com.sun.xml.internal.ws.util.Pool Java Examples
The following examples show how to use
com.sun.xml.internal.ws.util.Pool.
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Example #1
Source File: Adapter.java From openjdk-jdk9 with GNU General Public License v2.0 | 5 votes |
/** * The pool instance needs to be recreated to prevent reuse of old Toolkit instances. */ public void reconfigure() { this.pool = new Pool<TK>() { protected TK create() { return createToolkit(); } }; }
Example #2
Source File: Stub.java From TencentKona-8 with GNU General Public License v2.0 | 5 votes |
/** * Passes a message to a pipe for processing. * <p> * Unlike {@link Tube} instances, * this method is thread-safe and can be invoked from * multiple threads concurrently. * * @param packet The message to be sent to the server * @param requestContext The {@link RequestContext} when this invocation is originally scheduled. * This must be the same object as {@link #requestContext} for synchronous * invocations, but for asynchronous invocations, it needs to be a snapshot * captured at the point of invocation, to correctly satisfy the spec requirement. * @param receiver Receives the {@link ResponseContext}. Since the spec requires * that the asynchronous invocations must not update response context, * depending on the mode of invocation they have to go to different places. * So we take a setter that abstracts that away. */ protected final Packet process(Packet packet, RequestContext requestContext, ResponseContextReceiver receiver) { packet.isSynchronousMEP = true; packet.component = this; configureRequestPacket(packet, requestContext); Pool<Tube> pool = tubes; if (pool == null) { throw new WebServiceException("close method has already been invoked"); // TODO: i18n } Fiber fiber = engine.createFiber(); configureFiber(fiber); // then send it away! Tube tube = pool.take(); try { return fiber.runSync(tube, packet); } finally { // this allows us to capture the packet even when the call failed with an exception. // when the call fails with an exception it's no longer a 'reply' but it may provide some information // about what went wrong. // note that Packet can still be updated after // ResponseContext is created. Packet reply = (fiber.getPacket() == null) ? packet : fiber.getPacket(); receiver.setResponseContext(new ResponseContext(reply)); pool.recycle(tube); } }
Example #3
Source File: Stub.java From openjdk-8 with GNU General Public License v2.0 | 5 votes |
/** * Passes a message to a pipe for processing. * <p> * Unlike {@link Tube} instances, * this method is thread-safe and can be invoked from * multiple threads concurrently. * * @param packet The message to be sent to the server * @param requestContext The {@link RequestContext} when this invocation is originally scheduled. * This must be the same object as {@link #requestContext} for synchronous * invocations, but for asynchronous invocations, it needs to be a snapshot * captured at the point of invocation, to correctly satisfy the spec requirement. * @param receiver Receives the {@link ResponseContext}. Since the spec requires * that the asynchronous invocations must not update response context, * depending on the mode of invocation they have to go to different places. * So we take a setter that abstracts that away. */ protected final Packet process(Packet packet, RequestContext requestContext, ResponseContextReceiver receiver) { packet.isSynchronousMEP = true; packet.component = this; configureRequestPacket(packet, requestContext); Pool<Tube> pool = tubes; if (pool == null) { throw new WebServiceException("close method has already been invoked"); // TODO: i18n } Fiber fiber = engine.createFiber(); configureFiber(fiber); // then send it away! Tube tube = pool.take(); try { return fiber.runSync(tube, packet); } finally { // this allows us to capture the packet even when the call failed with an exception. // when the call fails with an exception it's no longer a 'reply' but it may provide some information // about what went wrong. // note that Packet can still be updated after // ResponseContext is created. Packet reply = (fiber.getPacket() == null) ? packet : fiber.getPacket(); receiver.setResponseContext(new ResponseContext(reply)); pool.recycle(tube); } }
Example #4
Source File: Adapter.java From openjdk-8 with GNU General Public License v2.0 | 5 votes |
/** * The pool instance needs to be recreated to prevent reuse of old Toolkit instances. */ public void reconfigure() { this.pool = new Pool<TK>() { protected TK create() { return createToolkit(); } }; }
Example #5
Source File: Adapter.java From jdk8u60 with GNU General Public License v2.0 | 5 votes |
/** * The pool instance needs to be recreated to prevent reuse of old Toolkit instances. */ public void reconfigure() { this.pool = new Pool<TK>() { protected TK create() { return createToolkit(); } }; }
