我们都知道在不修改源代码的情况下,只能是解锁之后才能使用NFC功能。而在锁屏和黑屏2个状态下是没办法用NFC的,但是最近有个客户要求手机在黑屏状态下能够使用NFC,因此我们需要去修改Android源代码关于NFC模块。
最开始可以通过查看分析源代码,找到到NfcService的相关代码,如下: packages\apps\Nfc\src\com\android\nfc\NfcService.java
找到186行,这句是定义NFC能够使用的屏幕最小状态
// minimum screen state that enables NFC polling
static final int NFC_POLLING_MODE = ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED;
这几个状态分别是:
SCREEN_STATE_OFF黑屏状态
SCREEN_STATE_ON_LOCKED屏幕亮了,但是是锁屏状态
SCREEN_STATE_ON_UNLOCKED 屏幕亮了,并且是解锁状态
代码定义如下,在packages\apps\Nfc\src\com\android\nfc\ScreenStateHelper中定义
static final int SCREEN_STATE_UNKNOWN = 0;
static final int SCREEN_STATE_OFF = 1;
static final int SCREEN_STATE_ON_LOCKED = 2;
static final int SCREEN_STATE_ON_UNLOCKED = 3;
上面的这个最小状态在NfcService.java的第1706行,computeDiscoveryParameters(int screenState)方法中被调用,用来判断的,方法代码如下:
private NfcDiscoveryParameters computeDiscoveryParameters(int screenState) { Log.d(TAG, "computeDiscoveryParameters() screenState:"+describeScreenState(screenState)); if(screenState == ScreenStateHelper.SCREEN_STATE_ON_LOCKED)
Log.d(TAG, "!!!! SCREEN_STATE_ON_LOCKED,, mNfcUnlockManager.isLockscreenPollingEnabled():"+mNfcUnlockManager.isLockscreenPollingEnabled()); // Recompute discovery parameters based on screen state
NfcDiscoveryParameters.Builder paramsBuilder = NfcDiscoveryParameters.newBuilder();
// Polling
if (screenState >= NFC_POLLING_MODE) {//这里被调用
// Check if reader-mode is enabled
if (mReaderModeParams != null) {
int techMask = 0;
if ((mReaderModeParams.flags & NfcAdapter.FLAG_READER_NFC_A) != 0)
techMask |= NFC_POLL_A;
if ((mReaderModeParams.flags & NfcAdapter.FLAG_READER_NFC_B) != 0)
techMask |= NFC_POLL_B;
if ((mReaderModeParams.flags & NfcAdapter.FLAG_READER_NFC_F) != 0)
techMask |= NFC_POLL_F;
if ((mReaderModeParams.flags & NfcAdapter.FLAG_READER_NFC_V) != 0)
techMask |= NFC_POLL_ISO15693;
if ((mReaderModeParams.flags & NfcAdapter.FLAG_READER_NFC_BARCODE) != 0)
techMask |= NFC_POLL_KOVIO; Log.d(TAG, " mReaderModeParams != null paramsBuilder.setTechMask:"+techMask); paramsBuilder.setTechMask(techMask);
paramsBuilder.setEnableReaderMode(true);
} else { Log.d(TAG, " mReaderModeParams == null paramsBuilder.setTechMask:"+NfcDiscoveryParameters.NFC_POLL_DEFAULT +" NFC_POLL_DEFAULT");
paramsBuilder.setTechMask(NfcDiscoveryParameters.NFC_POLL_DEFAULT);
paramsBuilder.setEnableP2p(mIsNdefPushEnabled);
}
} else if (screenState == ScreenStateHelper.SCREEN_STATE_ON_LOCKED && mInProvisionMode) {
paramsBuilder.setTechMask(NfcDiscoveryParameters.NFC_POLL_DEFAULT);
// enable P2P for MFM/EDU/Corp provisioning
paramsBuilder.setEnableP2p(true);
} else if (screenState == ScreenStateHelper.SCREEN_STATE_ON_LOCKED &&
mNfcUnlockManager.isLockscreenPollingEnabled()) {
Log.d(TAG, "!!!! SCREEN_STATE_ON_LOCKED setTechMask "); // For lock-screen tags, no low-power polling
paramsBuilder.setTechMask(mNfcUnlockManager.getLockscreenPollMask());
paramsBuilder.setEnableLowPowerDiscovery(false);
paramsBuilder.setEnableP2p(false);
} if (mIsHceCapable && mScreenState >= ScreenStateHelper.SCREEN_STATE_ON_LOCKED) {
// Host routing is always enabled at lock screen or later Log.d(TAG, " >= SCREEN_STATE_ON_LOCKED paramsBuilder.setEnableHostRouting(true) ");
paramsBuilder.setEnableHostRouting(true);
} return paramsBuilder.build();
}
因此如果要改成黑屏状态下可以使用NFC的话,只要将变量NFC_POLLING_MODE改成
ScreenStateHelper.SCREEN_STATE_OFF即可,代码如下:
// minimum screen state that enables NFC polling
//static final int NFC_POLLING_MODE = ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED;
static final int NFC_POLLING_MODE = ScreenStateHelper.SCREEN_STATE_OFF;
但是这样的话,手机会一直不休眠,观察电池的电流和电压发现,一直在跳动,这样在黑屏状态下,手机不会休眠,会很耗电,因此还要优化。
客户的要求是:当双击物理按键Camera键的时候,可以在黑屏状态下使用NFC十分钟,十分钟之类,差不多关于NFC的工作完成了,之后将状态改回来,即:只能在解锁状态下使用NFC,这样的话就可以黑屏使用NFC又节电。
因此,思路如下:
1、接收物理按键Camera键发送的广播,来判断是双击,并将NFC_POLLING_MODE的最小模式改为ScreenStateHelper.SCREEN_STATE_OFF。
2、需要写一个定时器来处理十分钟之后将NFC_POLLING_MODE的最小模式改为会原来的ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED。
因此,首先先定义几个常量,从第185行static final int NFC_POLLING_MODE= ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED;处开始修改,修改代码如下:
// minimum screen state that enables NFC polling
// edited by ouyang [2015-10-19] start
// static final int NFC_POLLING_MODE= ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED;
//默认为要解锁才能使用NFC
static final int NFC_POLLING_MODE_DEFALUT = ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED;
//在黑屏情况下也可以使用NFC
static final int NFC_POLLING_MODE_SCREEN_OFF = ScreenStateHelper.SCREEN_STATE_OFF;
//默认能使用NFC时的屏幕状态
static int NFC_POLLING_MODE = ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED; public static int getNFC_POLLING_MODE() {
return NFC_POLLING_MODE;
} public static void setNFC_POLLING_MODE(int mNFC_POLLING_MODE) {
NFC_POLLING_MODE = mNFC_POLLING_MODE;
}
//是否是双击Camera键
static boolean isDoublePress=false;
//从黑屏可用NFC恢复到要解锁才能用NFC的时间
static final int TIME_TO_Restore_Default_Values=(60*1000)*10;//10分钟 10*1000*60
// edited by ouyang [2015-10-19] end
第二步:写一个广播接收者来处理物理按键Camera,按下和松开时发出的广播。
因为是要判断双击Camera,所以这里只要接收松开Camera键时发出的广播即可。这个广播是公司自己定义的,定义的广播为:"com.runbo.camera.key.up"。所以现在处理这个广播。因为代码中本来就动态注册了一个广播接收者,因此我们在这个广播接收者种再注册一个Intent即可。代码如下:在第450行
// Intents for all users
IntentFilter filter = new IntentFilter(Intent.ACTION_SCREEN_OFF);
filter.addAction(Intent.ACTION_SCREEN_ON);
filter.addAction(Intent.ACTION_USER_PRESENT);
filter.addAction(Intent.ACTION_USER_SWITCHED); //added by ouyang start [2015-10-19]
//Camera物理键按下后松开 发出的广播
filter.addAction("com.runbo.camera.key.up");
