Ejemplo n.º 1
0
  public synchronized void run() {

    byte[] buffer = new byte[BUFFER_SIZE];

    for (; ; ) {
      try {
        this.wait(100);
      } catch (InterruptedException ie) {
      }

      int len = 0;
      try {
        int noBytes = pin.available();

        if (noBytes > 0) {
          len = pin.read(buffer, 0, Math.min(noBytes, BUFFER_SIZE));
          if (len > 0) {
            jTextArea.append(new String(buffer, 0, len));
            jTextArea.setCaretPosition(jTextArea.getText().length());
          }
        }
      } catch (IOException ioe) {
        throw new UIError("Unable to read from input stream! " + ioe.getMessage());
      }
    }
  }
Ejemplo n.º 2
0
 @Override
 public synchronized void close() throws IOException {
   super.close();
   toTested.close();
   toTester.close();
   fromTested.close();
   fromTester.close();
 }
  /* (non-Javadoc)
   * @see org.eclipse.wst.jsdt.debug.transport.TransportService#accept(org.eclipse.wst.jsdt.debug.transport.ListenerKey, long, long)
   */
  public Connection accept(ListenerKey key, long attachTimeout, long handshakeTimeout)
      throws IOException {
    long timeout = attachTimeout;
    if (timeout > 0) {
      if (timeout > Integer.MAX_VALUE) {
        timeout = Integer.MAX_VALUE; // approximately 25 days!
      }
    }

    synchronized (listeners) {
      if (!listeners.containsKey(key))
        throw new IllegalStateException("not listening"); // $NON-NLS-1$

      if (listeners.get(key) != null)
        throw new IllegalStateException(
            "PipedTransport only accepts one accept at a time"); //$NON-NLS-1$

      PipedInputStream serveris = new PipedInputStream();
      PipedOutputStream clientos = new PipedOutputStream();
      PipedOutputStream serveros = new PipedOutputStream();
      PipedInputStream clientis = new PipedInputStream();
      serveris.connect(clientos);
      serveros.connect(clientis);

      PipedConnection clientConnection = new PipedConnection(clientis, clientos);
      PipedConnection serverConnection = new PipedConnection(serveris, serveros);

      listeners.put(key, clientConnection);
      listeners.notifyAll();
      long startTime = System.currentTimeMillis();
      while (true) {
        try {
          listeners.wait(timeout);
        } catch (InterruptedException e) {
          clientConnection.close(); // Close unused client connection (and its streams);
          serverConnection.close(); // Close unused server connection (and its streams);
          throw new IOException("accept failed: interrupted"); // $NON-NLS-1$
        }
        if (!listeners.containsKey(key)) {
          clientConnection.close(); // Close unused client connection (and its streams);
          serverConnection.close(); // Close unused server connection (and its streams);
          throw new IOException("accept failed: stopped listening"); // $NON-NLS-1$
        }

        if (listeners.get(key) != null) {
          if (System.currentTimeMillis() - startTime > timeout) {
            listeners.put(key, null);
            clientConnection.close(); // Close unused client connection (and its streams);
            serverConnection.close(); // Close unused server connection (and its streams);
            throw new IOException("accept failed: timed out"); // $NON-NLS-1$
          }
          continue;
        }
        return serverConnection; // From this point both, the server and the client,
        // are responsible to close their connections
      }
    }
  }
Ejemplo n.º 4
0
 public void pipedInputStreamNotClosedAfterRead(PipedOutputStream pout) {
   PipedInputStream pin;
   try {
     pin = new PipedInputStream(pout);
     int data = pin.read();
     pin.close();
   } catch (IOException e) {
   }
 }
Ejemplo n.º 5
0
 public void pipedInputStreamClosed(PipedOutputStream pout) throws IOException {
   PipedInputStream pin = null;
   try {
     pin = new PipedInputStream(pout);
     int data = pin.read();
   } catch (IOException e) {
   } finally {
     pin.close();
   }
 }
Ejemplo n.º 6
0
  @Override
  public void run() {
    long lastInvocation = 0;
    byte[] readBuffer = new byte[flushBufferSize];

    while (state == 0) {
      long curTime = System.currentTimeMillis();
      try {
        if ((lastInvocation + flushBufferTimeout) <= curTime) {
          lastInvocation = curTime;