Example #6
Source File: Stub.java From openjdk-8-source with GNU General Public License v2.0 | 5 votes |
/** * Passes a message to a pipe for processing. * <p> * Unlike {@link Tube} instances, * this method is thread-safe and can be invoked from * multiple threads concurrently. * * @param packet The message to be sent to the server * @param requestContext The {@link RequestContext} when this invocation is originally scheduled. * This must be the same object as {@link #requestContext} for synchronous * invocations, but for asynchronous invocations, it needs to be a snapshot * captured at the point of invocation, to correctly satisfy the spec requirement. * @param receiver Receives the {@link ResponseContext}. Since the spec requires * that the asynchronous invocations must not update response context, * depending on the mode of invocation they have to go to different places. * So we take a setter that abstracts that away. */ protected final Packet process(Packet packet, RequestContext requestContext, ResponseContextReceiver receiver) { packet.isSynchronousMEP = true; packet.component = this; configureRequestPacket(packet, requestContext); Pool<Tube> pool = tubes; if (pool == null) { throw new WebServiceException("close method has already been invoked"); // TODO: i18n } Fiber fiber = engine.createFiber(); configureFiber(fiber); // then send it away! Tube tube = pool.take(); try { return fiber.runSync(tube, packet); } finally { // this allows us to capture the packet even when the call failed with an exception. // when the call fails with an exception it's no longer a 'reply' but it may provide some information // about what went wrong. // note that Packet can still be updated after // ResponseContext is created. Packet reply = (fiber.getPacket() == null) ? packet : fiber.getPacket(); receiver.setResponseContext(new ResponseContext(reply)); pool.recycle(tube); } }
Example #7
Source File: Stub.java From jdk8u60 with GNU General Public License v2.0 | 5 votes |
/** * Passes a message to a pipe for processing. * <p> * Unlike {@link Tube} instances, * this method is thread-safe and can be invoked from * multiple threads concurrently. * * @param packet The message to be sent to the server * @param requestContext The {@link RequestContext} when this invocation is originally scheduled. * This must be the same object as {@link #requestContext} for synchronous * invocations, but for asynchronous invocations, it needs to be a snapshot * captured at the point of invocation, to correctly satisfy the spec requirement. * @param receiver Receives the {@link ResponseContext}. Since the spec requires * that the asynchronous invocations must not update response context, * depending on the mode of invocation they have to go to different places. * So we take a setter that abstracts that away. */ protected final Packet process(Packet packet, RequestContext requestContext, ResponseContextReceiver receiver) { packet.isSynchronousMEP = true; packet.component = this; configureRequestPacket(packet, requestContext); Pool<Tube> pool = tubes; if (pool == null) { throw new WebServiceException("close method has already been invoked"); // TODO: i18n } Fiber fiber = engine.createFiber(); configureFiber(fiber); // then send it away! Tube tube = pool.take(); try { return fiber.runSync(tube, packet); } finally { // this allows us to capture the packet even when the call failed with an exception. // when the call fails with an exception it's no longer a 'reply' but it may provide some information // about what went wrong. // note that Packet can still be updated after // ResponseContext is created. Packet reply = (fiber.getPacket() == null) ? packet : fiber.getPacket(); receiver.setResponseContext(new ResponseContext(reply)); pool.recycle(tube); } }
Example #8
Source File: Adapter.java From openjdk-8-source with GNU General Public License v2.0 | 5 votes |
/** * The pool instance needs to be recreated to prevent reuse of old Toolkit instances. */ public void reconfigure() { this.pool = new Pool<TK>() { protected TK create() { return createToolkit(); } }; }
Example #9
Source File: Stub.java From hottub with GNU General Public License v2.0 | 5 votes |