//added by ouyang end [2015-10-19] registerForAirplaneMode(filter);
mContext.registerReceiverAsUser(mReceiver, UserHandle.ALL, filter, null, null);
这样我们处理这个双击Camera键可以在mReceiver中处理了,在mReceiver中的onReceive方法中,判断action是否是"com.runbo.camera.key.up",2295行代码如下:
//added by ouyang start [2015-10-19] Camera物理键按下后松开
else if (action.equals("com.runbo.camera.key.up")) {
Log.d("oyp", "<----com.runbo.camera.key.up---->");
Handler checkHandler=new Handler();
Handler restoreHandler=new Handler(); //单击
if (!isDoublePress) {
isDoublePress=true;//500ms之类再单击Camera键的话,就是双击了,直接进入 else语句块
//500ms后触发该线程,查看是单击还是双击
Runnable CheckDoubleRunnable=new Runnable(){
@Override
public void run() {
if (isDoublePress) {
Log.i("oyp", "<----Single Press the Camera Key---->"); //显示为单击
}else{
Log.i("oyp", "<----Double Press the Camera Key---->"); //显示为双击
}
isDoublePress=false;//500ms后在单击Camera键的话 依旧是单击 ,还是进入了 if语句块
}
};
checkHandler.postDelayed(CheckDoubleRunnable, 500);// 500ms内两次单击,触发双击
}
// 500ms内两次单击,触发双击
else{
isDoublePress=false;//双击后,将该值设为false,下次在单击Camera键的话 依旧是单击 ,还是进入了 if语句块
//设置在屏幕关闭情况下仍然可以使用NFC
setNFC_POLLING_MODE(NFC_POLLING_MODE_SCREEN_OFF);
applyRouting(true);
Log.d("oyp", "2、NFC_POLLING_MODE="+getNFC_POLLING_MODE());
//10分钟后触发该线程,恢复原来值
Runnable RestoreDefaultValues=new Runnable(){
@Override
public void run() {
//设置在屏幕解锁情况下可以使用NFC
setNFC_POLLING_MODE(NFC_POLLING_MODE_DEFALUT);
applyRouting(true);
Log.d("oyp", "3、NFC_POLLING_MODE="+getNFC_POLLING_MODE());
}
};
restoreHandler.removeCallbacks(RestoreDefaultValues);//先取消定时器
restoreHandler.postDelayed(RestoreDefaultValues, TIME_TO_Restore_Default_Values);//10分钟后恢复原来值
}
}
//added by ouyang end [2015-10-19]
还要将computeDiscoveryParameters()方法中的判断语句改掉,1733行代码如下:
// if (screenState >= NFC_POLLING_MODE) {
//edited by ouyang [2015-10-19 11:13:17]
if (screenState >= getNFC_POLLING_MODE()) {
====================================================================================
上面代码用Handler做十分钟定时器的时候,时间不准确,改用AlarmManager做定时器,下面是修改的代码
//added by ouyang start [2015-11-4] 40分钟后恢复NFC默认值的广播
else if (action.equals("com.runbo.camera.nfc.restore")) {
//设置在屏幕解锁情况下可以使用NFC
Log.d("oyp", "<----com.runbo.camera.nfc.restore---->");
setNFC_POLLING_MODE(NFC_POLLING_MODE_DEFALUT);
applyRouting(true);
Log.d("oyp", "3、NFC_POLLING_MODE="+getNFC_POLLING_MODE()); SimpleDateFormat sdf=new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");
Date date=new Date();
String time=sdf.format(date);
Log.d("oyp", "time after="+time);
}
//added by ouyang start [2015-10-19] Camera物理键按下后松开
else if (action.equals("com.runbo.camera.key.up")) {
Log.d("oyp", "<----com.runbo.camera.key.up---->");
Handler checkHandler=new Handler();
Handler restoreHandler=new Handler(); //单击
if (!isDoublePress) {
isDoublePress=true;//500ms之类再单击Camera键的话,就是双击了,直接进入 else语句块
//500ms后触发该线程,查看是单击还是双击
Runnable CheckDoubleRunnable=new Runnable(){
@Override
public void run() {
if (isDoublePress) {
Log.i("oyp", "<----Single Press the Camera Key---->"); //显示为单击
}else{
Log.i("oyp", "<----Double Press the Camera Key---->"); //显示为双击
}
isDoublePress=false;//500ms后在单击Camera键的话 依旧是单击 ,还是进入了 if语句块
}
};
checkHandler.postDelayed(CheckDoubleRunnable, 500);// 500ms内两次单击,触发双击
}
// 500ms内两次单击,触发双击
else{
isDoublePress=false;//双击后,将该值设为false,下次在单击Camera键的话 依旧是单击 ,还是进入了 if语句块
//设置在屏幕关闭情况下仍然可以使用NFC
setNFC_POLLING_MODE(NFC_POLLING_MODE_SCREEN_OFF);
applyRouting(true);
Log.d("oyp", "2、NFC_POLLING_MODE="+getNFC_POLLING_MODE());
//使用AlarmManager来做定时
AlarmManager aManager = (AlarmManager)context.getSystemService(Service.ALARM_SERVICE);
// 指定启动AlarmActivity组件
Intent nfcRestoreIntent = new Intent("com.runbo.camera.nfc.restore");
// 创建PendingIntent对象
PendingIntent pi = PendingIntent.getBroadcast(context, 0, nfcRestoreIntent, 0);
//设定一个40分钟后的时间
Calendar calendar=Calendar.getInstance();
calendar.setTimeInMillis(System.currentTimeMillis());
calendar.add(Calendar.MINUTE,TIME_TO_Restore_Default_Values);
//先取消定时器
//aManager.cancel(pi);
// 设置AlarmManager将在Calendar对应的时间启动指定组件
aManager.set(AlarmManager.RTC_WAKEUP,calendar.getTimeInMillis(), pi); SimpleDateFormat sdf=new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");
Date date=new Date();
String time=sdf.format(date);
Log.d("oyp", "time before="+time); // //10分钟后触发该线程,恢复原来值
// Runnable RestoreDefaultValues=new Runnable(){
// @Override
// public void run() {
// //设置在屏幕解锁情况下可以使用NFC
// setNFC_POLLING_MODE(NFC_POLLING_MODE_DEFALUT);
// applyRouting(true);
// Log.d("oyp", "3、NFC_POLLING_MODE="+getNFC_POLLING_MODE());
// }
// };
// restoreHandler.removeCallbacks(RestoreDefaultValues);//先取消定时器
// restoreHandler.postDelayed(RestoreDefaultValues, TIME_TO_Restore_Default_Values);//10分钟后恢复原来值
}
}
//added by ouyang end [2015-10-19]
将Handler的代码注释掉了,改用AlarmManager来做定时器,到达指定的时间后,发送一个“com.runbo.camera.nfc.restore”广播,这个广播也让该广播接收者来接收,因此动态注册广播的代码改成:
//如果是Hanbang的定制软件
if (android.os.SystemProperties.isHanbangVersion()) {
//接收Camera物理键按下后松开,发出的广播
filter.addAction("com.runbo.camera.key.up");
//接收NFC恢复默认值的广播
filter.addAction("com.runbo.camera.nfc.restore");
}
//added by ouyang end [2015-10-19]
因为之前使用秒来计时,现在使用分钟来计时,因此TIME_TO_Restore_Default_Values改成40,即40分钟
//从黑屏可用NFC恢复到要解锁才能用NFC的时间
static final int TIME_TO_Restore_Default_Values=40; //40分钟
====================================================================================
下面呈上修改后的代码和没修改的代码,经验证,完美!
修改之后的代码如下:
/*
* Copyright (C) 2014 MediaTek Inc.
* Modification based on code covered by the mentioned copyright
* and/or permission notice(s).
