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/*
 * Copyright (c) 1997, 2020 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Distribution License v. 1.0, which is available at
 * http://www.eclipse.org/org/documents/edl-v10.php.
 *
 * SPDX-License-Identifier: BSD-3-Clause
 */

package com.sun.xml.ws.api.pipe;

import com.sun.xml.ws.api.message.Message;
import com.sun.xml.ws.api.message.Packet;
import com.sun.xml.ws.api.pipe.helper.AbstractFilterPipeImpl;
import com.sun.xml.ws.api.pipe.helper.AbstractPipeImpl;

import jakarta.annotation.PreDestroy;
import jakarta.xml.ws.Dispatch;
import jakarta.xml.ws.Provider;
import jakarta.xml.ws.WebServiceException;
import jakarta.xml.ws.handler.Handler;
import jakarta.xml.ws.handler.LogicalHandler;
import jakarta.xml.ws.handler.MessageContext;
import jakarta.xml.ws.handler.soap.SOAPHandler;

/**
 * Abstraction of the intermediate layers in the processing chain
 * and transport.
 *
 * 

What is a {@link Pipe}?

*

* Transport is a kind of pipe. It sends the {@link Packet} * through, say, HTTP connection, and receives the data back into another {@link Packet}. * *

* More often, a pipe is a filter. It acts on a packet, * and then it passes the packet into another pipe. It can * do the same on the way back. * *

* For example, XWSS will be a {@link Pipe} * that delegates to another {@link Pipe}, and it can wrap a {@link Packet} into * another {@link Packet} to encrypt the body and add a header, for example. * *

* Yet another kind of filter pipe is those that wraps {@link LogicalHandler} * and {@link SOAPHandler}. These pipes are heavy-weight; they often consume * a message in a packet and create a new one, and then pass it to the next pipe. * For performance reason it probably makes sense to have one {@link Pipe} * instance that invokes a series of {@link LogicalHandler}s, another one * for {@link SOAPHandler}. * *

* There would be a {@link Pipe} implementation that invokes {@link Provider}. * There would be a {@link Pipe} implementation that invokes a service method * on the user's code. * There would be a {@link Dispatch} implementation that invokes a {@link Pipe}. * *

* WS-MEX can be implemented as a {@link Pipe} that looks for * {@link Message#getPayloadNamespaceURI()} and serves the request. * * *

Pipe Lifecycle

* {@link Pipe}line is expensive to set up, so once it's created it will be reused. * A {@link Pipe}line is not reentrant; one pipeline is used to process one request/response * at at time. The same pipeline instance may serve request/response for different threads, * if one comes after another and they don't overlap. *

* Where a need arises to process multiple requests concurrently, a pipeline * gets cloned through {@link PipeCloner}. Note that this need may happen on * both server (because it quite often serves multiple requests concurrently) * and client (because it needs to support asynchronous method invocations.) *

* Created pipelines (including cloned ones and the original) may be discarded and GCed * at any time at the discretion of whoever owns pipelines. Pipes can, however, expect * at least one copy (or original) of pipeline to live at any given time while a pipeline * owner is interested in the given pipeline configuration (in more concerete terms, * for example, as long as a dispatch object lives, it's going to keep at least one * copy of a pipeline alive.) *

* Before a pipeline owner dies, it may invoke {@link #preDestroy()} on the last * remaining pipeline. It is "may" for pipeline owners that live in the client-side * of JAX-WS (such as dispatches and proxies), but it is a "must" for pipeline owners * that live in the server-side of JAX-WS. *

* This last invocation gives a chance for some pipes to clean up any state/resource * acquired (such as WS-RM's sequence, WS-Trust's SecurityToken), although as stated above, * this is not required for clients. * * * *

Pipe and State

*

* The lifecycle of pipelines is designed to allow a {@link Pipe} to store various * state in easily accessible fashion. * * *

Per-packet state

*

* Any information that changes from a packet to packet should be * stored in {@link Packet}. This includes information like * transport-specific headers. * *

Per-thread state

*

* Any expensive objects that are non-reentrant can be stored in * instance variables of a {@link Pipe}, since {@link #process(Packet)} is * non reentrant. When a pipe is copied, new instances should be allocated * so that two {@link Pipe} instances don't share thread-unsafe resources. * This includes things like canonicalizers, JAXB unmarshallers, buffers, * and so on. * *

Per-proxy/per-endpoint state

*

* Information that is tied to a particular proxy/dispatch can be stored * in a separate object that is referenced from a pipe. When * a new pipe is copied, you can simply hand out a reference to the newly * created one, so that all copied pipes refer to the same instance. * See the following code as an example: * *

 * class PipeImpl {
 *   // this object stores per-proxy state
 *   class DataStore {
 *     int counter;
 *   }
 *
 *   private DataStore ds;
 *
 *   // create a fresh new pipe
 *   public PipeImpl(...) {
 *     ....
 *     ds = new DataStore();
 *   }
 *
 *   // copy constructor
 *   private PipeImpl(PipeImpl that, PipeCloner cloner) {
 *     cloner.add(that,this);
 *     ...
 *     this.ds = that.ds;
 *   }
 *
 *   public PipeImpl copy(PipeCloner pc) {
 *     return new PipeImpl(this,pc);
 *   }
 * }
 * 
* *

* Note that access to such resource often needs to be synchronized, * since multiple copies of pipelines may execute concurrently. * *

