Exemplo n.º 1
0
  public synchronized ByteList readnonblock(int number)
      throws IOException, BadDescriptorException, EOFException {
    assert number >= 0;

    if (number == 0) {
      return null;
    }

    if (descriptor.getChannel() instanceof SelectableChannel) {
      SelectableChannel selectableChannel = (SelectableChannel) descriptor.getChannel();
      synchronized (selectableChannel.blockingLock()) {
        boolean oldBlocking = selectableChannel.isBlocking();
        try {
          selectableChannel.configureBlocking(false);
          return readpartial(number);
        } finally {
          selectableChannel.configureBlocking(oldBlocking);
        }
      }
    } else if (descriptor.getChannel() instanceof FileChannel) {
      return fread(number);
    } else {
      return null;
    }
  }
Exemplo n.º 2
0
  private ByteList bufferedRead(int number) throws IOException, BadDescriptorException {
    checkReadable();
    ensureRead();

    int resultSize = 0;

    // 128K seems to be the minimum at which the stat+seek is faster than reallocation
    final int BULK_THRESHOLD = 128 * 1024;
    if (number >= BULK_THRESHOLD
        && descriptor.isSeekable()
        && descriptor.getChannel() instanceof FileChannel) {
      //
      // If it is a file channel, then we can pre-allocate the output buffer
      // to the total size of buffered + remaining bytes in file
      //
      FileChannel fileChannel = (FileChannel) descriptor.getChannel();
      resultSize =
          (int)
              Math.min(
                  fileChannel.size() - fileChannel.position() + bufferedInputBytesRemaining(),
                  number);
    } else {
      //
      // Cannot discern the total read length - allocate at least enough for the buffered data
      //
      resultSize = Math.min(bufferedInputBytesRemaining(), number);
    }

    ByteList result = new ByteList(resultSize);
    bufferedRead(result, number);
    return result;
  }
Exemplo n.º 3
0
  /**
   * Flush the write buffer to the channel (if needed)
   *
   * @throws IOException
   */
  private boolean flushWrite(final boolean block) throws IOException, BadDescriptorException {
    if (reading || !modes.isWritable() || buffer.position() == 0) return false; // Don't bother
    int len = buffer.position();
    int nWritten = 0;
    buffer.flip();

    // For Sockets, only write as much as will fit.
    if (descriptor.getChannel() instanceof SelectableChannel) {
      SelectableChannel selectableChannel = (SelectableChannel) descriptor.getChannel();
      synchronized (selectableChannel.blockingLock()) {
        boolean oldBlocking = selectableChannel.isBlocking();
        try {
          if (oldBlocking != block) {
            selectableChannel.configureBlocking(block);
          }
          nWritten = descriptor.write(buffer);
        } finally {
          if (oldBlocking != block) {
            selectableChannel.configureBlocking(oldBlocking);
          }
        }
      }
    } else {
      nWritten = descriptor.write(buffer);
    }
    if (nWritten != len) {
      buffer.compact();
      return false;
    }
    buffer.clear();
    return true;
  }
Exemplo n.º 4
0
  public synchronized int writenonblock(ByteList buf) throws IOException, BadDescriptorException {
    checkWritable();
    ensureWrite();

    // Ruby ignores empty syswrites
    if (buf == null || buf.length() == 0) return 0;

    if (buffer.position() != 0 && !flushWrite(false)) return 0;