*/
/*
* Copyright (C) 2010 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 com.android.nfc; import android.app.ActivityManager;
import android.app.Application;
import android.app.KeyguardManager;
import android.app.PendingIntent;
import android.app.admin.DevicePolicyManager;
import android.content.BroadcastReceiver;
import android.content.ComponentName;
import android.content.ContentResolver;
import android.content.Context;
import android.content.Intent;
import android.content.IntentFilter;
import android.content.SharedPreferences;
import android.content.pm.IPackageManager;
import android.content.pm.PackageInfo;
import android.content.pm.PackageManager;
import android.content.pm.UserInfo;
import android.content.res.Resources.NotFoundException;
import android.media.AudioManager;
import android.media.SoundPool;
import android.nfc.BeamShareData;
import android.nfc.ErrorCodes;
import android.nfc.FormatException;
import android.nfc.IAppCallback;
import android.nfc.INfcAdapter;
import android.nfc.INfcAdapterExtras;
import android.nfc.INfcCardEmulation;
import android.nfc.INfcTag;
import android.nfc.INfcUnlockHandler;
import android.nfc.NdefMessage;
import android.nfc.NfcAdapter;
import android.nfc.Tag;
import android.nfc.TechListParcel;
import android.nfc.TransceiveResult;
import android.nfc.tech.Ndef;
import android.nfc.tech.TagTechnology;
import android.os.AsyncTask;
import android.os.Binder;
import android.os.Build;
import android.os.Bundle;
import android.os.Handler;
import android.os.IBinder;
import android.os.Message;
import android.os.PowerManager;
import android.os.Process;
import android.os.RemoteException;
import android.os.ServiceManager;
import android.os.UserHandle;
import android.os.UserManager;
import android.provider.Settings;
import android.util.Log; import com.android.nfc.DeviceHost.DeviceHostListener;
import com.android.nfc.DeviceHost.LlcpConnectionlessSocket;
import com.android.nfc.DeviceHost.LlcpServerSocket;
import com.android.nfc.DeviceHost.LlcpSocket;
import com.android.nfc.DeviceHost.NfcDepEndpoint;
import com.android.nfc.DeviceHost.TagEndpoint;
import com.android.nfc.cardemulation.CardEmulationManager;
import com.android.nfc.dhimpl.NativeNfcManager;
import com.android.nfc.handover.HandoverDataParser; import java.io.FileDescriptor;
import java.io.PrintWriter;
import java.util.Arrays;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.NoSuchElementException; /// M: @ {
import android.os.SystemClock;
import com.mediatek.nfc.handover.MtkNfcEntry;
import com.android.nfc.dhimpl.NativeNfcSecureElement;
import java.io.IOException;
import java.util.HashSet;
import java.util.concurrent.ExecutionException; import com.mediatek.nfc.addon.MtkNfcAddonSequence;
import com.mediatek.nfc.addon.NfcStatusNotificationUi; import com.mediatek.nfc.addon.Utility;
import android.widget.Toast;
import android.database.ContentObserver;
import android.net.Uri; import com.mediatek.nfc.gsmahandset.NfcGsmaExtraService;
import android.nfc.INfcAdapterGsmaExtras;
import android.os.SystemProperties; /// } public class NfcService implements DeviceHostListener {
static final boolean DBG = true;
static final String TAG = "NfcService"; public static final String SERVICE_NAME = "nfc"; public static final String PREF = "NfcServicePrefs"; static final String PREF_NFC_ON = "nfc_on";
static final boolean NFC_ON_DEFAULT = true;
static final String PREF_NDEF_PUSH_ON = "ndef_push_on";
static final boolean NDEF_PUSH_ON_DEFAULT = true;
static final String PREF_FIRST_BEAM = "first_beam";
static final String PREF_FIRST_BOOT = "first_boot";
static final String PREF_AIRPLANE_OVERRIDE = "airplane_override"; /// M: @ {
public static final String NFC_HCE_ON = "nfc_hce_on"; //value type: int,0 for Off, 1 for on
/// } static final int MSG_NDEF_TAG = 0;
static final int MSG_LLCP_LINK_ACTIVATION = 1;
static final int MSG_LLCP_LINK_DEACTIVATED = 2;
static final int MSG_MOCK_NDEF = 3;
static final int MSG_LLCP_LINK_FIRST_PACKET = 4;
static final int MSG_ROUTE_AID = 5;
static final int MSG_UNROUTE_AID = 6;
static final int MSG_COMMIT_ROUTING = 7;
static final int MSG_INVOKE_BEAM = 8;
static final int MSG_RF_FIELD_ACTIVATED = 9;
static final int MSG_RF_FIELD_DEACTIVATED = 10;
static final int MSG_RESUME_POLLING = 11; static final long MAX_POLLING_PAUSE_TIMEOUT = 40000; static final int TASK_ENABLE = 1;
static final int TASK_DISABLE = 2;
static final int TASK_BOOT = 3; // Polling technology masks
static final int NFC_POLL_A = 0x01;
static final int NFC_POLL_B = 0x02;
static final int NFC_POLL_F = 0x04;
static final int NFC_POLL_ISO15693 = 0x08;
static final int NFC_POLL_B_PRIME = 0x10;
static final int NFC_POLL_KOVIO = 0x20; /// M: @ {
// Copied from com.android.nfc_extras to avoid library dependency
// Must keep in sync with com.android.nfc_extras
static final int ROUTE_OFF = 1;
static final int ROUTE_ON_WHEN_SCREEN_ON = 2; // Return values from NfcEe.open() - these are 1:1 mapped
// to the thrown EE_EXCEPTION_ exceptions in nfc-extras.
static final int EE_ERROR_IO = -1;
static final int EE_ERROR_ALREADY_OPEN = -2;
static final int EE_ERROR_INIT = -3;
static final int EE_ERROR_LISTEN_MODE = -4;
static final int EE_ERROR_EXT_FIELD = -5;
static final int EE_ERROR_NFC_DISABLED = -6; // Amount of time to wait before closing the NFCEE connection
// in a disable/shutdown scenario.
static final int WAIT_FOR_NFCEE_OPERATIONS_MS = 5000;
// Polling interval for waiting on NFCEE operations
static final int WAIT_FOR_NFCEE_POLL_MS = 100;
/// } // minimum screen state that enables NFC polling
// edited by ouyang [2015-10-19] start
// static final int NFC_POLLING_MODE= ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED;
//默认为要解锁才能使用NFC
static final int NFC_POLLING_MODE_DEFALUT = ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED;
//在黑屏情况下也可以使用NFC
static final int NFC_POLLING_MODE_SCREEN_OFF = ScreenStateHelper.SCREEN_STATE_OFF;
//默认能使用NFC时的屏幕状态
static int NFC_POLLING_MODE = ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED; public static int getNFC_POLLING_MODE() {
return NFC_POLLING_MODE;
} public static void setNFC_POLLING_MODE(int mNFC_POLLING_MODE) {
NFC_POLLING_MODE = mNFC_POLLING_MODE;
}
//是否是双击Camera键
static boolean isDoublePress=false;
//从黑屏可用NFC恢复到要解锁才能用NFC的时间
static final int TIME_TO_Restore_Default_Values=(60*1000)*10;//10分钟 10*1000*60
// edited by ouyang [2015-10-19] end // Time to wait for NFC controller to initialize before watchdog
// goes off. This time is chosen large, because firmware download
// may be a part of initialization.
static final int INIT_WATCHDOG_MS = 90000; // Time to wait for routing to be applied before watchdog
// goes off
static final int ROUTING_WATCHDOG_MS = 10000; // Default delay used for presence checks
static final int DEFAULT_PRESENCE_CHECK_DELAY = 125; // The amount of time we wait before manually launching
// the Beam animation when called through the share menu.
