tests/tests/telecom/src/android/telecom/cts/BaseTelecomTestWithMockServices.java - platform/cts - Git at Google

 /*
  * Copyright (C) 2015 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.telecom.cts;

 import static android.telecom.cts.TestUtils.*;

 import android.content.ComponentName;
 import android.content.Context;
 import android.graphics.Color;
 import android.net.Uri;
 import android.os.Bundle;
 import android.telecom.Call;
 import android.telecom.CallAudioState;
 import android.telecom.Connection;
 import android.telecom.ConnectionRequest;
 import android.telecom.InCallService;
 import android.telecom.PhoneAccount;
 import android.telecom.PhoneAccountHandle;
 import android.telecom.TelecomManager;
 import android.telecom.cts.MockConnectionService.ConnectionServiceCallbacks;
 import android.telecom.cts.MockInCallService.InCallServiceCallbacks;
 import android.test.InstrumentationTestCase;
 import android.text.TextUtils;
 import android.util.Log;

 import java.util.Arrays;
 import java.util.concurrent.TimeUnit;

 /**
  * Base class for Telecom CTS tests that require a {@link MockConnectionService} and
  * {@link MockInCallService} to verify Telecom functionality.
  */
 public class BaseTelecomTestWithMockServices extends InstrumentationTestCase {
     public static final PhoneAccountHandle TEST_PHONE_ACCOUNT_HANDLE =
             new PhoneAccountHandle(new ComponentName(PACKAGE, COMPONENT), ACCOUNT_ID);

     public static final PhoneAccount TEST_PHONE_ACCOUNT = PhoneAccount.builder(
             TEST_PHONE_ACCOUNT_HANDLE, LABEL)
             .setAddress(Uri.parse("tel:555-TEST"))
             .setSubscriptionAddress(Uri.parse("tel:555-TEST"))
             .setCapabilities(PhoneAccount.CAPABILITY_CALL_PROVIDER)
             .setHighlightColor(Color.RED)
             .setShortDescription(LABEL)
             .setSupportedUriSchemes(Arrays.asList("tel"))
             .build();

     private static int sCounter = 0;

     Context mContext;
     TelecomManager mTelecomManager;
     InCallServiceCallbacks mInCallCallbacks;
     ConnectionServiceCallbacks mConnectionCallbacks;
     String mPreviousDefaultDialer = null;

     @Override
     protected void setUp() throws Exception {
         super.setUp();
         mContext = getInstrumentation().getContext();
         mTelecomManager = (TelecomManager) mContext.getSystemService(Context.TELECOM_SERVICE);

         if (shouldTestTelecom(mContext)) {
             mTelecomManager.registerPhoneAccount(TEST_PHONE_ACCOUNT);
             TestUtils.enablePhoneAccount(getInstrumentation(), TEST_PHONE_ACCOUNT_HANDLE);
             mPreviousDefaultDialer = TestUtils.getDefaultDialer(getInstrumentation());
             TestUtils.setDefaultDialer(getInstrumentation(), PACKAGE);
             setupCallbacks();
         }
     }

     @Override
     protected void tearDown() throws Exception {
         if (shouldTestTelecom(mContext)) {
             if (!TextUtils.isEmpty(mPreviousDefaultDialer)) {
                 TestUtils.setDefaultDialer(getInstrumentation(), mPreviousDefaultDialer);
             }
             mTelecomManager.unregisterPhoneAccount(TEST_PHONE_ACCOUNT_HANDLE);
         }
         super.tearDown();
     }

     private void sleep(long ms) {
         try {
             Thread.sleep(ms);
         } catch (InterruptedException e) {
         }
     }

     private void setupCallbacks() {
         mInCallCallbacks = new InCallServiceCallbacks() {
             @Override
             public void onCallAdded(Call call, int numCalls) {
                 this.lock.release();
             }
         };

         MockInCallService.setCallbacks(mInCallCallbacks);

         mConnectionCallbacks = new ConnectionServiceCallbacks() {
             @Override
             public void onCreateOutgoingConnection(MockConnection connection,
                     ConnectionRequest request) {
                 this.lock.release();
             }

             @Override
             public void onCreateIncomingConnection(MockConnection connection,
                     ConnectionRequest request) {
                 this.lock.release();
             }
         };