    if (descriptor.getChannel() instanceof SelectableChannel) {
      SelectableChannel selectableChannel = (SelectableChannel) descriptor.getChannel();
      synchronized (selectableChannel.blockingLock()) {
        boolean oldBlocking = selectableChannel.isBlocking();
        try {
          if (oldBlocking) {
            selectableChannel.configureBlocking(false);
          }
          return descriptor.write(ByteBuffer.wrap(buf.getUnsafeBytes(), buf.begin(), buf.length()));
        } finally {
          if (oldBlocking) {
            selectableChannel.configureBlocking(oldBlocking);
          }
        }
      }
    } else {
      // can't set nonblocking, so go ahead with it...not much else we can do
      return descriptor.write(ByteBuffer.wrap(buf.getUnsafeBytes(), buf.begin(), buf.length()));
    }
  }
Exemplo n.º 5
0
 public int ready() throws IOException {
   if (descriptor.getChannel() instanceof SelectableChannel) {
     int ready_stat = 0;
     java.nio.channels.Selector sel =
         SelectorFactory.openWithRetryFrom(
             null, ((SelectableChannel) descriptor.getChannel()).provider());
     SelectableChannel selchan = (SelectableChannel) descriptor.getChannel();
     synchronized (selchan.blockingLock()) {
       boolean is_block = selchan.isBlocking();
       try {
         selchan.configureBlocking(false);
         selchan.register(sel, java.nio.channels.SelectionKey.OP_READ);
         ready_stat = sel.selectNow();
         sel.close();
       } catch (Throwable ex) {
       } finally {
         if (sel != null) {
           try {
             sel.close();
           } catch (Exception e) {
           }
         }
         selchan.configureBlocking(is_block);
       }
     }
     return ready_stat;
   } else {
     return newInputStream().available();
   }
 }
Exemplo n.º 6
0
 public void setBlocking(boolean block) throws IOException {
   if (!(descriptor.getChannel() instanceof SelectableChannel)) {
     return;
   }
   synchronized (((SelectableChannel) descriptor.getChannel()).blockingLock()) {
     blocking = block;
     try {
       ((SelectableChannel) descriptor.getChannel()).configureBlocking(block);
     } catch (IllegalBlockingModeException e) {
       // ignore this; select() will set the correct mode when it is finished
     }
   }
 }
Exemplo n.º 7
0
 private void resetForWrite() throws IOException {
   if (descriptor.isSeekable()) {
     FileChannel fileChannel = (FileChannel) descriptor.getChannel();
     if (buffer.hasRemaining()) { // we have read ahead, and need to back up
       fileChannel.position(fileChannel.position() - buffer.remaining());
     }
   }
   // FIXME: Clearing read buffer here...is this appropriate?
   buffer.clear();
   reading = false;
 }
Exemplo n.º 8
0
 /**
  * Invalidate buffer before a position change has occurred (e.g. seek), flushing writes if
  * required, and correcting file position if reading
  *
  * @throws IOException
  */
 private void invalidateBuffer() throws IOException, BadDescriptorException {
   if (!reading) flushWrite();
   int posOverrun = buffer.remaining(); // how far ahead we are when reading
   buffer.clear();
   if (reading) {
     buffer.flip();
     // if the read buffer is ahead, back up
     FileChannel fileChannel = (FileChannel) descriptor.getChannel();
     if (posOverrun != 0) fileChannel.position(fileChannel.position() - posOverrun);
   }
 }
Exemplo n.º 9
0
 /**
  * Implementation of libc "lseek", which seeks on seekable streams, raises EPIPE if the fd is
  * assocated with a pipe, socket, or FIFO, and doesn't do anything for other cases (like stdio).
  *
  * @throws IOException
  * @throws InvalidValueException
  */
 public synchronized void lseek(long offset, int type)
     throws IOException, InvalidValueException, PipeException, BadDescriptorException {
   if (descriptor.isSeekable()) {
     FileChannel fileChannel = (FileChannel) descriptor.getChannel();
     ungotc = -1;
     int adj = 0;
     if (reading) {
       // for SEEK_CUR, need to adjust for buffered data
       adj = buffer.remaining();
       buffer.clear();
       buffer.flip();
     } else {
       flushWrite();
     }
     try {
       switch (type) {
         case SEEK_SET:
           fileChannel.position(offset);
           break;
         case SEEK_CUR:
           fileChannel.position(fileChannel.position() - adj + offset);
           break;
         case SEEK_END:
           fileChannel.position(fileChannel.size() + offset);
           break;
       }
     } catch (IllegalArgumentException e) {
       throw new InvalidValueException();
     } catch (IOException ioe) {
       throw ioe;
     }
   } else if (descriptor.getChannel() instanceof SelectableChannel) {
     // TODO: It's perhaps just a coincidence that all the channels for
     // which we should raise are instanceof SelectableChannel, since
     // stdio is not...so this bothers me slightly. -CON
     throw new PipeException();
   } else {
   }
 }
Exemplo n.º 10
0
 /** @throws IOException */
 public synchronized long fgetpos()
     throws IOException, PipeException, InvalidValueException, BadDescriptorException {
   // Correct position for read / write buffering (we could invalidate, but expensive)
   if (descriptor.isSeekable()) {
     FileChannel fileChannel = (FileChannel) descriptor.getChannel();
     long pos = fileChannel.position();
     // Adjust for buffered data
     if (reading) {
       pos -= buffer.remaining();
       return pos - (pos > 0 && ungotc != -1 ? 1 : 0);
     } else {
       return pos + buffer.position();
     }
   } else if (descriptor.isNull()) {
     return 0;
   } else {
     throw new PipeException();
   }
 }
Exemplo n.º 11
0
  public synchronized ByteList readpartial(int number)
      throws IOException, BadDescriptorException, EOFException {
    assert number >= 0;