static final int INVOKE_BEAM_DELAY_MS = 1000; // RF field events as defined in NFC extras
public static final String ACTION_RF_FIELD_ON_DETECTED =
"com.android.nfc_extras.action.RF_FIELD_ON_DETECTED";
public static final String ACTION_RF_FIELD_OFF_DETECTED =
"com.android.nfc_extras.action.RF_FIELD_OFF_DETECTED"; // for use with playSound()
public static final int SOUND_START = 0;
public static final int SOUND_END = 1;
public static final int SOUND_ERROR = 2; public static final String ACTION_LLCP_UP =
"com.android.nfc.action.LLCP_UP"; public static final String ACTION_LLCP_DOWN =
"com.android.nfc.action.LLCP_DOWN"; // Timeout to re-apply routing if a tag was present and we postponed it
private static final int APPLY_ROUTING_RETRY_TIMEOUT_MS = 5000; private final UserManager mUserManager; // NFC Execution Environment
// fields below are protected by this
private final ReaderModeDeathRecipient mReaderModeDeathRecipient =
new ReaderModeDeathRecipient();
private final NfcUnlockManager mNfcUnlockManager; private final NfceeAccessControl mNfceeAccessControl; List mInstalledPackages; // cached version of installed packages // fields below are used in multiple threads and protected by synchronized(this)
final HashMap mObjectMap = new HashMap();
int mScreenState;
boolean mInProvisionMode; // whether we're in setup wizard and enabled NFC provisioning
boolean mIsNdefPushEnabled;
NfcDiscoveryParameters mCurrentDiscoveryParameters =
NfcDiscoveryParameters.getNfcOffParameters(); ReaderModeParams mReaderModeParams; // mState is protected by this, however it is only modified in onCreate()
// and the default AsyncTask thread so it is read unprotected from that
// thread
int mState; // one of NfcAdapter.STATE_ON, STATE_TURNING_ON, etc
// fields below are final after onCreate()
Context mContext;
private DeviceHost mDeviceHost;
private SharedPreferences mPrefs;
private SharedPreferences.Editor mPrefsEditor;
private PowerManager.WakeLock mRoutingWakeLock; int mStartSound;
int mEndSound;
int mErrorSound;
SoundPool mSoundPool; // playback synchronized on this
P2pLinkManager mP2pLinkManager;
TagService mNfcTagService;
NfcAdapterService mNfcAdapter;
boolean mIsAirplaneSensitive;
boolean mIsAirplaneToggleable;
boolean mIsDebugBuild;
boolean mIsHceCapable;
boolean mPollingPaused; private NfcDispatcher mNfcDispatcher;
private PowerManager mPowerManager;
private KeyguardManager mKeyguard;
private HandoverDataParser mHandoverDataParser;
private ContentResolver mContentResolver;
private CardEmulationManager mCardEmulationManager; private ScreenStateHelper mScreenStateHelper;
private ForegroundUtils mForegroundUtils; private int mUserId;
private static NfcService sService; public static NfcService getInstance() {
return sService;
} @Override
public void onRemoteEndpointDiscovered(TagEndpoint tag) {
sendMessage(NfcService.MSG_NDEF_TAG, tag);
} /**
* Notifies transaction
*/
@Override
public void onHostCardEmulationActivated() {
/// M: @ {
if (mCardEmulationManager != null && mIsHceOn) {
mCardEmulationManager.onHostCardEmulationActivated();
}
/// } } @Override
public void onHostCardEmulationData(byte[] data) {
/// M: @ {
if (mCardEmulationManager != null && mIsHceOn) {
mCardEmulationManager.onHostCardEmulationData(data);
}
/// } } @Override
public void onHostCardEmulationDeactivated() {
if (mCardEmulationManager != null) {
mCardEmulationManager.onHostCardEmulationDeactivated();
}
} /**
* Notifies P2P Device detected, to activate LLCP link
*/
@Override
public void onLlcpLinkActivated(NfcDepEndpoint device) {
sendMessage(NfcService.MSG_LLCP_LINK_ACTIVATION, device);
} /**
* Notifies P2P Device detected, to activate LLCP link
*/
@Override
public void onLlcpLinkDeactivated(NfcDepEndpoint device) {
sendMessage(NfcService.MSG_LLCP_LINK_DEACTIVATED, device);
} /**
* Notifies P2P Device detected, first packet received over LLCP link
*/
@Override
public void onLlcpFirstPacketReceived(NfcDepEndpoint device) {
sendMessage(NfcService.MSG_LLCP_LINK_FIRST_PACKET, device);
} @Override
public void onRemoteFieldActivated() {
sendMessage(NfcService.MSG_RF_FIELD_ACTIVATED, null);
} public void onRemoteFieldDeactivated() {
sendMessage(NfcService.MSG_RF_FIELD_DEACTIVATED, null);
} final class ReaderModeParams {
public int flags;
public IAppCallback callback;
public int presenceCheckDelay;
} public NfcService(Application nfcApplication) {
mUserId = ActivityManager.getCurrentUser();
mContext = nfcApplication; mNfcTagService = new TagService();
mNfcAdapter = new NfcAdapterService();
Log.i(TAG, "Starting NFC service"); sService = this; mScreenStateHelper = new ScreenStateHelper(mContext);
mContentResolver = mContext.getContentResolver(); /// M: @{
mNativeNfcManager = new NativeNfcManager(mContext, this);
mDeviceHost = (DeviceHost) mNativeNfcManager;
/// } mNfcUnlockManager = NfcUnlockManager.getInstance(); mHandoverDataParser = new HandoverDataParser();
boolean isNfcProvisioningEnabled = false;
try {
isNfcProvisioningEnabled = mContext.getResources().getBoolean(
R.bool.enable_nfc_provisioning);
} catch (NotFoundException e) {
} if (isNfcProvisioningEnabled) {
mInProvisionMode = Settings.Secure.getInt(mContentResolver,
Settings.Global.DEVICE_PROVISIONED, 0) == 0;
} else {
mInProvisionMode = false;
} mNfcDispatcher = new NfcDispatcher(mContext, mHandoverDataParser, mInProvisionMode);
mP2pLinkManager = new P2pLinkManager(mContext, mHandoverDataParser,
mDeviceHost.getDefaultLlcpMiu(), mDeviceHost.getDefaultLlcpRwSize()); mPrefs = mContext.getSharedPreferences(PREF, Context.MODE_PRIVATE);
mPrefsEditor = mPrefs.edit(); mNfceeAccessControl = new NfceeAccessControl(mContext); mState = NfcAdapter.STATE_OFF;
mIsNdefPushEnabled = mPrefs.getBoolean(PREF_NDEF_PUSH_ON, NDEF_PUSH_ON_DEFAULT);
setBeamShareActivityState(mIsNdefPushEnabled); mIsDebugBuild = "userdebug".equals(Build.TYPE) || "eng".equals(Build.TYPE); mPowerManager = (PowerManager) mContext.getSystemService(Context.POWER_SERVICE); mRoutingWakeLock = mPowerManager.newWakeLock(
PowerManager.PARTIAL_WAKE_LOCK, "NfcService:mRoutingWakeLock"); mKeyguard = (KeyguardManager) mContext.getSystemService(Context.KEYGUARD_SERVICE);
mUserManager = (UserManager) mContext.getSystemService(Context.USER_SERVICE); mScreenState = mScreenStateHelper.checkScreenState(); /// M: @ {
if (NativeNfcManager.sIsUnsupportedChip) {
return;
}
/// }
ServiceManager.addService(SERVICE_NAME, mNfcAdapter); // Intents for all users
IntentFilter filter = new IntentFilter(Intent.ACTION_SCREEN_OFF);
filter.addAction(Intent.ACTION_SCREEN_ON);
filter.addAction(Intent.ACTION_USER_PRESENT);
filter.addAction(Intent.ACTION_USER_SWITCHED); //added by ouyang start [2015-10-19]
//Camera物理键按下后松开 发出的广播
filter.addAction("com.runbo.camera.key.up");
//added by ouyang end [2015-10-19] registerForAirplaneMode(filter);
mContext.registerReceiverAsUser(mReceiver, UserHandle.ALL, filter, null, null); IntentFilter ownerFilter = new IntentFilter(Intent.ACTION_EXTERNAL_APPLICATIONS_AVAILABLE);
ownerFilter.addAction(Intent.ACTION_EXTERNAL_APPLICATIONS_UNAVAILABLE);
mContext.registerReceiver(mOwnerReceiver, ownerFilter); ownerFilter = new IntentFilter();
ownerFilter.addAction(Intent.ACTION_PACKAGE_ADDED);
ownerFilter.addAction(Intent.ACTION_PACKAGE_REMOVED);
ownerFilter.addDataScheme("package");
mContext.registerReceiver(mOwnerReceiver, ownerFilter); IntentFilter policyFilter = new IntentFilter(DevicePolicyManager.ACTION_DEVICE_POLICY_MANAGER_STATE_CHANGED);
mContext.registerReceiverAsUser(mPolicyReceiver, UserHandle.ALL, policyFilter, null, null); updatePackageCache(); PackageManager pm = mContext.getPackageManager();
mIsHceCapable = pm.hasSystemFeature(PackageManager.FEATURE_NFC_HOST_CARD_EMULATION);
if (mIsHceCapable) {
mCardEmulationManager = new CardEmulationManager(mContext);
}
mForegroundUtils = ForegroundUtils.getInstance();
/// M: {
initAddon();
/// }
new EnableDisableTask().execute(TASK_BOOT); // do blocking boot tasks
} void initSoundPool() {
synchronized (this) {
if (mSoundPool == null) {
mSoundPool = new SoundPool(1, AudioManager.STREAM_NOTIFICATION, 0);
/// M: bug-fix for SoundPool issues @ {
Utility.SoundPoolListener soundPoolListener = new Utility.SoundPoolListener(mSoundPool);
mStartSound = mSoundPool.load(mContext, R.raw.start, 1);
mEndSound = mSoundPool.load(mContext, R.raw.end, 1);
mErrorSound = mSoundPool.load(mContext, R.raw.error, 1);
soundPoolListener.waitForSamplesReady(new int[] {mStartSound, mEndSound, mErrorSound});
/// }
}
}
} void releaseSoundPool() {
synchronized (this) {
if (mSoundPool != null) {
mSoundPool.release();
mSoundPool = null;
}
}
} void registerForAirplaneMode(IntentFilter filter) {
final String airplaneModeRadios = Settings.System.getString(mContentResolver,
Settings.Global.AIRPLANE_MODE_RADIOS);
final String toggleableRadios = Settings.System.getString(mContentResolver,
Settings.Global.AIRPLANE_MODE_TOGGLEABLE_RADIOS); mIsAirplaneSensitive = airplaneModeRadios == null ? true :
airplaneModeRadios.contains(Settings.Global.RADIO_NFC);
mIsAirplaneToggleable = toggleableRadios == null ? false :
toggleableRadios.contains(Settings.Global.RADIO_NFC); if (mIsAirplaneSensitive) {
filter.addAction(Intent.ACTION_AIRPLANE_MODE_CHANGED);
}
} void updatePackageCache() {
PackageManager pm = mContext.getPackageManager();
List packages = pm.getInstalledPackages(0, UserHandle.USER_OWNER);
synchronized (this) {
mInstalledPackages = packages;
}
} /**
* Manages tasks that involve turning on/off the NFC controller.