/** * Passes a message to a pipe for processing. * <p> * Unlike {@link Tube} instances, * this method is thread-safe and can be invoked from * multiple threads concurrently. * * @param packet The message to be sent to the server * @param requestContext The {@link RequestContext} when this invocation is originally scheduled. * This must be the same object as {@link #requestContext} for synchronous * invocations, but for asynchronous invocations, it needs to be a snapshot * captured at the point of invocation, to correctly satisfy the spec requirement. * @param receiver Receives the {@link ResponseContext}. Since the spec requires * that the asynchronous invocations must not update response context, * depending on the mode of invocation they have to go to different places. * So we take a setter that abstracts that away. */ protected final Packet process(Packet packet, RequestContext requestContext, ResponseContextReceiver receiver) { packet.isSynchronousMEP = true; packet.component = this; configureRequestPacket(packet, requestContext); Pool<Tube> pool = tubes; if (pool == null) { throw new WebServiceException("close method has already been invoked"); // TODO: i18n } Fiber fiber = engine.createFiber(); configureFiber(fiber); // then send it away! Tube tube = pool.take(); try { return fiber.runSync(tube, packet); } finally { // this allows us to capture the packet even when the call failed with an exception. // when the call fails with an exception it's no longer a 'reply' but it may provide some information // about what went wrong. // note that Packet can still be updated after // ResponseContext is created. Packet reply = (fiber.getPacket() == null) ? packet : fiber.getPacket(); receiver.setResponseContext(new ResponseContext(reply)); pool.recycle(tube); } }
Example #10
Source File: Adapter.java From TencentKona-8 with GNU General Public License v2.0 | 5 votes |
/** * The pool instance needs to be recreated to prevent reuse of old Toolkit instances. */ public void reconfigure() { this.pool = new Pool<TK>() { protected TK create() { return createToolkit(); } }; }
Example #11
Source File: Stub.java From openjdk-jdk8u-backup with GNU General Public License v2.0 | 5 votes |
/** * Passes a message to a pipe for processing. * <p> * Unlike {@link Tube} instances, * this method is thread-safe and can be invoked from * multiple threads concurrently. * * @param packet The message to be sent to the server * @param requestContext The {@link RequestContext} when this invocation is originally scheduled. * This must be the same object as {@link #requestContext} for synchronous * invocations, but for asynchronous invocations, it needs to be a snapshot * captured at the point of invocation, to correctly satisfy the spec requirement. * @param receiver Receives the {@link ResponseContext}. Since the spec requires * that the asynchronous invocations must not update response context, * depending on the mode of invocation they have to go to different places. * So we take a setter that abstracts that away. */ protected final Packet process(Packet packet, RequestContext requestContext, ResponseContextReceiver receiver) { packet.isSynchronousMEP = true; packet.component = this; configureRequestPacket(packet, requestContext); Pool<Tube> pool = tubes; if (pool == null) { throw new WebServiceException("close method has already been invoked"); // TODO: i18n } Fiber fiber = engine.createFiber(); configureFiber(fiber); // then send it away! Tube tube = pool.take(); try { return fiber.runSync(tube, packet); } finally { // this allows us to capture the packet even when the call failed with an exception. // when the call fails with an exception it's no longer a 'reply' but it may provide some information // about what went wrong. // note that Packet can still be updated after // ResponseContext is created. Packet reply = (fiber.getPacket() == null) ? packet : fiber.getPacket(); receiver.setResponseContext(new ResponseContext(reply)); pool.recycle(tube); } }
Example #12
Source File: Stub.java From openjdk-jdk9 with GNU General Public License v2.0 | 5 votes |
/** * Passes a message to a pipe for processing. * <p> * Unlike {@link Tube} instances, * this method is thread-safe and can be invoked from * multiple threads concurrently. * * @param packet The message to be sent to the server * @param requestContext The {@link RequestContext} when this invocation is originally scheduled. * This must be the same object as {@link #requestContext} for synchronous * invocations, but for asynchronous invocations, it needs to be a snapshot * captured at the point of invocation, to correctly satisfy the spec requirement. * @param receiver Receives the {@link ResponseContext}. Since the spec requires * that the asynchronous invocations must not update response context, * depending on the mode of invocation they have to go to different places. * So we take a setter that abstracts that away. */ protected final Packet process(Packet packet, RequestContext requestContext, ResponseContextReceiver receiver) { packet.isSynchronousMEP = true; packet.component = this; configureRequestPacket(packet, requestContext); Pool<Tube> pool = tubes; if (pool == null) { throw new WebServiceException("close method has already been invoked"); // TODO: i18n } Fiber fiber = engine.createFiber(); configureFiber(fiber); // then send it away! Tube tube = pool.take(); try { return fiber.runSync(tube, packet); } finally { // this allows us to capture the packet even when the call failed with an exception. // when the call fails with an exception it's no longer a 'reply' but it may provide some information // about what went wrong. // note that Packet can still be updated after // ResponseContext is created. Packet reply = (fiber.getPacket() == null) ? packet : fiber.getPacket(); receiver.setResponseContext(new ResponseContext(reply)); pool.recycle(tube); } }
