 1)) olen = other.path.length - obegin; else olen = other.offsets[index + 1] - obegin - 1; if (mlen != olen) return false; int n = 0; while(n < mlen) { if (path[mbegin + n] != other.path[obegin + n]) return false; n++; } return true; } @Override public Path relativize(Path other) { final ZipPath o = checkPath(other); if (o.equals(this)) return new ZipPath(getFileSystem(), new byte[0], true); if (/* this.getFileSystem() != o.getFileSystem() || */ this.isAbsolute() != o.isAbsolute()) { throw new IllegalArgumentException(); } int mc = this.getNameCount(); int oc = o.getNameCount(); int n = Math.min(mc, oc); int i = 0; while (i < n) { if (!equalsNameAt(o, i)) break; i++; } int dotdots = mc - i; int len = dotdots * 3 - 1; if (i < oc) len += (o.path.length - o.offsets[i] + 1); byte[] result = new byte[len]; int pos = 0; while (dotdots > 0) { result[pos++] = (byte)'.'; result[pos++] = (byte)'.'; if (pos < len) // no tailing slash at the end result[pos++] = (byte)'/'; dotdots--; } if (i < oc) System.arraycopy(o.path, o.offsets[i], result, pos, o.path.length - o.offsets[i]); return new ZipPath(getFileSystem(), result); } @Override public ZipFileSystem getFileSystem() { return zfs; } @Override public boolean isAbsolute() { return (this.path.length > 0 && path[0] == '/'); } @Override public ZipPath resolve(Path other) { final ZipPath o = checkPath(other); if (o.isAbsolute()) return o; byte[] resolved = null; if (this.path[path.length - 1] == '/') { resolved = new byte[path.length + o.path.length]; System.arraycopy(path, 0, resolved, 0, path.length); System.arraycopy(o.path, 0, resolved, path.length, o.path.length); } else { resolved = new byte[path.length + 1 + o.path.length]; System.arraycopy(path, 0, resolved, 0, path.length); resolved[path.length] = '/'; System.arraycopy(o.path, 0, resolved, path.length + 1, o.path.length); } return new ZipPath(zfs, resolved); } @Override public Path resolveSibling(Path other) { if (other == null) throw new NullPointerException(); Path parent = getParent(); return (parent == null) ? other : parent.resolve(other); } @Override public boolean startsWith(Path other) { final ZipPath o = checkPath(other); if (o.isAbsolute() != this.isAbsolute() || o.path.length > this.path.length) return false; int olast = o.path.length; for (int i = 0; i < olast; i++) { if (o.path[i] != this.path[i]) return false; } olast--; return o.path.length == this.path.length || o.path[olast] == '/' || this.path[olast + 1] == '/'; } @Override public boolean endsWith(Path other) { final ZipPath o = checkPath(other); int olast = o.path.length - 1; if (olast > 0 && o.path[olast] == '/') olast--; int last = this.path.length - 1; if (last > 0 && this.path[last] == '/') last--; if (olast == -1) // o.path.length == 0 return last == -1; if ((o.isAbsolute() &&(!this.isAbsolute() || olast != last)) || (last < olast)) return false; for (; olast >= 0; olast--, last--) { if (o.path[olast] != this.path[last]) return false; } return o.path[olast + 1] == '/' || last == -1 || this.path[last] == '/'; } @Override public ZipPath resolve(String other) { return resolve(getFileSystem().getPath(other)); } @Override public final Path resolveSibling(String other) { return resolveSibling(getFileSystem().getPath(other)); } @Override public final boolean startsWith(String other) { return startsWith(getFileSystem().getPath(other)); } @Override public final boolean endsWith(String other) { return endsWith(getFileSystem().getPath(other)); } @Override public Path normalize() { byte[] resolved = getResolved(); if (resolved == path) // no change return this; return new ZipPath(zfs, resolved, true); } private ZipPath checkPath(Path path) { if (path == null) throw new NullPointerException(); if (!