*
*
All work that might turn the NFC adapter on or off must be done
* through this task, to keep the handling of mState simple.
* In other words, mState is only modified in these tasks (and we
* don't need a lock to read it in these tasks).
*
*
These tasks are all done on the same AsyncTask background
* thread, so they are serialized. Each task may temporarily transition
* mState to STATE_TURNING_OFF or STATE_TURNING_ON, but must exit in
* either STATE_ON or STATE_OFF. This way each task can be guaranteed
* of starting in either STATE_OFF or STATE_ON, without needing to hold
* NfcService.this for the entire task.
*
*
AsyncTask's are also implicitly queued. This is useful for corner
* cases like turning airplane mode on while TASK_ENABLE is in progress.
* The TASK_DISABLE triggered by airplane mode will be correctly executed
* immediately after TASK_ENABLE is complete. This seems like the most sane
* way to deal with these situations.
*
*
{@link #TASK_ENABLE} enables the NFC adapter, without changing
* preferences
*
{@link #TASK_DISABLE} disables the NFC adapter, without changing
* preferences
*
{@link #TASK_BOOT} does first boot work and may enable NFC
*/
class EnableDisableTask extends AsyncTask {
/// M: @ {
EnableDisableTask() {
MtkNfcAddonSequence.getInstance().setScenario(MtkNfcAddonSequence.DISABLE_CARD_MODE_OFF);
}
EnableDisableTask(int scenario) {
MtkNfcAddonSequence.getInstance().setScenario(scenario);
}
/// }
@Override
protected Void doInBackground(Integer... params) {
// Sanity check mState
switch (mState) {
case NfcAdapter.STATE_TURNING_OFF:
case NfcAdapter.STATE_TURNING_ON:
Log.e(TAG, "Processing EnableDisable task " + params[0] + " from bad state " +
mState);
return null;
}
/* AsyncTask sets this thread to THREAD_PRIORITY_BACKGROUND,
* override with the default. THREAD_PRIORITY_BACKGROUND causes
* us to service software I2C too slow for firmware download
* with the NXP PN544.
* TODO: move this to the DAL I2C layer in libnfc-nxp, since this
* problem only occurs on I2C platforms using PN544
*/
Process.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT);
switch (params[0].intValue()) {
case TASK_ENABLE:
enableInternal();
break;
case TASK_DISABLE:
disableInternal();
break;
case TASK_BOOT:
Log.d(TAG, "checking on firmware download");
boolean airplaneOverride = mPrefs.getBoolean(PREF_AIRPLANE_OVERRIDE, false);
if (mPrefs.getBoolean(PREF_NFC_ON, NFC_ON_DEFAULT) &&
(!mIsAirplaneSensitive || !isAirplaneModeOn() || airplaneOverride)) {
Log.d(TAG, "NFC is on. Doing normal stuff");
enableInternal();
} else {
Log.d(TAG, "NFC is off. Checking firmware version");
mDeviceHost.checkFirmware();
}
if (mPrefs.getBoolean(PREF_FIRST_BOOT, true)) {
Log.i(TAG, "First Boot");
mPrefsEditor.putBoolean(PREF_FIRST_BOOT, false);
mPrefsEditor.apply();
}
break;
}
// Restore default AsyncTask priority
Process.setThreadPriority(Process.THREAD_PRIORITY_BACKGROUND);
return null;
}
/**
* Enable NFC adapter functions.
* Does not toggle preferences.
*/
boolean enableInternal() {
if (mState == NfcAdapter.STATE_ON) {
return true;
}
/// M: @ {
// TODO:: updateState to on, move synchronized object
synchronized (NfcService.this) {
Log.i(TAG, "Enabling NFC");
updateState(NfcAdapter.STATE_TURNING_ON);
WatchDogThread watchDog = new WatchDogThread("enableInternal", INIT_WATCHDOG_MS);
watchDog.start();
try {
mRoutingWakeLock.acquire();
try {
if (!mDeviceHost.initialize()) {
Log.w(TAG, "Error enabling NFC");
updateState(NfcAdapter.STATE_OFF);
return false;
}
} finally {
mRoutingWakeLock.release();
}
} finally {
watchDog.cancel();
}
if (mIsHceCapable) {
// Generate the initial card emulation routing table
mCardEmulationManager.onNfcEnabled();
}
//synchronized (NfcService.this) {
/// }
mObjectMap.clear();
mP2pLinkManager.enableDisable(mIsNdefPushEnabled, true);
updateState(NfcAdapter.STATE_ON);
/// M: @ {
mScreenState = mScreenStateHelper.checkScreenState();
/// }
}
initSoundPool();
/* Start polling loop */
applyRouting(true);
/// M: @ {
Log.d(TAG, "showNotification()");
//start weixj at 20151013 Don't show the NFC notification
if(!SystemProperties.isJ5Version()){
NfcStatusNotificationUi.getInstance().showNotification();
}
/// }
//end
return true;
}
/**
* Disable all NFC adapter functions.
* Does not toggle preferences.
*/
boolean disableInternal() {
if (mState == NfcAdapter.STATE_OFF) {
return true;
}
Log.i(TAG, "Disabling NFC");
updateState(NfcAdapter.STATE_TURNING_OFF);
/* Sometimes mDeviceHost.deinitialize() hangs, use a watch-dog.
* Implemented with a new thread (instead of a Handler or AsyncTask),
* because the UI Thread and AsyncTask thread-pools can also get hung
* when the NFC controller stops responding */
WatchDogThread watchDog = new WatchDogThread("disableInternal", ROUTING_WATCHDOG_MS);
watchDog.start();
if (mIsHceCapable) {
mCardEmulationManager.onNfcDisabled();
}
/// M: @ {
boolean result = false;
synchronized (NfcService.this) {
mP2pLinkManager.enableDisable(false, false);
/* The NFC-EE may still be opened by another process,
* and a transceive() could still be in progress on
* another Binder thread.