         MockConnectionService.setCallbacks(mConnectionCallbacks);
     }

     /**
      * Puts Telecom in a state where there is an incoming call provided by the
      * {@link MockConnectionService} which can be tested.
      */
     void addAndVerifyNewIncomingCall(Uri incomingHandle, Bundle extras) {
         if (extras == null) {
             extras = new Bundle();
         }
         extras.putParcelable(TelecomManager.EXTRA_INCOMING_CALL_HANDLE, incomingHandle);
         mTelecomManager.addNewIncomingCall(TEST_PHONE_ACCOUNT_HANDLE, extras);

         try {
             if (!mInCallCallbacks.lock.tryAcquire(3, TimeUnit.SECONDS)) {
                 fail("No call added to InCallService.");
             }
         } catch (InterruptedException e) {
             Log.i(TAG, "Test interrupted!");
         }

         assertEquals("InCallService should contain 1 call after adding a call.", 1,
                 mInCallCallbacks.getService().getCallCount());
     }

     /**
      *  Puts Telecom in a state where there is an active call provided by the
      *  {@link MockConnectionService} which can be tested.
      */
     void placeAndVerifyCall() {
         placeAndVerifyCall(null);
     }

     /**
      *  Puts Telecom in a state where there is an active call provided by the
      *  {@link MockConnectionService} which can be tested.
      */
     void placeAndVerifyCall(Bundle extras) {
         placeNewCallWithPhoneAccount(extras);

         try {
             if (!mInCallCallbacks.lock.tryAcquire(3, TimeUnit.SECONDS)) {
                 fail("No call added to InCallService.");
             }
         } catch (InterruptedException e) {
             Log.i(TAG, "Test interrupted!");
         }

         assertEquals("InCallService should contain 1 call after adding a call.", 1,
                 mInCallCallbacks.getService().getCallCount());
     }

     void verifyConnectionForOutgoingCall() {
         try {
             if (!mConnectionCallbacks.lock.tryAcquire(3, TimeUnit.SECONDS)) {
                 fail("No outgoing call connection requested by Telecom");
             }
         } catch (InterruptedException e) {
             Log.i(TAG, "Test interrupted!");
         }

         assertNotNull("Telecom should bind to and create ConnectionService",
                 mConnectionCallbacks.getService());
         assertNotNull("Telecom should create outgoing connection for outgoing call",
                 mConnectionCallbacks.outgoingConnection);
         assertNull("Telecom should not create incoming connection for outgoing call",
                 mConnectionCallbacks.incomingConnection);

         final MockConnection connection = mConnectionCallbacks.outgoingConnection;
         connection.setDialing();
         connection.setActive();

         assertEquals(Connection.STATE_ACTIVE, connection.getState());
     }

     void verifyConnectionForIncomingCall() {
         try {
             if (!mConnectionCallbacks.lock.tryAcquire(3, TimeUnit.SECONDS)) {
                 fail("No incoming call connection requested by Telecom");
             }
         } catch (InterruptedException e) {
             Log.i(TAG, "Test interrupted!");
         }

         assertNotNull("Telecom should bind to and create ConnectionService",
                 mConnectionCallbacks.getService());
         assertNull("Telecom should not create outgoing connection for outgoing call",
                 mConnectionCallbacks.outgoingConnection);
         assertNotNull("Telecom should create incoming connection for outgoing call",
                 mConnectionCallbacks.incomingConnection);

         final MockConnection connection = mConnectionCallbacks.incomingConnection;
         connection.setRinging();
         assertEquals(Connection.STATE_RINGING, connection.getState());
     }

     /**
      * Disconnect the created test call, verify that Telecom has cleared all calls and has
      * unbound from the {@link ConnectionService}.
      */
     void cleanupAndVerifyUnbind() {
         if (mInCallCallbacks != null && mInCallCallbacks.getService() != null) {
             mInCallCallbacks.prepareForUnbind();

             mInCallCallbacks.getService().disconnectLastCall();
             assertNumCalls(mInCallCallbacks.getService(), 0);

             try {
                 if (!mInCallCallbacks.unbindLock.tryAcquire(3, TimeUnit.SECONDS)) {
                     fail("Telecom did not unbind from InCallService after all calls removed.");
                 }
             } catch (InterruptedException e) {
                 Log.i(TAG, "Test interrupted!");
             }
         }
     }

