一、应用层的流程
1.1、拨号盘初步处理
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@DialpadFragment.java
-
public void dialButtonPressed() {
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-
final String number = mDigits.getText().toString();
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-
final Intent intent = ContactsUtils.getCallIntent(number,
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(getActivity() instanceof DialtactsActivity ?
-
((DialtactsActivity)getActivity()).getCallOrigin() : null));
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startActivity(intent);
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mClearDigitsOnStop = true;
-
getActivity().finish();
-
}
来看上面得到Intent的过程:
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@ContactsUtils.java
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public static Intent getCallIntent(String number, String callOrigin) {
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用号码构建一个类似tel:10086的Uri
-
return getCallIntent(getCallUri(number), callOrigin);
-
}
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public static Intent getCallIntent(Uri uri, String callOrigin) {
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final Intent intent = new Intent(Intent.ACTION_CALL_PRIVILEGED, uri);
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intent.setFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
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if (callOrigin != null) {
-
intent.putExtra(DialtactsActivity.EXTRA_CALL_ORIGIN, callOrigin);
-
}
-
return intent;
-
}
这个过程可以看出,发出的Intent由一下几个结构组成:
1、Action为:ACTION_CALL_PRIVILEGED,(android.intent.action.CALL_PRIVILEGED);
2、Flag为:FLAG_ACTIVITY_NEW_TASK;
3、号码Uri为:tel:10086
然后经过startActivity发送出去。那么是那个Activity接受的呢?
1.2、号码初级处理阶段
这个过程主要针对紧急呼叫处理(OutgoingCallBroadcaster.java)。
在Phone模块的AndroidManifest.xml文件中有如下描述:
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<activity-alias android:name="PrivilegedOutgoingCallBroadcaster"
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android:targetActivity="OutgoingCallBroadcaster"
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android:screenOrientation="nosensor"
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android:permission="android.permission.CALL_PRIVILEGED">
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<intent-filter>
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<action android:name="android.intent.action.CALL_PRIVILEGED" />
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<category android:name="android.intent.category.DEFAULT" />
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<data android:scheme="tel" />
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</intent-filter>
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</activity-alias>
activity-alias说明这个节点描述的Activity是另一个Activity的别名,也就是说,当前的PrivilegedOutgoingCallBroadcaster是指向OutgoingCallBroadcaster的。
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@OutgoingCallBroadcaster.java
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protected void onCreate(Bundle icicle) {
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super.onCreate(icicle);
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setContentView(R.layout.outgoing_call_broadcaster);
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mWaitingSpinner = (ProgressBar) findViewById(R.id.spinner);
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-
Intent intent = getIntent();
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processIntent(intent);
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}
继续往下看:
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private void processIntent(Intent intent) {
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final Configuration configuration = getResources().getConfiguration();
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-
String action = intent.getAction();
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String number = PhoneNumberUtils.getNumberFromIntent(intent, this);
