/**
   * Handle the response or error (during a failed send) message received for an outgoing request
   *
   * @param messageID Request message ID
   * @param response the Axis2 MessageContext that has been received and has to be handled
   * @param synapseOutMsgCtx the corresponding (outgoing) Synapse MessageContext for the above Axis2
   *     MC, that holds Synapse specific information such as the error handler stack and local
   *     properties etc.
   * @throws AxisFault if the message cannot be processed
   */
  private void handleMessage(
      String messageID,
      MessageContext response,
      org.apache.synapse.MessageContext synapseOutMsgCtx,
      AsyncCallback callback)
      throws AxisFault {
    // apply the tenant information to the out message context
    TenantInfoConfigurator configurator =
        synapseOutMsgCtx.getEnvironment().getTenantInfoConfigurator();
    if (configurator != null) {
      configurator.applyTenantInfo(synapseOutMsgCtx);
    }
    Object o = response.getProperty(SynapseConstants.SENDING_FAULT);
    if (o != null && Boolean.TRUE.equals(o)) {

      StatisticsReporter.reportFaultForAll(
          synapseOutMsgCtx, ErrorLogFactory.createErrorLog(response));
      // there is a sending fault. propagate the fault to fault handlers.

      Stack faultStack = synapseOutMsgCtx.getFaultStack();
      if (faultStack != null && !faultStack.isEmpty()) {

        // if we have access to the full synapseOutMsgCtx.getEnvelope(), then let
        // it flow with the error details. Else, replace its envelope with the
        // fault envelope
        try {
          synapseOutMsgCtx.getEnvelope().build();
        } catch (OMException x) {
          synapseOutMsgCtx.setEnvelope(response.getEnvelope());
        }

        Exception e = (Exception) response.getProperty(SynapseConstants.ERROR_EXCEPTION);

        synapseOutMsgCtx.setProperty(SynapseConstants.SENDING_FAULT, Boolean.TRUE);
        synapseOutMsgCtx.setProperty(
            SynapseConstants.ERROR_CODE, response.getProperty(SynapseConstants.ERROR_CODE));
        synapseOutMsgCtx.setProperty(
            SynapseConstants.ERROR_MESSAGE, response.getProperty(SynapseConstants.ERROR_MESSAGE));
        synapseOutMsgCtx.setProperty(
            SynapseConstants.ERROR_DETAIL, response.getProperty(SynapseConstants.ERROR_DETAIL));
        synapseOutMsgCtx.setProperty(SynapseConstants.ERROR_EXCEPTION, e);

        if (log.isDebugEnabled()) {
          log.debug(
              "[Failed Request Message ID : "
                  + messageID
                  + "]"
                  + " [New to be Retried Request Message ID : "
                  + synapseOutMsgCtx.getMessageID()
                  + "]");
        }

        int errorCode = (Integer) response.getProperty(SynapseConstants.ERROR_CODE);

        // If a timeout has occured and the timeout action of the callback is to discard the message
        if (errorCode == SynapseConstants.NHTTP_CONNECTION_TIMEOUT
            && callback.getTimeOutAction() == SynapseConstants.DISCARD) {
          // Do not execute any fault sequences. Discard message
          if (log.isWarnEnabled()) {
            log.warn(
                "Synapse timed out for the request with Message ID : "
                    + messageID
                    + ". Ignoring fault handlers since the timeout action is DISCARD");
          }
          faultStack.removeAllElements();
        } else {
          ((FaultHandler) faultStack.pop()).handleFault(synapseOutMsgCtx, null);
        }
      }

    } else {

      // there can always be only one instance of an Endpoint in the faultStack of a message
      // if the send was successful, so remove it before we proceed any further
      Stack faultStack = synapseOutMsgCtx.getFaultStack();

