@Override public InetAddress getRemoteAddress() { return connection.getRemoteAddress(); }
@Override protected void runInContext() { HttpContext context = new BasicHttpContext(null); try { while (!Thread.interrupted() && conn.isOpen()) { if (s_logger.isTraceEnabled()) s_logger.trace("dispatching cluster request from " + conn.getRemoteAddress().toString()); _httpService.handleRequest(conn, context); if (s_logger.isTraceEnabled()) s_logger.trace("Cluster request from " + conn.getRemoteAddress().toString() + " is processed"); } } catch (ConnectionClosedException ex) { // client close and read time out exceptions are expected // when KEEP-AVLIE is enabled s_logger.trace("Client closed connection", ex); } catch (IOException ex) { s_logger.trace("I/O error", ex); } catch (HttpException ex) { s_logger.error("Unrecoverable HTTP protocol violation", ex); } finally { try { conn.shutdown(); } catch (IOException ignore) { s_logger.error("unexpected exception", ignore); } } } });
@Override protected void runInContext() { final HttpContext context = new BasicHttpContext(null); try { while (!Thread.interrupted() && conn.isOpen()) { if (s_logger.isTraceEnabled()) { s_logger.trace("dispatching cluster request from " + conn.getRemoteAddress().toString()); } _httpService.handleRequest(conn, context); if (s_logger.isTraceEnabled()) { s_logger.trace("Cluster request from " + conn.getRemoteAddress().toString() + " is processed"); } } } catch (final ConnectionClosedException ex) { // client close and read time out exceptions are expected // when KEEP-AVLIE is enabled s_logger.trace("Client closed connection", ex); } catch (final IOException ex) { s_logger.trace("I/O error", ex); } catch (final HttpException ex) { s_logger.error("Unrecoverable HTTP protocol violation", ex); } finally { try { conn.shutdown(); } catch (final IOException ignore) { s_logger.error("unexpected exception", ignore); } } } });