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-
-
if (number != null) {
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if (!PhoneNumberUtils.isUriNumber(number)) {
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number = PhoneNumberUtils.convertKeypadLettersToDigits(number);
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number = PhoneNumberUtils.stripSeparators(number);
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}
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} else {
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}
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-
-
final boolean isExactEmergencyNumber =
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(number != null) && PhoneNumberUtils.isLocalEmergencyNumber(number, this);
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final boolean isPotentialEmergencyNumber =
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(number != null) && PhoneNumberUtils.isPotentialLocalEmergencyNumber(number, this);
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if (Intent.ACTION_CALL_PRIVILEGED.equals(action)) {
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if (isPotentialEmergencyNumber) {
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action = Intent.ACTION_CALL_EMERGENCY;
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} else {
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-
action = Intent.ACTION_CALL;
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}
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intent.setAction(action);
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}
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-
if (Intent.ACTION_CALL.equals(action)) {
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if (isPotentialEmergencyNumber) {
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-
}
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callNow = false;
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} else if (Intent.ACTION_CALL_EMERGENCY.equals(action)) {
-
-
} else {
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}
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Uri uri = intent.getData();
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String scheme = uri.getScheme();
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if (Constants.SCHEME_SIP.equals(scheme) || PhoneNumberUtils.isUriNumber(number)) {
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-
}
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-
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Intent broadcastIntent = new Intent(Intent.ACTION_NEW_OUTGOING_CALL);
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if (number != null) {
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broadcastIntent.putExtra(Intent.EXTRA_PHONE_NUMBER, number);
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}
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PhoneUtils.checkAndCopyPhoneProviderExtras(intent, broadcastIntent);
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broadcastIntent.putExtra(EXTRA_ALREADY_CALLED, callNow);
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broadcastIntent.putExtra(EXTRA_ORIGINAL_URI, uri.toString());
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broadcastIntent.addFlags(Intent.FLAG_RECEIVER_FOREGROUND);
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-
-
mHandler.sendEmptyMessageDelayed(EVENT_OUTGOING_CALL_TIMEOUT,
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OUTGOING_CALL_TIMEOUT_THRESHOLD);
-
-
-
sendOrderedBroadcastAsUser(broadcastIntent, UserHandle.OWNER,
-
PERMISSION, new OutgoingCallReceiver(),
-
null,
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Activity.RESULT_OK,
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number,
-
null);
-
}
这个过程其实就是对原始的Intent进行解析,对是否紧急呼叫进行不同的处理,对于正常的呼叫,需要重新构建Intent并发送出去。新的Intent构成:
Intent:ACTION_NEW_OUTGOING_CALL;
EXTRA_ALREADY_CALLED:false;
EXTRA_ORIGINAL_URI:号码的Uri;
