Beispiel #1
1
  /** Test copy from an input stream to a file */
  static void testCopyInputStreamToFile() throws IOException {
    testCopyInputStreamToFile(0);
    for (int i = 0; i < 100; i++) {
      testCopyInputStreamToFile(rand.nextInt(32000));
    }

    // FileAlreadyExistsException
    Path target = createTempFile("blah", null);
    try {
      InputStream in = new ByteArrayInputStream(new byte[0]);
      try {
        copy(in, target);
        throw new RuntimeException("FileAlreadyExistsException expected");
      } catch (FileAlreadyExistsException ignore) {
      }
    } finally {
      delete(target);
    }
    Path tmpdir = createTempDirectory("blah");
    try {
      if (TestUtil.supportsLinks(tmpdir)) {
        Path link = createSymbolicLink(tmpdir.resolve("link"), tmpdir.resolve("target"));
        try {
          InputStream in = new ByteArrayInputStream(new byte[0]);
          try {
            copy(in, link);
            throw new RuntimeException("FileAlreadyExistsException expected");
          } catch (FileAlreadyExistsException ignore) {
          }
        } finally {
          delete(link);
        }
      }
    } finally {
      delete(tmpdir);
    }

    // nulls
    try {
      copy((InputStream) null, target);
      throw new RuntimeException("NullPointerException expected");
    } catch (NullPointerException ignore) {
    }
    try {
      copy(new ByteArrayInputStream(new byte[0]), (Path) null);
      throw new RuntimeException("NullPointerException expected");
    } catch (NullPointerException ignore) {
    }
  }
Beispiel #2
0
  @Override
  public Item item(final QueryContext qc, final InputInfo ii) throws QueryException {
    checkCreate(qc);

    final Path path = toPath(0, qc);
    final B64 archive = toB64(exprs[1], qc, false);
    final TokenSet hs = entries(2, qc);

    try (ArchiveIn in = ArchiveIn.get(archive.input(info), info)) {
      while (in.more()) {
        final ZipEntry ze = in.entry();
        final String name = ze.getName();
        if (hs == null || hs.delete(token(name)) != 0) {
          final Path file = path.resolve(name);
          if (ze.isDirectory()) {
            Files.createDirectories(file);
          } else {
            Files.createDirectories(file.getParent());
            Files.write(file, in.read());
          }
        }
      }
    } catch (final IOException ex) {
      throw ARCH_FAIL_X.get(info, ex);
    }
    return null;
  }
Beispiel #3
0
 // create directory in the given directory
 static Path createSourceDirectory(Path dir) throws IOException {
   String name = "sourcedir" + Integer.toString(rand.nextInt());
   Path subdir = dir.resolve(name);
   createDirectory(subdir);
   randomizeAttributes(subdir);
   return subdir;
 }
Beispiel #4
0
  void test(String[] opts, String className) throws Exception {
    count++;
    System.err.println("Test " + count + " " + Arrays.asList(opts) + " " + className);
    Path testSrcDir = Paths.get(System.getProperty("test.src"));
    Path testClassesDir = Paths.get(System.getProperty("test.classes"));
    Path classes = Paths.get("classes." + count);
    classes.createDirectory();

    Context ctx = new Context();
    PathFileManager fm = new JavacPathFileManager(ctx, true, null);
    JavaCompiler compiler = ToolProvider.getSystemJavaCompiler();
    List<String> options = new ArrayList<String>();
    options.addAll(Arrays.asList(opts));
    options.addAll(Arrays.asList("-verbose", "-XDverboseCompilePolicy", "-d", classes.toString()));
    Iterable<? extends JavaFileObject> compilationUnits =
        fm.getJavaFileObjects(testSrcDir.resolve(className + ".java"));
    StringWriter sw = new StringWriter();
    PrintWriter out = new PrintWriter(sw);
    JavaCompiler.CompilationTask t =
        compiler.getTask(out, fm, null, options, null, compilationUnits);
    boolean ok = t.call();
    System.err.println(sw.toString());
    if (!ok) {
      throw new Exception("compilation failed");
    }

    File expect = new File("classes." + count + "/" + className + ".class");
    if (!expect.exists()) throw new Exception("expected file not found: " + expect);
    long expectedSize = new File(testClassesDir.toString(), className + ".class").length();
    long actualSize = expect.length();
    if (expectedSize != actualSize)
      throw new Exception("wrong size found: " + actualSize + "; expected: " + expectedSize);
  }
Beispiel #5
0
  public static FileDesc loadFile(Path root, Path file, int blocSize)
      throws NoSuchAlgorithmException, FileNotFoundException, IOException {
    MessageDigest md = MessageDigest.getInstance("SHA-512");
    MessageDigest fileMd = MessageDigest.getInstance("SHA-512");

    FileDesc desc = new FileDesc(file.toString(), null, null);
    List<Bloc> list = new ArrayList<Bloc>();
    try (FileInputStream fis = new FileInputStream(root.resolve(file).toString())) {
      byte[] buf = new byte[blocSize];
      byte[] h;
      int s;
      while ((s = fis.read(buf)) != -1) {
        int c;
        while (s < buf.length && (c = fis.read()) != -1) buf[s++] = (byte) c;
        fileMd.update(buf, 0, s);