Example #13
Source File: Adapter.java From openjdk-jdk8u-backup with GNU General Public License v2.0 | 5 votes |
/** * The pool instance needs to be recreated to prevent reuse of old Toolkit instances. */ public void reconfigure() { this.pool = new Pool<TK>() { protected TK create() { return createToolkit(); } }; }
Example #14
Source File: Adapter.java From hottub with GNU General Public License v2.0 | 5 votes |
/** * The pool instance needs to be recreated to prevent reuse of old Toolkit instances. */ public void reconfigure() { this.pool = new Pool<TK>() { protected TK create() { return createToolkit(); } }; }
Example #15
Source File: Stub.java From openjdk-jdk8u with GNU General Public License v2.0 | 5 votes |
/** * Passes a message to a pipe for processing. * <p> * Unlike {@link Tube} instances, * this method is thread-safe and can be invoked from * multiple threads concurrently. * * @param packet The message to be sent to the server * @param requestContext The {@link RequestContext} when this invocation is originally scheduled. * This must be the same object as {@link #requestContext} for synchronous * invocations, but for asynchronous invocations, it needs to be a snapshot * captured at the point of invocation, to correctly satisfy the spec requirement. * @param receiver Receives the {@link ResponseContext}. Since the spec requires * that the asynchronous invocations must not update response context, * depending on the mode of invocation they have to go to different places. * So we take a setter that abstracts that away. */ protected final Packet process(Packet packet, RequestContext requestContext, ResponseContextReceiver receiver) { packet.isSynchronousMEP = true; packet.component = this; configureRequestPacket(packet, requestContext); Pool<Tube> pool = tubes; if (pool == null) { throw new WebServiceException("close method has already been invoked"); // TODO: i18n } Fiber fiber = engine.createFiber(); configureFiber(fiber); // then send it away! Tube tube = pool.take(); try { return fiber.runSync(tube, packet); } finally { // this allows us to capture the packet even when the call failed with an exception. // when the call fails with an exception it's no longer a 'reply' but it may provide some information // about what went wrong. // note that Packet can still be updated after // ResponseContext is created. Packet reply = (fiber.getPacket() == null) ? packet : fiber.getPacket(); receiver.setResponseContext(new ResponseContext(reply)); pool.recycle(tube); } }
Example #16
Source File: Adapter.java From openjdk-jdk8u with GNU General Public License v2.0 | 5 votes |
/** * The pool instance needs to be recreated to prevent reuse of old Toolkit instances. */ public void reconfigure() { this.pool = new Pool<TK>() { protected TK create() { return createToolkit(); } }; }
Example #17
Source File: Stub.java From openjdk-jdk9 with GNU General Public License v2.0 | 4 votes |
/** * Passes a message through a {@link Tube}line for processing. The processing happens * asynchronously and when the response is available, Fiber.CompletionCallback is * called. The processing could happen on multiple threads. * * <p> * Unlike {@link Tube} instances, * this method is thread-safe and can be invoked from * multiple threads concurrently. * * @param receiver The {@link Response} implementation * @param request The message to be sent to the server * @param requestContext The {@link RequestContext} when this invocation is originally scheduled. * This must be the same object as {@link #requestContext} for synchronous * invocations, but for asynchronous invocations, it needs to be a snapshot * captured at the point of invocation, to correctly satisfy the spec requirement. * @param completionCallback Once the processing is done, the callback is invoked. */ protected final void processAsync(AsyncResponseImpl<?