          // Flush given buffer size to output buffer.
          int read = pis.read(readBuffer, 0, readBuffer.length);
          if (read > 0) {
            out.write(readBuffer, 0, read);
            out.flush();
          } else {
            break;
          }
        }

        // Sleep for a small unit of time.
        Thread.sleep(SLEEP_TIME);
      } catch (Exception ex) {
        ex.printStackTrace(System.err);
        break;
      }
    }

    System.err.println("SDS: finished, state=" + state + "; TID=" + Thread.currentThread().getId());
    // In this state keep flushing rapidly.
    if (state == 1) {
      int count;
      byte[] buffer = new byte[8192];
      try {
        while ((count = pis.read(buffer, 0, buffer.length)) > 0) {
          out.write(buffer, 0, count);
          out.flush();
        }
      } catch (Exception ex) {
        ex.printStackTrace(System.err);
      }
    }

    state = 3;
    try {
      pis.close();
      pos.close();
    } catch (IOException ex) {
      ex.printStackTrace(System.err);
    }

    System.err.println("SDS: finished, state=" + state + "; TID=" + Thread.currentThread().getId());
  }
Ejemplo n.º 7
0
 public synchronized String readLine(PipedInputStream in) throws IOException {
   String input = "";
   do {
     int available = in.available();
     if (available == 0) {
       break;
     }
     byte b[] = new byte[available];
     in.read(b);
     input = input + new String(b, 0, b.length);
   } while (!input.endsWith("\n") && !input.endsWith("\r\n") && !quit);
   return input;
 }
Ejemplo n.º 8
0
  /**
   * ************************************************************************* CONCRETE METHOD::
   * ReadFilterInputPort Purpose: This method reads data from the input port one byte at a time.
   *
   * <p>Arguments: void
   *
   * <p>Returns: byte of data read from the input port of the filter.
   *
   * <p>Exceptions: IOExecption, EndOfStreamException (rethrown)
   *
   * <p>**************************************************************************
   */
  byte ReadFilterInputPort() throws EndOfStreamException {
    byte datum = 0;

    /**
     * ********************************************************************* Since delays are
     * possible on upstream filters, we first wait until there is data available on the input port.
     * We check,... if no data is available on the input port we wait for a quarter of a second and
     * check again. Note there is no timeout enforced here at all and if upstream filters are
     * deadlocked, then this can result in infinite waits in this loop. It is necessary to check to
     * see if we are at the end of stream in the wait loop because it is possible that the upstream
     * filter completes while we are waiting. If this happens and we do not check for the end of
     * stream, then we could wait forever on an upstream pipe that is long gone. Unfortunately Java
     * pipes do not throw exceptions when the input pipe is broken.
     * *********************************************************************
     */
    try {
      while (InputReadPort.available() == 0) {
        if (EndOfInputStream()) {
          throw new EndOfStreamException("End of input stream reached");
        } // if

        sleep(250);
      } // while

    } // try
    catch (EndOfStreamException Error) {
      throw Error;

    } // catch
    catch (Exception Error) {
      System.out.println("\n" + this.getName() + " Error in read port wait loop::" + Error);
    } // catch

    /**
     * ********************************************************************* If at least one byte of
     * data is available on the input pipe we can read it. We read and write one byte to and from
     * ports. *********************************************************************
     */
    try {
      datum = (byte) InputReadPort.read();
      return datum;

    } // try
    catch (Exception Error) {
      System.out.println("\n" + this.getName() + " Pipe read error::" + Error);
      return datum;
    } // catch
  } // ReadFilterPort
Ejemplo n.º 9
0
  /**
   * **************************************************
   *
   * <p>private int joinWithPossibleTimeout(ProcStarter proc, final TaskListener listener,
   * StringBuffer strBuf, AbstractBuild currentBuild) throws IOException, InterruptedException
   *
   * <p>**************************************************
   */
  protected int joinWithPossibleTimeout(
      ProcStarter proc,
      final TaskListener listener,
      StringBuffer strBuf,
      AbstractBuild currentBuild,
      String stringToHide)
      throws IOException, InterruptedException {
    boolean useTimeout = configuration.isUseTimeout();
    long timeoutValue = configuration.getTimeoutValue();

    int result = -1;

    try {
      PipedInputStream pis = null;
      if (strBuf != null) {
        PipedOutputStream pos = new PipedOutputStream();
        pis = new PipedInputStream(pos, 1000000);
        proc = proc.stdout(pos);
      }