        // padding
        byte p = 0;
        while (s < buf.length) buf[s++] = ++p;
        h = md.digest(buf);
        Bloc bloc = new Bloc(RollingChecksum.compute(buf), new Hash(h));
        list.add(bloc);
      }
      h = fileMd.digest();
      desc.fileHash = new Hash(h);
      desc.blocs = list.toArray(new Bloc[0]);
    }
    return desc;
  }
Beispiel #6
0
  /** Check that a cancelled key will never be queued */
  static void testCancel(Path dir) throws IOException {
    System.out.println("-- Cancel --");

    try (WatchService watcher = FileSystems.getDefault().newWatchService()) {

      System.out.format("register %s for events\n", dir);
      WatchKey myKey = dir.register(watcher, new WatchEvent.Kind<?>[] {ENTRY_CREATE});
      checkKey(myKey, dir);

      System.out.println("cancel key");
      myKey.cancel();

      // create a file in the directory
      Path file = dir.resolve("mars");
      System.out.format("create: %s\n", file);
      Files.createFile(file);

      // poll for keys - there will be none
      System.out.println("poll...");
      try {
        WatchKey key = watcher.poll(3000, TimeUnit.MILLISECONDS);
        if (key != null) throw new RuntimeException("key should not be queued");
      } catch (InterruptedException x) {
        throw new RuntimeException(x);
      }

      // done
      Files.delete(file);

      System.out.println("OKAY");
    }
  }
Beispiel #7
0
  public static void main(String[] args) throws IOException {
    // open file but do not close it. Its existance will be checked by
    // the calling script.
    Paths.get(args[0]).newByteChannel(READ, WRITE, DELETE_ON_CLOSE);

    // check temporary file has been deleted after closing it
    Path file = File.createTempFile("blah", "tmp").toPath();
    file.newByteChannel(READ, WRITE, DELETE_ON_CLOSE).close();
    if (file.exists()) throw new RuntimeException("Temporary file was not deleted");

    Path dir = TestUtil.createTemporaryDirectory();
    try {
      // check that DELETE_ON_CLOSE fails when file is a sym link
      if (TestUtil.supportsLinks(dir)) {
        file = dir.resolve("foo").createFile();
        Path link = dir.resolve("link").createSymbolicLink(file);
        try {
          link.newByteChannel(READ, WRITE, DELETE_ON_CLOSE);
          throw new RuntimeException("IOException expected");
        } catch (IOException ignore) {
        }
      }

      // check that DELETE_ON_CLOSE works with files created via open
      // directories
      DirectoryStream stream = dir.newDirectoryStream();
      try {
        if (stream instanceof SecureDirectoryStream) {
          SecureDirectoryStream secure = (SecureDirectoryStream) stream;
          file = Paths.get("foo");

          Set<OpenOption> opts = new HashSet<OpenOption>();
          opts.add(WRITE);
          opts.add(DELETE_ON_CLOSE);
          secure.newByteChannel(file, opts).close();

          if (dir.resolve(file).exists()) throw new RuntimeException("File not deleted");
        }
      } finally {
        stream.close();
      }
    } finally {
      TestUtil.removeAll(dir);
    }
  }
Beispiel #8
0
 // create file of random size in given directory
 static Path createSourceFile(Path dir) throws IOException {
   String name = "source" + Integer.toString(rand.nextInt());
   Path file = dir.resolve(name);
   createFile(file);
   byte[] bytes = new byte[rand.nextInt(128 * 1024)];
   rand.nextBytes(bytes);
   try (OutputStream out = newOutputStream(file)) {
     out.write(bytes);
   }
   randomizeAttributes(file);
   return file;
 }
Beispiel #9
0
 public static URL toURL(String str) {
   try {
     if (!Path.uriSchemeSpecified(str)) {
       Path cur = currentPath();
       Path path = cur.resolve(str);
       if (path.isAbsolute()) return path.toURL();
       str = path.toString();
     }
     return new URL(str);
   } catch (Throwable ex) {
     throw WrappedException.wrapIfNeeded(ex);
   }
 }
Beispiel #10
0
  /** Process all events for the key queued to the watcher. */
  void processEvents() {
    for (; ; ) {

      // wait for key to be signaled
      WatchKey key;
      try {
        key = watcher.take();
      } catch (InterruptedException x) {
        return;
      }

      for (WatchEvent<?> event : key.pollEvents()) {
        WatchEvent.Kind kind = event.kind();

        if (kind == OVERFLOW) {
          continue;
        }

        // The filename is the context of the event.
        WatchEvent<Path> ev = (WatchEvent<Path>) event;
        Path filename = ev.context();

        // Verify that the new file is a text file.
        try {
          Path child = dir.resolve(filename);
          if (!Files.probeContentType(child).equals("text/plain")) {
            System.err.format("New file '%s' is not a plain text file.%n", filename);
            continue;
          }
        } catch (IOException x) {
          System.err.println(x);
          continue;
        }

        // Email the file to the specified email alias.
        System.out.format("Emailing file %s%n", filename);
      }

      // Reset the key -- this step is critical if you want to receive
      // further watch events. If the key is no longer valid, the directory
      // is inaccessible so exit the loop.
      boolean valid = key.reset();
      if (!valid) {
        break;
      }
    }
  }
Beispiel #11
0
  /** Обработчик всех событий помещенных в очередь */
  void processEvents() {
    for (; ; ) {