     /**
      * Place a new outgoing call via the {@link MockConnectionService}
      */
     private void placeNewCallWithPhoneAccount(Bundle extras) {
         if (extras == null) {
             extras = new Bundle();
         }
         extras.putParcelable(TelecomManager.EXTRA_PHONE_ACCOUNT_HANDLE, TEST_PHONE_ACCOUNT_HANDLE);
         mTelecomManager.placeCall(getTestNumber(), extras);
     }

     /**
      * Create a new number each time for a new test. Telecom has special logic to reuse certain
      * calls if multiple calls to the same number are placed within a short period of time which
      * can cause certain tests to fail.
      */
     Uri getTestNumber() {
         return Uri.fromParts("tel", String.valueOf(sCounter++), null);
     }

     void assertNumCalls(final MockInCallService inCallService, final int numCalls) {
         waitUntilConditionIsTrueOrTimeout(new Condition() {
             @Override
             public Object expected() {
                 return numCalls;
             }
             @Override
             public Object actual() {
                 return inCallService.getCallCount();
             }
         },
         WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
         "InCallService should contain " + numCalls + " calls."
     );
     }

     void assertMuteState(final InCallService incallService, final boolean isMuted) {
         waitUntilConditionIsTrueOrTimeout(
                 new Condition() {
                     @Override
                     public Object expected() {
                         return isMuted;
                     }

                     @Override
                     public Object actual() {
                         final CallAudioState state = incallService.getCallAudioState();
                         return state == null ? null : state.isMuted();
                     }
                 },
                 WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
                 "Phone's mute state should be: " + isMuted
         );
     }

     void assertMuteState(final MockConnection connection, final boolean isMuted) {
         waitUntilConditionIsTrueOrTimeout(
                 new Condition() {
                     @Override
                     public Object expected() {
                         return isMuted;
                     }

                     @Override
                     public Object actual() {
                         final CallAudioState state = connection.getCallAudioState();
                         return state == null ? null : state.isMuted();
                     }
                 },
                 WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
                 "Connection's mute state should be: " + isMuted
         );
     }

     void assertAudioRoute(final InCallService incallService, final int route) {
         waitUntilConditionIsTrueOrTimeout(
                 new Condition() {
                     @Override
                     public Object expected() {
                         return route;
                     }

                     @Override
                     public Object actual() {
                         final CallAudioState state = incallService.getCallAudioState();
                         return state == null ? null : state.getRoute();
                     }
                 },
                 WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
                 "Phone's audio route should be: " + route
         );
     }

     void assertAudioRoute(final MockConnection connection, final int route) {
         waitUntilConditionIsTrueOrTimeout(
                 new Condition() {
                     @Override
                     public Object expected() {
                         return route;
                     }

                     @Override
                     public Object actual() {
                         final CallAudioState state = connection.getCallAudioState();
                         return state == null ? null : state.getRoute();
                     }
                 },
                 WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
                 "Connection's audio route should be: " + route
         );
     }

     void assertConnectionState(final Connection connection, final int state) {
         waitUntilConditionIsTrueOrTimeout(
                 new Condition() {
                     @Override
                     public Object expected() {
                         return state;
                     }

                     @Override
                     public Object actual() {
                         return connection.getState();
                     }
                 },
                 WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
                 "Connection should be in state " + state
         );
     }

     void assertCallState(final Call call, final int state) {
         waitUntilConditionIsTrueOrTimeout(
                 new Condition() {
                     @Override
                     public Object expected() {
                         return state;
                     }

                     @Override
                     public Object actual() {
                         return call.getState();
                     }
                 },
                 WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
                 "Call should be in state " + state
         );
     }

     void assertDtmfString(final MockConnection connection, final String dtmfString) {
         waitUntilConditionIsTrueOrTimeout(new Condition() {
                 @Override
                 public Object expected() {
                     return dtmfString;
                 }

