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/*
 * Copyright (c) 1997, 2022 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.client;

import com.oracle.webservices.api.message.BaseDistributedPropertySet;
import com.sun.istack.NotNull;
import com.sun.xml.ws.api.EndpointAddress;
import com.sun.xml.ws.api.message.Packet;
import com.sun.xml.ws.transport.Headers;

import jakarta.xml.ws.BindingProvider;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Set;
import java.util.logging.Logger;


import static jakarta.xml.ws.BindingProvider.*;
import static jakarta.xml.ws.handler.MessageContext.HTTP_REQUEST_HEADERS;

/**
 * Request context implementation.
 *
 * 

Why a custom map?

*

* The JAX-WS spec exposes properties as a {@link Map}, but if we just use * an ordinary {@link HashMap} for this, it doesn't work as fast as we'd like * it to be. Hence we have this class. * *

* We expect the user to set a few properties and then use that same * setting to make a bunch of invocations. So we'd like to take some hit * when the user actually sets a property to do some computation, * then use that computed value during a method invocation again and again. * *

* For this goal, we use {@link com.sun.xml.ws.api.PropertySet} and implement some properties * as virtual properties backed by methods. This allows us to do the computation * in the setter, and store it in a field. * *

* These fields are used by {@link Stub#process} to populate a {@link Packet}. * *

How it works?

*

* For better performance, we wan't use strongly typed field as much as possible * to avoid reflection and unnecessary collection iterations; * * Using {@link com.oracle.webservices.api.message.BasePropertySet.MapView} implementation allows client to use {@link Map} interface * in a way that all the strongly typed properties are reflected to the fields * right away. Any additional (extending) properties can be added by client as well; * those would be processed using iterating the {@link com.oracle.webservices.api.message.BasePropertySet.MapView} and their processing, * of course, would be slower. *

* The previous implementation with fallback mode has been removed to simplify * the code and remove the bugs. * * @author Kohsuke Kawaguchi */ @SuppressWarnings({"SuspiciousMethodCalls"}) public final class RequestContext extends BaseDistributedPropertySet { private static final Logger LOGGER = Logger.getLogger(RequestContext.class.getName()); /** * The default value to be use for {@link #contentNegotiation} obtained * from a system property. *

* This enables content negotiation to be easily switched on by setting * a system property on the command line for testing purposes tests. */ private static ContentNegotiation defaultContentNegotiation = ContentNegotiation.obtainFromSystemProperty(); /** * @deprecated */ public void addSatellite(@NotNull com.sun.xml.ws.api.PropertySet satellite) { super.addSatellite(satellite); } /** * The endpoint address to which this message is sent to. * *

* This is the actual data store for {@link BindingProvider#ENDPOINT_ADDRESS_PROPERTY}. */ private @NotNull EndpointAddress endpointAddress; /** * Creates {@link BindingProvider#ENDPOINT_ADDRESS_PROPERTY} view * on top of {@link #endpointAddress}. * * @deprecated * always access {@link #endpointAddress}. */ @Property(ENDPOINT_ADDRESS_PROPERTY) public String getEndPointAddressString() { return endpointAddress != null ? endpointAddress.toString() : null; } public void setEndPointAddressString(String s) { if (s == null) { throw new IllegalArgumentException(); } else { this.endpointAddress = EndpointAddress.create(s); } } public void setEndpointAddress(@NotNull EndpointAddress epa) { this.endpointAddress = epa; } public @NotNull EndpointAddress getEndpointAddress() { return endpointAddress; } /** * The value of {@link ContentNegotiation#PROPERTY} * property. */ public ContentNegotiation contentNegotiation = defaultContentNegotiation; @Property(ContentNegotiation.PROPERTY) public String getContentNegotiationString() { return contentNegotiation.toString(); } public void setContentNegotiationString(String s) { if (s == null) { contentNegotiation = ContentNegotiation.none; } else { try { contentNegotiation = ContentNegotiation.valueOf(s); } catch (IllegalArgumentException e) { // If the value is not recognized default to none contentNegotiation = ContentNegotiation.none; } } } /** * The value of the SOAPAction header associated with the message. * *

* For outgoing messages, the transport may sends out this value. * If this field is null, the transport may choose to send {@code ""} * (quoted empty string.) * * For incoming messages, the transport will set this field. * If the incoming message did not contain the SOAPAction header, * the transport sets this field to null. * *

* If the value is non-null, it must be always in the quoted form. * The value can be null. * *