      WatchKey key;
      try {
        key = watcher.take();
      } catch (InterruptedException x) {
        LOG.log(Level.SEVERE, x.getMessage());
        return;
      }

      Path dir = keys.get(key);
      if (dir == null) {
        LOG.log(Level.SEVERE, "Входной каталог не найден!");
        continue;
      }

      for (WatchEvent<?> event : key.pollEvents()) {
        WatchEvent.Kind kind = event.kind();

        // TODO - подумать над обработчиком события OVERFLOW
        if (kind == OVERFLOW) {
          continue;
        }

        WatchEvent<Path> ev = cast(event);
        Path name = ev.context();
        Path child = dir.resolve(name);

        // логируем событие
        if (kind == ENTRY_CREATE) {
          LOG.log(Level.FINEST, "{0}: {1}", new Object[] {event.kind().name(), child});
          Runnable worker = new WorkerThread(child);
          executor.execute(worker);
        }
      }

      boolean valid = key.reset();
      if (!valid) {
        keys.remove(key);
        if (keys.isEmpty()) {
          break;
        }
      }
    }
  }
Beispiel #12
0
  static void testCopyInputStreamToFile(int size) throws IOException {
    Path tmpdir = createTempDirectory("blah");
    Path source = tmpdir.resolve("source");
    Path target = tmpdir.resolve("target");
    try {
      boolean testReplaceExisting = rand.nextBoolean();

      // create source file
      byte[] b = new byte[size];
      rand.nextBytes(b);
      write(source, b);

      // target file might already exist
      if (testReplaceExisting && rand.nextBoolean()) {
        write(target, new byte[rand.nextInt(512)]);
      }

      // copy from stream to file
      InputStream in = new FileInputStream(source.toFile());
      try {
        long n;
        if (testReplaceExisting) {
          n = copy(in, target, StandardCopyOption.REPLACE_EXISTING);
        } else {
          n = copy(in, target);
        }
        assertTrue(in.read() == -1); // EOF
        assertTrue(n == size);
        assertTrue(size(target) == size);
      } finally {
        in.close();
      }

      // check file
      byte[] read = readAllBytes(target);
      assertTrue(Arrays.equals(read, b));

    } finally {
      deleteIfExists(source);
      deleteIfExists(target);
      delete(tmpdir);
    }
  }
Beispiel #13
0
  /** Check that deleting a registered directory causes the key to be cancelled and queued. */
  static void testAutomaticCancel(Path dir) throws IOException {
    System.out.println("-- Automatic Cancel --");

    Path subdir = Files.createDirectory(dir.resolve("bar"));

    try (WatchService watcher = FileSystems.getDefault().newWatchService()) {

      System.out.format("register %s for events\n", subdir);
      WatchKey myKey =
          subdir.register(
              watcher, new WatchEvent.Kind<?>[] {ENTRY_CREATE, ENTRY_DELETE, ENTRY_MODIFY});

      System.out.format("delete: %s\n", subdir);
      Files.delete(subdir);
      takeExpectedKey(watcher, myKey);

      System.out.println("reset key");
      if (myKey.reset()) throw new RuntimeException("Key was not cancelled");
      if (myKey.isValid()) throw new RuntimeException("Key is still valid");

      System.out.println("OKAY");
    }
  }
Beispiel #14
0
  /**
   * Test that directory can be registered with more than one watch service and that events don't
   * interfere with each other
   */
  static void testTwoWatchers(Path dir) throws IOException {
    System.out.println("-- Two watchers test --");

    FileSystem fs = FileSystems.getDefault();
    WatchService watcher1 = fs.newWatchService();
    WatchService watcher2 = fs.newWatchService();
    try {
      Path name1 = fs.getPath("gus1");
      Path name2 = fs.getPath("gus2");

      // create gus1
      Path file1 = dir.resolve(name1);
      System.out.format("create %s\n", file1);
      Files.createFile(file1);

      // register with both watch services (different events)
      System.out.println("register for different events");
      WatchKey key1 = dir.register(watcher1, new WatchEvent.Kind<?>[] {ENTRY_CREATE});
      WatchKey key2 = dir.register(watcher2, new WatchEvent.Kind<?>[] {ENTRY_DELETE});

      if (key1 == key2) throw new RuntimeException("keys should be different");

      // create gus2
      Path file2 = dir.resolve(name2);
      System.out.format("create %s\n", file2);
      Files.createFile(file2);

      // check that key1 got ENTRY_CREATE
      takeExpectedKey(watcher1, key1);
      checkExpectedEvent(key1.pollEvents(), StandardWatchEventKinds.ENTRY_CREATE, name2);

      // check that key2 got zero events
      WatchKey key = watcher2.poll();
      if (key != null) throw new RuntimeException("key not expected");

      // delete gus1
      Files.delete(file1);

      // check that key2 got ENTRY_DELETE
      takeExpectedKey(watcher2, key2);
      checkExpectedEvent(key2.pollEvents(), StandardWatchEventKinds.ENTRY_DELETE, name1);

      // check that key1 got zero events
      key = watcher1.poll();
      if (key != null) throw new RuntimeException("key not expected");

      // reset for next test
      key1.reset();
      key2.reset();

      // change registration with watcher2 so that they are both
      // registered for the same event
      System.out.println("register for same event");
      key2 = dir.register(watcher2, new WatchEvent.Kind<?>[] {ENTRY_CREATE});