* Give it a while to finish existing operations
* before we close it.
*/
Long startTime = SystemClock.elapsedRealtime();
do {
synchronized (NfcService.this) {
if (mOpenEe == null)
break;
}
try {
Thread.sleep(WAIT_FOR_NFCEE_POLL_MS);
} catch (InterruptedException e) {
// Ignore
}
} while (SystemClock.elapsedRealtime() - startTime < WAIT_FOR_NFCEE_OPERATIONS_MS);
synchronized (NfcService.this) {
if (mOpenEe != null) {
try {
_nfcEeClose(-1, mOpenEe.binder);
} catch (IOException e) { }
}
}
// Stop watchdog if tag present
// A convenient way to stop the watchdog properly consists of
// disconnecting the tag. The polling loop shall be stopped before
// to avoid the tag being discovered again.
maybeDisconnectTarget();
mNfcDispatcher.setForegroundDispatch(null, null, null);
result = mDeviceHost.deinitialize();
if (DBG) Log.d(TAG, "mDeviceHost.deinitialize() = " + result);
//mNfcPollingEnabled = false;/// MTK: potential bug fix
}
/// }
watchDog.cancel();
synchronized (NfcService.this) {
mCurrentDiscoveryParameters = NfcDiscoveryParameters.getNfcOffParameters();
updateState(NfcAdapter.STATE_OFF);
}
/// M: @ {
//releaseSoundPool();
Log.d(TAG, "hideNotification()");
NfcStatusNotificationUi.getInstance().hideNotification();
/// }
return result;
}
void updateState(int newState) {
synchronized (NfcService.this) {
if (newState == mState) {
return;
}
mState = newState;
Intent intent = new Intent(NfcAdapter.ACTION_ADAPTER_STATE_CHANGED);
intent.setFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY_BEFORE_BOOT);
intent.putExtra(NfcAdapter.EXTRA_ADAPTER_STATE, mState);
mContext.sendBroadcastAsUser(intent, UserHandle.CURRENT);
}
}
}
void saveNfcOnSetting(boolean on) {
synchronized (NfcService.this) {
mPrefsEditor.putBoolean(PREF_NFC_ON, on);
mPrefsEditor.apply();
}
}
public void playSound(int sound) {
synchronized (this) {
if (mSoundPool == null) {
Log.w(TAG, "Not playing sound when NFC is disabled");
return;
}
switch (sound) {
case SOUND_START:
mSoundPool.play(mStartSound, 1.0f, 1.0f, 0, 0, 1.0f);
break;
case SOUND_END:
mSoundPool.play(mEndSound, 1.0f, 1.0f, 0, 0, 1.0f);
break;
case SOUND_ERROR:
mSoundPool.play(mErrorSound, 1.0f, 1.0f, 0, 0, 1.0f);
break;
}
}
}
synchronized int getUserId() {
return mUserId;
}
void setBeamShareActivityState(boolean enabled) {
UserManager um = (UserManager) mContext.getSystemService(Context.USER_SERVICE);
// Propagate the state change to all user profiles related to the current
// user. Note that the list returned by getUserProfiles contains the
// current user.
List luh = um.getUserProfiles();
for (UserHandle uh : luh){
enforceBeamShareActivityPolicy(mContext, uh, enabled);
}
}
void enforceBeamShareActivityPolicy(Context context, UserHandle uh,
boolean isGlobalEnabled){
UserManager um = (UserManager) context.getSystemService(Context.USER_SERVICE);
IPackageManager mIpm = IPackageManager.Stub.asInterface(ServiceManager.getService("package"));
boolean isActiveForUser =
(!um.hasUserRestriction(UserManager.DISALLOW_OUTGOING_BEAM, uh)) &&
isGlobalEnabled;
if (DBG){
Log.d(TAG, "Enforcing a policy change on user: " + uh +
", isActiveForUser = " + isActiveForUser);
}
try {
mIpm.setComponentEnabledSetting(new ComponentName(
BeamShareActivity.class.getPackageName$(),
BeamShareActivity.class.getName()),
isActiveForUser ?
PackageManager.COMPONENT_ENABLED_STATE_ENABLED :
PackageManager.COMPONENT_ENABLED_STATE_DISABLED,
PackageManager.DONT_KILL_APP,
uh.getIdentifier());
} catch (RemoteException e) {
Log.w(TAG, "Unable to change Beam status for user " + uh);
}
}
final class NfcAdapterService extends INfcAdapter.Stub {
@Override
public boolean enable() throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
saveNfcOnSetting(true);
if (mIsAirplaneSensitive && isAirplaneModeOn()) {
if (!mIsAirplaneToggleable) {
Log.i(TAG, "denying enable() request (airplane mode)");
return false;
}
// Make sure the override survives a reboot
mPrefsEditor.putBoolean(PREF_AIRPLANE_OVERRIDE, true);
mPrefsEditor.apply();
}
new EnableDisableTask().execute(TASK_ENABLE);
return true;
}
@Override
public boolean disable(boolean saveState) throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
if (saveState) {
saveNfcOnSetting(false);
}
new EnableDisableTask().execute(TASK_DISABLE);
return true;
}
@Override
public void pausePolling(int timeoutInMs) {
NfcPermissions.enforceAdminPermissions(mContext);
if (timeoutInMs <= 0 || timeoutInMs > MAX_POLLING_PAUSE_TIMEOUT) {
Log.e(TAG, "Refusing to pause polling for " + timeoutInMs + "ms.");
return;
}
synchronized (NfcService.this) {
mPollingPaused = true;
mDeviceHost.disableDiscovery();
mHandler.sendMessageDelayed(
mHandler.obtainMessage(MSG_RESUME_POLLING), timeoutInMs);
}
}
@Override
public void resumePolling() {
NfcPermissions.enforceAdminPermissions(mContext);
synchronized (NfcService.this) {
if (!mPollingPaused) {
return;
}
mHandler.removeMessages(MSG_RESUME_POLLING);
mPollingPaused = false;
new ApplyRoutingTask().execute();
}
}
@Override
public boolean isNdefPushEnabled() throws RemoteException {
synchronized (NfcService.this) {
return mState == NfcAdapter.STATE_ON && mIsNdefPushEnabled;
}
}
@Override
public boolean enableNdefPush() throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
synchronized (NfcService.this) {
if (mIsNdefPushEnabled) {
return true;
}
Log.i(TAG, "enabling NDEF Push");
mPrefsEditor.putBoolean(PREF_NDEF_PUSH_ON, true);
mPrefsEditor.apply();
mIsNdefPushEnabled = true;
setBeamShareActivityState(true);
if (isNfcEnabled()) {
mP2pLinkManager.enableDisable(true, true);
}
}
return true;
}
@Override
public boolean disableNdefPush() throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
synchronized (NfcService.this) {
if (!mIsNdefPushEnabled) {
return true;
}
Log.i(TAG, "disabling NDEF Push");
mPrefsEditor.putBoolean(PREF_NDEF_PUSH_ON, false);
mPrefsEditor.apply();
mIsNdefPushEnabled = false;
setBeamShareActivityState(false);
if (isNfcEnabled()) {
mP2pLinkManager.enableDisable(false, true);
}
}
return true;
}
@Override
public void setForegroundDispatch(PendingIntent intent,
IntentFilter[] filters, TechListParcel techListsParcel) {
NfcPermissions.enforceUserPermissions(mContext);
// Short-cut the disable path
if (intent == null && filters == null && techListsParcel == null) {
mNfcDispatcher.setForegroundDispatch(null, null, null);
return;
}
// Validate the IntentFilters
if (filters != null) {
if (filters.length == 0) {
filters = null;
} else {
for (IntentFilter filter : filters) {
if (filter == null) {
throw new IllegalArgumentException("null IntentFilter");
}
}
}
}
// Validate the tech lists
String[][] techLists = null;
if (techListsParcel != null) {
techLists = techListsParcel.getTechLists();
}
mNfcDispatcher.setForegroundDispatch(intent, filters, techLists);
}
@Override
public void setAppCallback(IAppCallback callback) {
NfcPermissions.enforceUserPermissions(mContext);
// don't allow Beam for managed profiles, or devices with a device owner or policy owner
UserInfo userInfo = mUserManager.getUserInfo(UserHandle.getCallingUserId());
if(!mUserManager.hasUserRestriction(
UserManager.DISALLOW_OUTGOING_BEAM, userInfo.getUserHandle())) {
mP2pLinkManager.setNdefCallback(callback, Binder.getCallingUid());
} else if (DBG) {
Log.d(TAG, "Disabling default Beam behavior");
}
}
@Override
public void verifyNfcPermission() {
NfcPermissions.enforceUserPermissions(mContext);
}
@Override
public void invokeBeam() {
NfcPermissions.enforceUserPermissions(mContext);
if (mForegroundUtils.isInForeground(Binder.getCallingUid())) {
mP2pLinkManager.onManualBeamInvoke(null);
} else {
Log.e(TAG, "Calling activity not in foreground.");
}
}
@Override
public void invokeBeamInternal(BeamShareData shareData) {
NfcPermissions.enforceAdminPermissions(mContext);
Message msg = Message.obtain();
msg.what = MSG_INVOKE_BEAM;
msg.obj = shareData;
// We have to send this message delayed for two reasons:
// 1) This is an IPC call from BeamShareActivity, which is
// running when the user has invoked Beam through the
// share menu. As soon as BeamShareActivity closes, the UI
// will need some time to rebuild the original Activity.