(path instanceof ZipPath)) throw new ProviderMismatchException(); return (ZipPath) path; } // create offset list if not already created private void initOffsets() { if (offsets == null) { int count, index; // count names count = 0; index = 0; while (index < path.length) { byte c = path[index++]; if (c != '/') { count++; while (index < path.length && path[index] != '/') index++; } } // populate offsets int[] result = new int[count]; count = 0; index = 0; while (index < path.length) { byte c = path[index]; if (c == '/') { index++; } else { result[count++] = index++; while (index < path.length && path[index] != '/') index++; } } synchronized (this) { if (offsets == null) offsets = result; } } } // resolved path for locating zip entry inside the zip file, // the result path does not contain ./ and .. components private volatile byte[] resolved = null; byte[] getResolvedPath() { byte[] r = resolved; if (r == null) { if (isAbsolute()) r = getResolved(); else r = toAbsolutePath().getResolvedPath(); if (r[0] == '/') r = Arrays.copyOfRange(r, 1, r.length); resolved = r; } return resolved; } // removes redundant slashs, replace "\" to zip separator "/" // and check for invalid characters private byte[] normalize(byte[] path) { if (path.length == 0) return path; byte prevC = 0; for (int i = 0; i < path.length; i++) { byte c = path[i]; if (c == '\\') return normalize(path, i); if (c == (byte)'/' && prevC == '/') return normalize(path, i - 1); if (c == '\u0000') throw new InvalidPathException(zfs.getString(path), "Path: nul character not allowed"); prevC = c; } return path; } private byte[] normalize(byte[] path, int off) { byte[] to = new byte[path.length]; int n = 0; while (n < off) { to[n] = path[n]; n++; } int m = n; byte prevC = 0; while (n < path.length) { byte c = path[n++]; if (c == (byte)'\\') c = (byte)'/'; if (c == (byte)'/' && prevC == (byte)'/') continue; if (c == '\u0000') throw new InvalidPathException(zfs.getString(path), "Path: nul character not allowed"); to[m++] = c; prevC = c; } if (m > 1 && to[m - 1] == '/') m--; return (m == to.length)? to : Arrays.copyOf(to, m); } // if zfs is NOT in utf8, normalize the path as "String" // to avoid incorrectly normalizing byte '0x5c' (as '\') // to '/'. private byte[] normalize(String path) { int len = path.length(); if (len == 0) return new byte[0]; char prevC = 0; for (int i = 0; i < len; i++) { char c = path.charAt(i); if (c == '\\' || c == '\u0000') return normalize(path, i, len); if (c == '/' && prevC == '/') return normalize(path, i - 1, len); prevC = c; } if (len > 1 && prevC == '/') path = path.substring(0, len - 1); return zfs.getBytes(path); } private byte[] normalize(String path, int off, int len) { StringBuilder to = new StringBuilder(len); to.append(path, 0, off); int m = off; char prevC = 0; while (off < len) { char c = path.charAt(off++); if (c == '\\') c = '/'; if (c == '/' && prevC == '/') continue; if (c == '\u0000') throw new InvalidPathException(path, "Path: nul character not allowed"); to.append(c); prevC = c; } len = to.length(); if (len > 1 && prevC == '/') to.delete(len -1, len); return zfs.getBytes(to.toString()); } // Remove DotSlash(./) and resolve DotDot (..) components private byte[] getResolved() { if (path.length == 0) return path; for (int i = 0; i < path.length; i++) { byte c = path[i]; if (c == (byte)'.') return resolve0(); } return path; } // TBD: performance, avoid initOffsets private byte[] resolve0() { byte[] to = new byte[path.length]; int nc = getNameCount(); int[] lastM = new int[nc]; int lastMOff = -1; int m = 0; for (int i = 0; i < nc; i++) { int n = offsets[i]; int len = (i == offsets.length - 1)? (path.length - n):(offsets[i + 1] - n - 1); if (len == 1 && path[n] == (byte)'.') { if (m == 0 && path[0] == '/') // absolute path to[m++] = '/'; continue; } if (len == 2 && path[n] == '.' && path[n + 1] == '.') { if (lastMOff >= 0) { m = lastM[lastMOff--]; // retreat continue; } if (path[0] == '/') { // "/../xyz" skip if (m == 0) to[m++] = '/'; } else { // "../xyz" -> "../xyz" if (m != 0 && to[m-1] != '/') to[m++] = '/'; while (len-- > 0) to[m++] = path[n++]; } continue; } if (m == 0 && path[0] == '/' || // absolute path m != 0 && to[m-1] != '/') { // not the first name to[m++] = '/'; } lastM[++lastMOff] = m; while (len-- > 0) to[m++] = path[n++]; } if (m > 1 && to[m - 1] == '/') m--; return (m == to.length)? to : Arrays.copyOf(to, m); } @Override public String toString() { return zfs.getString(path); } @Override public int hashCode() { int h = hashcode; if (h == 0) hashcode = h = Arrays.hashCode(path); return h; } @Override public boolean equals(Object obj) { return obj != null && obj instanceof ZipPath && this.zfs == ((ZipPath)obj).zfs && compareTo((Path) obj) == 0; } @Override public int compareTo(Path other) { final ZipPath o = checkPath(other); int len1 = this.path.length; int len2 = o.path.length; int n = Math.min(len1, len2); byte v1[] = this.path; byte v2[] = o.path; int k = 0; while (k < n) { int c1 = v1[k] & 0xff; int c2 = v2[k] & 0xff; if (c1 != c2) return c1 - c2; k++; } return len1 - len2; } public WatchKey register( WatchService watcher, WatchEvent.Kind<?>[] events, WatchEvent.Modifier... modifiers) { if (watcher == null || events == null || modifiers == null) { throw new NullPointerException(); } throw new UnsupportedOperationException(); } @Override public WatchKey register(WatchService watcher, WatchEvent.Kind<?>... events) { return register(watcher, events, new WatchEvent.Modifier[0]); } @Override public final File toFile() { throw new UnsupportedOperationException(); } @Override public Iterator<Path> iterator() { return new Iterator<Path>() { private int i = 0; @Override public boolean hasNext() { return (i < getNameCount()); } @Override public Path next() { if (i < getNameCount()) { Path result = getName(i); i++; return result; } else { throw new NoSuchElementException(); } } @Override public void remove() { throw new ReadOnlyFileSystemException(); } }; } ///////////////////////////////////////////////////////////////////// void createDirectory(FileAttribute<?>... attrs) throws IOException { zfs.createDirectory(getResolvedPath(), attrs); } InputStream newInputStream(OpenOption... options) throws IOException { if (options.length > 0) { for (OpenOption opt : options) { if (opt != READ) throw new UnsupportedOperationException("'" + opt + "' not allowed"); } } return zfs.newInputStream(getResolvedPath()); } DirectoryStream<Path> newDirectoryStream(Filter<? super Path> filter) throws IOException { return new ZipDirectoryStream(this, filter); } void delete() throws IOException { zfs.deleteFile(getResolvedPath(), true); } void deleteIfExists() throws IOException { zfs.deleteFile(getResolvedPath(), false); } ZipFileAttributes getAttributes() throws IOException { ZipFileAttributes zfas = zfs.getFileAttributes(getResolvedPath()); if (zfas == null) throw new NoSuchFileException(toString()); return zfas; } void setAttribute(String attribute, Object value, LinkOption... options) throws IOException { String type = null; String attr = null; int colonPos = attribute.indexOf(':'); if (colonPos == -1) { type = "basic"; attr = attribute; } else { type = attribute.substring(0, colonPos++); attr = attribute.substring(colonPos); } ZipFileAttributeView view = ZipFileAttributeView.get(this, type); if (view == null) throw new UnsupportedOperationException("view <" + view + "> is not supported"); view.setAttribute(attr, value); } void setTimes(FileTime mtime, FileTime atime, FileTime ctime) throws IOException { zfs.setTimes(getResolvedPath(), mtime, atime, ctime); } Map<String, Object> readAttributes(String attributes, LinkOption... options) throws IOException { String view = null; String attrs = null; int colonPos = attributes.indexOf(':'); if (colonPos == -1) { view = "basic"; attrs = attributes; } else { view = attributes.substring(0, colonPos++); attrs = attributes.substring(colonPos); } ZipFileAttributeView zfv = ZipFileAttributeView.get(this, view); if (zfv == null) { throw new UnsupportedOperationException("view not supported"); } return zfv.readAttributes(attrs); } FileStore getFileStore() throws IOException { // each ZipFileSystem only has one root (as requested for now) if (exists()) return zfs.getFileStore(this); throw new NoSuchFileException(zfs.getString(path)); } boolean isSameFile(Path other) throws IOException { if (this.equals(other)) return true; if (other == null || this.getFileSystem() != other.getFileSystem()) return false; this.checkAccess(); ((ZipPath)other).checkAccess(); return Arrays.equals(this.getResolvedPath(), ((ZipPath)other).getResolvedPath()); } SeekableByteChannel newByteChannel(Set<? extends OpenOption> options, FileAttribute<?>... attrs) throws IOException { return zfs.newByteChannel(getResolvedPath(), options, attrs); } FileChannel newFileChannel(Set<? extends OpenOption> options, FileAttribute<?>... attrs) throws IOException { return zfs.newFileChannel(getResolvedPath(), options, attrs); } void checkAccess(AccessMode... modes) throws IOException { boolean w = false; boolean x = false; for (AccessMode mode : modes) { switch (mode) { case READ: break; case WRITE: w = true; break; case EXECUTE: x = true; break; default: throw new UnsupportedOperationException(); } } ZipFileAttributes attrs = zfs.getFileAttributes(getResolvedPath()); if (attrs == null && (path.length != 1 || path[0] != '/')) throw new NoSuchFileException(toString()); if (w) { if (zfs.isReadOnly()) throw new AccessDeniedException(toString()); } if (x) throw new AccessDeniedException(toString()); } boolean exists() { if (path.length == 1 && path[0] == '/') return true; try { return zfs.exists(getResolvedPath()); } catch (IOException x) {} return false; } OutputStream newOutputStream(OpenOption... options) throws IOException { if (options.length == 0) return zfs.newOutputStream(getResolvedPath(), CREATE, TRUNCATE_EXISTING, WRITE); return zfs.newOutputStream(getResolvedPath(), options); } void move(ZipPath target, CopyOption... options) throws IOException { if (Files.isSameFile(this.zfs.getZipFile(), target.zfs.getZipFile())) { zfs.copyFile(true, getResolvedPath(), target.getResolvedPath(), options); } else { copyToTarget(target, options); delete(); } } void copy(ZipPath target, CopyOption... options) throws IOException { if (Files.isSameFile(this.zfs.getZipFile(), target.zfs.getZipFile())) zfs.copyFile(false, getResolvedPath(), target.getResolvedPath(), options); else copyToTarget(target, options); } private void copyToTarget(ZipPath target, CopyOption... options) throws IOException { boolean replaceExisting = false; boolean copyAttrs = false; for (CopyOption opt : options) { if (opt == REPLACE_EXISTING) replaceExisting = true; else if (opt == COPY_ATTRIBUTES) copyAttrs = true; } // attributes of source file ZipFileAttributes zfas = getAttributes(); // check if target exists boolean exists; if (replaceExisting) { try { target.deleteIfExists(); exists = false; } catch (DirectoryNotEmptyException x) { exists = true; } } else { exists = target.exists(); } if (exists) throw new FileAlreadyExistsException(target.toString()); if (zfas.isDirectory()) { // create directory or file target.createDirectory(); } else { InputStream is = zfs.newInputStream(getResolvedPath()); try { OutputStream os = target.newOutputStream(); try { byte[] buf = new byte[8192]; int n = 0; while ((n = is.read(buf)) != -1) { os.write(buf, 0, n); } } finally { os.close(); } } finally { is.close(); } } if (copyAttrs) { BasicFileAttributeView view = ZipFileAttributeView.get(target, BasicFileAttributeView.class); try { view.setTimes(zfas.lastModifiedTime(), zfas.lastAccessTime(), zfas.creationTime()); } catch (IOException x) { // rollback? try { target.delete(); } catch (IOException ignore) { } throw x; } } } }