发送目标:OutgoingCallReceiver;
这里所谓的目标OutgoingCallReceiver其实就是OutgoingCallBroadcaster.java中的内部类,我们直接来看他的接收地方:
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public void onReceive(Context context, Intent intent) {
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-
mHandler.removeMessages(EVENT_OUTGOING_CALL_TIMEOUT);
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doReceive(context, intent);
-
finish();
-
}
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public void doReceive(Context context, Intent intent) {
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-
alreadyCalled = intent.getBooleanExtra(OutgoingCallBroadcaster.EXTRA_ALREADY_CALLED, false);
-
if (alreadyCalled) {
-
return;
-
}
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-
-
number = getResultData();
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-
final PhoneGlobals app = PhoneGlobals.getInstance();
-
-
if (TelephonyCapabilities.supportsOtasp(app.phone)) {
-
}
-
-
-
originalUri = intent.getStringExtra( OutgoingCallBroadcaster.EXTRA_ORIGINAL_URI);
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Uri uri = Uri.parse(originalUri);
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-
-
number = PhoneNumberUtils.convertKeypadLettersToDigits(number);
-
-
number = PhoneNumberUtils.stripSeparators(number);
-
-
-
startSipCallOptionHandler(context, intent, uri, number);
-
}
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private void startSipCallOptionHandler(Context context, Intent intent, Uri uri, String number) {
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-
Intent newIntent = new Intent(Intent.ACTION_CALL, uri);
-
newIntent.putExtra(EXTRA_ACTUAL_NUMBER_TO_DIAL, number);
-
-
-
PhoneUtils.checkAndCopyPhoneProviderExtras(intent, newIntent);
-
-
-
Intent selectPhoneIntent = new Intent(ACTION_SIP_SELECT_PHONE, uri);
-
-
selectPhoneIntent.setClass(context, SipCallOptionHandler.class);
-
-
selectPhoneIntent.putExtra(EXTRA_NEW_CALL_INTENT, newIntent);
-
-
selectPhoneIntent.addFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
-
-
context.startActivity(selectPhoneIntent);
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}
上面的操作又是发起了一个Intent,构成有:
Action ---> ACTION_SIP_SELECT_PHONE
EXTRA_NEW_CALL_INTENT--->拨号的Intent,而且这个Intent的Action为ACTION_CALL
EXTRA_ACTUAL_NUMBER_TO_DIAL ---> 为拨号的号码
1.3、互联网通话处理阶段(SipCallOptionHandler.java)
我们来看上面Intent的接受过程,在SipCallOptionHandler中:
-
@SipCallOptionHandler.java
-
public void onCreate(Bundle savedInstanceState) {
-
super.onCreate(savedInstanceState);
-
-
-
Intent intent = getIntent();
-
String action = intent.getAction();
-
-
-
if (!OutgoingCallBroadcaster.ACTION_SIP_SELECT_PHONE.equals(action)) {
-
finish();
-
return;
-
}
-
-
-
mIntent = (Intent) intent.getParcelableExtra(OutgoingCallBroadcaster.EXTRA_NEW_CALL_INTENT);
-
if (mIntent == null) {
-
finish();
-
return;
-
}
-
-
-
boolean voipSupported = PhoneUtils.isVoipSupported();
-
mSipProfileDb = new SipProfileDb(this);
-
mSipSharedPreferences = new SipSharedPreferences(this);
-
mCallOption = mSipSharedPreferences.getSipCallOption();
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Uri uri = mIntent.getData();
-
String scheme = uri.getScheme();
-
-
mNumber = PhoneNumberUtils.getNumberFromIntent(mIntent, this);
-
-
boolean isInCellNetwork = PhoneGlobals.getInstance().phoneMgr.isRadioOn();
-
-
boolean isKnownCallScheme = Constants.SCHEME_TEL.equals(scheme)||Constants.SCHEME_SIP.equals(scheme);
-
boolean isRegularCall = Constants.SCHEME_TEL.equals(scheme)
-
&& !PhoneNumberUtils.isUriNumber(mNumber);
-
-
if (!isKnownCallScheme) {
-
-
setResultAndFinish();
-
return;
-
}
-
-
if (!voipSupported) {
-
if (!isRegularCall) {
-
showDialog(DIALOG_NO_VOIP);
-
} else {
-
-
setResultAndFinish();
-
}
-
return;
-
}
-
-
setResultAndFinish();
-
}
继续看setResultAndFinish
-
private void setResultAndFinish() {
-
-
runOnUiThread(new Runnable() {
-
public void run() {
-
if (mOutgoingSipProfile != null) {
-
-
if (!isNetworkConnected()) {
-
showDialog(DIALOG_NO_INTERNET_ERROR);
-
return;
-
}
-