// Waiting here for a while gives a better chance of the UI
// having been rebuilt, which means the screenshot that the
// Beam animation is using will be more accurate.
// 2) Similarly, because the Activity that launched BeamShareActivity
// with an ACTION_SEND intent is now in paused state, the NDEF
// callbacks that it has registered may no longer be valid.
// Allowing the original Activity to resume will make sure we
// it has a chance to re-register the NDEF message / callback,
// so we share the right data.
//
// Note that this is somewhat of a hack because the delay may not actually
// be long enough for 2) on very slow devices, but there's no better
// way to do this right now without additional framework changes.
mHandler.sendMessageDelayed(msg, INVOKE_BEAM_DELAY_MS);
}
@Override
public INfcTag getNfcTagInterface() throws RemoteException {
return mNfcTagService;
}
@Override
public INfcCardEmulation getNfcCardEmulationInterface() {
if (mIsHceCapable) {
return mCardEmulationManager.getNfcCardEmulationInterface();
} else {
return null;
}
}
@Override
public int getState() throws RemoteException {
synchronized (NfcService.this) {
return mState;
}
}
@Override
protected void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
NfcService.this.dump(fd, pw, args);
}
@Override
public void dispatch(Tag tag) throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
mNfcDispatcher.dispatchTag(tag);
}
@Override
public void setP2pModes(int initiatorModes, int targetModes) throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
mDeviceHost.setP2pInitiatorModes(initiatorModes);
mDeviceHost.setP2pTargetModes(targetModes);
applyRouting(true);
}
@Override
public void setReaderMode(IBinder binder, IAppCallback callback, int flags, Bundle extras)
throws RemoteException {
Log.e(TAG, "================================");
Log.e(TAG, "==== setReaderMode flags:"+flags);
synchronized (NfcService.this) {
if (flags != 0) {
try {
mReaderModeParams = new ReaderModeParams();
mReaderModeParams.callback = callback;
mReaderModeParams.flags = flags;
mReaderModeParams.presenceCheckDelay = extras != null
? (extras.getInt(NfcAdapter.EXTRA_READER_PRESENCE_CHECK_DELAY,
DEFAULT_PRESENCE_CHECK_DELAY))
: DEFAULT_PRESENCE_CHECK_DELAY;
binder.linkToDeath(mReaderModeDeathRecipient, 0);
} catch (RemoteException e) {
Log.e(TAG, "Remote binder has already died.");
return;
}
} else {
try {
mReaderModeParams = null;
binder.unlinkToDeath(mReaderModeDeathRecipient, 0);
} catch (NoSuchElementException e) {
Log.e(TAG, "Reader mode Binder was never registered.");
}
}
applyRouting(false);
}
}
@Override
public INfcAdapterExtras getNfcAdapterExtrasInterface(String pkg) throws RemoteException {
NfcService.this.enforceNfceeAdminPerm(pkg);
return mExtrasService;
}
/// M: GSMA@ {
@Override
public INfcAdapterGsmaExtras getNfcAdapterGsmaExtrasInterface() throws RemoteException {
//NfcService.this.enforceNfceeAdminPerm(pkg);
return NfcGsmaExtraService.getInstance();
}
/// }
@Override
public void addNfcUnlockHandler(INfcUnlockHandler unlockHandler, int[] techList) {
NfcPermissions.enforceAdminPermissions(mContext);
int lockscreenPollMask = computeLockscreenPollMask(techList);
synchronized (NfcService.this) {
mNfcUnlockManager.addUnlockHandler(unlockHandler, lockscreenPollMask);
}
applyRouting(false);
}
@Override
public void removeNfcUnlockHandler(INfcUnlockHandler token) throws RemoteException {
synchronized (NfcService.this) {
mNfcUnlockManager.removeUnlockHandler(token.asBinder());
}
applyRouting(false);
}
private int computeLockscreenPollMask(int[] techList) {
Map techCodeToMask = new HashMap();
techCodeToMask.put(TagTechnology.NFC_A, NfcService.NFC_POLL_A);
techCodeToMask.put(TagTechnology.NFC_B, NfcService.NFC_POLL_B);
techCodeToMask.put(TagTechnology.NFC_V, NfcService.NFC_POLL_ISO15693);
techCodeToMask.put(TagTechnology.NFC_F, NfcService.NFC_POLL_F);
techCodeToMask.put(TagTechnology.NFC_BARCODE, NfcService.NFC_POLL_KOVIO);
int mask = 0;
for (int i = 0; i < techList.length; i++) {
if (techCodeToMask.containsKey(techList[i])) {
mask |= techCodeToMask.get(techList[i]).intValue();
}
}
return mask;
}
/// M: @ {
public int getModeFlag(int mode) throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
return MtkNfcAddonSequence.getInstance().getModeFlag(mode, NfcService.this);
}
public void setModeFlag(int mode, int flag) throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
MtkNfcAddonSequence.getInstance().setModeFlag(isNfcEnabled(), mode, flag, NfcService.this);
}
/// }
}
final class ReaderModeDeathRecipient implements IBinder.DeathRecipient {
@Override
public void binderDied() {
synchronized (NfcService.this) {
Log.e(TAG, "binderDied() mReaderModeParams:"+mReaderModeParams);
if (mReaderModeParams != null) {
mReaderModeParams = null;
applyRouting(false);
}
}
}
}
final class TagService extends INfcTag.Stub {
@Override
public int close(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "close(.) nativeHandle:"+nativeHandle);
TagEndpoint tag = null;
if (!isNfcEnabled()) {
return ErrorCodes.ERROR_NOT_INITIALIZED;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag != null) {
/* Remove the device from the hmap */
unregisterObject(nativeHandle);
tag.disconnect();
return ErrorCodes.SUCCESS;
}
/* Restart polling loop for notification */
applyRouting(true);
return ErrorCodes.ERROR_DISCONNECT;
}
@Override
public int connect(int nativeHandle, int technology) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
TagEndpoint tag = null;
Log.d(TAG, "connect(..) nativeHandle:"+nativeHandle+" technology:"+technology);
if (!isNfcEnabled()) {
return ErrorCodes.ERROR_NOT_INITIALIZED;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag == null) {
return ErrorCodes.ERROR_DISCONNECT;
}
if (!tag.isPresent()) {
return ErrorCodes.ERROR_DISCONNECT;
}
// Note that on most tags, all technologies are behind a single
// handle. This means that the connect at the lower levels
// will do nothing, as the tag is already connected to that handle.