> receiver, Packet request, RequestContext requestContext, final Fiber.CompletionCallback completionCallback) { // fill in Packet request.component = this; configureRequestPacket(request, requestContext); final Pool<Tube> pool = tubes; if (pool == null) { throw new WebServiceException("close method has already been invoked"); // TODO: i18n } final Fiber fiber = engine.createFiber(); configureFiber(fiber); receiver.setCancelable(fiber); // check race condition on cancel if (receiver.isCancelled()) { return; } FiberContextSwitchInterceptorFactory fcsif = owner.getSPI(FiberContextSwitchInterceptorFactory.class); if (fcsif != null) { fiber.addInterceptor(fcsif.create()); } // then send it away! final Tube tube = pool.take(); Fiber.CompletionCallback fiberCallback = new Fiber.CompletionCallback() { @Override public void onCompletion(@NotNull Packet response) { pool.recycle(tube); completionCallback.onCompletion(response); } @Override public void onCompletion(@NotNull Throwable error) { // let's not reuse tubes as they might be in a wrong state, so not // calling pool.recycle() completionCallback.onCompletion(error); } }; // Check for SyncStartForAsyncInvokeFeature fiber.start(tube, request, fiberCallback, getBinding().isFeatureEnabled(SyncStartForAsyncFeature.class) && !requestContext.containsKey(PREVENT_SYNC_START_FOR_ASYNC_INVOKE)); }
Example #18
Source File: HttpAdapter.java From hottub with GNU General Public License v2.0 | 4 votes |
/** * Receives the incoming HTTP connection and dispatches * it to JAX-WS. This method returns when JAX-WS completes * processing the request and the whole reply is written * to {@link WSHTTPConnection}. * * <p> * This method is invoked by the lower-level HTTP stack, * and "connection" here is an HTTP connection. * * <p> * To populate a request {@link com.sun.xml.internal.ws.api.message.Packet} with more info, * define {@link com.oracle.webservices.internal.api.message.PropertySet.Property properties} on * {@link WSHTTPConnection}. * * @param connection to receive/send HTTP messages for web service endpoints * @throws java.io.IOException when I/O errors happen */ public void handle(@NotNull WSHTTPConnection connection) throws IOException { if (handleGet(connection)) { return; } // Make sure the Toolkit is recycled by the same pool instance from which it was taken final Pool<HttpToolkit> currentPool = getPool(); // normal request handling final HttpToolkit tk = currentPool.take(); try { tk.handle(connection); } finally { currentPool.recycle(tk); } }
Example #19
Source File: AbstractSEIModelImpl.java From openjdk-8-source with GNU General Public License v2.0 | 4 votes |
@Override public Pool.Marshaller getMarshallerPool() { return marshallers; }
Example #20
Source File: HttpAdapter.java From openjdk-8-source with GNU General Public License v2.0 | 4 votes |
/** * Receives the incoming HTTP connection and dispatches * it to JAX-WS. This method returns when JAX-WS completes * processing the request and the whole reply is written * to {@link WSHTTPConnection}. * * <p> * This method is invoked by the lower-level HTTP stack, * and "connection" here is an HTTP connection. * * <p> * To populate a request {@link com.sun.xml.internal.ws.api.message.Packet} with more info, * define {@link com.oracle.webservices.internal.api.message.PropertySet.Property properties} on * {@link WSHTTPConnection}. * * @param connection to receive/send HTTP messages for web service endpoints * @throws java.io.IOException when I/O errors happen */ public void handle(@NotNull WSHTTPConnection connection) throws IOException { if (handleGet(connection)) { return; } // Make sure the Toolkit is recycled by the same pool instance from which it was taken final Pool<HttpToolkit> currentPool = getPool(); // normal request handling final HttpToolkit tk = currentPool.take(); try { tk.handle(connection); } finally { currentPool.recycle(tk); } }
Example #21
Source File: AbstractSEIModelImpl.java From openjdk-8-source with GNU General Public License v2.0 | 4 votes |
private void /*JAXBRIContext*/ createJAXBContext() { final List<TypeInfo> types = getAllTypeInfos(); final List<Class> cls = new ArrayList<Class>(types.size() + additionalClasses.size()); cls.addAll(additionalClasses); for (TypeInfo type : types) { cls.add((Class) type.type); } try { //jaxbContext = JAXBRIContext.newInstance(cls, types, targetNamespace, false); // Need to avoid doPriv block once JAXB is fixed. Afterwards, use the above bindingContext = AccessController.doPrivileged(new PrivilegedExceptionAction<BindingContext>() { public BindingContext run() throws Exception { if(LOGGER.isLoggable(Level.FINEST)) { LOGGER.log(Level.FINEST, "Creating JAXBContext with classes={0} and types={1}", new Object[]{cls, types}); } UsesJAXBContextFeature f = features.get(UsesJAXBContextFeature.class); com.oracle.webservices.internal.api.databinding.DatabindingModeFeature dmf = features.get(com.oracle.webservices.internal.api.databinding.DatabindingModeFeature.class); JAXBContextFactory factory = f!=null ? f.getFactory() : null; if(factory==null) factory=JAXBContextFactory.DEFAULT; // return factory.createJAXBContext(AbstractSEIModelImpl.this,cls,types); databindingInfo.properties().put(JAXBContextFactory.class.getName(), factory); if (dmf != null) { if (LOGGER.isLoggable(Level.FINE)) LOGGER.log(Level.FINE, "DatabindingModeFeature in SEI specifies mode: {0}", dmf.getMode()); databindingInfo.setDatabindingMode(dmf .getMode()); } if (f!