                 @Override
                 public Object actual() {
                     return connection.getDtmfString();
                 }
             },
             WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
             "DTMF string should be equivalent to entered DTMF characters: " + dtmfString
         );
     }

     void waitUntilConditionIsTrueOrTimeout(Condition condition, long timeout,
             String description) {
         final long start = System.currentTimeMillis();
         while (!condition.expected().equals(condition.actual())
                 && System.currentTimeMillis() - start < timeout) {
             sleep(50);
         }
         assertEquals(description, condition.expected(), condition.actual());
     }

     private interface Condition {
         Object expected();
         Object actual();
     }
 }
	/*
	* Copyright (C) 2015 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.telecom.cts;

	import static android.telecom.cts.TestUtils.*;

	import android.content.ComponentName;
	import android.content.Context;
	import android.graphics.Color;
	import android.net.Uri;
	import android.os.Bundle;
	import android.telecom.Call;
	import android.telecom.CallAudioState;
	import android.telecom.Connection;
	import android.telecom.ConnectionRequest;
	import android.telecom.InCallService;
	import android.telecom.PhoneAccount;
	import android.telecom.PhoneAccountHandle;
	import android.telecom.TelecomManager;
	import android.telecom.cts.MockConnectionService.ConnectionServiceCallbacks;
	import android.telecom.cts.MockInCallService.InCallServiceCallbacks;
	import android.test.InstrumentationTestCase;
	import android.text.TextUtils;
	import android.util.Log;

	import java.util.Arrays;
	import java.util.concurrent.TimeUnit;

	/**
	* Base class for Telecom CTS tests that require a {@link MockConnectionService} and
	* {@link MockInCallService} to verify Telecom functionality.
	*/
	public class BaseTelecomTestWithMockServices extends InstrumentationTestCase {
	public static final PhoneAccountHandle TEST_PHONE_ACCOUNT_HANDLE =
	new PhoneAccountHandle(new ComponentName(PACKAGE, COMPONENT), ACCOUNT_ID);

	public static final PhoneAccount TEST_PHONE_ACCOUNT = PhoneAccount.builder(
	TEST_PHONE_ACCOUNT_HANDLE, LABEL)
	.setAddress(Uri.parse("tel:555-TEST"))
	.setSubscriptionAddress(Uri.parse("tel:555-TEST"))
	.setCapabilities(PhoneAccount.CAPABILITY_CALL_PROVIDER)
	.setHighlightColor(Color.RED)
	.setShortDescription(LABEL)
	.setSupportedUriSchemes(Arrays.asList("tel"))
	.build();

	private static int sCounter = 0;

	Context mContext;
	TelecomManager mTelecomManager;
	InCallServiceCallbacks mInCallCallbacks;
	ConnectionServiceCallbacks mConnectionCallbacks;
	String mPreviousDefaultDialer = null;

	@Override
	protected void setUp() throws Exception {
	super.setUp();
	mContext = getInstrumentation().getContext();
	mTelecomManager = (TelecomManager) mContext.getSystemService(Context.TELECOM_SERVICE);

	if (shouldTestTelecom(mContext)) {
	mTelecomManager.registerPhoneAccount(TEST_PHONE_ACCOUNT);
	TestUtils.enablePhoneAccount(getInstrumentation(), TEST_PHONE_ACCOUNT_HANDLE);
	mPreviousDefaultDialer = TestUtils.getDefaultDialer(getInstrumentation());
	TestUtils.setDefaultDialer(getInstrumentation(), PACKAGE);
	setupCallbacks();
	}
	}

	@Override
	protected void tearDown() throws Exception {
	if (shouldTestTelecom(mContext)) {
	if (!TextUtils.isEmpty(mPreviousDefaultDialer)) {
	TestUtils.setDefaultDialer(getInstrumentation(), mPreviousDefaultDialer);
	}
	mTelecomManager.unregisterPhoneAccount(TEST_PHONE_ACCOUNT_HANDLE);
	}
	super.tearDown();
	}

	private void sleep(long ms) {
	try {
	Thread.sleep(ms);
	} catch (InterruptedException e) {
	}
	}

	private void setupCallbacks() {
	mInCallCallbacks = new InCallServiceCallbacks() {
	@Override
	public void onCallAdded(Call call, int numCalls) {
	this.lock.release();
	}
	};

	MockInCallService.setCallbacks(mInCallCallbacks);

	mConnectionCallbacks = new ConnectionServiceCallbacks() {
	@Override
	public void onCreateOutgoingConnection(MockConnection connection,
	ConnectionRequest request) {
	this.lock.release();
	}

	@Override
	public void onCreateIncomingConnection(MockConnection connection,
	ConnectionRequest request) {
	this.lock.release();
	}
	};

