示例#1
0
 /**
  * Sends an error 500, performing a special logic to detect whether the request is suspended, to
  * avoid concurrent writes from the application.
  *
  * <p>It may happen that the application suspends, and then throws an exception, while an
  * application spawned thread writes the response content; in such case, we attempt to commit the
  * error directly bypassing the {@link ErrorHandler} mechanisms and the response OutputStream.
  *
  * @param x the Throwable that caused the problem
  */
 protected void handleException(Throwable x) {
   try {
     _request.setAttribute(RequestDispatcher.ERROR_EXCEPTION, x);
     _request.setAttribute(RequestDispatcher.ERROR_EXCEPTION_TYPE, x.getClass());
     if (_state.isSuspended()) {
       HttpFields fields = new HttpFields();
       fields.add(HttpHeader.CONNECTION, HttpHeaderValue.CLOSE);
       ResponseInfo info =
           new ResponseInfo(
               _request.getHttpVersion(),
               fields,
               0,
               HttpStatus.INTERNAL_SERVER_ERROR_500,
               null,
               _request.isHead());
       boolean committed = sendResponse(info, null, true);
       if (!committed) LOG.warn("Could not send response error 500: " + x);
       _request.getAsyncContext().complete();
     } else if (isCommitted()) {
       if (!(x instanceof EofException)) LOG.warn("Could not send response error 500: " + x);
     } else {
       _response.setHeader(HttpHeader.CONNECTION.asString(), HttpHeaderValue.CLOSE.asString());
       _response.sendError(500, x.getMessage());
     }
   } catch (IOException e) {
     // We tried our best, just log
     LOG.debug("Could not commit response error 500", e);
   }
 }
  /* ------------------------------------------------------------ */
  protected void handleRequest() throws IOException {
    boolean error = false;

    String threadName = null;
    try {
      if (LOG.isDebugEnabled()) {
        threadName = Thread.currentThread().getName();
        Thread.currentThread().setName(threadName + " - " + _uri);
      }

      // Loop here to handle async request redispatches.
      // The loop is controlled by the call to async.unhandle in the
      // finally block below.  If call is from a non-blocking connector,
      // then the unhandle will return false only if an async dispatch has
      // already happened when unhandle is called.   For a blocking connector,
      // the wait for the asynchronous dispatch or timeout actually happens
      // within the call to unhandle().

      final Server server = _server;
      boolean handling = _request._async.handling() && server != null && server.isRunning();
      while (handling) {
        _request.setHandled(false);

        String info = null;
        try {
          _uri.getPort();
          info = URIUtil.canonicalPath(_uri.getDecodedPath());
          if (info == null && !_request.getMethod().equals(HttpMethods.CONNECT))
            throw new HttpException(400);
          _request.setPathInfo(info);

          if (_out != null) _out.reopen();

          if (_request._async.isInitial()) {
            _request.setDispatcherType(DispatcherType.REQUEST);
            _connector.customize(_endp, _request);
            server.handle(this);
          } else {
            _request.setDispatcherType(DispatcherType.ASYNC);
            server.handleAsync(this);
          }
        } catch (ContinuationThrowable e) {
          LOG.ignore(e);
        } catch (EofException e) {
          LOG.debug(e);
          error = true;
          _request.setHandled(true);
        } catch (RuntimeIOException e) {
          LOG.debug(e);
          error = true;
          _request.setHandled(true);
        } catch (HttpException e) {
          LOG.debug(e);
          error = true;
          _request.setHandled(true);
          _response.sendError(e.getStatus(), e.getReason());
        } catch (Throwable e) {
          if (e instanceof ThreadDeath) throw (ThreadDeath) e;

          LOG.warn(String.valueOf(_uri), e);
          error = true;
          _request.setHandled(true);
          _generator.sendError(info == null ? 400 : 500, null, null, true);
        } finally {
          handling = !_request._async.unhandle() && server.isRunning() && _server != null;
        }
      }
    } finally {
      if (threadName != null) Thread.currentThread().setName(threadName);

      if (_request._async.isUncompleted()) {
        _request._async.doComplete();

        if (_expect100Continue) {
          LOG.debug("100 continues not sent");
          // We didn't send 100 continues, but the latest interpretation
          // of the spec (see httpbis) is that the client will either
          // send the body anyway, or close.  So we no longer need to
          // do anything special here other than make the connection not persistent
          _expect100Continue = false;
          if (!_response.isCommitted()) _generator.setPersistent(false);
        }

        if (_endp.isOpen()) {
          if (error) {
            _endp.shutdownOutput();
            _generator.setPersistent(false);
            if (!_generator.isComplete()) _response.complete();
          } else {
            if (!_response.isCommitted() && !_request.isHandled())
              _response.sendError(HttpServletResponse.SC_NOT_FOUND);
            _response.complete();
            if (_generator.isPersistent()) _connector.persist(_endp);
          }
        } else {
          _response.complete();
        }