      // create file and key2 should be queued
      System.out.format("create %s\n", file1);
      Files.createFile(file1);
      takeExpectedKey(watcher2, key2);
      checkExpectedEvent(key2.pollEvents(), StandardWatchEventKinds.ENTRY_CREATE, name1);

      System.out.println("OKAY");

    } finally {
      watcher2.close();
      watcher1.close();
    }
  }
Beispiel #15
0
  /** Process all events for keys queued to the watcher */
  void processEvents() {
    for (; ; ) {

      // wait for key to be signalled
      WatchKey key;
      try {
        key = watcher.take();
      } catch (InterruptedException x) {
        return;
      }

      Path dir = keys.get(key);
      if (dir == null) {
        System.err.println("WatchKey not recognized!!");
        continue;
      }

      for (WatchEvent<?> event : key.pollEvents()) {
        WatchEvent.Kind kind = event.kind();

        // TBD - provide example of how OVERFLOW event is handled
        if (kind == OVERFLOW) {
          continue;
        }

        // Context for directory entry event is the file name of entry
        WatchEvent<Path> ev = cast(event);
        Path name = ev.context();
        Path child = dir.resolve(name);

        // print out event
        System.out.format("%s: %s\n", event.kind().name(), child);
        // Printing manager
        if (event.kind().name().equals("ENTRY_MODIFY")
            && (child.endsWith("baseFerremundoPointer.csv")
                || child.endsWith("baseFerremundoPointer2.csv"))) {
          File file = new File(child.toString());
          file.renameTo(new File("/home/dios/FERREMUNDO/BD/baseFerremundoPointer_.csv"));
          InvoicePrintingManager manager = new InvoicePrintingManager();
          manager.manage();
        }
        // if directory is created, and watching recursively, then
        // register it and its sub-directories
        if (recursive && (kind == ENTRY_CREATE)) {
          try {
            if (Files.isDirectory(child, NOFOLLOW_LINKS)) {
              registerAll(child);
            }
          } catch (IOException x) {
            // ignore to keep sample readbale
          }
        }
      }

      // reset key and remove from set if directory no longer accessible
      boolean valid = key.reset();
      if (!valid) {
        keys.remove(key);

        // all directories are inaccessible
        if (keys.isEmpty()) {
          break;
        }
      }
    }
  }
Beispiel #16
0
  @Override
  public void run() {
    logger.debug("Register root " + startDir.toString());

    try {
      registerAll(startDir);
    } catch (IOException ex) {
      logger.error(ex.getMessage());
      return;
    }

    if (isInterrupted()) return;

    VOSync.debug("Sync local db with drive");

    DbPool.goSql(
        "Synching the local db with drive",
        "select NAME from FILES",
        new SqlWorker<Boolean>() {
          @Override
          public Boolean go(Connection conn, PreparedStatement stmt) throws SQLException {
            ResultSet resSet = stmt.executeQuery();
            while (resSet.next()) {
              try {
                String fileName = resSet.getString(1);
                Path filePath =
                    FileSystems.getDefault().getPath(startDir.toString(), fileName.substring(1));
                if (!filePath.toFile().exists()) {
                  logger.debug(
                      "Deleting file " + fileName + " existing in DB and not present on disk");
                  api.delete(fileName);
                  MetaHandler.delete(fileName);
                }
              } catch (DropboxException ex) {
              }
            }
            resSet.close();
            return true;
          }
        });

    if (isInterrupted()) return;

    VOSync.debug("Sync storage");

    syncStorage();

    logger.debug("Start watching");

    while (!isInterrupted()) {
      WatchKey key;
      try {
        key = watcher.take();
      } catch (InterruptedException x) {
        return;
      }

      Path dir = keys.get(key);
      if (dir == null) {
        System.err.println("WatchKey " + key.toString() + " not recognized!");
        continue;
      }

      for (WatchEvent<?> event : key.pollEvents()) {
        Kind<?> kind = event.kind();

        // TBD - provide example of how OVERFLOW event is handled
        if (kind == OVERFLOW) {
          continue;
        }

        // Context for directory entry event is the file name of entry
        WatchEvent<Path> ev = cast(event);
        Path name = ev.context();
        Path child = dir.resolve(name);
        Path relativeDir = startDir.relativize(child);
        String fileRelPath = "/" + fixPath(relativeDir.toString());

        // print out event
        logger.debug(event.kind().name() + ":" + child + " " + name + " " + key);

        try {
          if (Files.exists(child, new LinkOption[] {}) && Files.isHidden(child)) {
            logger.error(
                "Skipping hidden file " + child.getFileName()); // skip OS generated catalog files
          } else {
            if (event.kind() == ENTRY_CREATE) {
              if (Files.isRegularFile(child, NOFOLLOW_LINKS)) { // file modified
                uploadFile(fileRelPath, child);
              } else if (Files.isDirectory(child, NOFOLLOW_LINKS)) { // directory contents changed
                registerAll(child);
              }
            } else if (event.kind() == ENTRY_DELETE) {
              logger.debug("Deleting " + fileRelPath);
              api.delete(fileRelPath);
              MetaHandler.delete(fileRelPath);
              logger.debug("Deleted!");
            } else if (event.kind() == ENTRY_MODIFY) {
              if (Files.isRegularFile(child, NOFOLLOW_LINKS)) { // file modified
                uploadFile(fileRelPath, child);
              } else if (Files.isDirectory(child, NOFOLLOW_LINKS)) { // directory contents changed
                // logger.debug("Renewing dir: "+relativeDir.toString());
                // TODO update folder date
                // MetaHandler.setFile(fileRelPath, child, rev);
              }
            }
          }
        } catch (IOException ex) {
          ex.printStackTrace();
          logger.error(ex.getMessage());
        } catch (DropboxException ex) {
          ex.printStackTrace();
          logger.error(ex.getMessage());
        }
      }

