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// Portions Copyright [2016] [Payara Foundation]
package org.apache.catalina.core;

import fish.payara.nucleus.requesttracing.RequestTracingService;
import org.apache.catalina.*;
import org.apache.catalina.connector.ClientAbortException;
import org.apache.catalina.connector.Request;
import org.apache.catalina.connector.RequestFacade;
import org.apache.catalina.connector.ResponseFacade;
import org.apache.catalina.util.InstanceSupport;

import javax.servlet.*;
import javax.servlet.http.HttpServletRequest;
import javax.servlet.http.HttpServletResponse;
import java.io.IOException;
import java.security.AccessController;
import java.security.PrivilegedActionException;
import java.security.PrivilegedExceptionAction;
import java.text.MessageFormat;
import java.util.ResourceBundle;
import java.util.logging.Level;
import java.util.logging.Logger;

import static org.apache.catalina.InstanceEvent.EventType.AFTER_DISPATCH_EVENT;

/**
 * Standard implementation of RequestDispatcher that allows a
 * request to be forwarded to a different resource to create the ultimate
 * response, or to include the output of another resource in the response
 * from this resource.  This implementation allows application level servlets
 * to wrap the request and/or response objects that are passed on to the
 * called resource, as long as the wrapping classes extend
 * javax.servlet.ServletRequestWrapper and
 * javax.servlet.ServletResponseWrapper.
 *
 * @author Craig R. McClanahan
 * @version $Revision: 1.16 $ $Date: 2007/02/26 22:57:08 $
 */

public final class ApplicationDispatcher
    implements RequestDispatcher {

    private static final Logger log = LogFacade.getLogger();
    private static final ResourceBundle rb = log.getResourceBundle();

    // This attribute corresponds to a String[] which acts like a stack
    // containing the last two pushed elements
    public static final String LAST_DISPATCH_REQUEST_PATH_ATTR =
        "org.apache.catalina.core.ApplicationDispatcher.lastDispatchRequestPathAttr";

    protected class PrivilegedDispatch implements PrivilegedExceptionAction {

        private ServletRequest request;
        private ServletResponse response;
        private DispatcherType dispatcherType;

        PrivilegedDispatch(ServletRequest request, ServletResponse response,
                           DispatcherType dispatcherType) {
            this.request = request;
            this.response = response;
            this.dispatcherType = dispatcherType;
        }

        public Void run() throws java.lang.Exception {
            doDispatch(request, response, dispatcherType);
            return null;
        }
    }

    protected class PrivilegedInclude implements PrivilegedExceptionAction {

        private ServletRequest request;
        private ServletResponse response;

        PrivilegedInclude(ServletRequest request, ServletResponse response) {
            this.request = request;
            this.response = response;
        }

        public Void run() throws ServletException, IOException {
            doInclude(request,response);
            return null;
        }
    }

    /**
     * Used to pass state when the request dispatcher is used. Using instance
     * variables causes threading issues and state is too complex to pass and
     * return single ServletRequest or ServletResponse objects.
     */
    private static class State {

        /**
         * Outermost request that will be passed on to the invoked servlet
         */
        ServletRequest outerRequest = null;

        /**
         * Outermost response that will be passed on to the invoked servlet.
         */
        ServletResponse outerResponse = null;
        
        /**
         * Request wrapper we have created and installed (if any).
         */
        ServletRequest wrapRequest = null;

        /**
         * Response wrapper we have created and installed (if any).
         */
        ServletResponse wrapResponse = null;
        
        /**
         * The type of dispatch we are performing
         */
        DispatcherType dispatcherType;

        /**
         * Outermost HttpServletRequest in the chain
         */
        HttpServletRequest hrequest = null;

        /**
         * Outermost HttpServletResponse in the chain
         */
        HttpServletResponse hresponse = null;

        State(ServletRequest request, ServletResponse response,
              DispatcherType dispatcherType) {
            this.outerRequest = request;
            this.outerResponse = response;
            this.dispatcherType = dispatcherType;
        }
    }

