dependencymanager/org.apache.felix.dependencymanager/src/org/apache/felix/dm/ResourceComponent.java - felix - Git at Google

 /*
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements.  See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership.  The ASF licenses this file
  * to you under the Apache License, Version 2.0 (the
  * "License"); you may not use this file except in compliance
  * with the License.  You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing,
  * software distributed under the License is distributed on an
  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
  * KIND, either express or implied.  See the License for the
  * specific language governing permissions and limitations
  * under the License.
  */
 package org.apache.felix.dm;

 import java.util.Dictionary;

 import org.apache.felix.dm.Component.ServiceScope;

 /**
  * Interface used to configure the various parameters needed when defining
  * a Dependency Manager resource adapter component.
  *
  * The resource adapter will be applied to any resource that
  * matches the specified filter condition. For each matching resource
  * an adapter will be created based on the adapter implementation class.
  * The adapter will be registered with the specified interface and existing properties
  * from the original resource plus any extra properties you supply here.
  * It will also inherit all dependencies, and if you declare the original
  * service as a member it will be injected.
  *
  * <h3>Usage Examples</h3>
  *
  * Here is a sample showing a VideoPlayer adapter component which plays a video found from
  * a bundle having a Video-Path manifest header.
  *
  * <blockquote><pre>
  * {@code
  * public class Activator extends DependencyActivatorBase {
  *     &Override
  *     public void init(BundleContext context, DependencyManager dm) throws Exception {
  *          ResourceComponent resourceComponent = dm.createResourceComponent()
  *             .setResourceFilter("(path=/videos/*.mkv)")
  *             .setInterface(VideoPlayer.class, null)
  *             .setImplementation(VideoPlayerImpl.class);
  *         dm.add(resourceComponent);
  *     }
  * }
  *
  * public interface VideoPlayer {
  *     void play();
  * }
  *
  * public class VideoPlayerImpl implements VideoPlayer {
  *     volatile URL resource; // injected
  *
  *     void play() {
  *         ...
  *     }
  * }
  * } </pre></blockquote>
  *
  * <p> When you use callbacks to get injected with the resource, the "add", "change" callbacks
  * support the following method signatures:
  *
  * <p>
  * <pre>{@code
  * (Component, URL, Dictionary)
  * (Component, URL)
  * (Component)
  * (URL, Dictionary)
  * (URL)
  * (Object)
  * }</pre>
  *
  * @see DependencyManager#createBundleComponent()
  */
 public interface ResourceComponent extends Component {

 	/**
 	 * Sets the component scope.
 	 * @param scope the component scope (default=SINGLETON)
 	 *
 	 * @return this component
 	 */
     ResourceComponent setScope(ServiceScope scope);

    /**
      * Sets the implementation for this component. You can actually specify
      * an instance you have instantiated manually, or a <code>Class</code>
      * that will be instantiated using its default constructor when the
      * required dependencies are resolved, effectively giving you a lazy
      * instantiation mechanism.
      *
      * There are four special methods that are called when found through
      * reflection to give you life cycle management options:
      * <ol>
      * <li><code>init()</code> is invoked after the instance has been
      * created and dependencies have been resolved, and can be used to
      * initialize the internal state of the instance or even to add more
      * dependencies based on runtime state</li>
      * <li><code>start()</code> is invoked right before the service is
      * registered</li>
      * <li><code>stop()</code> is invoked right after the service is
      * unregistered</li>
      * <li><code>destroy()</code> is invoked after all dependencies are
      * removed</li>
      * </ol>
      * In short, this allows you to initialize your instance before it is
      * registered, perform some post-initialization and pre-destruction code
      * as well as final cleanup. If a method is not defined, it simply is not
      * called, so you can decide which one(s) you need. If you need even more
      * fine-grained control, you can register as a service state listener too.
      *
      * @param implementation the implementation
      * @return this component
      * @see ComponentStateListener
      */
 	ResourceComponent setImplementation(Object implementation);