      hudson.Proc procStarted = proc.start();
      if (useTimeout) {
        result = procStarted.joinWithTimeout(timeoutValue, TimeUnit.SECONDS, listener);
      } else {
        result = procStarted.join();
      }

      if (strBuf != null) {
        byte[] stdoutDataArr = new byte[pis.available()];
        pis.read(stdoutDataArr, 0, stdoutDataArr.length);
        String stdoutStr = new String(stdoutDataArr);
        if (stringToHide != null) {
          stdoutStr = stdoutStr.replaceAll(stringToHide, "****");
        }
        strBuf.append(stdoutStr);
        PrintStream output = listener.getLogger();
        output.println(stdoutStr);
      }
    } catch (InterruptedException e) {
      throw e;
    } catch (Exception e) {
      if (listener != null) {
        listener.error("Exception caught in joinWithPossibleTimeout: " + e);
      }
    }

    return result;
  } // End: joinWithPossibleTimeout(...)
Ejemplo n.º 10
0
 public int available() {
   try {
     return reader.available();
   } catch (Exception e) {
     return -1;
   }
 }
  JREClientConnector() throws IOException {

    toClient_outPipeStream.connect(toClient_inPipeStream);
    fromClient_inPipeStream.connect(fromClient_outPipeStream);

    client = new ClientTelnetConnection(toClient_inPipeStream, fromClient_outPipeStream);
  }
Ejemplo n.º 12
0
 public void run() {
   try {
     for (; ; ) {
       byte[] buf = new byte[8192];
       int l = out.read(buf);
       InputStreamReader r = new InputStreamReader(new ByteArrayInputStream(buf, 0, l));
       StringBuilder sb = new StringBuilder();
       for (; ; ) {
         int c = r.read();
         if (c == -1) {
           break;
         }
         sb.append((char) c);
       }
       if (sb.length() > 0) {
         terminal.write(sb.toString());
       }
       String s = terminal.read();
       if (s != null && s.length() > 0) {
         for (byte b : s.getBytes()) {
           in.write(b);
         }
       }
     }
   } catch (IOException e) {
     closed = true;
   }
 }
Ejemplo n.º 13
0
 public void run() {
   try {
     snk.read();
   } catch (Exception e) {
     System.err.println("Test failed: unexpected exception");
   }
   return;
 }
Ejemplo n.º 14
0
  /**
   * ************************************************************************* CONCRETE METHOD::
   * ClosePorts Purpose: This method is used to close the input and output ports of the filter. It
   * is important that filters close their ports before the filter thread exits.
   *
   * <p>Arguments: void
   *
   * <p>Returns: void
   *
   * <p>Exceptions: IOExecption
   *
   * <p>**************************************************************************
   */
  void ClosePorts() {
    try {
      InputReadPort.close();
      OutputWritePort.close();

    } catch (Exception Error) {
      System.out.println("\n" + this.getName() + " ClosePorts error::" + Error);
    } // catch
  } // ClosePorts
Ejemplo n.º 15
0
 private void closeIO() {
   try {
     fMIOutConsolePipe.close();
   } catch (IOException e) {
   }
   try {
     fMIInConsolePipe.close();
   } catch (IOException e) {
   }
   try {
     fMIOutLogPipe.close();
   } catch (IOException e) {
   }
   try {
     fMIInLogPipe.close();
   } catch (IOException e) {
   }
 }
Ejemplo n.º 16
0
 public String read(int nbytes) {
   byte[] buf = new byte[nbytes];
   try {
     reader.read(buf, 0, nbytes);
     return new String(buf, "UTF-8");
   } catch (IOException e) {
     System.out.println("Exception reading info");
     return "ERROR";
   }
 }
Ejemplo n.º 17
0
 @Override
 public void close() {
   closed = true;
   try {
     super.close();
     out.close();
   } catch (IOException e) {
     logger.error("Unexpected IO exception", e);
   }
 }
Ejemplo n.º 18
0
  /**
   * ************************************************************************* CONCRETE METHOD::
   * Connect Purpose: This method connects filters to each other. All connections are through the
   * inputport of each filter. That is each filter's inputport is connected to another filter's
   * output port through this method.
   *
   * <p>Arguments: FilterFramework - this is the filter that this filter will connect to.
   *
   * <p>Returns: void
   *
   * <p>Exceptions: IOException
   *
   * <p>**************************************************************************
   */
  void Connect(FilterFramework Filter) {
    try {
      // Connect this filter's input to the upstream pipe's output stream