=null) databindingInfo.setDatabindingMode(BindingContextFactory.DefaultDatabindingMode); databindingInfo.setClassLoader(classLoader); databindingInfo.contentClasses().addAll(cls); databindingInfo.typeInfos().addAll(types); databindingInfo.properties().put("c14nSupport", Boolean.FALSE); databindingInfo.setDefaultNamespace(AbstractSEIModelImpl.this.getDefaultSchemaNamespace()); BindingContext bc = BindingContextFactory.create(databindingInfo); if (LOGGER.isLoggable(Level.FINE)) LOGGER.log(Level.FINE, "Created binding context: " + bc.getClass().getName()); // System.out.println("---------------------- databinding " + bc); return bc; } }); // createBridgeMap(types); createBondMap(types); } catch (PrivilegedActionException e) { throw new WebServiceException(ModelerMessages.UNABLE_TO_CREATE_JAXB_CONTEXT(), e); } knownNamespaceURIs = new ArrayList<String>(); for (String namespace : bindingContext.getKnownNamespaceURIs()) { if (namespace.length() > 0) { if (!namespace.equals(SOAPNamespaceConstants.XSD) && !namespace.equals(SOAPNamespaceConstants.XMLNS)) knownNamespaceURIs.add(namespace); } } marshallers = new Pool.Marshaller(jaxbContext); //return getJAXBContext(); }
Example #22
Source File: AbstractSEIModelImpl.java From openjdk-8 with GNU General Public License v2.0 | 4 votes |
private void /*JAXBRIContext*/ createJAXBContext() { final List<TypeInfo> types = getAllTypeInfos(); final List<Class> cls = new ArrayList<Class>(types.size() + additionalClasses.size()); cls.addAll(additionalClasses); for (TypeInfo type : types) { cls.add((Class) type.type); } try { //jaxbContext = JAXBRIContext.newInstance(cls, types, targetNamespace, false); // Need to avoid doPriv block once JAXB is fixed. Afterwards, use the above bindingContext = AccessController.doPrivileged(new PrivilegedExceptionAction<BindingContext>() { public BindingContext run() throws Exception { if(LOGGER.isLoggable(Level.FINEST)) { LOGGER.log(Level.FINEST, "Creating JAXBContext with classes={0} and types={1}", new Object[]{cls, types}); } UsesJAXBContextFeature f = features.get(UsesJAXBContextFeature.class); com.oracle.webservices.internal.api.databinding.DatabindingModeFeature dmf = features.get(com.oracle.webservices.internal.api.databinding.DatabindingModeFeature.class); JAXBContextFactory factory = f!=null ? f.getFactory() : null; if(factory==null) factory=JAXBContextFactory.DEFAULT; // return factory.createJAXBContext(AbstractSEIModelImpl.this,cls,types); databindingInfo.properties().put(JAXBContextFactory.class.getName(), factory); if (dmf != null) { if (LOGGER.isLoggable(Level.FINE)) LOGGER.log(Level.FINE, "DatabindingModeFeature in SEI specifies mode: {0}", dmf.getMode()); databindingInfo.setDatabindingMode(dmf .getMode()); } if (f!=null) databindingInfo.setDatabindingMode(BindingContextFactory.DefaultDatabindingMode); databindingInfo.setClassLoader(classLoader); databindingInfo.contentClasses().addAll(cls); databindingInfo.typeInfos().addAll(types); databindingInfo.properties().put("c14nSupport", Boolean.FALSE); databindingInfo.setDefaultNamespace(AbstractSEIModelImpl.this.getDefaultSchemaNamespace()); BindingContext bc = BindingContextFactory.create(databindingInfo); if (LOGGER.isLoggable(Level.FINE)) LOGGER.log(Level.FINE, "Created binding context: " + bc.getClass().getName()); // System.out.println("---------------------- databinding " + bc); return bc; } }); // createBridgeMap(types); createBondMap(types); } catch (PrivilegedActionException e) { throw new WebServiceException(ModelerMessages.UNABLE_TO_CREATE_JAXB_CONTEXT(), e); } knownNamespaceURIs = new ArrayList<String>(); for (String namespace : bindingContext.getKnownNamespaceURIs()) { if (namespace.length() > 0) { if (!namespace.equals(SOAPNamespaceConstants.XSD) && !namespace.equals(SOAPNamespaceConstants.XMLNS)) knownNamespaceURIs.add(namespace); } } marshallers = new Pool.Marshaller(jaxbContext); //return getJAXBContext(); }
Example #23
Source File: HttpAdapter.java From openjdk-jdk9 with GNU General Public License v2.0 | 4 votes |
/** * Receives the incoming HTTP connection and dispatches * it to JAX-WS. This method returns when JAX-WS completes * processing the request and the whole reply is written * to {@link WSHTTPConnection}. * * <p> * This method is invoked by the lower-level HTTP stack, * and "connection" here is an HTTP connection. * * <p> * To populate a request {@link com.sun.xml.internal.ws.api.message.Packet} with more info, * define {@link com.oracle.webservices.internal.api.message.PropertySet.Property properties} on * {@link WSHTTPConnection}. * * @param connection to receive/send HTTP messages for web service endpoints * @throws java.io.IOException when I/O errors happen */ public void handle(@NotNull WSHTTPConnection connection) throws IOException { if (handleGet(connection)) { return; } // Make sure the Toolkit is recycled by the same pool instance from which it was taken final Pool<HttpToolkit> currentPool = getPool(); // normal request handling final HttpToolkit tk = currentPool.take(); try { tk.handle(connection); } finally { currentPool.recycle(tk); } }