      Endpoint successfulEndpoint = null;
      if (faultStack != null && !faultStack.isEmpty() && faultStack.peek() instanceof Endpoint) {
        successfulEndpoint = (Endpoint) faultStack.pop();
      }

      if (log.isDebugEnabled()) {
        log.debug("Synapse received an asynchronous response message");
        log.debug(
            "Received To: " + (response.getTo() != null ? response.getTo().getAddress() : "null"));
        log.debug(
            "SOAPAction: "
                + (response.getSoapAction() != null ? response.getSoapAction() : "null"));
        log.debug(
            "WSA-Action: " + (response.getWSAAction() != null ? response.getWSAAction() : "null"));
        String[] cids = response.getAttachmentMap().getAllContentIDs();
        if (cids != null && cids.length > 0) {
          for (String cid : cids) {
            log.debug("Attachment : " + cid);
          }
        }
        log.debug("Body : \n" + response.getEnvelope());
      }
      MessageContext axisOutMsgCtx =
          ((Axis2MessageContext) synapseOutMsgCtx).getAxis2MessageContext();

      // Processes 'Accept-Encoding'
      ResponseAcceptEncodingProcessor.process(response, axisOutMsgCtx);

      response.setServiceContext(null);
      response.setOperationContext(axisOutMsgCtx.getOperationContext());
      response.setAxisMessage(
          axisOutMsgCtx.getAxisOperation().getMessage(WSDLConstants.MESSAGE_LABEL_OUT_VALUE));

      // set properties on response
      response.setServerSide(true);
      response.setProperty(SynapseConstants.ISRESPONSE_PROPERTY, Boolean.TRUE);
      response.setProperty(
          MessageContext.TRANSPORT_OUT, axisOutMsgCtx.getProperty(MessageContext.TRANSPORT_OUT));
      response.setProperty(
          org.apache.axis2.Constants.OUT_TRANSPORT_INFO,
          axisOutMsgCtx.getProperty(org.apache.axis2.Constants.OUT_TRANSPORT_INFO));
      response.setTransportIn(axisOutMsgCtx.getTransportIn());
      response.setTransportOut(axisOutMsgCtx.getTransportOut());

      // If request is REST assume that the response is REST too
      response.setDoingREST(axisOutMsgCtx.isDoingREST());
      if (axisOutMsgCtx.isDoingMTOM()) {
        response.setDoingMTOM(true);
        response.setProperty(
            org.apache.axis2.Constants.Configuration.ENABLE_MTOM,
            org.apache.axis2.Constants.VALUE_TRUE);
      }
      if (axisOutMsgCtx.isDoingSwA()) {
        response.setDoingSwA(true);
        response.setProperty(
            org.apache.axis2.Constants.Configuration.ENABLE_SWA,
            org.apache.axis2.Constants.VALUE_TRUE);
      }

      // when axis2 receives a soap message without addressing headers it users
      // DISABLE_ADDRESSING_FOR_OUT_MESSAGES property to keep it and hence avoid addressing
      // headers on the response. this causes a problem for synapse if the original message
      // it receivs (from client) has addressing and the synaspse service invocation has not
      // engage addressing. in this case when synapse receives the response from the server
      // addessing In handler dissable addressing since that response does not have addressing
      // headers. synapse sends the response to its orignal client using the same message
      // context. Then this response does not have addressing headers since it already
      // disable. to avoid this we need to set the DISABLE_ADDRESSING_FOR_OUT_MESSAGES
      // property state to original state.
      if (axisOutMsgCtx.getProperty(AddressingConstants.DISABLE_ADDRESSING_FOR_OUT_MESSAGES)
          != null) {

        response.setProperty(
            AddressingConstants.DISABLE_ADDRESSING_FOR_OUT_MESSAGES,
            axisOutMsgCtx.getProperty(AddressingConstants.DISABLE_ADDRESSING_FOR_OUT_MESSAGES));
      } else {
        response.removeProperty(AddressingConstants.DISABLE_ADDRESSING_FOR_OUT_MESSAGES);
      }

      Object messageType =
          axisOutMsgCtx.getProperty(org.apache.axis2.Constants.Configuration.MESSAGE_TYPE);
      if (!HTTPConstants.MEDIA_TYPE_X_WWW_FORM.equals(messageType)) {
        // copy the message type property that's used by the out message to the
        // response message
        response.setProperty(org.apache.axis2.Constants.Configuration.MESSAGE_TYPE, messageType);
      }