      InputReadPort.connect(Filter.OutputWritePort);
      InputFilter = Filter;

    } // try
    catch (Exception Error) {
      System.out.println("\n" + this.getName() + " FilterFramework error connecting::" + Error);
    } // catch
  } // Connect
Ejemplo n.º 19
0
  public static void main(String[] argv) throws Exception {
    PipedOutputStream os = new PipedOutputStream();
    PipedInputStream is = new PipedInputStream();
    is.connect(os);

    // create reader thread
    LazyReader lr = new LazyReader(is);

    os.write(new byte[1000]);

    lr.start();
    while (lr.isAlive()) {
      Thread.sleep(100);
    }

    try {
      os.write(27);
      throw new Exception("Test failed: shouldn't be able to write");
    } catch (IOException e) {
      // test passed
    }
  }
Ejemplo n.º 20
0
  public static void main(String[] argv) throws InterruptedException {
    // Set up a reasonable buffer size for this test if one is not already
    // specified
    String prop = System.getProperty("gnu.java.io.pipe_size");
    //  if (prop == null)
    //    System.setProperty("gnu.java.io.pipe_size", "32");

    try {
      System.out.println("Started test of PipedInputStream and " + "PipedOutputStream");

      System.out.println("Test 1: Basic piped stream test");

      // Set up the thread to write
      PipedStreamTestWriter pstw = new PipedStreamTestWriter();
      String str = pstw.getStr();
      PipedOutputStream pos = pstw.getStream();

      // Now set up our reader
      PipedInputStream pis = new PipedInputStream();
      pis.connect(pos);
      new Thread(pstw).start();

      byte[] buf = new byte[12];
      int bytes_read, total_read = 0;
      while ((bytes_read = pis.read(buf)) != -1) {
        System.out.print(new String(buf, 0, bytes_read));
        System.out.flush();
        Thread.sleep(10); // A short delay
        total_read += bytes_read;
      }

      if (total_read == str.length()) System.out.println("PASSED: Basic piped stream test");
      else System.out.println("FAILED: Basic piped stream test");
    } catch (IOException e) {
      System.out.println("FAILED: Basic piped stream test: " + e);
    }
  }
  @Override
  public void process() throws Exception {
    log.trace("process()");

    HandlerThread handlerThread = new HandlerThread();
    handlerThread.setName(Thread.currentThread().getName() + "-soap");

    handlerThread.start();
    try {
      // Wait for the request SOAP message to be parsed before we can
      // start sending stuff.
      waitForSoapMessage();

      // If the handler thread excepted, do not continue.
      checkError();

      // Verify that the client is registered
      verifyClientStatus();

      // Check client authentication mode
      verifyClientAuthentication();

      // If the message is synchronous, start sending proxy message
      if (!isAsync) {
        processRequest();
      }

      if (response != null) {
        sendResponse();
      }
    } catch (Exception e) {
      if (reqIns != null) {
        reqIns.close();
      }

      // Let's interrupt the handler thread so that it won't
      // block forever waiting for us to do something.
      handlerThread.interrupt();
      throw e;
    } finally {
      handlerThread.join();

      if (response != null) {
        response.consume();
      }
    }
  }
  /**
   * The local connection was meant to use PipeStreams instead of initiateQueueDataExchange. As I
   * had issues, I resorted to Queues. Unfortunately, this means that the protocol handshake is
   * written twice.
   */
  private void initiate() {
    try {
      logger.log(Level.INFO, "Starting the server Protocol");
      serverProtocol.startProtocol(outputStream, inputStream);

    } catch (UnexpectedProtocolException e) {
      logger.log(Level.SEVERE, "Server received an incorrect protocol from the client.");
      e.printStackTrace();

    } catch (IOException e) {
      logger.log(Level.SEVERE, "Error trying to start the server protocol");
      e.printStackTrace();
    } finally {
      try {
        logger.log(Level.INFO, "Server closing streams");
        outputStream.close();
        inputStream.close();
      } catch (IOException e) {
        e.printStackTrace();
      }
    }
  }
Ejemplo n.º 23
0
  public static void main(String[] args) throws IOException {
    // TODO Auto-generated method stub

