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UICC框架是Android在4.1引入的,使的对卡的管理控制更加清晰。要了解这个UICC框架,需要从UiccController开始,它是整个UICC框架的开始与控制者,该类被设计为单例,是消息处理类Handler的子类,所以其实现肯定是基于event触发的,其在Phone创建的早期被初始化:
1 2 3 | // Instantiate UiccController so that all other classes can just // call getInstance() mUiccController = UiccController.make(context, sCommandsInterfaces); |
make函数只能被调用一次,以后如果要想获得UiccController对象,只能通过getInstance进行,来看UiccController的构造函数:
1 2 3 4 ? 5 6 7 8 9 | public static UiccController make(Context c, CommandsInterface[] ci) { synchronized (mLock) { if (mInstance != null) { throw new RuntimeException("MSimUiccController.make() should only be called once"); } mInstance = new UiccController(c, ci); return (UiccController)mInstance; } } |
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CommandsInterface即为RILJ实例,这里保存下来就可以直接与RIL进行通信。与此同时,在每个RILJ实例上注册了3个事件,分别是
1 2 3 | registerForIccStatusChanged(this, EVENT_ICC_STATUS_CHANGED, index); registerForAvailable(this, EVENT_ICC_STATUS_CHANGED, index); registerForNotAvailable(this, EVENT_RADIO_UNAVAILABLE, index); |
这里可以看到增加了一个index参数,这个index这里就是指的phoneId,是对双卡的支持,是5.0新增的。增加了这个参数之后,EVENT_ICC_STATUS_CHANGED和EVENT_RADIO_UNAVAILABLE消息上来,UiccController才能分清是从哪个Phone过来的消息,也就是从哪个modem或者说是从哪个卡。。。
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再来看看消息处理:
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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 | @Override public void handleMessage (Message msg) { synchronized (mLock) { Integer index = getCiIndex(msg); ? if (index < 0 || index >= mCis.length) { Rlog.e(LOG_TAG, "Invalid index : " + index + " received with event " + msg.what); return; } ? switch (msg.what) { case EVENT_ICC_STATUS_CHANGED: if (DBG) log("Received EVENT_ICC_STATUS_CHANGED, calling getIccCardStatus"); mCis[index].getIccCardStatus(obtainMessage(EVENT_GET_ICC_STATUS_DONE, index)); break; case EVENT_GET_ICC_STATUS_DONE: if (DBG) log("Received EVENT_GET_ICC_STATUS_DONE"); AsyncResult ar = (AsyncResult)msg.obj; onGetIccCardStatusDone(ar, index); break; case EVENT_RADIO_UNAVAILABLE: if (DBG) log("EVENT_RADIO_UNAVAILABLE, dispose card"); if (mUiccCards[index] != null) { mUiccCards[index].dispose(); } mUiccCards[index] = null; mIccChangedRegistrants.notifyRegistrants(new AsyncResult(null, index, null)); break; default: Rlog.e(LOG_TAG, " Unknown Event " + msg.what); } } } |
总结如下:
1). 消息到来之后,首先从Message中取出index值,也就是PhoneId;
2). 根据EVENT分发处理,如果是 EVENT_ICC_STATUS_CHANGED消息,对根据index调用对应的RILJ的getIccCardStatus函数,并传递EVENT_GET_ICC_STATUS_DONE,典型的异步处理,当EVENT_GET_ICC_STATUS_DONE返回时,就会从底层获取到了这个index对应的卡的状态,然后调用onGetIccCardStatusDone来更新对应index的卡相关的对象。卡相关的对象都是在这里被创建出来的。