	MockConnectionService.setCallbacks(mConnectionCallbacks);
	}

	/**
	* Puts Telecom in a state where there is an incoming call provided by the
	* {@link MockConnectionService} which can be tested.
	*/
	void addAndVerifyNewIncomingCall(Uri incomingHandle, Bundle extras) {
	if (extras == null) {
	extras = new Bundle();
	}
	extras.putParcelable(TelecomManager.EXTRA_INCOMING_CALL_HANDLE, incomingHandle);
	mTelecomManager.addNewIncomingCall(TEST_PHONE_ACCOUNT_HANDLE, extras);

	try {
	if (!mInCallCallbacks.lock.tryAcquire(3, TimeUnit.SECONDS)) {
	fail("No call added to InCallService.");
	}
	} catch (InterruptedException e) {
	Log.i(TAG, "Test interrupted!");
	}

	assertEquals("InCallService should contain 1 call after adding a call.", 1,
	mInCallCallbacks.getService().getCallCount());
	}

	/**
	* Puts Telecom in a state where there is an active call provided by the
	* {@link MockConnectionService} which can be tested.
	*/
	void placeAndVerifyCall() {
	placeAndVerifyCall(null);
	}

	/**
	* Puts Telecom in a state where there is an active call provided by the
	* {@link MockConnectionService} which can be tested.
	*/
	void placeAndVerifyCall(Bundle extras) {
	placeNewCallWithPhoneAccount(extras);

	try {
	if (!mInCallCallbacks.lock.tryAcquire(3, TimeUnit.SECONDS)) {
	fail("No call added to InCallService.");
	}
	} catch (InterruptedException e) {
	Log.i(TAG, "Test interrupted!");
	}

	assertEquals("InCallService should contain 1 call after adding a call.", 1,
	mInCallCallbacks.getService().getCallCount());
	}

	void verifyConnectionForOutgoingCall() {
	try {
	if (!mConnectionCallbacks.lock.tryAcquire(3, TimeUnit.SECONDS)) {
	fail("No outgoing call connection requested by Telecom");
	}
	} catch (InterruptedException e) {
	Log.i(TAG, "Test interrupted!");
	}

	assertNotNull("Telecom should bind to and create ConnectionService",
	mConnectionCallbacks.getService());
	assertNotNull("Telecom should create outgoing connection for outgoing call",
	mConnectionCallbacks.outgoingConnection);
	assertNull("Telecom should not create incoming connection for outgoing call",
	mConnectionCallbacks.incomingConnection);

	final MockConnection connection = mConnectionCallbacks.outgoingConnection;
	connection.setDialing();
	connection.setActive();

	assertEquals(Connection.STATE_ACTIVE, connection.getState());
	}

	void verifyConnectionForIncomingCall() {
	try {
	if (!mConnectionCallbacks.lock.tryAcquire(3, TimeUnit.SECONDS)) {
	fail("No incoming call connection requested by Telecom");
	}
	} catch (InterruptedException e) {
	Log.i(TAG, "Test interrupted!");
	}

	assertNotNull("Telecom should bind to and create ConnectionService",
	mConnectionCallbacks.getService());
	assertNull("Telecom should not create outgoing connection for outgoing call",
	mConnectionCallbacks.outgoingConnection);
	assertNotNull("Telecom should create incoming connection for outgoing call",
	mConnectionCallbacks.incomingConnection);

	final MockConnection connection = mConnectionCallbacks.incomingConnection;
	connection.setRinging();
	assertEquals(Connection.STATE_RINGING, connection.getState());
	}

	/**
	* Disconnect the created test call, verify that Telecom has cleared all calls and has
	* unbound from the {@link ConnectionService}.
	*/
	void cleanupAndVerifyUnbind() {
	if (mInCallCallbacks != null && mInCallCallbacks.getService() != null) {
	mInCallCallbacks.prepareForUnbind();

	mInCallCallbacks.getService().disconnectLastCall();
	assertNumCalls(mInCallCallbacks.getService(), 0);

	try {
	if (!mInCallCallbacks.unbindLock.tryAcquire(3, TimeUnit.SECONDS)) {
	fail("Telecom did not unbind from InCallService after all calls removed.");
	}
	} catch (InterruptedException e) {
	Log.i(TAG, "Test interrupted!");
	}
	}
	}

