Android4.0开发之Keyguard解锁屏机制详解
本文实例讲述了Android4.0 Keyguard解锁屏机制。分享给大家供大家参考,具体如下:
Keyguard解锁屏是Android系统中必不可少的模块,用户在开机后或者在点击Power按钮屏幕变亮后首先看到的画面即为解锁屏模块对应的界面。Keyguard模块功能相对简单:
第一:直观地显示手机当前的关键信息:比如电池信息、运营商信息、日期信息以及通话短信信息等。
第二:增强手机的安全性能:为了安全,用户可以在Setting里的Secure选项中设置password、pattern、account等不同的安全策略,防止非法用户访问手机系统。
但从代码实现的角度该模块逻辑还是比较复杂,不但需要监听系统中的多种event,比如sim、电话、电池以及Carrier等状态,还要正确反映、显示屏幕的不同状态。为了对Keyguard模块的处理逻辑有更清晰的理解,下面首先从系统构成的角度概括介绍Keyguard解锁屏模块的框架,然后对解锁屏模块中重要的处理逻辑进行详细介绍。
一、系统介绍
Keyguard解锁屏模块的框架类图如下:
图中仅列出了Keyguard解锁屏模块涉及的重要类,这些类实现了Keyguard模块的主要功能,它们的作用如下:
PhoneWindowManager是解锁屏模块对外交互的接口,窗口管理Service、电源管理Service等外部模块都是通过PhoneWindowManager访问Keyguard内部功能。
KeyguardViewMediator类为解锁屏模块的中介者,以中介的身份处理keyguard状态变化,处理event、power管理、PhoneWindowManager通知等请求,并作为回调对象供解锁屏模块的其它类回调。
KeyguardUpdateMonitor类为解锁屏模块的监听者,它负责监听时间、sim卡、运营商信息、电池信息、电话信息等状态的变化,并通知keyguard View模块更新显示。
KeyguardViewManager类为解锁屏view模块的管理者,管理解锁屏界面的创建、显示、隐藏以及重置等。
LockPatternKeyguardView类为解锁屏模块的View界面,为所有解锁屏界面的host view。根据设置的安全策略,显示不同的解锁屏界面。Google原生代码中实现了6种解锁屏界面:
1) LockScreen:用于显示屏幕加锁状态
2) PatternUnlockScreen:实现图案解锁模式
3) SimPukUnlockScreen:屏幕实现SIM PUK码解锁模式
4) SimUnlockScreen:实现Sim PIN码解锁模式
5) AccountUnlockScreen:实现 GOOGLE 帐户解锁
6) PasswordUnlockScreen:实现自定义密码解锁模式
二、主要逻辑
1、Keyguard模块启动、显示逻辑
即手机开机进入系统到锁屏界面显示的过程。手机系统启动过程中会自动启动Keyguard解锁屏模块,该模块的创建始于WindowManagerService类,时序图如下:
1)WindowManagerService在启动时会实例化PhoneWindowManager对象mPolicy,并在窗口管理Policy线程PolicyThread中初始化,代码如下:
public void run() { Looper.prepare(); WindowManagerPolicyThread.set(this, Looper.myLooper()); ...... mPolicy.init(mContext, mService, mService, mPM); ...... Looper.loop(); }
从代码中可以看到PhoneWindowManager在独立的线程和Looper消息队列中处理Message事件,该Looper对象也为解锁屏模块使用以处理所有handler消息。
2)mPolicy函数init中创建解锁屏模块的中介者——KeyguardViewMediator对象。
3)在KeyguardViewMediator的构造函数中创建LockPatternKeyguardViewProperties、KeyguardUpdateMonitor、KeyguardViewManager等重要对象:
public KeyguardViewMediator(Context context, PhoneWindowManager callback, LocalPowerManager powerManager) { …… mUpdateMonitor = new KeyguardUpdateMonitor(context); mUpdateMonitor.registerInfoCallback(this); mUpdateMonitor.registerSimStateCallback(this); mLockPatternUtils = new LockPatternUtils(mContext); mKeyguardViewProperties = new LockPatternKeyguardViewProperties(mLockPatternUtils, mUpdateMonitor); mKeyguardViewManager = new KeyguardViewManager( context, WindowManagerImpl.getDefault(), this, mKeyguardViewProperties, mUpdateMonitor); …… }
KeyguardViewMediator中记录了PhoneWindowManager、PowerManager等对象,同时也保存了LockPatternKeyguardViewProperties、KeyguardUpdateMonitor、KeyguardViewManager等模块内的重要对象,这样该类以中介者身份在Keyguard模块对外交互以及内部各对象间的交互中发挥了重要作用。
4)KeyguardUpdateMonitor构造函数中创建mHandler,用以响应处理该类监听的各事件状态的改变,并在handle处理函数中通知mInfoCallbacks和mSimStateCallbacks保存的监听对象,监听事件有ACTION_TIME_TICK、ACTION_TIME_CHANGED、ACTION_BATTERY_CHANGED、ACTION_TIMEZONE_CHANGED、ACTION_SIM_STATE_CHANGED、 ACTION_PHONE_STATE_CHANGED、RINGER_MODE_CHANGED_ACTION
至此Keyguard解锁屏模块中重要的类对象已经实例化,但是还未涉及解锁屏View界面的创建和显示。
5)系统启动后解锁屏界面的首次显示始于WindowManagerService的systemReady函数,通知PhoneWindowManager系统就绪,代码如下:
public void systemReady() { mPolicy.systemReady(); }
6)PhoneWindowManager的systemReady函数中通知解锁屏模块的中介者KeyguardViewMediator对象系统就绪
7)中介者KeyguardViewMediator类中处理系统就绪情形:调用doKeyguardLocked函数显示解锁屏界面:
public void onSystemReady() { synchronized (this) { mSystemReady = true; doKeyguardLocked(); } } private void doKeyguardLocked() { ...... // if the keyguard is already showing, don't bother if (mKeyguardViewManager.isShowing()) { if (DEBUG) Log.d(TAG, "doKeyguard: not showing because it is already showing"); return; } ..... if (DEBUG) Log.d(TAG, "doKeyguard: showing the lock screen"); showLocked(); }