     /**
      * Adds dependency(ies) to this component, atomically. If the component is already active or if you add
      * dependencies from the init method, then you should add all the dependencies in one single add method call
      * (using the varargs argument), because this method may trigger component activation (like
      * the ServiceTracker.open() method does).
      *
      * @param dependencies the dependencies to add.
      * @return this component
      */
 	ResourceComponent add(Dependency ... dependencies);

 	/**
 	 * Removes a dependency from the component.
 	 * @param d the dependency to remove
 	 * @return this component
 	 */
 	ResourceComponent remove(Dependency d);

     /**
      * Adds a component state listener to this component.
      *
      * @param listener the state listener
      */
 	ResourceComponent add(ComponentStateListener listener);

     /**
      * Removes a component state listener from this component.
      *
      * @param listener the state listener
      */
 	ResourceComponent remove(ComponentStateListener listener);

     /**
      * Sets the public interface under which this component should be registered
      * in the OSGi service registry.
      *
      * @param serviceName the name of the service interface
      * @param properties the properties for this service
      * @return this component
      */
 	ResourceComponent setInterface(String serviceName, Dictionary<?,?> properties);

     /**
      * Sets the public interfaces under which this component should be registered
      * in the OSGi service registry.
      *
      * @param serviceNames the names of the service interface
      * @param properties the properties for these services
      * @return this component
      */
 	ResourceComponent setInterface(String[] serviceNames, Dictionary<?, ?> properties);

     /**
      * Sets the public interface under which this component should be registered
      * in the OSGi service registry.
      *
      * @param serviceName the name of the service interface
      * @param properties the properties for this service
      * @return this component
      */
 	ResourceComponent setInterface(Class<?> serviceName, Dictionary<?,?> properties);

     /**
      * Sets the public interfaces under which this component should be registered
      * in the OSGi service registry.
      *
      * @param serviceNames the names of the service interface
      * @param properties the properties for these services
      * @return this component
      */
 	ResourceComponent setInterface(Class<?>[] serviceNames, Dictionary<?, ?> properties);

 	/**
      * Configures auto configuration of injected classes in the component instance.
      * The following injections are currently performed, unless you explicitly
      * turn them off:
      * <dl>
      * <dt>BundleContext</dt><dd>the bundle context of the bundle</dd>
      * <dt>ServiceRegistration</dt><dd>the service registration used to register your service</dd>
      * <dt>DependencyManager</dt><dd>the dependency manager instance</dd>
      * <dt>Component</dt><dd>the component instance of the dependency manager</dd>
      * </dl>
      *
      * @param clazz the class (from the list above)
      * @param autoConfig <code>false</code> to turn off auto configuration
      */
 	ResourceComponent setAutoConfig(Class<?> clazz, boolean autoConfig);

     /**
      * Configures auto configuration of injected classes in the component instance.
      *
      * @param clazz the class (from the list above)
      * @param instanceName the name of the instance to inject the class into
      * @see #setAutoConfig(Class, boolean)
      */
 	ResourceComponent setAutoConfig(Class<?> clazz, String instanceName);

     /**
      * Sets the service properties associated with the component. If the service
      * was already registered, it will be updated.
      *
      * @param serviceProperties the properties
      */
 	ResourceComponent setServiceProperties(Dictionary<?, ?> serviceProperties);

     /**
      * Sets the names of the methods used as callbacks. These methods, when found, are
      * invoked as part of the life cycle management of the component implementation. The
      * dependency manager will look for a method of this name with the following signatures,
      * in this order:
      * <ol>
      * <li>method(Component component)</li>
      * <li>method()</li>
      * </ol>
      *
      * @param init the name of the init method
      * @param start the name of the start method
      * @param stop the name of the stop method
      * @param destroy the name of the destroy method
      * @return the component
      */
 	ResourceComponent setCallbacks(String init, String start, String stop, String destroy);