* Note that the way the transport sends this value out depends on * transport and SOAP version. * * For HTTP transport and SOAP 1.1, BP requires that SOAPAction * header is present (See {@code BP R2744} and {@code BP R2745}.) For SOAP 1.2, * this is moved to the parameter of the "application/soap+xml". */ private String soapAction; @Property(SOAPACTION_URI_PROPERTY) public String getSoapAction() { return soapAction; } public void setSoapAction(String sAction) { soapAction = sAction; } /** * This controls whether BindingProvider.SOAPACTION_URI_PROPERTY is used. * See BindingProvider.SOAPACTION_USE_PROPERTY for details. * * This only control whether value of BindingProvider.SOAPACTION_URI_PROPERTY is used or not and not * if it can be sent if it can be obtained by other means such as WSDL binding */ private Boolean soapActionUse; @Property(SOAPACTION_USE_PROPERTY) public Boolean getSoapActionUse() { return soapActionUse; } public void setSoapActionUse(Boolean sActionUse) { soapActionUse = sActionUse; } /** * Creates an empty {@link RequestContext}. */ RequestContext() { } /** * Copy constructor. */ private RequestContext(RequestContext that) { for (Map.Entry entry : that.asMapLocal().entrySet()) { if (!propMap.containsKey(entry.getKey())) { asMap().put(entry.getKey(), entry.getValue()); } } endpointAddress = that.endpointAddress; soapAction = that.soapAction; soapActionUse = that.soapActionUse; contentNegotiation = that.contentNegotiation; that.copySatelliteInto(this); } /** * The efficient get method that reads from {@link RequestContext}. */ @Override public Object get(Object key) { if(supports(key)) { return super.get(key); } else { // use mapView to get extending property return asMap().get(key); } } /** * The efficient put method that updates {@link RequestContext}. */ @Override public Object put(String key, Object value) { if(supports(key)) { return super.put(key,value); } else { // use mapView to put extending property (if the map allows that) return asMap().put(key, value); } } /** * Fill a {@link Packet} with values of this {@link RequestContext}. * * @param packet to be filled with context values * @param isAddressingEnabled flag if addressing enabled (to provide warning if necessary) */ @SuppressWarnings("unchecked") public void fill(Packet packet, boolean isAddressingEnabled) { // handling as many properties as possible (all in propMap.keySet()) // to avoid slow Packet.put() if (endpointAddress != null) { packet.endpointAddress = endpointAddress; } packet.contentNegotiation = contentNegotiation; fillSOAPAction(packet, isAddressingEnabled); mergeRequestHeaders(packet); Set handlerScopeNames = new HashSet(); copySatelliteInto(packet); // extending properties ... for (String key : asMapLocal().keySet()) { //if it is not standard property it defaults to Scope.HANDLER if (!supportsLocal(key)) { handlerScopeNames.add(key); } // to avoid slow Packet.put(), handle as small number of props as possible // => only properties not from RequestContext object if (!propMap.containsKey(key)) { Object value = asMapLocal().get(key); if (packet.supports(key)) { // very slow operation - try to avoid it! packet.put(key, value); } else { packet.invocationProperties.put(key, value); } } } if (!handlerScopeNames.isEmpty()) { packet.getHandlerScopePropertyNames(false).addAll(handlerScopeNames); } } @SuppressWarnings("unchecked") private void mergeRequestHeaders(Packet packet) { //for bug 12883765 //retrieve headers which is set in soap message Headers packetHeaders = (Headers) packet.invocationProperties.get(HTTP_REQUEST_HEADERS); //retrieve headers from request context Map> myHeaders = (Map>) asMap().get(HTTP_REQUEST_HEADERS); if ((packetHeaders != null) && (myHeaders != null)) { //update the headers set in soap message with those in request context for (Entry> entry : myHeaders.entrySet()) { String key = entry.getKey(); if (key != null && key.trim().length() != 0) { List listFromPacket = packetHeaders.get(key); //if the two headers contain the same key, combine the value if (listFromPacket != null) { listFromPacket.addAll(entry.getValue()); } else { //add the headers in request context to those set in soap message packetHeaders.put(key, myHeaders.get(key)); } } } // update headers in request context with those set in soap message since it may contain other properties.. asMap().put(HTTP_REQUEST_HEADERS, packetHeaders); } } private void fillSOAPAction(Packet packet, boolean isAddressingEnabled) { final boolean p = packet.packetTakesPriorityOverRequestContext; final String localSoapAction = p ? packet.soapAction : soapAction; final Boolean localSoapActionUse = p ? (Boolean) packet.invocationProperties.get(BindingProvider.SOAPACTION_USE_PROPERTY) : soapActionUse; //JAX-WS-596: Check the semantics of SOAPACTION_USE_PROPERTY before using the SOAPACTION_URI_PROPERTY for // SoapAction as specified in the javadoc of BindingProvider. The spec seems to be little contradicting with // javadoc and says that the use property effects the sending of SOAPAction property. // Since the user has the capability to set the value as "" if needed, implement the javadoc behavior. if ((localSoapActionUse != null && localSoapActionUse) || (localSoapActionUse == null && isAddressingEnabled)) { if (localSoapAction != null) { packet.soapAction = localSoapAction; } } if ((!isAddressingEnabled && (localSoapActionUse == null || !localSoapActionUse)) && localSoapAction != null) { LOGGER.warning("BindingProvider.SOAPACTION_URI_PROPERTY is set in the RequestContext but is ineffective," + " Either set BindingProvider.SOAPACTION_USE_PROPERTY to true or enable AddressingFeature"); } } public RequestContext copy() { return new RequestContext(this); } @Override protected PropertyMap getPropertyMap() { return propMap; } private static final PropertyMap propMap = parse(RequestContext.class); @Override protected boolean mapAllowsAdditionalProperties() { return true; } }





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