showLocked函数中发送SHOW消息异步处理解锁屏界面显示的请求。
8)handleShow中处理界面显示的消息请求,函数中调用KeyguardViewManager的函数show实现解锁屏界面的真正显示:
public synchronized void show() { ...... if (mKeyguardHost == null) { if (DEBUG) Log.d(TAG, "keyguard host is null, creating it..."); mKeyguardHost = new KeyguardViewHost(mContext, mCallback); ...... mViewManager.addView(mKeyguardHost, lp); } ...... mViewManager.updateViewLayout(mKeyguardHost, mWindowLayoutParams); if (mKeyguardView == null) { mKeyguardView = mKeyguardViewProperties.createKeyguardView(mContext, mUpdateMonitor, this); ...... mKeyguardHost.addView(mKeyguardView, lp); ...... } ...... }
该函数中主要创建了Keyguard显示View中的两个重要的对象:mKeyguardHost和mKeyguardView,它们都是继承于FrameLayout,为解锁屏视图的根view。
9)在创建对象mKeyguardView时根据解锁屏mode创建解锁屏界面:
protected void updateScreen(Mode mode, boolean force) { ...... // Re-create the lock screen if necessary if (mode == Mode.LockScreen || mShowLockBeforeUnlock) { if (force || mLockScreen == null) { recreateLockScreen(); } } // Re-create the unlock screen if necessary. This is primarily required to properly handle // SIM state changes. This typically happens when this method is called by reset() if (mode == Mode.UnlockScreen) { final UnlockMode unlockMode = getUnlockMode(); if (force || mUnlockScreen == null || unlockMode != mUnlockScreenMode) { recreateUnlockScreen(unlockMode); } } ...... }
10)在函数createLockScreen或者createUnlockScreenFor中创建具体的Lock或者Unlock View界面,并调用show函数进行显示
至此,Keyguard解锁屏模块从系统开机启动到界面显示的处理逻辑已介绍完成。
2、两次按下Power按钮屏幕亮->暗->亮过程中锁屏模块处理逻辑
连续两次按下Power按钮屏幕亮->暗->亮过程中解锁屏模块处理逻辑的时序图如下:
1)在函数PowerManagerService:setPowerState中响应Power按钮的按下,代码如下:
private void setPowerState(int newState, boolean noChangeLights, int reason) { synchronized (mLocks) { …… if (oldScreenOn != newScreenOn) { if (newScreenOn) { // When the user presses the power button, we need to always send out the // notification that it's going to sleep so the keyguard goes on. But // we can't do that until the screen fades out, so we don't show the keyguard // too early. if (mStillNeedSleepNotification) { sendNotificationLocked(false, WindowManagerPolicy.OFF_BECAUSE_OF_USER); } …… if (err == 0) { sendNotificationLocked(true, -1); // Update the lights *after* taking care of turning the // screen on, so we do this after our notifications are // enqueued and thus will delay turning on the screen light // until the windows are correctly displayed. if (stateChanged) { updateLightsLocked(newState, 0); } mPowerState |= SCREEN_ON_BIT; } } else { …… if (!mScreenBrightness.animating) { err = screenOffFinishedAnimatingLocked(reason); } …… } } …… } }
根据上面的代码逻辑,屏幕即将变暗时调用函数screenOffFinishedAnimatingLocked,屏幕即将变亮时调用函数sendNotificationLocked。
2)函数sendNotificationLocked发送Notification Task线程到handler,并异步执行通知解锁屏模块进行状态更新:
private Runnable mNotificationTask = new Runnable() { public void run() { while (true) { ...... if (value == 1) { policy.screenTurningOn(mScreenOnListener); ...... } else if (value == 0) { policy.screenTurnedOff(why); ...... } else { // If we're in this case, then this handler is running for a previous // paired transaction. mBroadcastWakeLock will already have been released. break; } } } };
上面的线程函数run中分别处理了屏幕变暗和变亮的情形。按下Power按钮屏幕变暗时调用了函数screenTurnedOff,why为变暗的原因,此处值为OFF_BECAUSE_OF_USER。