     /**
      * Sets the names of the methods used as callbacks. These methods, when found, are
      * invoked on the specified instance as part of the life cycle management of the component
      * implementation.
      * <p>
      * See setCallbacks(String init, String start, String stop, String destroy) for more
      * information on the signatures. Specifying an instance means you can create a manager
      * that will be invoked whenever the life cycle of a component changes and this manager
      * can then decide how to expose this life cycle to the actual component, offering an
      * important indirection when developing your own component models.
      *
      * @return this component
      */
 	ResourceComponent setCallbacks(Object instance, String init, String start, String stop, String destroy);

     /**
      * Sets the factory to use to create the implementation. You can specify
      * both the factory class and method to invoke. The method should return
      * the implementation, and can use any method to create it. Actually, this
      * can be used together with <code>setComposition</code> to create a
      * composition of instances that work together to implement a component. The
      * factory itself can also be instantiated lazily by not specifying an
      * instance, but a <code>Class</code>.
      *
      * @param factory the factory instance or class
      * @param createMethod the name of the create method
      * @return this component
      */
 	ResourceComponent setFactory(Object factory, String createMethod);

     /**
      * Sets the factory to use to create the implementation. You specify the
      * method to invoke. The method should return the implementation, and can
      * use any method to create it. Actually, this can be used together with
      * <code>setComposition</code> to create a composition of instances that
      * work together to implement a component.
      * <p>
      * Note that currently, there is no default for the factory, so please use
      * <code>setFactory(factory, createMethod)</code> instead.
      *
      * @param createMethod the name of the create method
      * @return this component
      */
 	ResourceComponent setFactory(String createMethod);

     /**
      * Sets the instance and method to invoke to get back all instances that
      * are part of a composition and need dependencies injected. All of them
      * will be searched for any of the dependencies. The method that is
      * invoked must return an <code>Object[]</code>.
      *
      * @param instance the instance that has the method
      * @param getMethod the method to invoke
      * @return this component
      */
 	ResourceComponent setComposition(Object instance, String getMethod);

     /**
      * Sets the method to invoke on the service implementation to get back all
      * instances that are part of a composition and need dependencies injected.
      * All of them will be searched for any of the dependencies. The method that
      * is invoked must return an <code>Object[]</code>.
      *
      * @param getMethod the method to invoke
      * @return this component
      */
 	ResourceComponent setComposition(String getMethod);

 	/**
 	 * Activate debug for this component. Informations related to dependency processing will be displayed
 	 * using osgi log service, our to standard output if no log service is currently available.
 	 * @param label
 	 */
 	ResourceComponent setDebug(String label);

 	/**
      * Sets the resource filter used to match a given resource URL.
      *
      * @param filter the filter condition to use with the resource
      * @return this ResourceComponent
      */
 	ResourceComponent setResourceFilter(String filter);

     /**
      * Sets if properties from the resource should be propagated to the resource adapter service. true by default.
      *
      * @param propagate true if if properties from the resource should be propagated to the resource adapter service.
      * true by default.
      * The provided resource adapter service properties take precedence over the propagated resource service properties.
      * @return this ResourceComponent
      */
 	ResourceComponent setPropagate(boolean propagate);

     /**
      * Sets the propagate callback to invoke in order to propagate the resource properties to the adapter service.
      * The provided resource adapter service properties take precedence over the propagated resource service properties.
      *
      * @param propagateCbInstance the object to invoke the propagate callback method on
      * @param propagateCbMethod the method name to invoke in order to propagate the resource properties to the adapter service.
      * @return this ResourceComponent
      */
 	ResourceComponent setPropagate(Object propagateCbInstance, String propagateCbMethod);

 	/**
 	 * Sets the callbacks to invoke when injecting the resource into the adapter component.
 	 *
 	 * @param add the method to invoke when injected the resource into the adapter component
 	 * @param change the method to invoke when the resource properties have changed
      * @return this ResourceComponent
 	 */
 	ResourceComponent setBundleCallbacks(String add, String change);

