Example #1
0
 private static boolean mv0(
     final java.io.File src, final java.io.File dst, final ArchiveDetector detector) {
   boolean ok = true;
   if (src.isDirectory()) {
     final long srcLastModified = src.lastModified();
     final boolean srcIsArchived = src instanceof File && ((File) src).getInnerArchive() != null;
     final boolean dstIsArchived = dst instanceof File && ((File) dst).getInnerArchive() != null;
     final boolean srcIsGhost = srcIsArchived && srcLastModified <= 0;
     if (!srcIsGhost || !dstIsArchived || !File.isLenient()) dst.mkdir();
     final String[] members = src.list();
     if (!srcIsArchived && dstIsArchived) {
       // Create sorted entries if writing a new archive file.
       // This is courtesy only, so natural order is sufficient.
       Arrays.sort(members);
     }
     for (int i = 0, l = members.length; i < l; i++) {
       final String member = members[i];
       ok &= mv0(detector.createFile(src, member), detector.createFile(dst, member), detector);
     }
     if (!srcIsGhost) ok &= dst.setLastModified(srcLastModified);
   } else if (src.isFile()) { // !isDirectory()
     try {
       cp(true, src, dst);
     } catch (IOException ex) {
       ok = false;
     }
   } else {
     ok = false; // don't move special files!
   }
   return ok && src.delete(); // only unlink if ok!
 }
Example #2
0
 /**
  * Removes the entire directory tree represented by the parameter, regardless whether it's a file
  * or directory, whether the directory is empty or not or whether the file or directory is
  * actually an archive file, an entry in an archive file or not enclosed in an archive file at
  * all.
  *
  * <p>The name of this method is inspired by the Unix command line utility <code>rm</code> with
  * the <code>-r</code> option to operate recursively.
  *
  * <p>This file system operation is <em>not</em> atomic.
  *
  * @return Whether or not the entire directory tree was successfully removed.
  */
 public static boolean rm_r(final java.io.File file) {
   boolean ok = true;
   if (file.isDirectory()) {
     // Note that listing the directory this way will cause a recursive
     // deletion if the directory is actually an archive file.
     // Although this does not provide best performance (the archive
     // file could simply be removed like an ordinary file), it ensures
     // that the state cached by the ArchiveController is not bypassed
     // and hence prevents a potential bug.
     java.io.File[] members = file.listFiles();
     for (int i = members.length; --i >= 0; ) ok &= rm_r(members[i]);
   }
   return ok && file.delete();
 }
Example #3
0
  /** Unchecked parameters version. */
  private static void cp0(final boolean preserve, final java.io.File src, final java.io.File dst)
      throws IOException {
    assert src != null;
    assert dst != null;

    try {
      try {
        if (src instanceof File) {
          final File srcFile = (File) src;
          srcFile.ensureNotVirtualRoot("cannot read");
          final String srcEntryName = srcFile.getEnclEntryName();
          if (srcEntryName != null) {
            cp0(preserve, srcFile.getEnclArchive().getArchiveController(), srcEntryName, dst);
            return;
          }
        }
      } catch (RfsEntryFalsePositiveException srcIsNotArchive) {
      }

      // Treat the source like a regular file.
      final InputStream in = new java.io.FileInputStream(src);
      try {
        cp0(preserve, src, in, dst);
      } finally {
        try {
          in.close();
        } catch (IOException ex) {
          throw new InputIOException(ex);
        }
      }
    } catch (FileNotFoundException ex) {
      throw ex;
    } catch (ArchiveBusyException ex) {
      throw new FileBusyException(ex);
    } catch (ArchiveFileSystemException afse) {
      final FileNotFoundException fnfe = new FileNotFoundException(afse.toString());
      fnfe.initCause(afse);
      throw fnfe;
    } catch (IOException ex) {
      dst.delete();
      throw ex;
    }
  }
Example #4
0
  /**
   * Returns <code>true</code> if the given file exists or can be created and at least one byte can
   * be successfully written to it - the file is restored to its previous state afterwards. This is
   * a much stronger test than {@link File#canWrite()}.
   *
   * <p>Please note that if the file is actually open for reading or other activities this method
   * may not be able to reset the last modification time of the file after testing, in which case
   * <code>false</code> is returned. This is known to apply to the Windows platform, but not on Unix
   * platforms.
   */
  public static boolean isWritableOrCreatable(final java.io.File file) {
    try {
      if (!file.exists()) {
        final boolean created = file.createNewFile();
        boolean ok = isWritableOrCreatable(file);
        if (created && !file.delete()) ok = false; // be conservative!
        return ok;
      } else if (file.canWrite()) {
        // Some operating and file system combinations make File.canWrite()
        // believe that the file is writable although it's not.
        // We are not that gullible, so let's test this...
        final long time = file.lastModified();
        if (!file.setLastModified(time + 1)) {
          // This may happen on Windows and normally means that
          // somebody else has opened this file
          // (regardless of read or write mode).
          // Be conservative: We don't allow writing to this file!
          return false;
        }

        boolean ok;
        try {
          // Open the file for reading and writing, requiring any
          // update to its contents to be written to the filesystem
          // synchronously.
          // As Dr. Simon White from Catalysoft, Cambridge, UK reported,
          // "rws" does NOT work on Mac OS X with Apple's Java 1.5
          // Release 1 (equivalent to Sun's Java 1.5.0_02), however
          // it DOES work with Apple's Java 1.5 Release 3.
          // He also confirmed that "rwd" works on Apple's
          // Java 1.5 Release 1, so we use this instead.
          // Thank you very much for spending the time to fix this
          // issue, Dr. White!
          final RandomAccessFile raf = new RandomAccessFile(file, "rwd");
          try {
            final boolean empty;
            int octet = raf.read();
            if (octet == -1) {
              octet = 0; // assume first byte is 0
              empty = true;
            } else {
              empty = false;
            }

            // Let's test if we can (over)write the first byte.
            raf.seek(0);
            raf.write((octet ^ -1) & 0xFF); // write complement
            try {
              // Rewrite original content and check success.
              raf.seek(0);
              raf.write(octet);
              raf.seek(0);
              final int check = raf.read();
              // This should always return true unless the storage
              // device is faulty.
              ok = octet == check;
            } finally {
              if (empty) raf.setLength(0);
            }
          } finally {
            raf.close();
          }
        } finally {
          if (!file.setLastModified(time)) {
            // This may happen on Windows and normally means that
            // somebody else has opened this file meanwhile
            // (regardless of read or write mode).
            // Be conservative: We don't allow (further) writing to
            // this file!
            ok = false;
          }
        }
        return ok;
      } else { // if (file.exists() && !file.canWrite()) {
        return false;
      }
    } catch (IOException ex) {
      return false; // don't allow writing if anything goes wrong!
    }
  }