	/**
	* Place a new outgoing call via the {@link MockConnectionService}
	*/
	private void placeNewCallWithPhoneAccount(Bundle extras) {
	if (extras == null) {
	extras = new Bundle();
	}
	extras.putParcelable(TelecomManager.EXTRA_PHONE_ACCOUNT_HANDLE, TEST_PHONE_ACCOUNT_HANDLE);
	mTelecomManager.placeCall(getTestNumber(), extras);
	}

	/**
	* Create a new number each time for a new test. Telecom has special logic to reuse certain
	* calls if multiple calls to the same number are placed within a short period of time which
	* can cause certain tests to fail.
	*/
	Uri getTestNumber() {
	return Uri.fromParts("tel", String.valueOf(sCounter++), null);
	}

	void assertNumCalls(final MockInCallService inCallService, final int numCalls) {
	waitUntilConditionIsTrueOrTimeout(new Condition() {
	@Override
	public Object expected() {
	return numCalls;
	}
	@Override
	public Object actual() {
	return inCallService.getCallCount();
	}
	},
	WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
	"InCallService should contain " + numCalls + " calls."
	);
	}

	void assertMuteState(final InCallService incallService, final boolean isMuted) {
	waitUntilConditionIsTrueOrTimeout(
	new Condition() {
	@Override
	public Object expected() {
	return isMuted;
	}

	@Override
	public Object actual() {
	final CallAudioState state = incallService.getCallAudioState();
	return state == null ? null : state.isMuted();
	}
	},
	WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
	"Phone's mute state should be: " + isMuted
	);
	}

	void assertMuteState(final MockConnection connection, final boolean isMuted) {
	waitUntilConditionIsTrueOrTimeout(
	new Condition() {
	@Override
	public Object expected() {
	return isMuted;
	}

	@Override
	public Object actual() {
	final CallAudioState state = connection.getCallAudioState();
	return state == null ? null : state.isMuted();
	}
	},
	WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
	"Connection's mute state should be: " + isMuted
	);
	}

	void assertAudioRoute(final InCallService incallService, final int route) {
	waitUntilConditionIsTrueOrTimeout(
	new Condition() {
	@Override
	public Object expected() {
	return route;
	}

	@Override
	public Object actual() {
	final CallAudioState state = incallService.getCallAudioState();
	return state == null ? null : state.getRoute();
	}
	},
	WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
	"Phone's audio route should be: " + route
	);
	}

	void assertAudioRoute(final MockConnection connection, final int route) {
	waitUntilConditionIsTrueOrTimeout(
	new Condition() {
	@Override
	public Object expected() {
	return route;
	}

	@Override
	public Object actual() {
	final CallAudioState state = connection.getCallAudioState();
	return state == null ? null : state.getRoute();
	}
	},
	WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
	"Connection's audio route should be: " + route
	);
	}

	void assertConnectionState(final Connection connection, final int state) {
	waitUntilConditionIsTrueOrTimeout(
	new Condition() {
	@Override
	public Object expected() {
	return state;
	}

	@Override
	public Object actual() {
	return connection.getState();
	}
	},
	WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
	"Connection should be in state " + state
	);
	}

	void assertCallState(final Call call, final int state) {
	waitUntilConditionIsTrueOrTimeout(
	new Condition() {
	@Override
	public Object expected() {
	return state;
	}

	@Override
	public Object actual() {
	return call.getState();
	}
	},
	WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
	"Call should be in state " + state
	);
	}

	void assertDtmfString(final MockConnection connection, final String dtmfString) {
	waitUntilConditionIsTrueOrTimeout(new Condition() {
	@Override
	public Object expected() {
	return dtmfString;
	}

	@Override
	public Object actual() {
	return connection.getDtmfString();
	}
	},
	WAIT_FOR_STATE_CHANGE_TIMEOUT_MS,
	"DTMF string should be equivalent to entered DTMF characters: " + dtmfString
	);
	}

	void waitUntilConditionIsTrueOrTimeout(Condition condition, long timeout,
	String description) {
	final long start = System.currentTimeMillis();
	while (!condition.expected().equals(condition.actual())
	&& System.currentTimeMillis() - start < timeout) {
	sleep(50);
	}
	assertEquals(description, condition.expected(), condition.actual());
	}

	private interface Condition {
	Object expected();
	Object actual();
	}
	}