     /**
      * Sets the instance to invoke the callbacks on (null by default, meaning the callbacks have to be invoked on the resource adapter itself)
      *
      * @param callbackInstance the instance to invoke the callbacks on (null by default, meaning the callbacks have to be invoked on the resource adapter itself)
      * @return this ResourceComponent
      */
 	ResourceComponent setBundleCallbackInstance(Object callbackInstance);


 }
	/*
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache License, Version 2.0 (the
	* "License"); you may not use this file except in compliance
	* with the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*/
	package org.apache.felix.dm;

	import java.util.Dictionary;

	import org.apache.felix.dm.Component.ServiceScope;

	/**
	* Interface used to configure the various parameters needed when defining
	* a Dependency Manager resource adapter component.
	*
	* The resource adapter will be applied to any resource that
	* matches the specified filter condition. For each matching resource
	* an adapter will be created based on the adapter implementation class.
	* The adapter will be registered with the specified interface and existing properties
	* from the original resource plus any extra properties you supply here.
	* It will also inherit all dependencies, and if you declare the original
	* service as a member it will be injected.
	*
	* <h3>Usage Examples</h3>
	*
	* Here is a sample showing a VideoPlayer adapter component which plays a video found from
	* a bundle having a Video-Path manifest header.
	*
	* <blockquote><pre>
	* {@code
	* public class Activator extends DependencyActivatorBase {
	* &Override
	* public void init(BundleContext context, DependencyManager dm) throws Exception {
	* ResourceComponent resourceComponent = dm.createResourceComponent()
	* .setResourceFilter("(path=/videos/*.mkv)")
	* .setInterface(VideoPlayer.class, null)
	* .setImplementation(VideoPlayerImpl.class);
	* dm.add(resourceComponent);
	* }
	* }
	*
	* public interface VideoPlayer {
	* void play();
	* }
	*
	* public class VideoPlayerImpl implements VideoPlayer {
	* volatile URL resource; // injected
	*
	* void play() {
	* ...
	* }
	* }
	* } </pre></blockquote>
	*
	* <p> When you use callbacks to get injected with the resource, the "add", "change" callbacks
	* support the following method signatures:
	*
	* <p>
	* <pre>{@code
	* (Component, URL, Dictionary)
	* (Component, URL)
	* (Component)
	* (URL, Dictionary)
	* (URL)
	* (Object)
	* }</pre>
	*
	* @see DependencyManager#createBundleComponent()
	*/
	public interface ResourceComponent extends Component {

	/**
	* Sets the component scope.
	* @param scope the component scope (default=SINGLETON)
	*
	* @return this component
	*/
	ResourceComponent setScope(ServiceScope scope);

	/**
	* Sets the implementation for this component. You can actually specify
	* an instance you have instantiated manually, or a <code>Class</code>
	* that will be instantiated using its default constructor when the
	* required dependencies are resolved, effectively giving you a lazy
	* instantiation mechanism.
	*
	* There are four special methods that are called when found through
	* reflection to give you life cycle management options:
	* <ol>
	* <li><code>init()</code> is invoked after the instance has been
	* created and dependencies have been resolved, and can be used to
	* initialize the internal state of the instance or even to add more
	* dependencies based on runtime state</li>
	* <li><code>start()</code> is invoked right before the service is
	* registered</li>
	* <li><code>stop()</code> is invoked right after the service is
	* unregistered</li>
	* <li><code>destroy()</code> is invoked after all dependencies are
	* removed</li>
	* </ol>
	* In short, this allows you to initialize your instance before it is
	* registered, perform some post-initialization and pre-destruction code
	* as well as final cleanup. If a method is not defined, it simply is not
	* called, so you can decide which one(s) you need. If you need even more
	* fine-grained control, you can register as a service state listener too.
	*
	* @param implementation the implementation
	* @return this component
	* @see ComponentStateListener
	*/
	ResourceComponent setImplementation(Object implementation);

	/**
	* Adds dependency(ies) to this component, atomically. If the component is already active or if you add
	* dependencies from the init method, then you should add all the dependencies in one single add method call
	* (using the varargs argument), because this method may trigger component activation (like
	* the ServiceTracker.open() method does).
	*
	* @param dependencies the dependencies to add.
	* @return this component
	*/
	ResourceComponent add(Dependency ... dependencies);