    Thread t = new sumulator();
    t.start();
    System.out.println("in... initDat");

    // 1. 데이터 정리
    // 2. 간단한 자료구조
    // 3. 자료구조 데이터를 변경하는 쓰레드 생성( policy 가지고 있음)

    // 4. 메인 줄기엣 IPC while 로 대기

    while (true) {
      //			try {
      //				Thread.sleep(1000);
      //			} catch (InterruptedException e) {
      //				// TODO Auto-generated catch block
      //				e.printStackTrace();
      //			}
      // 1. 커멘드 정의

      // 2. 커멘드 파싱
      // 3. 해당 명령에 따라 분기
      //

      String readCommand = null;
      //			pIutputStream.read(readCommand.getBytes());
      int a = pIutputStream.read();

      //			pOutputStream.write("hello".getBytes());
      pOutputStream.write(9999);

      //			System.out.println(" nNumRunning: " + nNumRunning + " nNumIdel: "
      //					+ nNumRunning + " nNumUnhealthy: " + nNumUnhealthy
      //					+ " nNumAvailable: " + nNumAvailable + " nNumQueue: "
      //					+ nNumQueue);
    }
  }
  private void sendRequest(HttpSender httpSender) throws Exception {
    log.trace("sendRequest()");
    try {
      // If we're using SSL, we need to include the provider name in
      // the HTTP request so that server proxy could verify the SSL
      // certificate properly.
      if (SystemProperties.isSslEnabled()) {
        httpSender.setAttribute(AuthTrustVerifier.ID_PROVIDERNAME, requestServiceId);
      }

      // Start sending the request to server proxies. The underlying
      // SSLConnectionSocketFactory will select the fastest address
      // (socket that connects first) from the provided addresses.
      // Dummy service address is only needed so that host name resolving
      // could do its thing and start the ssl connection.
      URI[] addresses = getServiceAddresses(requestServiceId, requestSoap.getSecurityServer());
      httpSender.setAttribute(ID_TARGETS, addresses);
      httpSender.setTimeout(SystemProperties.getClientProxyTimeout());

      httpSender.addHeader(HEADER_HASH_ALGO_ID, getHashAlgoId());
      httpSender.addHeader(HEADER_PROXY_VERSION, ProxyMain.getVersion());

      try {
        httpSender.doPost(
            getDummyServiceAddress(addresses), reqIns, CHUNKED_LENGTH, outputContentType);
      } catch (Exception e) {
        // Failed to connect to server proxy
        MonitorAgent.serverProxyFailed(createRequestMessageInfo());
        // Rethrow
        throw e;
      }
    } finally {
      if (reqIns != null) {
        reqIns.close();
      }
    }
  }
Ejemplo n.º 25
0
  /**
   * Extract data to cache. Call synchronized on ctx.
   *
   * @param key The key the data was fetched from.
   * @param archiveType The archive type. Must be Metadata.ARCHIVE_ZIP | Metadata.ARCHIVE_TAR.
   * @param data The actual data fetched.
   * @param archiveContext The context for the whole fetch process.
   * @param ctx The ArchiveStoreContext for this key.
   * @param element A particular element that the caller is especially interested in, or null.
   * @param callback A callback to be called if we find that element, or if we don't.
   * @throws ArchiveFailureException If we could not extract the data, or it was too big, etc.
   * @throws ArchiveRestartException
   * @throws ArchiveRestartException If the request needs to be restarted because the archive
   *     changed.
   */
  public void extractToCache(
      FreenetURI key,
      ARCHIVE_TYPE archiveType,
      COMPRESSOR_TYPE ctype,
      final Bucket data,
      ArchiveContext archiveContext,
      ArchiveStoreContext ctx,
      String element,
      ArchiveExtractCallback callback,
      ClientContext context)
      throws ArchiveFailureException, ArchiveRestartException {
    logMINOR = Logger.shouldLog(LogLevel.MINOR, this);