Example #24
Source File: Stub.java From openjdk-8 with GNU General Public License v2.0 | 4 votes |
public Pool<Tube> getTubes() { return tubes; }
Example #25
Source File: Stub.java From openjdk-8-source with GNU General Public License v2.0 | 4 votes |
/** * Passes a message through a {@link Tube}line for processing. The processing happens * asynchronously and when the response is available, Fiber.CompletionCallback is * called. The processing could happen on multiple threads. * * <p> * Unlike {@link Tube} instances, * this method is thread-safe and can be invoked from * multiple threads concurrently. * * @param receiver The {@link Response} implementation * @param request The message to be sent to the server * @param requestContext The {@link RequestContext} when this invocation is originally scheduled. * This must be the same object as {@link #requestContext} for synchronous * invocations, but for asynchronous invocations, it needs to be a snapshot * captured at the point of invocation, to correctly satisfy the spec requirement. * @param completionCallback Once the processing is done, the callback is invoked. */ protected final void processAsync(AsyncResponseImpl<?> receiver, Packet request, RequestContext requestContext, final Fiber.CompletionCallback completionCallback) { // fill in Packet request.component = this; configureRequestPacket(request, requestContext); final Pool<Tube> pool = tubes; if (pool == null) { throw new WebServiceException("close method has already been invoked"); // TODO: i18n } final Fiber fiber = engine.createFiber(); configureFiber(fiber); receiver.setCancelable(fiber); // check race condition on cancel if (receiver.isCancelled()) { return; } FiberContextSwitchInterceptorFactory fcsif = owner.getSPI(FiberContextSwitchInterceptorFactory.class); if (fcsif != null) { fiber.addInterceptor(fcsif.create()); } // then send it away! final Tube tube = pool.take(); Fiber.CompletionCallback fiberCallback = new Fiber.CompletionCallback() { @Override public void onCompletion(@NotNull Packet response) { pool.recycle(tube); completionCallback.onCompletion(response); } @Override public void onCompletion(@NotNull Throwable error) { // let's not reuse tubes as they might be in a wrong state, so not // calling pool.recycle() completionCallback.onCompletion(error); } }; // Check for SyncStartForAsyncInvokeFeature fiber.start(tube, request, fiberCallback, getBinding().isFeatureEnabled(SyncStartForAsyncFeature.class) && !requestContext.containsKey(PREVENT_SYNC_START_FOR_ASYNC_INVOKE)); }
Example #26
Source File: Stub.java From openjdk-jdk9 with GNU General Public License v2.0 | 4 votes |
public Pool<Tube> getTubes() { return tubes; }
Example #27
Source File: AbstractSEIModelImpl.java From openjdk-jdk9 with GNU General Public License v2.0 | 4 votes |
private void /*JAXBRIContext*/ createJAXBContext() { final List<TypeInfo> types = getAllTypeInfos(); final List<Class> cls = new ArrayList<Class>(types.size() + additionalClasses.size()); cls.addAll(additionalClasses); for (TypeInfo type : types) { cls.add((Class) type.type); } try { //jaxbContext = JAXBRIContext.newInstance(cls, types, targetNamespace, false); // Need to avoid doPriv block once JAXB is fixed. Afterwards, use the above bindingContext = AccessController.doPrivileged(new PrivilegedExceptionAction<BindingContext>() { public BindingContext run() throws Exception { if(LOGGER.isLoggable(Level.FINEST)) { LOGGER.log(Level.FINEST, "Creating JAXBContext with classes={0} and types={1}", new Object[]{cls, types}); } UsesJAXBContextFeature f = features.get(UsesJAXBContextFeature.class); com.oracle.webservices.internal.api.databinding.DatabindingModeFeature dmf = features.get(com.oracle.webservices.internal.api.databinding.DatabindingModeFeature.class); JAXBContextFactory factory = f!=null ? f.getFactory() : null; if(factory==null) factory=JAXBContextFactory.DEFAULT; // return factory.createJAXBContext(AbstractSEIModelImpl.this,cls,types); databindingInfo.properties().put(JAXBContextFactory.class.getName(), factory); if (dmf != null) { if (LOGGER.isLoggable(Level.FINE)) LOGGER.log(Level.FINE, "DatabindingModeFeature in SEI specifies mode: {0}", dmf.getMode()); databindingInfo.setDatabindingMode(dmf .getMode()); } if (f!