	/**
	* Removes a dependency from the component.
	* @param d the dependency to remove
	* @return this component
	*/
	ResourceComponent remove(Dependency d);

	/**
	* Adds a component state listener to this component.
	*
	* @param listener the state listener
	*/
	ResourceComponent add(ComponentStateListener listener);

	/**
	* Removes a component state listener from this component.
	*
	* @param listener the state listener
	*/
	ResourceComponent remove(ComponentStateListener listener);

	/**
	* Sets the public interface under which this component should be registered
	* in the OSGi service registry.
	*
	* @param serviceName the name of the service interface
	* @param properties the properties for this service
	* @return this component
	*/
	ResourceComponent setInterface(String serviceName, Dictionary<?,?> properties);

	/**
	* Sets the public interfaces under which this component should be registered
	* in the OSGi service registry.
	*
	* @param serviceNames the names of the service interface
	* @param properties the properties for these services
	* @return this component
	*/
	ResourceComponent setInterface(String[] serviceNames, Dictionary<?, ?> properties);

	/**
	* Sets the public interface under which this component should be registered
	* in the OSGi service registry.
	*
	* @param serviceName the name of the service interface
	* @param properties the properties for this service
	* @return this component
	*/
	ResourceComponent setInterface(Class<?> serviceName, Dictionary<?,?> properties);

	/**
	* Sets the public interfaces under which this component should be registered
	* in the OSGi service registry.
	*
	* @param serviceNames the names of the service interface
	* @param properties the properties for these services
	* @return this component
	*/
	ResourceComponent setInterface(Class<?>[] serviceNames, Dictionary<?, ?> properties);

	/**
	* Configures auto configuration of injected classes in the component instance.
	* The following injections are currently performed, unless you explicitly
	* turn them off:
	* <dl>
	* <dt>BundleContext</dt><dd>the bundle context of the bundle</dd>
	* <dt>ServiceRegistration</dt><dd>the service registration used to register your service</dd>
	* <dt>DependencyManager</dt><dd>the dependency manager instance</dd>
	* <dt>Component</dt><dd>the component instance of the dependency manager</dd>
	* </dl>
	*
	* @param clazz the class (from the list above)
	* @param autoConfig <code>false</code> to turn off auto configuration
	*/
	ResourceComponent setAutoConfig(Class<?> clazz, boolean autoConfig);

	/**
	* Configures auto configuration of injected classes in the component instance.
	*
	* @param clazz the class (from the list above)
	* @param instanceName the name of the instance to inject the class into
	* @see #setAutoConfig(Class, boolean)
	*/
	ResourceComponent setAutoConfig(Class<?> clazz, String instanceName);

	/**
	* Sets the service properties associated with the component. If the service
	* was already registered, it will be updated.
	*
	* @param serviceProperties the properties
	*/
	ResourceComponent setServiceProperties(Dictionary<?, ?> serviceProperties);

	/**
	* Sets the names of the methods used as callbacks. These methods, when found, are
	* invoked as part of the life cycle management of the component implementation. The
	* dependency manager will look for a method of this name with the following signatures,
	* in this order:
	* <ol>
	* <li>method(Component component)</li>
	* <li>method()</li>
	* </ol>
	*
	* @param init the name of the init method
	* @param start the name of the start method
	* @param stop the name of the stop method
	* @param destroy the name of the destroy method
	* @return the component
	*/
	ResourceComponent setCallbacks(String init, String start, String stop, String destroy);

	/**
	* Sets the names of the methods used as callbacks. These methods, when found, are
	* invoked on the specified instance as part of the life cycle management of the component
	* implementation.
	* <p>
	* See setCallbacks(String init, String start, String stop, String destroy) for more
	* information on the signatures. Specifying an instance means you can create a manager
	* that will be invoked whenever the life cycle of a component changes and this manager
	* can then decide how to expose this life cycle to the actual component, offering an
	* important indirection when developing your own component models.
	*
	* @return this component
	*/
	ResourceComponent setCallbacks(Object instance, String init, String start, String stop, String destroy);