    // ----------------------------------------------------------- Constructors


    /**
     * Construct a new instance of this class, configured according to the
     * specified parameters.  If both servletPath and pathInfo are
     * null, it will be assumed that this RequestDispatcher
     * was acquired by name, rather than by path.
     *
     * @param wrapper The Wrapper associated with the resource that will
     *  be forwarded to or included (required)
     * @param requestURI The request URI to this resource (if any)
     * @param servletPath The revised servlet path to this resource (if any)
     * @param pathInfo The revised extra path information to this resource
     *  (if any)
     * @param queryString Query string parameters included with this request
     *  (if any)
     * @param name Servlet name (if a named dispatcher was created)
     *  else null
     */
    public ApplicationDispatcher
        (Wrapper wrapper, String requestURI, String servletPath,
         String pathInfo, String queryString, String name) {

        super();

        // Save all of our configuration parameters
        this.wrapper = wrapper;
        this.context = (Context) wrapper.getParent();
        this.requestURI = requestURI;
        this.servletPath = servletPath;
        this.pathInfo = pathInfo;
        this.queryString = queryString;
        this.name = name;

        requestTracing = org.glassfish.internal.api.Globals.getDefaultHabitat().getService(RequestTracingService.class);

        if (log.isLoggable(Level.FINE))
            log.log(Level.FINE, "servletPath= " + this.servletPath + ", pathInfo= "
                    + this.pathInfo + ", queryString= " + queryString + ", name= "
                    + this.name + "");
    }


    // ----------------------------------------------------- Instance Variables

    //START OF 6364900
    /**
     * is this dispatch cross context
     */
    private Boolean crossContextFlag = null;
    //END OF 6364900

    /**
     * The Context this RequestDispatcher is associated with.
     */
    private Context context = null;

    /**
     * Descriptive information about this implementation.
     */
    private static final String info =
        "org.apache.catalina.core.ApplicationDispatcher/1.0";

    /**
     * The servlet name for a named dispatcher.
     */
    private String name = null;

    /**
     * The extra path information for this RequestDispatcher.
     */
    private String pathInfo = null;

    /**
     * The query string parameters for this RequestDispatcher.
     */
    private String queryString = null;

    /**
     * The request URI for this RequestDispatcher.
     */
    private String requestURI = null;

    /**
     * The servlet path for this RequestDispatcher.
     */
    private String servletPath = null;

    /**
     * The Wrapper associated with the resource that will be forwarded to
     * or included.
     */
    private Wrapper wrapper = null;

    private RequestTracingService requestTracing;

    // ------------------------------------------------------------- Properties


    /**
     * Return the descriptive information about this implementation.
     */
    public String getInfo() {
        return (this.info);
    }


    // --------------------------------------------------------- Public Methods

    /**
     * Forwards the given request and response to the resource
     * for which this dispatcher was acquired.
     *
     * 

Any runtime exceptions, IOException, or ServletException thrown * by the target will be propagated to the caller. * * @param request The request to be forwarded * @param response The response to be forwarded * * @throws IOException if an input/output error occurs * @throws ServletException if a servlet exception occurs */ public void forward(ServletRequest request, ServletResponse response) throws ServletException, IOException { // store previous forward Object prevForward = request.getAttribute("fish.payara.servlet.dispatchPath"); request.setAttribute("fish.payara.servlet.dispatchPath", this.servletPath); try { dispatch(request, response, DispatcherType.FORWARD); }finally { request.setAttribute("fish.payara.servlet.dispatchPath",prevForward); } } /** * Dispatches the given request and response to the resource * for which this dispatcher was acquired. * *