createSipPhoneIfNeeded(mOutgoingSipProfile);
-
mIntent.putExtra(OutgoingCallBroadcaster.EXTRA_SIP_PHONE_URI,
-
mOutgoingSipProfile.getUriString());
-
if (mMakePrimary) {
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mSipSharedPreferences.setPrimaryAccount(
-
mOutgoingSipProfile.getUriString());
-
}
-
}
-
-
if (mUseSipPhone && mOutgoingSipProfile == null) {
-
showDialog(DIALOG_START_SIP_SETTINGS);
-
return;
-
} else {
-
-
PhoneGlobals.getInstance().callController.placeCall(mIntent);
-
}
-
finish();
-
}
-
});
-
}
上面可以看出,在SipCallOptionHandler.java文件中主要针对互联网通话进行处理,注意,这里的互联网通话和IP拨号不同。
1.4、Phone模块其他的处理
主要作用是把intent解析为号码,同时得到拨号必须的Phone、CM、context等重要信息。
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@CallController.java
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public void placeCall(Intent intent)
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{
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-
CallStatusCode status = placeCallInternal(intent);
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-
mApp.displayCallScreen(!intent.getBooleanExtra(Constants.EXTRA_IS_VIDEO_CALL, false), forPlaceCall);
-
}
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private CallStatusCode placeCallInternal(Intent intent) {
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-
number = PhoneUtils.getInitialNumber(intent);
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-
phone = PhoneUtils.pickPhoneBasedOnNumber(mCM, scheme, number, sipPhoneUri);
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-
okToCallStatus = checkIfOkToInitiateOutgoingCall(phone.getServiceState().getState());
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-
Uri contactUri = intent.getData();
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-
int callStatus = PhoneUtils.placeCall(mApp,
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phone,
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number,
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contactUri,
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(isEmergencyNumber || isEmergencyIntent),
-
inCallUiState.providerGatewayUri);
-
}
上面得到了一个极其重要的变量,Phone变量,我们待会儿详细分析他的来历,这里只需要记住,Phone是通过PhoneUtils.pickPhoneBasedOnNumber()的方式得到的。
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@PhoneUtils.java
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public static int placeCall(Context context, Phone phone,
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String number, Uri contactRef, boolean isEmergencyCall,
-
Uri gatewayUri) {
-
-
final PhoneGlobals app = PhoneGlobals.getInstance();
-
-
numberToDial = number;
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-
connection = app.mCM.dial(phone, numberToDial);
-
-
setAudioMode();
-
return status;
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}
上面的dial是通过app.mCM完成的,而这个mCM就是在PhoneGlobals.java中的onCreate时初始化的:
-
mCM = CallManager.getInstance();
说明dial是通过CallManager去执行dial的:
二、framework中的流程
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@CallManager.java
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public Connection dial(Phone phone, String dialString) throws CallStateException {
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-
Phone basePhone = getPhoneBase(phone);
-
-
-
if (!canDial(phone)) {
-
throw new CallStateException("cannot dial in current state");
-
}
-
-
if ( hasActiveFgCall() ) {
-
-
}
-
-
result = basePhone.dial(dialString);
-
return result;
-
}
代码走到这里,就简化为调用一个Phone对象的dial方法了,此时要想继续往下分析,就必须知道这个Phone对象的来历。下面我们要做两件事:
1、查出Phone对象到底来自于哪里。
2、我们如何通过PhoneUtils.pickPhoneBasedOnNumber()的方式得到了这个Phone对象。
2.1、Phone的来历
Phone在通话中扮演着极其重要的操作,我们来看一下Phone是怎样产生的。
我们知道,Phone模块进程第一个启动的类就是PhoneGlobals,他是在手机开机的过程中启动的。那么我们看一下他的初始化过程:
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@PhoneGlobals.java
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public void onCreate() {
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-
PhoneFactory.makeDefaultPhones(this);
-
-
phone = PhoneFactory.getDefaultPhone();
-
-