      boolean valid = key.reset();

      if (!valid) keys.remove(key);
    }
  }
Beispiel #17
0
 // create name for file in given directory
 static Path getTargetFile(Path dir) throws IOException {
   String name = "target" + Integer.toString(rand.nextInt());
   return dir.resolve(name);
 }
Beispiel #18
0
  /** Tests all possible ways to invoke move */
  static void testMove(Path dir1, Path dir2, boolean supportsLinks) throws IOException {
    Path source, target, entry;

    boolean sameDevice = getFileStore(dir1).equals(getFileStore(dir2));

    // -- regular file --

    /** Test: move regular file, target does not exist */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    moveAndVerify(source, target);
    delete(target);

    /** Test: move regular file, target exists */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    createFile(target);
    try {
      moveAndVerify(source, target);
      throw new RuntimeException("FileAlreadyExistsException expected");
    } catch (FileAlreadyExistsException x) {
    }
    delete(target);
    createDirectory(target);
    try {
      moveAndVerify(source, target);
      throw new RuntimeException("FileAlreadyExistsException expected");
    } catch (FileAlreadyExistsException x) {
    }
    delete(source);
    delete(target);

    /** Test: move regular file, target does not exist */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    moveAndVerify(source, target, REPLACE_EXISTING);
    delete(target);

    /** Test: move regular file, target exists */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    createFile(target);
    moveAndVerify(source, target, REPLACE_EXISTING);
    delete(target);

    /** Test: move regular file, target exists and is empty directory */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    createDirectory(target);
    moveAndVerify(source, target, REPLACE_EXISTING);
    delete(target);

    /** Test: move regular file, target exists and is non-empty directory */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    createDirectory(target);
    entry = target.resolve("foo");
    createFile(entry);
    try {
      moveAndVerify(source, target);
      throw new RuntimeException("FileAlreadyExistsException expected");
    } catch (FileAlreadyExistsException x) {
    }
    delete(entry);
    delete(source);
    delete(target);

    /** Test atomic move of regular file (same file store) */
    source = createSourceFile(dir1);
    target = getTargetFile(dir1);
    moveAndVerify(source, target, ATOMIC_MOVE);
    delete(target);

    /** Test atomic move of regular file (different file store) */
    if (!sameDevice) {
      source = createSourceFile(dir1);
      target = getTargetFile(dir2);
      try {
        moveAndVerify(source, target, ATOMIC_MOVE);
        throw new RuntimeException("AtomicMoveNotSupportedException expected");
      } catch (AtomicMoveNotSupportedException x) {
      }
      delete(source);
    }

    // -- directories --

    /*
     * Test: move empty directory, target does not exist
     */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    moveAndVerify(source, target);
    delete(target);

    /** Test: move empty directory, target exists */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    createFile(target);
    try {
      moveAndVerify(source, target);
      throw new RuntimeException("FileAlreadyExistsException expected");
    } catch (FileAlreadyExistsException x) {
    }
    delete(target);
    createDirectory(target);
    try {
      moveAndVerify(source, target);
      throw new RuntimeException("FileAlreadyExistsException expected");
    } catch (FileAlreadyExistsException x) {
    }
    delete(source);
    delete(target);

    /** Test: move empty directory, target does not exist */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    moveAndVerify(source, target, REPLACE_EXISTING);
    delete(target);

    /** Test: move empty directory, target exists */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    createFile(target);
    moveAndVerify(source, target, REPLACE_EXISTING);
    delete(target);

    /** Test: move empty, target exists and is empty directory */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    createDirectory(target);
    moveAndVerify(source, target, REPLACE_EXISTING);
    delete(target);

    /** Test: move empty directory, target exists and is non-empty directory */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    createDirectory(target);
    entry = target.resolve("foo");
    createFile(entry);
    try {
      moveAndVerify(source, target, REPLACE_EXISTING);
      throw new RuntimeException("DirectoryNotEmptyException expected");
    } catch (DirectoryNotEmptyException x) {
    }
    delete(entry);
    delete(source);
    delete(target);

    /** Test: move non-empty directory (same file system) */
    source = createSourceDirectory(dir1);
    createFile(source.resolve("foo"));
    target = getTargetFile(dir1);
    moveAndVerify(source, target);
    delete(target.resolve("foo"));
    delete(target);

    /** Test: move non-empty directory (different file store) */
    if (!sameDevice) {
      source = createSourceDirectory(dir1);
      createFile(source.resolve("foo"));
      target = getTargetFile(dir2);
      try {
        moveAndVerify(source, target);
        throw new RuntimeException("IOException expected");
      } catch (IOException x) {
      }
      delete(source.resolve("foo"));
      delete(source);
    }