* If such information is read-only, * it can be stored as instance variables of a pipe, * and its reference copied as pipes get copied. (The only difference between * this and per-thread state is that you just won't allocate new things when * pipes get copied here.) * * *

VM-wide state

*

* {@code static} is always there for you to use. * * * *

Pipes and Handlers

*

* JAX-WS has a notion of {@link LogicalHandler} and {@link SOAPHandler}, and * we intend to have one {@link Pipe} implementation that invokes all the * {@link LogicalHandler}s and another {@link Pipe} implementation that invokes * all the {@link SOAPHandler}s. Those implementations need to convert a {@link Message} * into an appropriate format, but grouping all the handlers together eliminates * the intermediate {@link Message} instanciation between such handlers. *

* This grouping also allows such implementations to follow the event notifications * to handlers (i.e. {@link Handler#close(MessageContext)} method. * * *

 * TODO: Possible types of pipe:
 *      creator: create message from wire
 *          to SAAJ SOAP message
 *          to cached representation
 *          directly to JAXB beans
 *      transformer: transform message from one representation to another
 *          JAXB beans to encoded SOAP message
 *          StAX writing + JAXB bean to encoded SOAP message
 *      modifier: modify message
 *          add SOAP header blocks
 *          security processing
 *      header block processor:
 *          process certain SOAP header blocks
 *      outbound initiator: input from the client
 *          Manage input e.g. JAXB beans and associated with parts of the SOAP message
 *      inbound invoker: invoke the service
 *         Inkoke SEI, e.g. EJB or SEI in servlet.
 * 
* * @see AbstractPipeImpl * @see AbstractFilterPipeImpl * @deprecated * Use {@link Tube}. */ public interface Pipe { /** * Sends a {@link Packet} and returns a response {@link Packet} to it. * * @throws WebServiceException * On the server side, this signals an error condition where * a fault reply is in order (or the exception gets eaten by * the top-most transport {@link Pipe} if it's one-way.) * This frees each {@link Pipe} from try/catching a * {@link WebServiceException} in every layer. * * Note that this method is also allowed to return a {@link Packet} * that has a fault as the payload. * *

* On the client side, the {@link WebServiceException} thrown * will be propagated all the way back to the calling client * applications. (The consequence of that is that if you are * a filtering {@link Pipe}, you must not catch the exception * that your next {@link Pipe} threw. * * @throws RuntimeException * Other runtime exception thrown by this method must * be treated as a bug in the pipe implementation, * and therefore should not be converted into a fault. * (Otherwise it becomes very difficult to debug implementation * problems.) * *

* On the server side, this exception should be most likely * just logged. On the client-side it gets propagated to the * client application. * *

* The consequence of this is that if a pipe calls * into an user application (such as {@link SOAPHandler} * or {@link LogicalHandler}), where a {@link RuntimeException} * is *not* a bug in the JAX-WS implementation, it must be catched * and wrapped into a {@link WebServiceException}. * * @param request * The packet that represents a request message. Must not be null. * If the packet has a non-null message, it must be a valid * unconsumed {@link Message}. This message represents the * SOAP message to be sent as a request. *

* The packet is also allowed to carry no message, which indicates * that this is an output-only request. * (that's called "solicit", right? - KK) * * @return * The packet that represents a response message. Must not be null. * If the packet has a non-null message, it must be * a valid unconsumed {@link Message}. This message represents * a response to the request message passed as a parameter. *

* The packet is also allowed to carry no message, which indicates * that there was no response. This is used for things like * one-way message and/or one-way transports. */ Packet process( Packet request); /** * Invoked before the last copy of the pipeline is about to be discarded, * to give {@link Pipe}s a chance to clean up any resources. * *

* This can be used to invoke {@link PreDestroy} lifecycle methods * on user handler. The invocation of it is optional on the client side, * but mandatory on the server side. * *

* When multiple copies of pipelines are created, this method is called * only on one of them. * * @throws WebServiceException * If the clean up fails, {@link WebServiceException} can be thrown. * This exception will be propagated to users (if this is client), * or recorded (if this is server.) */ void preDestroy(); /** * Creates an identical clone of this {@link Pipe}. * *

* This method creates an identical pipeline that can be used * concurrently with this pipeline. When the caller of a pipeline * is multi-threaded and need concurrent use of the same pipeline, * it can do so by creating copies through this method. * *

Implementation Note

*

* It is the implementation's responsibility to call * {@link PipeCloner#add(Pipe,Pipe)} to register the copied pipe * with the original. This is required before you start copying * the other {@link Pipe} references you have, or else there's a * risk of infinite recursion. *

* For most {@link Pipe} implementations that delegate to another * {@link Pipe}, this method requires that you also copy the {@link Pipe} * that you delegate to. *

* For limited number of {@link Pipe}s that do not maintain any * thread unsafe resource, it is allowed to simply return {@code this} * from this method (notice that even if you are stateless, if you * got a delegating {@link Pipe} and that one isn't stateless, you * still have to copy yourself.) * *

* Note that this method might be invoked by one thread while another * thread is executing the {@link #process(Packet)} method. See * the {@link Codec#copy()} for more discussion about this. * * @param cloner * Use this object (in particular its {@link PipeCloner#copy(Pipe)} method * to clone other pipe references you have * in your pipe. See {@link PipeCloner} for more discussion * about why. * * @return * always non-null {@link Pipe}. */ Pipe copy(PipeCloner cloner); }





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