mCM = CallManager.getInstance();
-
mCM.registerPhone(phone);
-
-
notificationMgr = NotificationMgr.init(this);
-
phoneMgr = PhoneInterfaceManager.init(this, phone);
-
-
mHandler.sendEmptyMessage(EVENT_START_SIP_SERVICE);
-
-
ringer = Ringer.init(this);
-
-
mPowerManager = (PowerManager) getSystemService(Context.POWER_SERVICE);
-
-
if (proximitySensorModeEnabled()) {
-
mAccelerometerListener = new AccelerometerListener(this, this);
-
}
-
-
mKeyguardManager = (KeyguardManager) getSystemService(Context.KEYGUARD_SERVICE);
-
-
mPowerManagerService = IPowerManager.Stub.asInterface(ServiceManager.getService("power"));
-
-
callController = CallController.init(this);
-
inCallUiState = InCallUiState.init(this);
-
callerInfoCache = CallerInfoCache.init(this);
-
notifier = CallNotifier.init(this, phone, ringer, new CallLogAsync());
-
-
IccCard sim = phone.getIccCard();
-
if (sim != null) {
-
sim.registerForNetworkLocked(mHandler, EVENT_SIM_NETWORK_LOCKED, null);
-
}
-
mCM.registerForMmiComplete(mHandler, MMI_COMPLETE, null);
-
PhoneUtils.initializeConnectionHandler(mCM);
-
mTtyEnabled = getResources().getBoolean(R.bool.tty_enabled);
-
-
IntentFilter intentFilter = new IntentFilter(Intent.ACTION_AIRPLANE_MODE_CHANGED);
-
intentFilter.addAction(BluetoothHeadset.ACTION_CONNECTION_STATE_CHANGED);
-
intentFilter.addAction(BluetoothHeadset.ACTION_AUDIO_STATE_CHANGED);
-
intentFilter.addAction(TelephonyIntents.ACTION_ANY_DATA_CONNECTION_STATE_CHANGED);
-
intentFilter.addAction(Intent.ACTION_HEADSET_PLUG);
-
intentFilter.addAction(Intent.ACTION_DOCK_EVENT);
-
intentFilter.addAction(TelephonyIntents.ACTION_SIM_STATE_CHANGED);
-
intentFilter.addAction(TelephonyIntents.ACTION_RADIO_TECHNOLOGY_CHANGED);
-
intentFilter.addAction(TelephonyIntents.ACTION_SERVICE_STATE_CHANGED);
-
intentFilter.addAction(TelephonyIntents.ACTION_EMERGENCY_CALLBACK_MODE_CHANGED);
-
intentFilter.addAction(AudioManager.RINGER_MODE_CHANGED_ACTION);
-
registerReceiver(mReceiver, intentFilter);
-
-
IntentFilter mediaButtonIntentFilter = new IntentFilter(Intent.ACTION_MEDIA_BUTTON);
-
mediaButtonIntentFilter.setPriority(1);
-
registerReceiver(mMediaButtonReceiver, mediaButtonIntentFilter);
-
-
AudioManager am = (AudioManager) getSystemService(Context.AUDIO_SERVICE);
-
am.registerMediaButtonEventReceiverForCalls(new ComponentName(this.getPackageName(),
-
MediaButtonBroadcastReceiver.class.getName()));
-
PhoneUtils.setAudioMode(mCM);
-
}
可以看到,Phone模块在初始化过程就是对CallManager、CallController、NotificationMgr等进行初始化。同时注册各项必须的服务。而关于Phone对象的创建是通过PhoneFactory.makeDefaultPhones(this)实现的。我们继续往下看创建的过程:
-
@PhoneFactory.java
-
public static void makeDefaultPhones(Context context) {
-
makeDefaultPhone(context);
-
}
-
public static void makeDefaultPhone(Context context) {
-
-
new LocalServerSocket("com.android.internal.telephony");
-
-
sPhoneNotifier = new DefaultPhoneNotifier();
-
-
sCommandsInterface = new RIL(context, networkMode, cdmaSubscription);
-
-
int phoneType = TelephonyManager.getPhoneType(networkMode);
-
-
if (phoneType == PhoneConstants.PHONE_TYPE_GSM) {
-
-
sProxyPhone = new PhoneProxy(new GSMPhone(context,sCommandsInterface, sPhoneNotifier));
-
} else if (phoneType == PhoneConstants.PHONE_TYPE_CDMA) {
-
switch (TelephonyManager.getLteOnCdmaModeStatic()) {
-
case PhoneConstants.LTE_ON_CDMA_TRUE:
-
-
sProxyPhone = new PhoneProxy(new CDMALTEPhone(context,sCommandsInterface, sPhoneNotifier));
-
break;
-
case PhoneConstants.LTE_ON_CDMA_FALSE:
-
default:
-
-
sProxyPhone = new PhoneProxy(new CDMAPhone(context,sCommandsInterface, sPhoneNotifier));
-
break;
-
}
-
}
-
}
上面看到,我们创建的Phone对象其实只是一个Phone的代理(PhoneProxy)而已,而创建这个代理对象需要分两步:
1、首先根据当前的网络类型创建不同的PhoneBase对象,也就是GSMPhone/CDMALTEPhone/CDMAPhone等;
2、然后再用这个PhoneBase对象去构建PhoneProxy对象。
那么,PhoneProxy和GSMPhone又是什么东西呢?我们来看看他们的继承关系:
先来看一下PhoneProxy:
-
public class PhoneProxy extends Handler implements Phone
再来看GSMPhone:
-
public class GSMPhone extends PhoneBase
-
public abstract class PhoneBase extends Handler implements Phone
上面的继承关系说明,PhoneProxy和GSMPhone其实都是一个Handler,而且是继承了Phone的接口。这么做的好处是什么呢?