      // compare original received message (axisOutMsgCtx) soap version with the response
      // if they are different change to original version
      if (axisOutMsgCtx.isSOAP11() != response.isSOAP11()) {
        if (axisOutMsgCtx.isSOAP11()) {
          SOAPUtils.convertSOAP12toSOAP11(response);
        } else {
          SOAPUtils.convertSOAP11toSOAP12(response);
        }
      }

      if (axisOutMsgCtx.getMessageID() != null) {
        response.setRelationships(new RelatesTo[] {new RelatesTo(axisOutMsgCtx.getMessageID())});
      }

      response.setReplyTo(axisOutMsgCtx.getReplyTo());
      response.setFaultTo(axisOutMsgCtx.getFaultTo());

      if (axisOutMsgCtx.isPropertyTrue(NhttpConstants.IGNORE_SC_ACCEPTED)) {
        response.setProperty(NhttpConstants.FORCE_SC_ACCEPTED, Constants.VALUE_TRUE);
      }

      // create the synapse message context for the response
      Axis2MessageContext synapseInMessageContext =
          new Axis2MessageContext(
              response, synapseOutMsgCtx.getConfiguration(), synapseOutMsgCtx.getEnvironment());
      synapseInMessageContext.setResponse(true);

      Object obj = synapseOutMsgCtx.getProperty(SynapseConstants.FORCE_ERROR_PROPERTY);
      String errorOnSOAPFault = (String) obj;

      if (Constants.VALUE_TRUE.equals(errorOnSOAPFault) && successfulEndpoint != null) {

        if (log.isDebugEnabled()) {
          log.debug("FORCE_ERROR_ON_SOAP_FAULT is true, checking for SOAPFault");
        }

        try {
          RelayUtils.buildMessage(
              ((Axis2MessageContext) synapseInMessageContext).getAxis2MessageContext(), true);
        } catch (Exception e) {
          // handleException("Error while building message", e, synapseInMessageContext);
        }

        if ((synapseInMessageContext.getEnvelope() != null)
            && synapseInMessageContext.getEnvelope().hasFault()) {

          if (log.isDebugEnabled()) {
            log.debug(
                "SOAPFault found in response message, forcing endpoint "
                    + successfulEndpoint.getName()
                    + " to fail");
          }

          // setup new pipe configuration..if failure happens (this will be setup as the source
          // writer and during the TargetContext
          // clean up operation the writer will be reset and pull to the buffer
          MessageContext axis2OUTMC =
              ((Axis2MessageContext) synapseOutMsgCtx).getAxis2MessageContext();
          NHttpServerConnection conn =
              (NHttpServerConnection) axis2OUTMC.getProperty("pass-through.Source-Connection");
          if (conn != null) {
            SourceConfiguration sourceConfiguration =
                (SourceConfiguration) axis2OUTMC.getProperty("PASS_THROUGH_SOURCE_CONFIGURATION");
            Pipe pipe =
                new Pipe(
                    conn,
                    sourceConfiguration.getBufferFactory().getBuffer(),
                    "source",
                    sourceConfiguration);
            axis2OUTMC.setProperty(PassThroughConstants.PASS_THROUGH_PIPE, pipe);
          }

          StatisticsReporter.reportFaultForAll(
              synapseOutMsgCtx, ErrorLogFactory.createErrorLog(response));
          synapseOutMsgCtx.setProperty(SynapseConstants.SENDING_FAULT, Boolean.TRUE);
          synapseOutMsgCtx.setProperty(
              SynapseConstants.ERROR_CODE, SynapseConstants.ENDPOINT_CUSTOM_ERROR);
          ((FaultHandler) successfulEndpoint).handleFault(synapseOutMsgCtx, null);
          return;
        } else {
          successfulEndpoint.onSuccess();
        }

      } else if (successfulEndpoint != null) {
        successfulEndpoint.onSuccess();
      }

      synapseInMessageContext.setTo(
          new EndpointReference(AddressingConstants.Final.WSA_ANONYMOUS_URL));
      synapseInMessageContext.setTracingState(synapseOutMsgCtx.getTracingState());

      // set the properties of the original MC to the new MC

      for (Object key : synapseOutMsgCtx.getPropertyKeySet()) {
        synapseInMessageContext.setProperty(
            (String) key, synapseOutMsgCtx.getProperty((String) key));
      }

