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package org.glassfish.jersey.client;

import java.util.Arrays;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Future;

import javax.ws.rs.ProcessingException;
import javax.ws.rs.core.HttpHeaders;
import javax.ws.rs.core.MultivaluedMap;

import org.glassfish.jersey.client.spi.AsyncConnectorCallback;
import org.glassfish.jersey.client.spi.Connector;
import org.glassfish.jersey.internal.Version;
import org.glassfish.jersey.internal.util.PropertiesHelper;
import org.glassfish.jersey.message.MessageBodyWorkers;
import org.glassfish.jersey.process.internal.ChainableStage;
import org.glassfish.jersey.process.internal.RequestScope;
import org.glassfish.jersey.process.internal.Stage;
import org.glassfish.jersey.process.internal.Stages;

import org.glassfish.hk2.api.ServiceLocator;

import jersey.repackaged.com.google.common.util.concurrent.SettableFuture;

/**
 * Client-side request processing runtime.
 *
 * @author Marek Potociar (marek.potociar at oracle.com)
 */
class ClientRuntime {
    private final Stage requestProcessingRoot;
    private final Stage responseProcessingRoot;

    private final Connector connector;
    private final ClientConfig config;

    private final RequestScope requestScope;
    private final ClientAsyncExecutorFactory asyncExecutorsFactory;

    private final ServiceLocator locator;

    /**
     * Create new client request processing runtime.
     *
     * @param config    client runtime configuration.
     * @param connector client transport connector.
     * @param locator   HK2 service locator.
     */
    public ClientRuntime(final ClientConfig config, final Connector connector, final ServiceLocator locator) {
        final Stage.Builder requestingChainBuilder = Stages
                .chain(locator.createAndInitialize(RequestProcessingInitializationStage.class));
        final ChainableStage requestFilteringStage = ClientFilteringStages.createRequestFilteringStage(locator);
        this.requestProcessingRoot = requestFilteringStage != null ?
                requestingChainBuilder.build(requestFilteringStage) : requestingChainBuilder.build();

        final ChainableStage responseFilteringStage = ClientFilteringStages.createResponseFilteringStage(locator);
        this.responseProcessingRoot = responseFilteringStage != null ?
                responseFilteringStage : Stages.identity();

        this.config = config;
        this.connector = connector;

        this.requestScope = locator.getService(RequestScope.class);

        int asyncThreadPoolSize = PropertiesHelper.getValue(config.getProperties(), ClientProperties.ASYNC_THREADPOOL_SIZE, 0);
        asyncThreadPoolSize = (asyncThreadPoolSize < 0) ? 0 : asyncThreadPoolSize;
        this.asyncExecutorsFactory = new ClientAsyncExecutorFactory(locator, asyncThreadPoolSize);

        this.locator = locator;
    }

    /**
     * Submit a {@link ClientRequest client request} for asynchronous processing.
     * 

* Both, the request processing as well as response callback invocation will be executed * in a context of an active {@link RequestScope.Instance request scope instance}. *

* * @param request client request to be sent. * @param callback asynchronous response callback. */ public void submit(final ClientRequest request, final ResponseCallback callback) { submit(asyncExecutorsFactory.getExecutor(), new Runnable() { @Override public void run() { ClientRequest processedRequest; try { processedRequest = Stages.process(request, requestProcessingRoot); processedRequest = addUserAgent(processedRequest, connector.getName()); } catch (AbortException aborted) { processResponse(aborted.getAbortResponse(), callback); return; } try { final SettableFuture responseFuture = SettableFuture.create(); final AsyncConnectorCallback connectorCallback = new AsyncConnectorCallback() { @Override public void response(final ClientResponse response) { responseFuture.set(response); } @Override public void failure(Throwable failure) { responseFuture.setException(failure); } }; connector.apply(processedRequest, connectorCallback); processResponse(responseFuture.get(), callback); } catch (ExecutionException e) { processFailure(e.getCause(), callback); } catch (Throwable throwable) { processFailure(throwable, callback); } } }); } private void processResponse(final ClientResponse response, final ResponseCallback callback) { final ClientResponse processedResponse; try { processedResponse = Stages.process(response, responseProcessingRoot); } catch (Throwable throwable) { processFailure(throwable, callback); return; } callback.completed(processedResponse, requestScope); } private void processFailure(Throwable failure, final ResponseCallback callback) { callback.failed(failure instanceof ProcessingException ? (ProcessingException) failure : new ProcessingException(failure)); } private Future submit(final ExecutorService executor, final Runnable task) { return executor.submit(new Runnable() { @Override public void run() { requestScope.runInScope(task); } }); } private ClientRequest addUserAgent(ClientRequest clientRequest, String connectorName) { final MultivaluedMap headers = clientRequest.getHeaders(); if (headers.containsKey(HttpHeaders.USER_AGENT)) { // Check for explicitly set null value and if set, then remove the header - see JERSEY-2189 if (clientRequest.getHeaderString(HttpHeaders.USER_AGENT) == null) { headers.remove(HttpHeaders.USER_AGENT); } } else { if (connectorName != null && !connectorName.isEmpty()) { headers.put(HttpHeaders.USER_AGENT, Arrays.asList(String.format("Jersey/%s (%s)", Version.getVersion(), connectorName))); } else { headers.put(HttpHeaders.USER_AGENT, Arrays.asList(String.format("Jersey/%s", Version.getVersion()))); } } return clientRequest; } /** * Invoke a request processing synchronously in the context of the caller's thread. *

* NOTE: the method does not explicitly start a new request scope context. Instead * it is assumed that the method is invoked from within a context of a proper, running * {@link RequestScope.Instance request scope instance}. A caller may use the * {@link #getRequestScope()} method to retrieve the request scope instance and use it to * initialize the proper request scope context prior the method invocation. *

* * @param request client request to be invoked. * @return client response. * @throws javax.ws.rs.ProcessingException in case of an invocation failure. */ public ClientResponse invoke(final ClientRequest request) { ClientResponse response; try { try { response = connector.apply(addUserAgent(Stages.process(request, requestProcessingRoot), connector.getName())); } catch (AbortException aborted) { response = aborted.getAbortResponse(); } return Stages.process(response, responseProcessingRoot); } catch (ProcessingException ex) { throw ex; } catch (Throwable t) { throw new ProcessingException(t.getMessage(), t); } } /** * Get the request scope instance configured for the runtime. * * @return request scope instance. */ public RequestScope getRequestScope() { return requestScope; } /** * Get runtime configuration. * * @return runtime configuration. */ public ClientConfig getConfig() { return config; } /** * Close the client runtime and release the underlying transport connector. */ public void close() { try { connector.close(); } finally { asyncExecutorsFactory.close(); } } /** * Pre-initialize the client runtime. */ public void preInitialize() { // pre-initialize MessageBodyWorkers locator.getService(MessageBodyWorkers.class); } /** * Runtime connector. * * @return runtime connector. */ public Connector getConnector() { return connector; } /** * Get service locator. * * @return Service locator. */ ServiceLocator getServiceLocator() { return locator; } }