我们知道,对于一个手机来说,无论采用哪种网络制式,他所具备的基本功能是相同的,比如都需要提供打电话、发短信、查询通话状态、读取SIM卡联系人等操作,因此对所有制式的phone都抽象为一个统一的接口:Phone。
但另一方面,不同的网络制式在具体的每项功能实现上,又有很大的不同。因此,需要根据不同的网络制式去实现不同的basePhone,但是都需要完成Phone接口所定义的方法。
而在basePhone之上,再次用PhoneProxy把不同的basePhone封装,这样一来,从上层来看,就屏蔽了不同的basePhone,所有的Phone都是统一的PhoneProxy。
在这里我们只分析GSMPhone,至于CDMAPhone和CDMALTEPhone的基本原理都是类似的。而在分析GSMPhone的创建过程之前,先来看一下创建GSMPhone的必要条件:
-
sProxyPhone = new PhoneProxy(new GSMPhone(context,sCommandsInterface, sPhoneNotifier));
上面可以看出,创建GSMPhone对象需要用到2个特殊的变量,sCommandsInterface和sPhoneNotifier:
-
sPhoneNotifier = new DefaultPhoneNotifier();
-
sCommandsInterface = new RIL(context, networkMode, cdmaSubscription);
看来sPhoneNotifier就是DefaultPhoneNotifier对象,而DefaultPhoneNotifier作用就是当相应的Phone有消息从底层上来时,将会通过DefaultPhoneNotifier把消息发送给上层,也就是说,sPhoneNotifier充当了通知的作用。
而sCommandsInterface就是RIL对象。这是framework层与RILC层沟通的渠道,所有上层与RIL层的沟通都需要通过RIL对象装换为相应的命令,最终在RIL.java中通过Socket通道发送给RIL层。
在创建相应的XXXPhone的时候把上面两个变量传递下去:
-
@GSMPhone.java
-
public GSMPhone (Context context, CommandsInterface ci, PhoneNotifier notifier) {
-
this(context,ci,notifier, false);
-
}
-
public GSMPhone (Context context, CommandsInterface ci, PhoneNotifier notifier, boolean unitTestMode) {
-
-
super(notifier, context, ci, unitTestMode);
-
-
-
mCM.setPhoneType(PhoneConstants.PHONE_TYPE_GSM);
-
-
mCT = new GsmCallTracker(this);
-
mSST = new GsmServiceStateTracker (this);
-
mSMS = new GsmSMSDispatcher(this, mSmsStorageMonitor, mSmsUsageMonitor);
-
mDataConnectionTracker = new GsmDataConnectionTracker (this);
-
mSimPhoneBookIntManager = new SimPhoneBookInterfaceManager(this);
-
mSimSmsIntManager = new SimSmsInterfaceManager(this, mSMS);
-
mSubInfo = new PhoneSubInfo(this);
-
-
mCM.registerForAvailable(this, EVENT_RADIO_AVAILABLE, null);
-
mCM.registerForOffOrNotAvailable(this, EVENT_RADIO_OFF_OR_NOT_AVAILABLE, null);
-
mCM.registerForOn(this, EVENT_RADIO_ON, null);
-
mCM.setOnUSSD(this, EVENT_USSD, null);
-
mCM.setOnSuppServiceNotification(this, EVENT_SSN, null);
-
mSST.registerForNetworkAttached(this, EVENT_REGISTERED_TO_NETWORK, null);
-
-
-
SystemProperties.set(TelephonyProperties.CURRENT_ACTIVE_PHONE,
-
new Integer(PhoneConstants.PHONE_TYPE_GSM).toString());
-
}
GSMPhone的初始化过程分为两个重要步骤,第一个步骤是在其父类中完成的,主要是用传递下来的sPhoneNotifier去初始化mNotifier,用传递下来的sCommandsInterface初始化mCM。第二个步骤就是在当前类中完成剩余的mCT、mSST、mSMS、mDataConnectionTracker等重要成员变量的初始化过程。
然后再来看PhoneProxy对象的初始化过程:
-
@PhoneProxy.java
-
public PhoneProxy(PhoneBase phone) {
-
mActivePhone = phone;
-
mResetModemOnRadioTechnologyChange = SystemProperties.getBoolean(
-
TelephonyProperties.PROPERTY_RESET_ON_RADIO_TECH_CHANGE, false);
-
mIccSmsInterfaceManagerProxy = new IccSmsInterfaceManagerProxy(
-
phone.getIccSmsInterfaceManager());
-