      // Copy SequenceCallStack from original MC to the new MC
      if (synapseOutMsgCtx.isContinuationEnabled()) {

        // Set the message direction
        if (!synapseOutMsgCtx.isResponse()) {
          synapseInMessageContext.setResponse(false);
        }

        Stack<ContinuationState> seqContinuationStates =
            synapseOutMsgCtx.getContinuationStateStack();
        for (int i = 0; i < seqContinuationStates.size(); i++) {
          synapseInMessageContext.pushContinuationState(seqContinuationStates.get(i));
        }
      }

      // If this response is related to session affinity endpoints -Server initiated session
      Dispatcher dispatcher =
          (Dispatcher)
              synapseOutMsgCtx.getProperty(SynapseConstants.PROP_SAL_ENDPOINT_CURRENT_DISPATCHER);
      if (dispatcher != null && dispatcher.isServerInitiatedSession()) {
        dispatcher.updateSession(synapseInMessageContext);
      }

      StatisticsReporter.reportForAllOnResponseReceived(synapseInMessageContext);

      // send the response message through the synapse mediation flow
      try {
        synapseOutMsgCtx.getEnvironment().injectMessage(synapseInMessageContext);
      } catch (SynapseException syne) {
        Stack stack = synapseInMessageContext.getFaultStack();
        if (stack != null && !stack.isEmpty()) {
          ((FaultHandler) stack.pop()).handleFault(synapseInMessageContext, syne);
        } else {
          log.error(
              "Synapse encountered an exception, "
                  + "No error handlers found - [Message Dropped]\n"
                  + syne.getMessage());
        }
      }
    }
  }
Example #2
0
  /** Process the incoming request */
  @SuppressWarnings({"unchecked"})
  public void run() {

    String method = request.getRequestLine().getMethod().toUpperCase();
    msgContext.setProperty(
        Constants.Configuration.HTTP_METHOD, request.getRequestLine().getMethod());

    if (NHttpConfiguration.getInstance().isHttpMethodDisabled(method)) {
      handleException("Unsupported method : " + method, null);
    }

    // String uri = request.getRequestLine().getUri();
    String oriUri = request.getRequestLine().getUri();
    String restUrlPostfix = NhttpUtil.getRestUrlPostfix(oriUri, cfgCtx.getServicePath());

    msgContext.setProperty(NhttpConstants.REST_URL_POSTFIX, restUrlPostfix);
    String servicePrefix = oriUri.substring(0, oriUri.indexOf(restUrlPostfix));
    if (servicePrefix.indexOf("://") == -1) {
      HttpInetConnection inetConn = (HttpInetConnection) conn;
      InetAddress localAddr = inetConn.getLocalAddress();
      if (localAddr != null) {
        servicePrefix =
            schemeName
                + "://"
                + localAddr.getHostName()
                + ":"
                + inetConn.getLocalPort()
                + servicePrefix;
      }

      if (inetConn.getLocalPort() > 0) {
        msgContext.setProperty(NhttpConstants.SERVER_PORT, inetConn.getLocalPort());
      }
    }
    msgContext.setProperty(NhttpConstants.SERVICE_PREFIX, servicePrefix);

    if ("GET".equals(method)) {
      httpGetRequestProcessor.process(request, response, msgContext, conn, os, isRestDispatching);
    } else if ("POST".equals(method)) {
      processEntityEnclosingMethod();
    } else if ("PUT".equals(method)) {
      processEntityEnclosingMethod();
    } else if ("HEAD".equals(method)) {
      processNonEntityEnclosingMethod();
    } else if ("OPTIONS".equals(method)) {
      processNonEntityEnclosingMethod();
    } else if ("DELETE".equals(method)) {
      processGetAndDelete("DELETE");
    } else if ("TRACE".equals(method)) {
      processNonEntityEnclosingMethod();
    } else {
      handleException("Unsupported method : " + method, null);
    }

