Java Code Examples for com.sun.xml.internal.ws.api.pipe.Fiber#getPacket()

The following examples show how to use com.sun.xml.internal.ws.api.pipe.Fiber#getPacket() . You can vote up the ones you like or vote down the ones you don't like, and go to the original project or source file by following the links above each example. You may check out the related API usage on the sidebar.
Example 1
Source File: Stub.java    From TencentKona-8 with GNU General Public License v2.0 5 votes vote down vote up
/**
 * 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 2
Source File: Stub.java    From jdk8u60 with GNU General Public License v2.0 5 votes vote down vote up
/**
 * 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-jdk8u with GNU General Public License v2.0 5 votes vote down vote up
/**
 * 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: Stub.java    From openjdk-jdk8u-backup with GNU General Public License v2.0 5 votes vote down vote up
/**
 * 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 5
Source File: Stub.java    From openjdk-jdk9 with GNU General Public License v2.0 5 votes vote down vote up
/**
 * 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 6
Source File: Stub.java    From hottub with GNU General Public License v2.0 5 votes vote down vote up
/**
 * 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 openjdk-8-source with GNU General Public License v2.0 5 votes vote down vote up
/**
 * 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: Stub.java    From openjdk-8 with GNU General Public License v2.0 5 votes vote down vote up
/**
 * 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);
    }
}