mIccPhoneBookInterfaceManagerProxy = new IccPhoneBookInterfaceManagerProxy(
-
phone.getIccPhoneBookInterfaceManager());
-
mPhoneSubInfoProxy = new PhoneSubInfoProxy(phone.getPhoneSubInfo());
-
mCommandsInterface = ((PhoneBase)mActivePhone).mCM;
-
-
mCommandsInterface.registerForRilConnected(this, EVENT_RIL_CONNECTED, null);
-
mCommandsInterface.registerForOn(this, EVENT_RADIO_ON, null);
-
mCommandsInterface.registerForVoiceRadioTechChanged(
-
this, EVENT_VOICE_RADIO_TECH_CHANGED, null);
-
mIccCardProxy = new IccCardProxy(phone.getContext(), mCommandsInterface);
-
if (phone.getPhoneType() == PhoneConstants.PHONE_TYPE_GSM) {
-
-
mIccCardProxy.setVoiceRadioTech(ServiceState.RIL_RADIO_TECHNOLOGY_UMTS);
-
} else if (phone.getPhoneType() == PhoneConstants.PHONE_TYPE_CDMA) {
-
mIccCardProxy.setVoiceRadioTech(ServiceState.RIL_RADIO_TECHNOLOGY_1xRTT);
-
}
-
}
在这个过程中把刚才的GSMPhone注册给了mActivePhone变量,然后又创建了一些代理对象,比如mIccSmsInterfaceManagerProxy、IccPhoneBookInterfaceManagerProxy、mPhoneSubInfoProxy、mIccCardProxy等。
经过上面的步骤,不仅创建了phone的对象,而且又注册了各种附加的代理对象,上层可以通过对不同的代理对象的调用去完成不同的功能。
至此,Phone的来历我们就摸清了,用一句话来表述就是,Phone对象就是GSMPhone对象(GSM制式下)。
2.2、我们是如何通过pickPhoneBasedOnNumber()的方式得到的Phone对象的
要回答这个问题,我们就要看当初创建Phone对象之后还做了哪些动作。
在分析Phone对象来历时,我们知道Phone对象是在PhoneGlobals中被创建的:
-
@PhoneGlobals.java
-
public void onCreate() {
-
-
PhoneFactory.makeDefaultPhones(this);
-
phone = PhoneFactory.getDefaultPhone();
-
-
mCM = CallManager.getInstance();
-
-
mCM.registerPhone(phone);
-
}
我们看到,得到Phone对象后就把他注册给了CallManager,而所谓的注册其实就是把Phone对象传递给mDefaultPhone,同时把它放在一个叫做mPhones的数组中:
-
@CallManager.java
-
public boolean registerPhone(Phone phone) {
-
Phone basePhone = getPhoneBase(phone);
-
if (basePhone != null && !mPhones.contains(basePhone)) {
-
if (mPhones.isEmpty()) {
-
-
mDefaultPhone = basePhone;
-
}
-
mPhones.add(basePhone);
-
}
-
}
这样一来,我们就可以通过getDefaultPhone的方式从CallManager中得到Phone:
-
public Phone getDefaultPhone() {
-
return mDefaultPhone;
-
}
我们回到上面拨号的过程,上面看到,在拨号的过程中,我们需要Phone时是通过以下方式得到Phone对象的:
-
phone = PhoneUtils.pickPhoneBasedOnNumber(mCM, scheme, number, sipPhoneUri);
我们继续往下看:
-
@PhoneUtils.java
-
public static Phone pickPhoneBasedOnNumber(CallManager cm, String scheme, String number, String primarySipUri) {
-
return cm.getDefaultPhone();
-
}
这里的cm就是传递下来了CallManager,因此pickPhoneBasedOnNumber的方式其实就是调用了CallManager中的getDefaultPhone方法,这种形式正好符合我们的预期。
由此,我们不仅在3.1节中分析了Phone对象的创建过程,而且也在当前节中分析了得到Phone对象的方法。
2.3、继续拨号之旅
在上面的两个小节中主要讲解了Phone对象的来历,简单的说,Phone对象就是GSMPhone对象(对GSM网络来说)。而在前面追踪拨号流程时,我们跟踪到了CallManager.java中的basePhone.dial(dialString),因此,这里的dial就到了GSMPhone中:
-
@GSMPhone.java
-
public Connection dial(String dialString) throws CallStateException {
-
return dial(dialString, null);
-
}
再次调用,此时uusInfo为空。
-