具体如下:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 | private synchronized void onGetIccCardStatusDone(AsyncResult ar, Integer index) { if (ar.exception != null) { Rlog.e(LOG_TAG,"Error getting ICC status. " + "RIL_REQUEST_GET_ICC_STATUS should " + "never return an error", ar.exception); return; } if (!isValidCardIndex(index)) { Rlog.e(LOG_TAG,"onGetIccCardStatusDone: invalid index : " + index); return; } ? IccCardStatus status = (IccCardStatus)ar.result; ? if (mUiccCards[index] == null) { //Create new card mUiccCards[index] = new UiccCard(mContext, mCis[index], status, index); ? /* // Update the UiccCard in base class, so that if someone calls // UiccManager.getUiccCard(), it will return the default card. if (index == PhoneConstants.DEFAULT_CARD_INDEX) { mUiccCard = mUiccCards[index]; } */ } else { //Update already existing card mUiccCards[index].update(mContext, mCis[index] , status); } ? if (DBG) log("Notifying IccChangedRegistrants"); mIccChangedRegistrants.notifyRegistrants(new AsyncResult(null, index, null)); ? } |
从代码的实现可以看出,首先从result中解析出IccCardStatus,然后根据这个值进行UiccCard的创建,如果对应的index的卡 UiccCard已经存在,那么就会调用UiccCard.update来更新其内部的UiccCardApplication,这里提一下这几个类的关系:
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UIccController 中根据卡的个数创建对应数量的 UIccCard,而每个UiccCard中又会分别根据自己卡的实际情况创建对应的UiccCardApplication
UiccController 总体控制
UiccCard 具体的卡
UiccCardApplication 具体的卡里的应用【每个UiccCardApplication内部都会根据app_type来创建对应的 IccRecords和IccFileHandler对象作为操作卡上内容的接口】
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3). 如果是 EVENT_RADIO_UNAVAILABLE消息,则会销毁对应的UiccCard实例,并notify。
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所以总结来看,UiccController就是通过向RIL注册卡状态变化的监听,当底层一有变化时,会通过RIL上报给UiccController,这样就会触发其下发getIccCardStatus来查询卡状态,得到卡状态后更新其内部的UiccCard及UIccCardApplication等。所以phone或者其他state tracker service可以通过UiccController来获取到正确的卡信息。
整个家族树总结如下:
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在我看来IccardProxy是一个有些多余的类,因为其内部实际维护的各种实例都是从UiccController框架中取得的,就连ICC_CARD_STATUS_CHANGED消息,也是通过向UiccControler注册来得到notify,所以卡状态的更新与维护,UiccController永远是第一步的。
通过阅读代码,我感觉IcccardProxy就是一个用来提供给外部使用的接口,可以使得app不用直接操作UiccController,android给出来注释如下:
/** * @Deprecated use {@link UiccController}.getUiccCard instead. * * The Phone App assumes that there is only one icc card, and one icc application * available at a time. Moreover, it assumes such object (represented with IccCard) * is available all the time (whether {@link RILConstants#RIL_REQUEST_GET_SIM_STATUS} returned * or not, whether card has desired application or not, whether there really is a card in the * slot or not). * * UiccController, however, can handle multiple instances of icc objects (multiple * {@link UiccCardApplication}, multiple {@link IccFileHandler}, multiple {@link IccRecords}) * created and destroyed dynamically during phone operation. * * This class implements the IccCard interface that is always available (right after default * phone object is constructed) to expose the current (based on voice radio technology) * application on the uicc card, so that external apps won‘t break. */ |
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IccCardProxy在Phone创建的时候被构造,在UiccController初始化之后,