Any runtime exceptions, IOException, or ServletException thrown * by the target will be propagated to the caller. * * @param request The request to be forwarded * @param response The response to be forwarded * @param dispatcherType The type of dispatch to be performed * * @throws IOException if an input/output error occurs * @throws ServletException if a servlet exception occurs * @throws IllegalArgumentException if the dispatcher type is different * from FORWARD, ERROR, and ASYNC */ public void dispatch(ServletRequest request, ServletResponse response, DispatcherType dispatcherType) throws ServletException, IOException { if (DispatcherType.FORWARD != dispatcherType && DispatcherType.ERROR != dispatcherType && DispatcherType.ASYNC != dispatcherType) { throw new IllegalArgumentException("Illegal dispatcher type"); } boolean isCommit = (DispatcherType.FORWARD == dispatcherType || DispatcherType.ERROR == dispatcherType); if (Globals.IS_SECURITY_ENABLED) { try { PrivilegedDispatch dp = new PrivilegedDispatch( request, response, dispatcherType); AccessController.doPrivileged(dp); // START SJSAS 6374990 if (isCommit && !request.isAsyncStarted()) { ApplicationDispatcherForward.commit(request, response, context, wrapper); } // END SJSAS 6374990 } catch (PrivilegedActionException pe) { Exception e = pe.getException(); if (e instanceof ServletException) throw (ServletException) e; throw (IOException) e; } } else { doDispatch(request, response, dispatcherType); // START SJSAS 6374990 if (isCommit && !request.isAsyncStarted()) { ApplicationDispatcherForward.commit(request, response, context, wrapper); } // END SJSAS 6374990 } } private void doDispatch(ServletRequest request, ServletResponse response, DispatcherType dispatcherType) throws ServletException, IOException { if (DispatcherType.ASYNC != dispatcherType) { // Reset any output that has been buffered, but keep // headers/cookies if (response.isCommitted()) { if (log.isLoggable(Level.FINE)) log.log(Level.FINE, "Forward on committed response --> ISE"); throw new IllegalStateException (rb.getString(LogFacade.ILLEGAL_STATE_EXCEPTION)); } try { response.resetBuffer(); } catch (IllegalStateException e) { if (log.isLoggable(Level.FINE)) log.log(Level.FINE, "Forward resetBuffer() returned ISE: " + e.toString(), e); throw e; } } if (DispatcherType.INCLUDE != dispatcherType) { DispatchTargetsInfo dtInfo = (DispatchTargetsInfo)request.getAttribute( LAST_DISPATCH_REQUEST_PATH_ATTR); if (dtInfo == null) { dtInfo = new DispatchTargetsInfo(); request.setAttribute(LAST_DISPATCH_REQUEST_PATH_ATTR, dtInfo); } if (servletPath == null && pathInfo == null) { // Handle an HTTP named dispatcher forward dtInfo.addDispatchTarget(wrapper.getServletName(), true); } else { dtInfo.addDispatchTarget(getCombinedPath(), false); } } // Set up to handle the specified request and response State state = new State(request, response, dispatcherType); ServletRequest sr = wrapRequest(state); wrapResponse(state); // Identify the HTTP-specific request and response objects (if any) HttpServletRequest hrequest = state.hrequest; HttpServletResponse hresponse = state.hresponse; if ((hrequest == null) || (hresponse == null)) { // Handle a non-HTTP forward processRequest(request, response, state); } else if ((servletPath == null) && (pathInfo == null)) { // Handle an HTTP named dispatcher forward ApplicationHttpRequest wrequest = (ApplicationHttpRequest)sr; wrequest.setRequestURI(hrequest.getRequestURI()); wrequest.setContextPath(hrequest.getContextPath()); wrequest.setServletPath(hrequest.getServletPath()); wrequest.setPathInfo(hrequest.getPathInfo()); wrequest.setQueryString(hrequest.getQueryString()); processRequest(request, response, state); } else { // Handle an HTTP path-based forward ApplicationHttpRequest wrequest = (ApplicationHttpRequest)sr; // If the request is being FORWARD- or ASYNC-dispatched for // the first time, initialize it with the required request // attributes if ((DispatcherType.FORWARD == dispatcherType && hrequest.getAttribute( RequestDispatcher.FORWARD_REQUEST_URI) == null) || (DispatcherType.ASYNC == dispatcherType && hrequest.getAttribute( AsyncContext.ASYNC_REQUEST_URI) == null)) { wrequest.initSpecialAttributes(hrequest.getRequestURI(), hrequest.getContextPath(), hrequest.getServletPath(), hrequest.getPathInfo(), hrequest.getQueryString()); } String targetContextPath = context.getPath(); // START IT 10395 RequestFacadeHelper reqFacHelper = RequestFacadeHelper.getInstance(wrequest); String originContextPath = null; if (reqFacHelper != null) { originContextPath = reqFacHelper.getContextPath(false); } else { originContextPath = wrequest.getContextPath(); } if (originContextPath != null && originContextPath.equals(targetContextPath)) { targetContextPath = hrequest.getContextPath(); } // END IT 10395 wrequest.setContextPath(targetContextPath); wrequest.setRequestURI(requestURI); wrequest.setServletPath(servletPath); wrequest.setPathInfo(pathInfo); if (queryString != null) { wrequest.setQueryString(queryString); wrequest.setQueryParams(queryString); } processRequest(request, response, state); } recycleRequestWrapper(state); unwrapRequest(state); unwrapResponse(state); } /** * Prepare the request based on the filter configuration. * * @param request The servlet request we are processing * @param response The servlet response we are creating * * @throws IOException if an input/output error occurs * @throws ServletException if a servlet error occurs */ private void processRequest(ServletRequest request, ServletResponse response, State state) throws IOException, ServletException { if (request != null) { if (state.dispatcherType != DispatcherType.ERROR) { state.outerRequest.setAttribute( Globals.DISPATCHER_REQUEST_PATH_ATTR, getCombinedPath()); invoke(state.outerRequest, response, state); } else { invoke(state.outerRequest, response, state); } } } /** * Combines the servletPath and the pathInfo. * * If pathInfo is null, it is ignored. If servletPath * is null, then null is returned. * * @return The combined path with pathInfo appended to servletInfo */ private String getCombinedPath() { if (servletPath == null) { return null; } if (pathInfo == null) { return servletPath; } return servletPath + pathInfo; } /** * Include the response from another resource in the current response. * Any runtime exception, IOException, or ServletException thrown by the * called servlet will be propagated to the caller. * * @param request The servlet request that is including this one * @param response The servlet response to be appended to * * @throws IOException if an input/output error occurs * @throws ServletException if a servlet exception occurs */ public void include(ServletRequest request, ServletResponse response) throws ServletException, IOException { if (Globals.IS_SECURITY_ENABLED) { try { PrivilegedInclude dp = new PrivilegedInclude(request,response); AccessController.doPrivileged(dp); } catch (PrivilegedActionException pe) { Exception e = pe.getException(); if (e instanceof ServletException) throw (ServletException) e; throw (IOException) e; } } else { doInclude(request,response); } } private void doInclude(ServletRequest request, ServletResponse response) throws ServletException, IOException { // Set up to handle the specified request and response State state = new State(request, response, DispatcherType.INCLUDE); // Create a wrapped response to use for this request wrapResponse(state); // Handle a non-HTTP include /* GlassFish 6386229 if (!(request instanceof HttpServletRequest) || !(response instanceof HttpServletResponse)) { if ( log.isDebugEnabled() ) log.debug(" Non-HTTP Include"); request.setAttribute(ApplicationFilterFactory.DISPATCHER_TYPE_ATTR, Integer.valueOf(ApplicationFilterFactory.INCLUDE)); request.setAttribute(ApplicationFilterFactory.DISPATCHER_REQUEST_PATH_ATTR, //origServletPath); servletPath); try{ invoke(request, state.outerResponse, state); } finally { unwrapResponse(state); } } // Handle an HTTP named dispatcher include else if (name != null) { */ // START GlassFish 6386229 // Handle an HTTP named dispatcher include if (name != null) { // END GlassFish 6386229 ApplicationHttpRequest wrequest = (ApplicationHttpRequest)wrapRequest(state); wrequest.setAttribute(Globals.NAMED_DISPATCHER_ATTR, name); if (servletPath != null) wrequest.setServletPath(servletPath); wrequest.setAttribute(Globals.DISPATCHER_REQUEST_PATH_ATTR, getCombinedPath()); try{ invoke(state.outerRequest, state.outerResponse, state); } finally { recycleRequestWrapper(state); unwrapRequest(state); unwrapResponse(state); } } // Handle an HTTP path based include else { ApplicationHttpRequest wrequest = (ApplicationHttpRequest)wrapRequest(state); wrequest.initSpecialAttributes(requestURI, context.getPath(), servletPath, pathInfo, queryString); wrequest.setQueryParams(queryString); wrequest.setAttribute(Globals.DISPATCHER_REQUEST_PATH_ATTR, getCombinedPath()); try{ invoke(state.outerRequest, state.outerResponse, state); } finally { recycleRequestWrapper(state); unwrapRequest(state); unwrapResponse(state); } } } // -------------------------------------------------------- Private Methods /** * Ask the resource represented by this RequestDispatcher to process * the associated request, and create (or append to) the associated * response. *