3)KeyguardViewMediator中根据屏幕变暗的原因分别处理屏幕变暗事件:
/** * Called to let us know the screen was turned off. * @param why either {@link WindowManagerPolicy#OFF_BECAUSE_OF_USER}, * {@link WindowManagerPolicy#OFF_BECAUSE_OF_TIMEOUT} or * {@link WindowManagerPolicy#OFF_BECAUSE_OF_PROX_SENSOR}. */ public void onScreenTurnedOff(int why) { synchronized (this) { …… else if (mShowing) { //若是(mShowing)则重置显示界面,否则重新显示锁屏界面 notifyScreenOffLocked(); resetStateLocked(); } else if (why == WindowManagerPolicy.OFF_BECAUSE_OF_TIMEOUT) { // if the screen turned off because of timeout, set an alarm // to enable it a little bit later (i.e, give the user a chance // to turn the screen back on within a certain window without // having to unlock the screen) …… if (timeout <= 0) { // Lock now mSuppressNextLockSound = true; doKeyguardLocked(); } else { // Lock in the future long when = SystemClock.elapsedRealtime() + timeout; Intent intent = new Intent(DELAYED_KEYGUARD_ACTION); intent.putExtra("seq", mDelayedShowingSequence); PendingIntent sender = PendingIntent.getBroadcast(mContext, 0, intent, PendingIntent.FLAG_CANCEL_CURRENT); mAlarmManager.set(AlarmManager.ELAPSED_REALTIME_WAKEUP, when, sender); } } else if (why == WindowManagerPolicy.OFF_BECAUSE_OF_PROX_SENSOR) { // Do not enable the keyguard if the prox sensor forced the screen off. } else { //显示锁屏屏幕 doKeyguardLocked(); } } }
4)调用doKeyguardLocked重新显示锁屏界面,随后的锁屏界面显示逻辑与Keyguard模块启动显示中的8~10步相同,不再赘述。
5)按下Power按钮屏幕即将由暗->亮时代码处理逻辑重新执行1~2步,第二步中屏幕变亮时调用的函数是PhoneWindowManager:screenTurningOn。
6)函数screenTurningOn中调用中介者KeyguardViewMediator的函数onScreenTurnedOn,该函数直接调用屏幕变亮异步通知函数KeyguardViewMediator:notifyScreenOnLocked,告知解锁屏模块屏幕即将变亮。
7)函数handleNotifyScreenOn响应屏幕变亮的通知
8)程序执行到LockPatternKeyguardView:onScreenTurnedOn函数,并调用show函数进行解锁屏界面的显示,代码如下:
public void show() { if (mMode == Mode.LockScreen) { ((KeyguardScreen) mLockScreen).onResume(); } else { ((KeyguardScreen) mUnlockScreen).onResume(); } ...... }
至此,逻辑处理完成。
3、自定义口令解锁逻辑
自定义口令解锁始于PasswordUnlockScreen,时序图如下:
1)解锁屏界面输入密码点击确定按钮后,在函数onEditorAction中进行响应:
public boolean onEditorAction(TextView v, int actionId, KeyEvent event) { // Check if this was the result of hitting the enter key if (actionId == EditorInfo.IME_NULL || actionId == EditorInfo.IME_ACTION_DONE || actionId == EditorInfo.IME_ACTION_NEXT) { verifyPasswordAndUnlock(); return true; } return false; }
2)在函数verifyPasswordAndUnlock中对输入的密码进行判断,如果输入正确,测调用keyguardDone响应解锁完成的操作。mCallback.keyguardDone(true)
调用是所有解锁屏mode情形在解锁成功后必须调用的函数,随后的处理逻辑对于不同的解锁屏界面也是相同的。
3)回调KeyguardScreenCallback和KeyguardViewMediator的函数keyguardDone,在后者的keyguardDone函数中,异步发送keyDone事件:
public void keyguardDone(boolean authenticated, boolean wakeup) { synchronized (this) { …… Message msg = mHandler.obtainMessage(KEYGUARD_DONE); msg.arg1 = wakeup ? 1 : 0; mHandler.sendMessage(msg); …… } }
4)函数KeyguardViewMediator:handleKeyguardDone
异步处理keyguardDone事件,调用handleHide隐藏锁屏界面。
5)KeyguardViewManager.hide
函数中调用锁屏界面的销毁函LockPatternKeyguardView:cleanUp
数隐藏销毁界面,如下:
public void cleanUp() { if (mLockScreen != null) { ((KeyguardScreen) mLockScreen).onPause(); ((KeyguardScreen) mLockScreen).cleanUp(); this.removeView(mLockScreen); mLockScreen = null; } if (mUnlockScreen != null) { ((KeyguardScreen) mUnlockScreen).onPause(); ((KeyguardScreen) mUnlockScreen).cleanUp(); this.removeView(mUnlockScreen); mUnlockScreen = null; } ...... }
至此,解锁完成。
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