        _request.setHandled(true);
      }
    }
  }
示例#3
0
 @Override
 public void sendError(int sc) throws IOException {
   if (sc == 102) sendProcessing();
   else sendError(sc, null);
 }
示例#4
0
  /** @return True if the channel is ready to continue handling (ie it is not suspended) */
  public boolean handle() {
    LOG.debug("{} handle enter", this);

    setCurrentHttpChannel(this);

    String threadName = null;
    if (LOG.isDebugEnabled()) {
      threadName = Thread.currentThread().getName();
      Thread.currentThread().setName(threadName + " - " + _uri);
    }

    // Loop here to handle async request redispatches.
    // The loop is controlled by the call to async.unhandle in the
    // finally block below.  Unhandle will return false only if an async dispatch has
    // already happened when unhandle is called.
    HttpChannelState.Next next = _state.handling();
    while (next == Next.CONTINUE && getServer().isRunning()) {
      boolean error = false;
      try {
        _request.setHandled(false);
        _response.getHttpOutput().reopen();

        if (_state.isInitial()) {
          _request.setTimeStamp(System.currentTimeMillis());
          _request.setDispatcherType(DispatcherType.REQUEST);

          for (HttpConfiguration.Customizer customizer : _configuration.getCustomizers())
            customizer.customize(getConnector(), _configuration, _request);
          getServer().handle(this);
        } else {
          if (_request.getHttpChannelState().isExpired()) {
            _request.setDispatcherType(DispatcherType.ERROR);

            Throwable ex = _state.getAsyncContextEvent().getThrowable();
            String reason = "Async Timeout";
            if (ex != null) {
              reason = "Async Exception";
              _request.setAttribute(RequestDispatcher.ERROR_EXCEPTION, ex);
            }
            _request.setAttribute(RequestDispatcher.ERROR_STATUS_CODE, new Integer(500));
            _request.setAttribute(RequestDispatcher.ERROR_MESSAGE, reason);
            _request.setAttribute(RequestDispatcher.ERROR_REQUEST_URI, _request.getRequestURI());

            _response.setStatusWithReason(500, reason);

            ErrorHandler eh = _state.getContextHandler().getErrorHandler();
            if (eh instanceof ErrorHandler.ErrorPageMapper) {
              String error_page =
                  ((ErrorHandler.ErrorPageMapper) eh)
                      .getErrorPage(
                          (HttpServletRequest) _state.getAsyncContextEvent().getSuppliedRequest());
              if (error_page != null) _state.getAsyncContextEvent().setDispatchPath(error_page);
            }
          } else _request.setDispatcherType(DispatcherType.ASYNC);
          getServer().handleAsync(this);
        }
      } catch (Error e) {
        if ("ContinuationThrowable".equals(e.getClass().getSimpleName())) LOG.ignore(e);
        else {
          error = true;
          throw e;
        }
      } catch (Exception e) {
        error = true;
        if (e instanceof EofException) LOG.debug(e);
        else LOG.warn(String.valueOf(_uri), e);
        _state.error(e);
        _request.setHandled(true);
        handleException(e);
      } finally {
        if (error && _state.isAsyncStarted()) _state.errorComplete();
        next = _state.unhandle();
      }
    }

    if (threadName != null && LOG.isDebugEnabled()) Thread.currentThread().setName(threadName);
    setCurrentHttpChannel(null);

    if (next == Next.COMPLETE) {
      try {
        _state.completed();

        if (!_response.isCommitted() && !_request.isHandled()) _response.sendError(404);
        else
          // Complete generating the response
          _response.closeOutput();
      } catch (EofException | ClosedChannelException e) {
        LOG.debug(e);
      } catch (Exception e) {
        LOG.warn("complete failed", e);
      } finally {
        _request.setHandled(true);
        _transport.completed();
      }
    }

    LOG.debug("{} handle exit, result {}", this, next);

    return next != Next.WAIT;
  }