    /** Test atomic move of directory (same file store) */
    source = createSourceDirectory(dir1);
    createFile(source.resolve("foo"));
    target = getTargetFile(dir1);
    moveAndVerify(source, target, ATOMIC_MOVE);
    delete(target.resolve("foo"));
    delete(target);

    // -- symbolic links --

    /** Test: Move symbolic link to file, target does not exist */
    if (supportsLinks) {
      Path tmp = createSourceFile(dir1);
      source = dir1.resolve("link");
      createSymbolicLink(source, tmp);
      target = getTargetFile(dir2);
      moveAndVerify(source, target);
      delete(target);
      delete(tmp);
    }

    /** Test: Move symbolic link to directory, target does not exist */
    if (supportsLinks) {
      source = dir1.resolve("link");
      createSymbolicLink(source, dir2);
      target = getTargetFile(dir2);
      moveAndVerify(source, target);
      delete(target);
    }

    /** Test: Move broken symbolic link, target does not exists */
    if (supportsLinks) {
      Path tmp = Paths.get("doesnotexist");
      source = dir1.resolve("link");
      createSymbolicLink(source, tmp);
      target = getTargetFile(dir2);
      moveAndVerify(source, target);
      delete(target);
    }

    /** Test: Move symbolic link, target exists */
    if (supportsLinks) {
      source = dir1.resolve("link");
      createSymbolicLink(source, dir2);
      target = getTargetFile(dir2);
      createFile(target);
      try {
        moveAndVerify(source, target);
        throw new RuntimeException("FileAlreadyExistsException expected");
      } catch (FileAlreadyExistsException x) {
      }
      delete(source);
      delete(target);
    }

    /** Test: Move regular file, target exists */
    if (supportsLinks) {
      source = dir1.resolve("link");
      createSymbolicLink(source, dir2);
      target = getTargetFile(dir2);
      createFile(target);
      moveAndVerify(source, target, REPLACE_EXISTING);
      delete(target);
    }

    /** Test: move symbolic link, target exists and is empty directory */
    if (supportsLinks) {
      source = dir1.resolve("link");
      createSymbolicLink(source, dir2);
      target = getTargetFile(dir2);
      createDirectory(target);
      moveAndVerify(source, target, REPLACE_EXISTING);
      delete(target);
    }

    /** Test: symbolic link, target exists and is non-empty directory */
    if (supportsLinks) {
      source = dir1.resolve("link");
      createSymbolicLink(source, dir2);
      target = getTargetFile(dir2);
      createDirectory(target);
      entry = target.resolve("foo");
      createFile(entry);
      try {
        moveAndVerify(source, target);
        throw new RuntimeException("FileAlreadyExistsException expected");
      } catch (FileAlreadyExistsException x) {
      }
      delete(entry);
      delete(source);
      delete(target);
    }

    /** Test atomic move of symbolic link (same file store) */
    if (supportsLinks) {
      source = dir1.resolve("link");
      createSymbolicLink(source, dir1);
      target = getTargetFile(dir2);
      createFile(target);
      moveAndVerify(source, target, REPLACE_EXISTING);
      delete(target);
    }

    // -- misc. tests --

    /** Test nulls */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    try {
      move(null, target);
      throw new RuntimeException("NullPointerException expected");
    } catch (NullPointerException x) {
    }
    try {
      move(source, null);
      throw new RuntimeException("NullPointerException expected");
    } catch (NullPointerException x) {
    }
    try {
      move(source, target, (CopyOption[]) null);
      throw new RuntimeException("NullPointerException expected");
    } catch (NullPointerException x) {
    }
    try {
      CopyOption[] opts = {REPLACE_EXISTING, null};
      move(source, target, opts);
      throw new RuntimeException("NullPointerException expected");
    } catch (NullPointerException x) {
    }
    delete(source);

    /** Test UOE */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    try {
      move(source, target, new CopyOption() {});
    } catch (UnsupportedOperationException x) {
    }
    try {
      move(source, target, REPLACE_EXISTING, new CopyOption() {});
    } catch (UnsupportedOperationException x) {
    }
    delete(source);
  }
Beispiel #19
0
  // void processEvents() {
  public void run() {
    System.out.println("WatchDir Thread INFO: priority=" + Thread.currentThread().getPriority());
    for (; ; ) {
      // wait for key to be signalled
      System.out.println("WatchDir INFO: restarting loop...acquiring new key");
      WatchKey key;
      try {
        key = watcher.take();
      } catch (InterruptedException x) {
        return;
      }

      Path dir = keys.get(key);
      if (dir == null) {
        System.err.println("WatchKey not recognized!!");
        continue;
      }

      for (WatchEvent<?> event : key.pollEvents()) {
        WatchEvent.Kind kind = event.kind();
        // TBD - provide example of how OVERFLOW event is handled
        if (kind == OVERFLOW) {
          System.out.println("Encountered OVERFLOW Event - " + event);
          continue;
        }

        // Context for directory entry event is the file name of entry
        WatchEvent<Path> ev = cast(event);
        Path name = ev.context();
        Path child = dir.resolve(name);

        // print out event
        System.out.format("[WatchDir] %s: %s\n", event.kind().name(), child);