* IMPLEMENTATION NOTE: This implementation assumes * that no filters are applied to a forwarded or included resource, * because they were already done for the original request. * * @param request The servlet request we are processing * @param response The servlet response we are creating * * @throws IOException if an input/output error occurs * @throws ServletException if a servlet error occurs */ private void invoke(ServletRequest request, ServletResponse response, State state) throws IOException, ServletException { //START OF 6364900 original invoke has been renamed to doInvoke boolean crossContext = false; if (crossContextFlag != null && crossContextFlag.booleanValue()) { crossContext = true; } if (crossContext) { context.getManager().lockSession(request); } try { if (crossContext) { context.getManager().preRequestDispatcherProcess(request, response); } doInvoke(request, response, crossContext, state); if (crossContext) { context.getManager().postRequestDispatcherProcess(request, response); } } finally { if (crossContext) { context.getManager().unlockSession(request); } crossContextFlag = null; } //END OF 6364900 } /** * Ask the resource represented by this RequestDispatcher to process * the associated request, and create (or append to) the associated * response. *

* IMPLEMENTATION NOTE: This implementation assumes * that no filters are applied to a forwarded or included resource, * because they were already done for the original request. * * @param request The servlet request we are processing * @param response The servlet response we are creating * @param crossContext true if the request dispatch is crossing context * boundaries, false otherwise * @param state the state of this ApplicationDispatcher * * @throws IOException if an input/output error occurs * @throws ServletException if a servlet error occurs */ private void doInvoke(ServletRequest request, ServletResponse response, boolean crossContext, State state) throws IOException, ServletException { // Checking to see if the context classloader is the current context // classloader. If it's not, we're saving it, and setting the context // classloader to the Context classloader ClassLoader oldCCL = null; if (crossContext) { oldCCL = Thread.currentThread().getContextClassLoader(); ClassLoader contextClassLoader = context.getLoader().getClassLoader(); Thread.currentThread().setContextClassLoader(contextClassLoader); } HttpServletResponse hresponse = state.hresponse; Servlet servlet = null; IOException ioException = null; ServletException servletException = null; RuntimeException runtimeException = null; boolean unavailable = false; // Check for the servlet being marked unavailable if (wrapper.isUnavailable()) { String msg = MessageFormat.format(rb.getString(LogFacade.UNAVAILABLE_SERVLET), wrapper.getName()); log.log(Level.WARNING, msg); if (hresponse == null) { ; // NOTE - Not much we can do generically } else { long available = wrapper.getAvailable(); if ((available > 0L) && (available < Long.MAX_VALUE)) hresponse.setDateHeader("Retry-After", available); hresponse.sendError (HttpServletResponse.SC_SERVICE_UNAVAILABLE, msg); } unavailable = true; } // Allocate a servlet instance to process this request String allocateServletMsg = MessageFormat.format(rb.getString(LogFacade.ALLOCATE_SERVLET_EXCEPTION), wrapper.getName()); try { if (!unavailable) { servlet = wrapper.allocate(); } } catch (ServletException e) { log.log(Level.SEVERE, allocateServletMsg, StandardWrapper.getRootCause(e)); servletException = e; servlet = null; } catch (Throwable e) { log.log(Level.SEVERE, allocateServletMsg, e); servletException = new ServletException(allocateServletMsg, e); servlet = null; } // Get the FilterChain Here ApplicationFilterFactory factory = ApplicationFilterFactory.getInstance(); ApplicationFilterChain filterChain = factory.createFilterChain( request, wrapper, servlet); InstanceSupport support = ((StandardWrapper) wrapper).getInstanceSupport(); // Call the service() method for the allocated servlet instance String servletServiceExceptionMsg = MessageFormat.format(rb.getString(LogFacade.SERVLET_SERVICE_EXCEPTION), wrapper.getName()); RequestFacadeHelper reqFacHelper = RequestFacadeHelper.getInstance(request); try { String jspFile = wrapper.getJspFile(); if (jspFile != null) { request.setAttribute(Globals.JSP_FILE_ATTR, jspFile); } support.fireInstanceEvent( InstanceEvent.EventType.BEFORE_DISPATCH_EVENT, servlet, request, response); // for includes/forwards /* IASRI 4665318 if ((servlet != null) && (filterChain != null)) { */ // START IASRI 4665318 if (servlet != null) { // END IASRI 4665318 // START OF S1AS 4703023 if (reqFacHelper != null) { reqFacHelper.incrementDispatchDepth(); if (reqFacHelper.isMaxDispatchDepthReached()) { String msg = MessageFormat.format(rb.getString(LogFacade.MAX_DISPATCH_DEPTH_REACHED), new Object[]{Integer.valueOf(Request.getMaxDispatchDepth())}); throw new ServletException(msg); } } // END OF S1AS 4703023 /* IASRI 4665318 filterChain.doFilter(request, response); */ // START IASRI 4665318 if (filterChain != null) { filterChain.setWrapper((StandardWrapper)wrapper); filterChain.doFilter(request, response); } else { ((StandardWrapper)wrapper).service( request, response, servlet); } // END IASRI 4665318 } // Servlet Service Method is called by the FilterChain support.fireInstanceEvent(AFTER_DISPATCH_EVENT, servlet, request, response); } catch (ClientAbortException e) { support.fireInstanceEvent(AFTER_DISPATCH_EVENT, servlet, request, response); ioException = e; } catch (IOException e) { support.fireInstanceEvent(AFTER_DISPATCH_EVENT, servlet, request, response); log.log(Level.WARNING, servletServiceExceptionMsg, e); ioException = e; } catch (UnavailableException e) { support.fireInstanceEvent(AFTER_DISPATCH_EVENT, servlet, request, response); log.log(Level.WARNING, servletServiceExceptionMsg, e); servletException = e; wrapper.unavailable(e); } catch (ServletException e) { support.fireInstanceEvent(AFTER_DISPATCH_EVENT, servlet, request, response); Throwable rootCause = StandardWrapper.getRootCause(e); if (!(rootCause instanceof ClientAbortException)) { log.log(Level.WARNING, servletServiceExceptionMsg, rootCause); } servletException = e; } catch (RuntimeException e) { support.fireInstanceEvent(AFTER_DISPATCH_EVENT, servlet, request, response); log.log(Level.WARNING, servletServiceExceptionMsg, e); runtimeException = e; // START OF S1AS 4703023 } finally { if (reqFacHelper != null) { reqFacHelper.decrementDispatchDepth(); } // END OF S1AS 4703023 } // Release the filter chain (if any) for this request try { if (filterChain != null) filterChain.release(); } catch (Throwable e) { String msg = MessageFormat.format(rb.getString(LogFacade.RELEASE_FILTERS_EXCEPTION_SEVERE), wrapper.getName()); log.log(Level.SEVERE, msg, e); // FIXME Exception handling needs to be simpiler to what is // in the StandardWrapperValue } // Deallocate the allocated servlet instance String deallocateServletExceptionMsg = MessageFormat.format(rb.getString(LogFacade.ALLOCATE_SERVLET_EXCEPTION), wrapper.getName()); try { if (servlet != null) { wrapper.deallocate(servlet); } } catch (ServletException e) { log.log(Level.SEVERE, deallocateServletExceptionMsg, e); servletException = e; } catch (Throwable e) { log.log(Level.SEVERE, deallocateServletExceptionMsg, e); servletException = new ServletException(deallocateServletExceptionMsg, e); } // Reset the old context class loader if (oldCCL != null) Thread.currentThread().setContextClassLoader(oldCCL); // Rethrow an exception if one was thrown by the invoked servlet if (ioException != null) throw ioException; if (servletException != null) throw servletException; if (runtimeException != null) throw runtimeException; } /** * Log a message on the Logger associated with our Context (if any) * * @param message Message to be logged * private void log(String message) { org.apache.catalina.Logger logger = context.getLogger(); if (logger != null) { logger.log("ApplicationDispatcher[" + context.getPath() + "]: " + message); } else { if (log.isLoggable(Level.INFO)) { String msg = MessageFormat.format(rb.getString(LogFacade.APPLICATION_DISPATCHER_INFO), context.getPath(), message); log.log(Level.INFO, msg); } } } /** * Log a message on the Logger associated with our Container (if any) * * @param message Message to be logged * @param t Associated exception * private void log(String message, Throwable t) { org.apache.catalina.Logger logger = context.getLogger(); if (logger != null) { logger.log("ApplicationDispatcher[" + context.getPath() + "] " + message, t, org.apache.catalina.Logger.WARNING); } else { String msg = MessageFormat.format(rb.getString(LogFacade.APPLICATION_DISPATCHER_WARNING), context.getPath(), message); log.log(Level.WARNING, msg, t); } } */ /** * Unwrap the request if we have wrapped it. */ private void unwrapRequest(State state) { if (state.wrapRequest == null) return; ServletRequest previous = null; ServletRequest current = state.outerRequest; while (current != null) { // If we run into the container request we are done if ((current instanceof org.apache.catalina.Request) || (current instanceof RequestFacade)) break; // Remove the current request if it is our wrapper if (current == state.wrapRequest) { ServletRequest next = ((ServletRequestWrapper) current).getRequest(); if (previous == null) state.outerRequest = next; else ((ServletRequestWrapper) previous).setRequest(next); break; } // Advance