    if (number == 0) {
      return null;
    }
    if (descriptor.getChannel() instanceof FileChannel) {
      return fread(number);
    }

    if (hasBufferedInputBytes()) {
      // already have some bytes buffered, just return those
      return bufferedRead(Math.min(bufferedInputBytesRemaining(), number));
    } else {
      // otherwise, we try an unbuffered read to get whatever's available
      return read(number);
    }
  }
Exemplo n.º 12
0
  public synchronized void ftruncate(long newLength)
      throws IOException, BadDescriptorException, InvalidValueException {
    Channel ch = descriptor.getChannel();
    if (!(ch instanceof FileChannel)) {
      throw new InvalidValueException();
    }
    invalidateBuffer();
    FileChannel fileChannel = (FileChannel) ch;
    long position = fileChannel.position();
    if (newLength > fileChannel.size()) {
      // truncate can't lengthen files, so we save position, seek/write, and go back
      int difference = (int) (newLength - fileChannel.size());

      fileChannel.position(fileChannel.size());
      // FIXME: This worries me a bit, since it could allocate a lot with a large newLength
      fileChannel.write(ByteBuffer.allocate(difference));
    } else {
      fileChannel.truncate(newLength);
    }
    fileChannel.position(position);
  }
Exemplo n.º 13
0
  /**
   * @deprecated readall do busy loop for the IO which has NONBLOCK bit. You should implement the
   *     logic by yourself with fread().
   */
  @Deprecated
  public synchronized ByteList readall() throws IOException, BadDescriptorException {
    final long fileSize =
        descriptor.isSeekable() && descriptor.getChannel() instanceof FileChannel
            ? ((FileChannel) descriptor.getChannel()).size()
            : 0;
    //
    // Check file size - special files in /proc have zero size and need to be
    // handled by the generic read path.
    //
    if (fileSize > 0) {
      ensureRead();

      FileChannel channel = (FileChannel) descriptor.getChannel();
      final long left = fileSize - channel.position() + bufferedInputBytesRemaining();
      if (left <= 0) {
        eof = true;
        return null;
      }

      if (left > Integer.MAX_VALUE) {
        if (getRuntime() != null) {
          throw getRuntime().newIOError("File too large");
        } else {
          throw new IOException("File too large");
        }
      }

      ByteList result = new ByteList((int) left);
      ByteBuffer buf = ByteBuffer.wrap(result.getUnsafeBytes(), result.begin(), (int) left);

      //
      // Copy any buffered data (including ungetc byte)
      //
      copyBufferedBytes(buf);

      //
      // Now read unbuffered directly from the file
      //
      while (buf.hasRemaining()) {
        final int MAX_READ_CHUNK = 1 * 1024 * 1024;
        //
        // When reading into a heap buffer, the jvm allocates a temporary
        // direct ByteBuffer of the requested size.  To avoid allocating
        // a huge direct buffer when doing ludicrous reads (e.g. 1G or more)
        // we split the read up into chunks of no more than 1M
        //
        ByteBuffer tmp = buf.duplicate();
        if (tmp.remaining() > MAX_READ_CHUNK) {
          tmp.limit(tmp.position() + MAX_READ_CHUNK);
        }
        int n = channel.read(tmp);
        if (n <= 0) {
          break;
        }
        buf.position(tmp.position());
      }
      eof = true;
      result.length(buf.position());
      return result;
    } else if (descriptor.isNull()) {
      return new ByteList(0);
    } else {
      checkReadable();

      ByteList byteList = new ByteList();
      ByteList read = fread(BUFSIZE);

      if (read == null) {
        eof = true;
        return byteList;
      }

      while (read != null) {
        byteList.append(read);
        read = fread(BUFSIZE);
      }

      return byteList;
    }
  }
Exemplo n.º 14
0
 private final int refillBuffer() throws IOException {
   buffer.clear();
   int n = ((ReadableByteChannel) descriptor.getChannel()).read(buffer);
   buffer.flip();
   return n;
 }
Exemplo n.º 15
0
 public synchronized int read(ByteBuffer dst)
     throws IOException, BadDescriptorException, EOFException {
   return read(dst, !(descriptor.getChannel() instanceof FileChannel));
 }