	/**
	* Sets the factory to use to create the implementation. You can specify
	* both the factory class and method to invoke. The method should return
	* the implementation, and can use any method to create it. Actually, this
	* can be used together with <code>setComposition</code> to create a
	* composition of instances that work together to implement a component. The
	* factory itself can also be instantiated lazily by not specifying an
	* instance, but a <code>Class</code>.
	*
	* @param factory the factory instance or class
	* @param createMethod the name of the create method
	* @return this component
	*/
	ResourceComponent setFactory(Object factory, String createMethod);

	/**
	* Sets the factory to use to create the implementation. You specify the
	* method to invoke. The method should return the implementation, and can
	* use any method to create it. Actually, this can be used together with
	* <code>setComposition</code> to create a composition of instances that
	* work together to implement a component.
	* <p>
	* Note that currently, there is no default for the factory, so please use
	* <code>setFactory(factory, createMethod)</code> instead.
	*
	* @param createMethod the name of the create method
	* @return this component
	*/
	ResourceComponent setFactory(String createMethod);

	/**
	* Sets the instance and method to invoke to get back all instances that
	* are part of a composition and need dependencies injected. All of them
	* will be searched for any of the dependencies. The method that is
	* invoked must return an <code>Object[]</code>.
	*
	* @param instance the instance that has the method
	* @param getMethod the method to invoke
	* @return this component
	*/
	ResourceComponent setComposition(Object instance, String getMethod);

	/**
	* Sets the method to invoke on the service implementation to get back all
	* instances that are part of a composition and need dependencies injected.
	* All of them will be searched for any of the dependencies. The method that
	* is invoked must return an <code>Object[]</code>.
	*
	* @param getMethod the method to invoke
	* @return this component
	*/
	ResourceComponent setComposition(String getMethod);

	/**
	* Activate debug for this component. Informations related to dependency processing will be displayed
	* using osgi log service, our to standard output if no log service is currently available.
	* @param label
	*/
	ResourceComponent setDebug(String label);

	/**
	* Sets the resource filter used to match a given resource URL.
	*
	* @param filter the filter condition to use with the resource
	* @return this ResourceComponent
	*/
	ResourceComponent setResourceFilter(String filter);

	/**
	* Sets if properties from the resource should be propagated to the resource adapter service. true by default.
	*
	* @param propagate true if if properties from the resource should be propagated to the resource adapter service.
	* true by default.
	* The provided resource adapter service properties take precedence over the propagated resource service properties.
	* @return this ResourceComponent
	*/
	ResourceComponent setPropagate(boolean propagate);

	/**
	* Sets the propagate callback to invoke in order to propagate the resource properties to the adapter service.
	* The provided resource adapter service properties take precedence over the propagated resource service properties.
	*
	* @param propagateCbInstance the object to invoke the propagate callback method on
	* @param propagateCbMethod the method name to invoke in order to propagate the resource properties to the adapter service.
	* @return this ResourceComponent
	*/
	ResourceComponent setPropagate(Object propagateCbInstance, String propagateCbMethod);

	/**
	* Sets the callbacks to invoke when injecting the resource into the adapter component.
	*
	* @param add the method to invoke when injected the resource into the adapter component
	* @param change the method to invoke when the resource properties have changed
	* @return this ResourceComponent
	*/
	ResourceComponent setBundleCallbacks(String add, String change);

	/**
	* Sets the instance to invoke the callbacks on (null by default, meaning the callbacks have to be invoked on the resource adapter itself)
	*
	* @param callbackInstance the instance to invoke the callbacks on (null by default, meaning the callbacks have to be invoked on the resource adapter itself)
	* @return this ResourceComponent
	*/
	ResourceComponent setBundleCallbackInstance(Object callbackInstance);


	}