    MutableBoolean gotElement = element != null ? new MutableBoolean() : null;

    if (logMINOR) Logger.minor(this, "Extracting " + key);
    ctx.removeAllCachedItems(this); // flush cache anyway
    final long expectedSize = ctx.getLastSize();
    final long archiveSize = data.size();
    /**
     * Set if we need to throw a RestartedException rather than returning success, after we have
     * unpacked everything.
     */
    boolean throwAtExit = false;
    if ((expectedSize != -1) && (archiveSize != expectedSize)) {
      throwAtExit = true;
      ctx.setLastSize(archiveSize);
    }
    byte[] expectedHash = ctx.getLastHash();
    if (expectedHash != null) {
      byte[] realHash;
      try {
        realHash = BucketTools.hash(data);
      } catch (IOException e) {
        throw new ArchiveFailureException("Error reading archive data: " + e, e);
      }
      if (!Arrays.equals(realHash, expectedHash)) throwAtExit = true;
      ctx.setLastHash(realHash);
    }

    if (archiveSize > archiveContext.maxArchiveSize)
      throw new ArchiveFailureException(
          "Archive too big (" + archiveSize + " > " + archiveContext.maxArchiveSize + ")!");
    else if (archiveSize <= 0)
      throw new ArchiveFailureException("Archive too small! (" + archiveSize + ')');
    else if (logMINOR)
      Logger.minor(this, "Container size (possibly compressed): " + archiveSize + " for " + data);

    InputStream is = null;
    try {
      final ExceptionWrapper wrapper;
      if ((ctype == null) || (ARCHIVE_TYPE.ZIP == archiveType)) {
        if (logMINOR) Logger.minor(this, "No compression");
        is = data.getInputStream();
        wrapper = null;
      } else if (ctype == COMPRESSOR_TYPE.BZIP2) {
        if (logMINOR) Logger.minor(this, "dealing with BZIP2");
        is = new BZip2CompressorInputStream(data.getInputStream());
        wrapper = null;
      } else if (ctype == COMPRESSOR_TYPE.GZIP) {
        if (logMINOR) Logger.minor(this, "dealing with GZIP");
        is = new GZIPInputStream(data.getInputStream());
        wrapper = null;
      } else if (ctype == COMPRESSOR_TYPE.LZMA_NEW) {
        // LZMA internally uses pipe streams, so we may as well do it here.
        // In fact we need to for LZMA_NEW, because of the properties bytes.
        PipedInputStream pis = new PipedInputStream();
        PipedOutputStream pos = new PipedOutputStream();
        pis.connect(pos);
        final OutputStream os = new BufferedOutputStream(pos);
        wrapper = new ExceptionWrapper();
        context.mainExecutor.execute(
            new Runnable() {

              @Override
              public void run() {
                InputStream is = null;
                try {
                  Compressor.COMPRESSOR_TYPE.LZMA_NEW.decompress(
                      is = data.getInputStream(), os, data.size(), expectedSize);
                } catch (CompressionOutputSizeException e) {
                  Logger.error(this, "Failed to decompress archive: " + e, e);
                  wrapper.set(e);
                } catch (IOException e) {
                  Logger.error(this, "Failed to decompress archive: " + e, e);
                  wrapper.set(e);
                } finally {
                  try {
                    os.close();
                  } catch (IOException e) {
                    Logger.error(this, "Failed to close PipedOutputStream: " + e, e);
                  }
                  Closer.close(is);
                }
              }
            });
        is = pis;
      } else if (ctype == COMPRESSOR_TYPE.LZMA) {
        if (logMINOR) Logger.minor(this, "dealing with LZMA");
        is = new LzmaInputStream(data.getInputStream());
        wrapper = null;
      } else {
        wrapper = null;
      }

      if (ARCHIVE_TYPE.ZIP == archiveType)
        handleZIPArchive(ctx, key, is, element, callback, gotElement, throwAtExit, context);
      else if (ARCHIVE_TYPE.TAR == archiveType)
        handleTARArchive(ctx, key, is, element, callback, gotElement, throwAtExit, context);
      else
        throw new ArchiveFailureException(
            "Unknown or unsupported archive algorithm " + archiveType);
      if (wrapper != null) {
        Exception e = wrapper.get();
        if (e != null)
          throw new ArchiveFailureException(
              "An exception occured decompressing: " + e.getMessage(), e);
      }
    } catch (IOException ioe) {
      throw new ArchiveFailureException("An IOE occured: " + ioe.getMessage(), ioe);
    } finally {
      Closer.close(is);
    }
  }
Ejemplo n.º 26
0
 public int read() throws IOException {
   return pIn.read();
 }
Ejemplo n.º 27
0
 public void closePipedInputStream() throws IOException {
   pIn.close();
 }