public Connection dial (String dialString, UUSInfo uusInfo) throws CallStateException {
-
return mCT.dial(newDialString, uusInfo);
-
}
我们将上面的代码简化到最关键的一句话,就是调用mCT的dial方法。而这里的mCT就是在GSMPhone的构造函数初始化的GsmCallTracker对象:
-
mCT = new GsmCallTracker(this);
因此我们又要来到GsmCallTracker中:
-
@GsmCallTracker.java
-
Connection dial(String dialString, UUSInfo uusInfo) throws CallStateException {
-
return dial(dialString, CommandsInterface.CLIR_DEFAULT, uusInfo);
-
}
继续调用:
-
Connection dial (String dialString, int clirMode, UUSInfo uusInfo) throws CallStateException {
-
-
pendingMO = new GsmConnection(phone.getContext(), checkForTestEmergencyNumber(dialString), this, foregroundCall);
-
-
cm.dial(pendingMO.address, clirMode, uusInfo, obtainCompleteMessage());
-
-
updatePhoneState();
-
-
phone.notifyPreciseCallStateChanged();
-
}
在上面这个过程中,调用了cm的dial方法,这里的cm是Phone对象的mCM:
-
GsmCallTracker (GSMPhone phone) {
-
this.phone = phone;
-
cm = phone.mCM;
-
}
而在前面分析过,GSMPhone中的mCM是在其父类PhoneBase中被初始化的:
-
@PhoneBase.java
-
protected PhoneBase(PhoneNotifier notifier, Context context, CommandsInterface ci, boolean unitTestMode) {
-
this.mNotifier = notifier;
-
this.mContext = context;
-
mCM = ci;
-
}
这里看到,mCM其实就是传递下来的CommandsInterface,在往上追溯的话,其实就是当初创建GSMPhone时传递的RIL对象。因此framework拨号的最后,是走到了RIL.java中,并构建拨号的请求发送给RILC,也就是RIL层:
-
@RIL.java
-
public void dial(String address, int clirMode, UUSInfo uusInfo, Message result) {
-
-
RILRequest rr = RILRequest.obtain(RIL_REQUEST_DIAL, result);
-
rr.mp.writeString(address);
-
rr.mp.writeInt(clirMode);
-
-
if (uusInfo == null) {
-
rr.mp.writeInt(0);
-
} else {
-
rr.mp.writeInt(1);
-
rr.mp.writeInt(uusInfo.getType());
-
rr.mp.writeInt(uusInfo.getDcs());
-
rr.mp.writeByteArray(uusInfo.getUserData());
-
}
-
-
send(rr);
-
}
发送的过程就是把相应的RILRequest通过mSender发送出去:
-
private void send(RILRequest rr) {
-
Message msg;
-
if (mSocket == null) {
-
rr.onError(RADIO_NOT_AVAILABLE, null);
-
rr.release();
-
return;
-
}
-
msg = mSender.obtainMessage(EVENT_SEND, rr);
-
acquireWakeLock();
-
msg.sendToTarget();
-
}
继续看一下mSender的处理流程:
-
@Override
-
public void handleMessage(Message msg) {
-
-
RILRequest rr = (RILRequest)(msg.obj);
-
switch (msg.what) {
-
case EVENT_SEND:
-
-
LocalSocket s;
-
s = mSocket;
-
-
byte[] data;
-
data = rr.mp.marshall();
-
rr.mp.recycle();
-
rr.mp = null;
-
-
dataLength[0] = dataLength[1] = 0;
-
dataLength[2] = (byte)((data.length >> 8) & 0xff);
-
dataLength[3] = (byte)((data.length) & 0xff);
-
-
-
s.getOutputStream().write(dataLength);
-
s.getOutputStream().write(data);
-
break;
-
case EVENT_WAKE_LOCK_TIMEOUT:
-
}
-
}
经过以上的过程,就把拨号的请求发送到了RIL层。
三、总体流程图
现在我们贴出整个拨出号码的流程图:
Source: http://blog.csdn.net/u010961631/article/details/12217759 |
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