        // if directory is created, and watching recursively, then
        // register it and its sub-directories
        if (recursive && (kind == ENTRY_CREATE)) {
          try {
            if (Files.isDirectory(child, NOFOLLOW_LINKS)) {
              registerAll(child);
            }
          } catch (IOException x) {
            // ignore to keep sample readbale
          }
        }

        long t = System.currentTimeMillis();
        if (!Folder.dontWatch.contains(Folder.getInternalPath(child))) {
          Thread.currentThread().setPriority(Thread.NORM_PRIORITY);
          System.out.println(
              "WatchDir#"
                  + key
                  + " INFO: path="
                  + child
                  + ", internal="
                  + Folder.getInternalPath(child)
                  + " is NOT in don't watch list. Forwarding it to other peers. @"
                  + Main.timeToString(t)); // DEBUG
          forwardToItopic(kind, child);
        } else {
          Thread.currentThread().setPriority(Thread.MIN_PRIORITY);
          System.out.println(
              "WatchDir#"
                  + key
                  + " INFO: path="
                  + child
                  + ", internal="
                  + Folder.getInternalPath(child)
                  + " IS in the don't watch list. NOT forwarding. @"
                  + Main.timeToString(t)); // DEBUG
          // try{
          //     Thread.sleep(minDelayBtwnWatchEvents);
          // } catch(InterruptedException ex) {
          //     System.err.println("Exception:"+ex+" while trying to sleep WatchDir thread");
          //     ex.printStackTrace();
          // }
        }
      }

      // reset key and remove from set if directory no longer accessible
      boolean valid = key.reset();
      if (!valid) {
        keys.remove(key);

        // all directories are inaccessible
        if (keys.isEmpty()) {
          break;
        }
      }
    }
  }
Beispiel #20
0
  /** Tests all possible ways to invoke copy to copy a file to a file */
  static void testCopyFileToFile(Path dir1, Path dir2, boolean supportsLinks) throws IOException {
    Path source, target, link, entry;

    // -- regular file --

    /** Test: move regular file, target does not exist */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    copyAndVerify(source, target);
    delete(source);
    delete(target);

    /** Test: copy regular file, target exists */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    createFile(target);
    try {
      copyAndVerify(source, target);
      throw new RuntimeException("FileAlreadyExistsException expected");
    } catch (FileAlreadyExistsException x) {
    }
    delete(target);
    createDirectory(target);
    try {
      copyAndVerify(source, target);
      throw new RuntimeException("FileAlreadyExistsException expected");
    } catch (FileAlreadyExistsException x) {
    }
    delete(source);
    delete(target);

    /** Test: copy regular file, target does not exist */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    copyAndVerify(source, target, REPLACE_EXISTING);
    delete(source);
    delete(target);

    /** Test: copy regular file, target exists */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    createFile(target);
    copyAndVerify(source, target, REPLACE_EXISTING);
    delete(source);
    delete(target);

    /** Test: copy regular file, target exists and is empty directory */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    createDirectory(target);
    copyAndVerify(source, target, REPLACE_EXISTING);
    delete(source);
    delete(target);

    /** Test: copy regular file, target exists and is non-empty directory */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    createDirectory(target);
    entry = target.resolve("foo");
    createFile(entry);
    try {
      copyAndVerify(source, target);
      throw new RuntimeException("FileAlreadyExistsException expected");
    } catch (FileAlreadyExistsException x) {
    }
    delete(entry);
    delete(source);
    delete(target);

    /** Test: copy regular file + attributes */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    copyAndVerify(source, target, COPY_ATTRIBUTES);
    delete(source);
    delete(target);

    // -- directory --

    /*
     * Test: copy directory, target does not exist
     */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    copyAndVerify(source, target);
    delete(source);
    delete(target);

    /** Test: copy directory, target exists */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    createFile(target);
    try {
      copyAndVerify(source, target);
      throw new RuntimeException("FileAlreadyExistsException expected");
    } catch (FileAlreadyExistsException x) {
    }
    delete(target);
    createDirectory(target);
    try {
      copyAndVerify(source, target);
      throw new RuntimeException("FileAlreadyExistsException expected");
    } catch (FileAlreadyExistsException x) {
    }
    delete(source);
    delete(target);

    /** Test: copy directory, target does not exist */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    copyAndVerify(source, target, REPLACE_EXISTING);
    delete(source);
    delete(target);

    /** Test: copy directory, target exists */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    createFile(target);
    copyAndVerify(source, target, REPLACE_EXISTING);
    delete(source);
    delete(target);

    /** Test: copy directory, target exists and is empty directory */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    createDirectory(target);
    copyAndVerify(source, target, REPLACE_EXISTING);
    delete(source);
    delete(target);

    /** Test: copy directory, target exists and is non-empty directory */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    createDirectory(target);
    entry = target.resolve("foo");
    createFile(entry);
    try {
      copyAndVerify(source, target, REPLACE_EXISTING);
      throw new RuntimeException("DirectoryNotEmptyException expected");
    } catch (DirectoryNotEmptyException x) {
    }
    delete(entry);
    delete(source);
    delete(target);

    /*
     * Test: copy directory + attributes
     */
    source = createSourceDirectory(dir1);
    target = getTargetFile(dir2);
    copyAndVerify(source, target, COPY_ATTRIBUTES);
    delete(source);
    delete(target);

