/* * Copyright (C) 2008 The Android Open Source Project * * Licensed 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 android.test; import android.app.Application; import android.app.Service; import android.content.ComponentName; import android.content.Context; import android.content.Intent; import android.os.IBinder; import android.os.RemoteException; import android.test.mock.MockApplication; import java.lang.reflect.Field; import java.util.Random; /** * This test case provides a framework in which you can test Service classes in * a controlled environment. It provides basic support for the lifecycle of a * Service, and hooks with which you can inject various dependencies and control * the environment in which your Service is tested. * *
*

Developer Guides

*

For more information about application testing, read the * Testing developer guide.

*
* *

Lifecycle Support. * A Service is accessed with a specific sequence of * calls, as described in the * Services * document. In order to support the lifecycle of a Service, * ServiceTestCase enforces this protocol: * *

* *

* Dependency Injection. * A service has two inherent dependencies, its {@link android.content.Context Context} and its * associated {@link android.app.Application Application}. The ServiceTestCase framework * allows you to inject modified, mock, or isolated replacements for these dependencies, and * thus perform unit tests with controlled dependencies in an isolated environment. *

*

* By default, the test case is injected with a full system context and a generic * {@link android.test.mock.MockApplication MockApplication} object. You can inject * alternatives to either of these by invoking * {@link AndroidTestCase#setContext(Context) setContext()} or * {@link #setApplication setApplication()}. You must do this before calling * startService() or bindService(). The test framework provides a * number of alternatives for Context, including * {@link android.test.mock.MockContext MockContext}, * {@link android.test.RenamingDelegatingContext RenamingDelegatingContext}, * {@link android.content.ContextWrapper ContextWrapper}, and * {@link android.test.IsolatedContext}. */ public abstract class ServiceTestCase extends AndroidTestCase { Class mServiceClass; private Context mSystemContext; private Application mApplication; /** * Constructor * @param serviceClass The type of the service under test. */ public ServiceTestCase(Class serviceClass) { mServiceClass = serviceClass; } private T mService; private boolean mServiceAttached = false; private boolean mServiceCreated = false; private boolean mServiceStarted = false; private boolean mServiceBound = false; private Intent mServiceIntent = null; private int mServiceId; /** * @return An instance of the service under test. This instance is created automatically when * a test calls {@link #startService} or {@link #bindService}. */ public T getService() { return mService; } /** * Gets the current system context and stores it. * * Extend this method to do your own test initialization. If you do so, you * must call super.setUp() as the first statement in your override. The method is * called before each test method is executed. */ @Override protected void setUp() throws Exception { super.setUp(); // get the real context, before the individual tests have a chance to muck with it mSystemContext = getContext(); } /** * Creates the service under test and attaches all injected dependencies * (Context, Application) to it. This is called automatically by {@link #startService} or * by {@link #bindService}. * If you need to call {@link AndroidTestCase#setContext(Context) setContext()} or * {@link #setApplication setApplication()}, do so before calling this method. */ protected void setupService() { mService = null; try { mService = mServiceClass.newInstance(); } catch (Exception e) { assertNotNull(mService); } if (getApplication() == null) { setApplication(new MockApplication()); } mService.attach( getContext(), null, // ActivityThread not actually used in Service mServiceClass.getName(), null, // token not needed when not talking with the activity manager getApplication(), null // mocked services don't talk with the activity manager ); assertNotNull(mService); mServiceId = new Random().nextInt(); mServiceAttached = true; } /** * Starts the service under test, in the same way as if it were started by * {@link android.content.Context#startService(Intent) Context.startService(Intent)} with * an {@link android.content.Intent} that identifies a service. * If you use this method to start the service, it is automatically stopped by * {@link #tearDown}. * * @param intent An Intent that identifies a service, of the same form as the Intent passed to * {@link android.content.Context#startService(Intent) Context.startService(Intent)}. */ protected void startService(Intent intent) { if (!mServiceAttached) { setupService(); } assertNotNull(mService); if (!mServiceCreated) { mService.onCreate(); mServiceCreated = true; } mService.onStartCommand(intent, 0, mServiceId); mServiceStarted = true; } /** *

* Starts the service under test, in the same way as if it were started by * {@link android.content.Context#bindService(Intent, ServiceConnection, int) * Context.bindService(Intent, ServiceConnection, flags)} with an * {@link android.content.Intent} that identifies a service. *

*

* Notice that the parameters are different. You do not provide a * {@link android.content.ServiceConnection} object or the flags parameter. Instead, * you only provide the Intent. The method returns an object whose type is a * subclass of {@link android.os.IBinder}, or null if the method fails. An IBinder * object refers to a communication channel between the application and * the service. The flag is assumed to be {@link android.content.Context#BIND_AUTO_CREATE}. *

*

* See Designing a Remote Interface * Using AIDL for more information about the communication channel object returned * by this method. *

* Note: To be able to use bindService in a test, the service must implement getService() * method. An example of this is in the ApiDemos sample application, in the * LocalService demo. * * @param intent An Intent object of the form expected by * {@link android.content.Context#bindService}. * * @return An object whose type is a subclass of IBinder, for making further calls into * the service. */ protected IBinder bindService(Intent intent) { if (!mServiceAttached) { setupService(); } assertNotNull(mService); if (!mServiceCreated) { mService.onCreate(); mServiceCreated = true; } // no extras are expected by unbind mServiceIntent = intent.cloneFilter(); IBinder result = mService.onBind(intent); mServiceBound = true; return result; } /** * Makes the necessary calls to stop (or unbind) the service under test, and * calls onDestroy(). Ordinarily this is called automatically (by {@link #tearDown}, but * you can call it directly from your test in order to check for proper shutdown behavior. */ protected void shutdownService() { if (mServiceStarted) { mService.stopSelf(); mServiceStarted = false; } else if (mServiceBound) { mService.onUnbind(mServiceIntent); mServiceBound = false; } if (mServiceCreated) { mService.onDestroy(); } } /** *

* Shuts down the service under test. Ensures all resources are cleaned up and * garbage collected before moving on to the next test. This method is called after each * test method. *

*

* Subclasses that override this method must call super.tearDown() as their * last statement. *

* * @throws Exception */ @Override protected void tearDown() throws Exception { shutdownService(); mService = null; // Scrub out members - protects against memory leaks in the case where someone // creates a non-static inner class (thus referencing the test case) and gives it to // someone else to hold onto scrubClass(ServiceTestCase.class); super.tearDown(); } /** * Sets the application that is used during the test. If you do not call this method, * a new {@link android.test.mock.MockApplication MockApplication} object is used. * * @param application The Application object that is used by the service under test. * * @see #getApplication() */ public void setApplication(Application application) { mApplication = application; } /** * Returns the Application object in use by the service under test. * * @return The application object. * * @see #setApplication */ public Application getApplication() { return mApplication; } /** * Returns the real system context that is saved by {@link #setUp()}. Use it to create * mock or other types of context objects for the service under test. * * @return A normal system context. */ public Context getSystemContext() { return mSystemContext; } /** * Tests that {@link #setupService()} runs correctly and issues an * {@link junit.framework.Assert#assertNotNull(String, Object)} if it does. * You can override this test method if you wish. * * @throws Exception */ public void testServiceTestCaseSetUpProperly() throws Exception { setupService(); assertNotNull("service should be launched successfully", mService); } }