    // here the RequestResponseTransport plays an important role when it comes to
    // dual channel invocation. This is becasue we need to ACK to the request once the request
    // is received to synapse. Otherwise we will not be able to support the single channel
    // invocation within the actual service and synapse for a dual channel request from the
    // client.
    if (isAckRequired()) {
      String respWritten = "";
      if (msgContext.getOperationContext() != null) {
        respWritten =
            (String) msgContext.getOperationContext().getProperty(Constants.RESPONSE_WRITTEN);
      }
      boolean respWillFollow =
          !Constants.VALUE_TRUE.equals(respWritten) && !"SKIP".equals(respWritten);
      boolean acked =
          (((RequestResponseTransport)
                      msgContext.getProperty(RequestResponseTransport.TRANSPORT_CONTROL))
                  .getStatus()
              == RequestResponseTransport.RequestResponseTransportStatus.ACKED);
      boolean forced = msgContext.isPropertyTrue(NhttpConstants.FORCE_SC_ACCEPTED);
      boolean nioAck = msgContext.isPropertyTrue("NIO-ACK-Requested", false);

      if (respWillFollow || acked || forced || nioAck) {

        if (!nioAck) {
          if (log.isDebugEnabled()) {
            log.debug(
                "Sending 202 Accepted response for MessageID : "
                    + msgContext.getMessageID()
                    + " response written : "
                    + respWritten
                    + " response will follow : "
                    + respWillFollow
                    + " acked : "
                    + acked
                    + " forced ack : "
                    + forced);
          }
          response.setStatusCode(HttpStatus.SC_ACCEPTED);
        } else {
          if (log.isDebugEnabled()) {
            log.debug(
                "Sending ACK response with status "
                    + msgContext.getProperty(NhttpConstants.HTTP_SC)
                    + ", for MessageID : "
                    + msgContext.getMessageID());
          }
          response.setStatusCode(
              Integer.parseInt(msgContext.getProperty(NhttpConstants.HTTP_SC).toString()));
          Map<String, String> responseHeaders =
              (Map<String, String>) msgContext.getProperty(MessageContext.TRANSPORT_HEADERS);
          if (responseHeaders != null) {
            for (String headerName : responseHeaders.keySet()) {
              response.addHeader(headerName, responseHeaders.get(headerName));

              String excessProp = NhttpConstants.EXCESS_TRANSPORT_HEADERS;

              Map map = (Map) msgContext.getProperty(excessProp);
              if (map != null) {
                log.debug(
                    "Number of excess values for "
                        + headerName
                        + " header is : "
                        + ((Collection) (map.get(headerName))).size());

                for (Iterator iterator = map.keySet().iterator(); iterator.hasNext(); ) {
                  String key = (String) iterator.next();

                  for (String excessVal : (Collection<String>) map.get(key)) {
                    response.addHeader(headerName, (String) excessVal);
                  }
                }
              }
            }
          }
        }

        if (metrics != null) {
          metrics.incrementMessagesSent();
        }

        try {

          /*
           * Remove Content-Length and Transfer-Encoding headers, if already present.
           * */
          response.removeHeaders(HTTP.TRANSFER_ENCODING);
          response.removeHeaders(HTTP.CONTENT_LEN);

          serverHandler.commitResponse(conn, response);

        } catch (HttpException e) {
          if (metrics != null) {
            metrics.incrementFaultsSending();
          }
          handleException("Unexpected HTTP protocol error : " + e.getMessage(), e);
        } catch (ConnectionClosedException e) {
          if (metrics != null) {
            metrics.incrementFaultsSending();
          }
          log.warn("Connection closed by client (Connection closed)");
        } catch (IllegalStateException e) {
          if (metrics != null) {
            metrics.incrementFaultsSending();
          }
          log.warn("Connection closed by client (Buffer closed)");
        } catch (IOException e) {
          if (metrics != null) {
            metrics.incrementFaultsSending();
          }
          handleException("IO Error sending response message", e);
        } catch (Exception e) {
          if (metrics != null) {
            metrics.incrementFaultsSending();
          }
          handleException("General Error sending response message", e);
        }

        if (is != null) {
          try {
            is.close();
          } catch (IOException ignore) {
          }
        }

        // make sure that the output stream is flushed and closed properly
        try {
          os.flush();
          os.close();
        } catch (IOException ignore) {
        }
      }
    }
  }