    // -- symbolic links --

    /** Test: Follow link */
    if (supportsLinks) {
      source = createSourceFile(dir1);
      link = dir1.resolve("link");
      createSymbolicLink(link, source);
      target = getTargetFile(dir2);
      copyAndVerify(link, target);
      delete(link);
      delete(source);
    }

    /** Test: Copy link (to file) */
    if (supportsLinks) {
      source = createSourceFile(dir1);
      link = dir1.resolve("link");
      createSymbolicLink(link, source);
      target = getTargetFile(dir2);
      copyAndVerify(link, target, NOFOLLOW_LINKS);
      delete(link);
      delete(source);
    }

    /** Test: Copy link (to directory) */
    if (supportsLinks) {
      source = dir1.resolve("mydir");
      createDirectory(source);
      link = dir1.resolve("link");
      createSymbolicLink(link, source);
      target = getTargetFile(dir2);
      copyAndVerify(link, target, NOFOLLOW_LINKS);
      delete(link);
      delete(source);
    }

    /** Test: Copy broken link */
    if (supportsLinks) {
      assertTrue(notExists(source));
      link = dir1.resolve("link");
      createSymbolicLink(link, source);
      target = getTargetFile(dir2);
      copyAndVerify(link, target, NOFOLLOW_LINKS);
      delete(link);
    }

    /** Test: Copy link to UNC (Windows only) */
    if (supportsLinks && System.getProperty("os.name").startsWith("Windows")) {
      Path unc = Paths.get("\\\\rialto\\share\\file");
      link = dir1.resolve("link");
      createSymbolicLink(link, unc);
      target = getTargetFile(dir2);
      copyAndVerify(link, target, NOFOLLOW_LINKS);
      delete(link);
    }

    // -- misc. tests --

    /** Test nulls */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    try {
      copy(source, null);
      throw new RuntimeException("NullPointerException expected");
    } catch (NullPointerException x) {
    }
    try {
      copy(source, target, (CopyOption[]) null);
      throw new RuntimeException("NullPointerException expected");
    } catch (NullPointerException x) {
    }
    try {
      CopyOption[] opts = {REPLACE_EXISTING, null};
      copy(source, target, opts);
      throw new RuntimeException("NullPointerException expected");
    } catch (NullPointerException x) {
    }
    delete(source);

    /** Test UOE */
    source = createSourceFile(dir1);
    target = getTargetFile(dir2);
    try {
      copy(source, target, new CopyOption() {});
    } catch (UnsupportedOperationException x) {
    }
    try {
      copy(source, target, REPLACE_EXISTING, new CopyOption() {});
    } catch (UnsupportedOperationException x) {
    }
    delete(source);
  }
Beispiel #21
0
  /** Simple test of each of the standard events */
  static void testEvents(Path dir) throws IOException {
    System.out.println("-- Standard Events --");

    FileSystem fs = FileSystems.getDefault();
    Path name = fs.getPath("foo");

    try (WatchService watcher = fs.newWatchService()) {
      // --- ENTRY_CREATE ---

      // register for event
      System.out.format("register %s for ENTRY_CREATE\n", dir);
      WatchKey myKey = dir.register(watcher, new WatchEvent.Kind<?>[] {ENTRY_CREATE});
      checkKey(myKey, dir);

      // create file
      Path file = dir.resolve("foo");
      System.out.format("create %s\n", file);
      Files.createFile(file);

      // remove key and check that we got the ENTRY_CREATE event
      takeExpectedKey(watcher, myKey);
      checkExpectedEvent(myKey.pollEvents(), StandardWatchEventKinds.ENTRY_CREATE, name);

      System.out.println("reset key");
      if (!myKey.reset()) throw new RuntimeException("key has been cancalled");

      System.out.println("OKAY");

      // --- ENTRY_DELETE ---

      System.out.format("register %s for ENTRY_DELETE\n", dir);
      WatchKey deleteKey = dir.register(watcher, new WatchEvent.Kind<?>[] {ENTRY_DELETE});
      if (deleteKey != myKey) throw new RuntimeException("register did not return existing key");
      checkKey(deleteKey, dir);

      System.out.format("delete %s\n", file);
      Files.delete(file);
      takeExpectedKey(watcher, myKey);
      checkExpectedEvent(myKey.pollEvents(), StandardWatchEventKinds.ENTRY_DELETE, name);

      System.out.println("reset key");
      if (!myKey.reset()) throw new RuntimeException("key has been cancalled");

      System.out.println("OKAY");

      // create the file for the next test
      Files.createFile(file);

      // --- ENTRY_MODIFY ---

      System.out.format("register %s for ENTRY_MODIFY\n", dir);
      WatchKey newKey = dir.register(watcher, new WatchEvent.Kind<?>[] {ENTRY_MODIFY});
      if (newKey != myKey) throw new RuntimeException("register did not return existing key");
      checkKey(newKey, dir);

      System.out.format("update: %s\n", file);
      try (OutputStream out = Files.newOutputStream(file, StandardOpenOption.APPEND)) {
        out.write("I am a small file".getBytes("UTF-8"));
      }

      // remove key and check that we got the ENTRY_MODIFY event
      takeExpectedKey(watcher, myKey);
      checkExpectedEvent(myKey.pollEvents(), StandardWatchEventKinds.ENTRY_MODIFY, name);
      System.out.println("OKAY");

      // done
      Files.delete(file);
    }
  }