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ? 16 17 18 | // Instantiate UiccController so that all other classes can just // call getInstance() mUiccController = UiccController.make(context, sCommandsInterfaces); ? for (int i = 0; i < numPhones; i++) { PhoneBase phone = null; int phoneType = TelephonyManager.getPhoneType(networkModes[i]); if (phoneType == PhoneConstants.PHONE_TYPE_GSM) { phone = new GSMPhone(context, sCommandsInterfaces[i], sPhoneNotifier, i); } else if (phoneType == PhoneConstants.PHONE_TYPE_CDMA) { phone = new CDMALTEPhone(context, sCommandsInterfaces[i], sPhoneNotifier, i); } Rlog.i(LOG_TAG, "Creating Phone with type = " + phoneType + " sub = " + i); ? sProxyPhones[i] = new PhoneProxy(phone); } |
上面的l17行,通过phone创建的PhoneProxy代理类实例内部会创建IccCardProxy。
mIccCardProxy = new IccCardProxy(mActivePhone.getContext(), mCommandsInterface, mActivePhone.getPhoneId()); |
这里也可以看出,IccCardProxy实例的个数是与Phone的个数相对应的,有2个phone就会有两个IccCardProxy对象,而UiccController里的UiccCard对象是跟卡动态关联的。所以,app如果通过phoneproxy.getIccCard是可以随时拿到IccCardProxy对象的,这样就不会发生获取不到卡状态的问题。也就是说APP是不会直接操作UiccController的,都是通过IccCardProxy来进行。
先来看看他的构造函数:
1 2 3 4 5 6 7 8 9 10 ? 11 12 13 14 ? 15 16 17 18 19 20 21 | public IccCardProxy(Context context, CommandsInterface ci) { log("Creating"); mContext = context; mCi = ci; mCdmaSSM = CdmaSubscriptionSourceManager.getInstance(context, ci, this, EVENT_CDMA_SUBSCRIPTION_SOURCE_CHANGED, null); mUiccController = UiccController.getInstance(); mUiccController.registerForIccChanged(this, EVENT_ICC_CHANGED, null); ci.registerForOn(this,EVENT_RADIO_ON, null); ci.registerForOffOrNotAvailable(this, EVENT_RADIO_OFF_OR_UNAVAILABLE, null); setExternalState(State.NOT_READY); } ? public IccCardProxy(Context context, CommandsInterface ci, int cardIndex) { this(context, ci); ? mCardIndex = cardIndex; ? resetProperties(); setExternalState(State.NOT_READY, false); } |
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黄色高亮的是几个关键函数。
首先IccCardProxy会向UiccController中注册ICC_CARD_STATUS_CHANGED消息,也就是在UiccController在更新完自己内部的UiccCard之后会notify IccCardProxy来让IccCardProxy更新自己内部的UiccCard实例等,但这里有个问题,就是UiccController虽是单例的,但其内部的UiccCard却可能会是多个的(多卡的情况下),而这里registerForIccChanged,注册EVENT时,却没有指定phoneid,那么UiccController无论哪个卡有更新都会来notify,单卡的情况下无所谓,但双卡的情况下就会引入多余notify,是一个可以考虑改进的地方。
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另外,重置properties,这里使用系统属性记录卡的状态
1 2 3 4 5 6 7 8 | void resetProperties() { if (mCurrentAppType == UiccController.APP_FAM_3GPP) { log("update icc_operator_numeric=" + ""); setSystemProperty(PROPERTY_ICC_OPERATOR_NUMERIC, mCardIndex, ""); setSystemProperty(PROPERTY_ICC_OPERATOR_ISO_COUNTRY, mCardIndex, ""); setSystemProperty(PROPERTY_ICC_OPERATOR_ALPHA, mCardIndex, ""); } } |
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1 2 3 4 | private void setSystemProperty(String property, int slotId, String value) { long[] subId = SubscriptionController.getInstance().getSubId(slotId); TelephonyManager.setTelephonyProperty(property, subId[0], value); } |
TelephonyManager.setTelephonyProperty 这里不再贴了,说一下其记录property来支持双卡的方法:android使用同一个key,同时保存两个卡的属性值,值之间使用","分隔,顺序以phoneId从小到大排序。使用时取出后将","分隔转换为数组直接取下标即可。
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总结:UiccController负责对卡槽的卡实时实例化或销毁对象,IccCardProxy监听UiccController里的变化并及时更新自己内部的状态,Phone实例通过getIccCard得到IccCardProxy实例来获取各种卡状态,Phone再通过service形式将这些接口暴露给应用层。
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原文地址:http://www.cnblogs.com/flyme/p/4530588.html