=null) databindingInfo.setDatabindingMode(BindingContextFactory.DefaultDatabindingMode); databindingInfo.setClassLoader(classLoader); databindingInfo.contentClasses().addAll(cls); databindingInfo.typeInfos().addAll(types); databindingInfo.properties().put("c14nSupport", Boolean.FALSE); databindingInfo.setDefaultNamespace(AbstractSEIModelImpl.this.getDefaultSchemaNamespace()); BindingContext bc = BindingContextFactory.create(databindingInfo); if (LOGGER.isLoggable(Level.FINE)) LOGGER.log(Level.FINE, "Created binding context: " + bc.getClass().getName()); // System.out.println("---------------------- databinding " + bc); return bc; } }); // createBridgeMap(types); createBondMap(types); } catch (PrivilegedActionException e) { throw new WebServiceException(ModelerMessages.UNABLE_TO_CREATE_JAXB_CONTEXT(), e); } knownNamespaceURIs = new ArrayList<String>(); for (String namespace : bindingContext.getKnownNamespaceURIs()) { if (namespace.length() > 0) { if (!namespace.equals(SOAPNamespaceConstants.XSD) && !namespace.equals(SOAPNamespaceConstants.XMLNS)) knownNamespaceURIs.add(namespace); } } marshallers = new Pool.Marshaller(jaxbContext); //return getJAXBContext(); }
Example #28
Source File: Stub.java From openjdk-8 with GNU General Public License v2.0 | 4 votes |
/** * Passes a message through a {@link Tube}line for processing. The processing happens * asynchronously and when the response is available, Fiber.CompletionCallback is * called. The processing could happen on multiple threads. * * <p> * Unlike {@link Tube} instances, * this method is thread-safe and can be invoked from * multiple threads concurrently. * * @param receiver The {@link Response} implementation * @param request The message to be sent to the server * @param requestContext The {@link RequestContext} when this invocation is originally scheduled. * This must be the same object as {@link #requestContext} for synchronous * invocations, but for asynchronous invocations, it needs to be a snapshot * captured at the point of invocation, to correctly satisfy the spec requirement. * @param completionCallback Once the processing is done, the callback is invoked. */ protected final void processAsync(AsyncResponseImpl<?> receiver, Packet request, RequestContext requestContext, final Fiber.CompletionCallback completionCallback) { // fill in Packet request.component = this; configureRequestPacket(request, requestContext); final Pool<Tube> pool = tubes; if (pool == null) { throw new WebServiceException("close method has already been invoked"); // TODO: i18n } final Fiber fiber = engine.createFiber(); configureFiber(fiber); receiver.setCancelable(fiber); // check race condition on cancel if (receiver.isCancelled()) { return; } FiberContextSwitchInterceptorFactory fcsif = owner.getSPI(FiberContextSwitchInterceptorFactory.class); if (fcsif != null) { fiber.addInterceptor(fcsif.create()); } // then send it away! final Tube tube = pool.take(); Fiber.CompletionCallback fiberCallback = new Fiber.CompletionCallback() { @Override public void onCompletion(@NotNull Packet response) { pool.recycle(tube); completionCallback.onCompletion(response); } @Override public void onCompletion(@NotNull Throwable error) { // let's not reuse tubes as they might be in a wrong state, so not // calling pool.recycle() completionCallback.onCompletion(error); } }; // Check for SyncStartForAsyncInvokeFeature fiber.start(tube, request, fiberCallback, getBinding().isFeatureEnabled(SyncStartForAsyncFeature.class) && !requestContext.containsKey(PREVENT_SYNC_START_FOR_ASYNC_INVOKE)); }
Example #29
Source File: HttpAdapter.java From openjdk-8 with GNU General Public License v2.0 | 4 votes |
/** * Receives the incoming HTTP connection and dispatches * it to JAX-WS. This method returns when JAX-WS completes * processing the request and the whole reply is written * to {@link WSHTTPConnection}. * * <p> * This method is invoked by the lower-level HTTP stack, * and "connection" here is an HTTP connection. * * <p> * To populate a request {@link com.sun.xml.internal.ws.api.message.Packet} with more info, * define {@link com.oracle.webservices.internal.api.message.PropertySet.Property properties} on * {@link WSHTTPConnection}. * * @param connection to receive/send HTTP messages for web service endpoints * @throws java.io.IOException when I/O errors happen */ public void handle(@NotNull WSHTTPConnection connection) throws IOException { if (handleGet(connection)) { return; } // Make sure the Toolkit is recycled by the same pool instance from which it was taken final Pool<HttpToolkit> currentPool = getPool(); // normal request handling final HttpToolkit tk = currentPool.take(); try { tk.handle(connection); } finally { currentPool.recycle(tk); } }
Example #30
Source File: AbstractSEIModelImpl.java From openjdk-jdk9 with GNU General Public License v2.0 | 4 votes |
@Override public Pool.Marshaller getMarshallerPool() { return marshallers; }