to the next request in the chain previous = current; current = ((ServletRequestWrapper) current).getRequest(); } } /** * Unwrap the response if we have wrapped it. */ private void unwrapResponse(State state) { if (state.wrapResponse == null) return; ServletResponse previous = null; ServletResponse current = state.outerResponse; while (current != null) { // If we run into the container response we are done if ((current instanceof org.apache.catalina.Response) || (current instanceof ResponseFacade)) break; // Remove the current response if it is our wrapper if (current == state.wrapResponse) { ServletResponse next = ((ServletResponseWrapper) current).getResponse(); if (previous == null) state.outerResponse = next; else ((ServletResponseWrapper) previous).setResponse(next); break; } // Advance to the next response in the chain previous = current; current = ((ServletResponseWrapper) current).getResponse(); } } /** * Create and return a request wrapper that has been inserted in the * appropriate spot in the request chain. */ private ServletRequest wrapRequest(State state) { // Locate the request we should insert in front of ServletRequest previous = null; ServletRequest current = state.outerRequest; while (current != null) { if (state.hrequest == null && (current instanceof HttpServletRequest)) { state.hrequest = (HttpServletRequest)current; } if ("org.apache.catalina.servlets.InvokerHttpRequest". equals(current.getClass().getName())) { break; // KLUDGE - Make nested RD.forward() using invoker work } if (!(current instanceof ServletRequestWrapper)) { break; } // If we find container-generated wrapper, break out if (current instanceof ApplicationHttpRequest) { break; } if (current instanceof ApplicationRequest) { break; } previous = current; current = ((ServletRequestWrapper) current).getRequest(); } // Instantiate a new wrapper at this point and insert it in the chain ServletRequest wrapper = null; if ((current instanceof ApplicationHttpRequest) || (current instanceof Request) || (current instanceof HttpServletRequest)) { // Compute a crossContext flag HttpServletRequest hcurrent = (HttpServletRequest) current; boolean crossContext = false; if ((state.outerRequest instanceof ApplicationHttpRequest) || (state.outerRequest instanceof Request) || (state.outerRequest instanceof HttpServletRequest)) { HttpServletRequest houterRequest = (HttpServletRequest) state.outerRequest; Object contextPath = houterRequest.getAttribute( RequestDispatcher.INCLUDE_CONTEXT_PATH); if (contextPath == null) { // Forward contextPath = houterRequest.getContextPath(); } crossContext = !(context.getPath().equals(contextPath)); } //START OF 6364900 crossContextFlag = Boolean.valueOf(crossContext); //END OF 6364900 wrapper = new ApplicationHttpRequest (hcurrent, context, crossContext, state.dispatcherType); } else { wrapper = new ApplicationRequest(current); } if (previous == null) { state.outerRequest = wrapper; } else { ((ServletRequestWrapper) previous).setRequest(wrapper); } state.wrapRequest = wrapper; return wrapper; } /** * Create and return a response wrapper that has been inserted in the * appropriate spot in the response chain. */ private ServletResponse wrapResponse(State state) { // Locate the response we should insert in front of ServletResponse previous = null; ServletResponse current = state.outerResponse; while (current != null) { if(state.hresponse == null && (current instanceof HttpServletResponse)) { state.hresponse = (HttpServletResponse)current; if (DispatcherType.INCLUDE != state.dispatcherType) // Forward only needs hresponse return null; } if (!(current instanceof ServletResponseWrapper)) break; if (current instanceof ApplicationHttpResponse) break; if (current instanceof ApplicationResponse) break; previous = current; current = ((ServletResponseWrapper) current).getResponse(); } // Instantiate a new wrapper at this point and insert it in the chain ServletResponse wrapper = null; if ((current instanceof ApplicationHttpResponse) || (current instanceof HttpResponse) || (current instanceof HttpServletResponse)) wrapper = new ApplicationHttpResponse((HttpServletResponse) current, DispatcherType.INCLUDE == state.dispatcherType); else wrapper = new ApplicationResponse(current, DispatcherType.INCLUDE == state.dispatcherType); if (previous == null) state.outerResponse = wrapper; else ((ServletResponseWrapper) previous).setResponse(wrapper); state.wrapResponse = wrapper; return (wrapper); } private void recycleRequestWrapper(State state) { if (state.wrapRequest instanceof ApplicationHttpRequest) { ((ApplicationHttpRequest) state.wrapRequest).recycle(); } } }





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