if (tag.connect(technology)) {
return ErrorCodes.SUCCESS;
} else {
return ErrorCodes.ERROR_DISCONNECT;
}
}
@Override
public int reconnect(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "reconnect(..) nativeHandle:"+nativeHandle);
TagEndpoint tag = null;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return ErrorCodes.ERROR_NOT_INITIALIZED;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag != null) {
if (tag.reconnect()) {
return ErrorCodes.SUCCESS;
} else {
return ErrorCodes.ERROR_DISCONNECT;
}
}
return ErrorCodes.ERROR_DISCONNECT;
}
@Override
public int[] getTechList(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
// Check if NFC is enabled
if (!isNfcEnabled()) {
return null;
}
/* find the tag in the hmap */
TagEndpoint tag = (TagEndpoint) findObject(nativeHandle);
if (tag != null) {
return tag.getTechList();
}
return null;
}
@Override
public boolean isPresent(int nativeHandle) throws RemoteException {
TagEndpoint tag = null;
Log.d(TAG, "isPresent(..) nativeHandle:"+nativeHandle);
// Check if NFC is enabled
if (!isNfcEnabled()) {
return false;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag == null) {
return false;
}
return tag.isPresent();
}
@Override
public boolean isNdef(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "isNdef(.) nativeHandle:"+nativeHandle);
TagEndpoint tag = null;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return false;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
int[] ndefInfo = new int[2];
if (tag == null) {
return false;
}
return tag.checkNdef(ndefInfo);
}
@Override
public TransceiveResult transceive(int nativeHandle, byte[] data, boolean raw)
throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "transceive(..) nativeHandle:"+nativeHandle);
TagEndpoint tag = null;
byte[] response;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return null;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag != null) {
// Check if length is within limits
if (data.length > getMaxTransceiveLength(tag.getConnectedTechnology())) {
return new TransceiveResult(TransceiveResult.RESULT_EXCEEDED_LENGTH, null);
}
int[] targetLost = new int[1];
response = tag.transceive(data, raw, targetLost);
int result;
if (response != null) {
result = TransceiveResult.RESULT_SUCCESS;
} else if (targetLost[0] == 1) {
result = TransceiveResult.RESULT_TAGLOST;
} else {
result = TransceiveResult.RESULT_FAILURE;
}
return new TransceiveResult(result, response);
}
return null;
}
@Override
public NdefMessage ndefRead(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
TagEndpoint tag;
Log.d(TAG, "ndefRead(..) nativeHandle:"+nativeHandle);
// Check if NFC is enabled
if (!isNfcEnabled()) {
return null;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag != null) {
byte[] buf = tag.readNdef();
if (buf == null) {
return null;
}
/* Create an NdefMessage */
try {
return new NdefMessage(buf);
} catch (FormatException e) {
return null;
}
}
return null;
}
@Override
public int ndefWrite(int nativeHandle, NdefMessage msg) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
TagEndpoint tag;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return ErrorCodes.ERROR_NOT_INITIALIZED;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag == null) {
return ErrorCodes.ERROR_IO;
}
if (msg == null) return ErrorCodes.ERROR_INVALID_PARAM;
if (tag.writeNdef(msg.toByteArray())) {
return ErrorCodes.SUCCESS;
} else {
return ErrorCodes.ERROR_IO;
}
}
@Override
public boolean ndefIsWritable(int nativeHandle) throws RemoteException {
throw new UnsupportedOperationException();
}
@Override
public int ndefMakeReadOnly(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
TagEndpoint tag;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return ErrorCodes.ERROR_NOT_INITIALIZED;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag == null) {
return ErrorCodes.ERROR_IO;
}
if (tag.makeReadOnly()) {
return ErrorCodes.SUCCESS;
} else {
return ErrorCodes.ERROR_IO;
}
}
@Override
public int formatNdef(int nativeHandle, byte[] key) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "formatNdef(.) nativeHandle:"+nativeHandle);
TagEndpoint tag;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return ErrorCodes.ERROR_NOT_INITIALIZED;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag == null) {
return ErrorCodes.ERROR_IO;
}
if (tag.formatNdef(key)) {
return ErrorCodes.SUCCESS;
} else {
return ErrorCodes.ERROR_IO;
}
}
@Override
public Tag rediscover(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "rediscover(.) nativeHandle:"+nativeHandle);
TagEndpoint tag = null;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return null;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag != null) {
// For now the prime usecase for rediscover() is to be able
// to access the NDEF technology after formatting without
// having to remove the tag from the field, or similar
// to have access to NdefFormatable in case low-level commands
// were used to remove NDEF. So instead of doing a full stack
// rediscover (which is poorly supported at the moment anyway),
// we simply remove these two technologies and detect them
// again.
tag.removeTechnology(TagTechnology.NDEF);
tag.removeTechnology(TagTechnology.NDEF_FORMATABLE);
tag.findAndReadNdef();
// Build a new Tag object to return
Tag newTag = new Tag(tag.getUid(), tag.getTechList(),
tag.getTechExtras(), tag.getHandle(), this);
return newTag;
}
return null;
}
@Override
public int setTimeout(int tech, int timeout) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "setTimeout(..) tech:"+tech+" timeout:"+timeout);
boolean success = mDeviceHost.setTimeout(tech, timeout);
if (success) {
return ErrorCodes.SUCCESS;
} else {
return ErrorCodes.ERROR_INVALID_PARAM;
}
}
@Override
public int getTimeout(int tech) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
return mDeviceHost.getTimeout(tech);
}
@Override
public void resetTimeouts() throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
mDeviceHost.resetTimeouts();
}
@Override
public boolean canMakeReadOnly(int ndefType) throws RemoteException {
return mDeviceHost.canMakeReadOnly(ndefType);
}
@Override
public int getMaxTransceiveLength(int tech) throws RemoteException {
return mDeviceHost.getMaxTransceiveLength(tech);
}
@Override
public boolean getExtendedLengthApdusSupported() throws RemoteException {
return mDeviceHost.getExtendedLengthApdusSupported();
}
}
boolean isNfcEnabledOrShuttingDown() {
synchronized (this) {
return (mState == NfcAdapter.STATE_ON || mState == NfcAdapter.STATE_TURNING_OFF);
}
}
boolean isNfcEnabled() {
synchronized (this) {
return mState == NfcAdapter.STATE_ON;
}
}
class WatchDogThread extends Thread {
final Object mCancelWaiter = new Object();
final int mTimeout;
boolean mCanceled = false;
public WatchDogThread(String threadName, int timeout) {
super(threadName);
mTimeout = timeout;
}
@Override
public void run() {
try {
synchronized (mCancelWaiter) {
mCancelWaiter.wait(mTimeout);
if (mCanceled) {
return;
}
}
} catch (InterruptedException e) {
// Should not happen; fall-through to abort.
Log.w(TAG, "Watchdog thread interruped.");
interrupt();
}
Log.e(TAG, "Watchdog triggered, aborting.");
mDeviceHost.doAbort();
}
public synchronized void cancel() {
synchronized (mCancelWaiter) {
mCanceled = true;
mCancelWaiter.notify();
}
}
}
static byte[] hexStringToBytes(String s) {
if (s == null || s.length() == 0) return null;
int len = s.length();
if (len % 2 != 0) {
s = '0' + s;
len++;
}
byte[] data = new byte[len / 2];
for (int i = 0; i < len; i += 2) {
data[i / 2] = (byte) ((Character.digit(s.charAt(i), 16) << 4)
+ Character.digit(s.charAt(i + 1), 16));
}
return data;
}
/**
* Read mScreenState and apply NFC-C polling and NFC-EE routing
*/
void applyRouting(boolean force) {
Log.d("oyp", "<----applyRouting()---->");
synchronized (this) {
/// M: @ {
if (!isNfcEnabledOrShuttingDown() || mOpenEe != null) {
return;
}
/// }
WatchDogThread watchDog = new WatchDogThread("applyRouting", ROUTING_WATCHDOG_MS);
if (mInProvisionMode) {
mInProvisionMode = Settings.Secure.getInt(mContentResolver,
Settings.Global.DEVICE_PROVISIONED, 0) == 0;
if (!mInProvisionMode) {
// Notify dispatcher it's fine to dispatch to any package now
// and allow handover transfers.
mNfcDispatcher.disableProvisioningMode();
}
}
// Special case: if we're transitioning to unlocked state while
// still talking to a tag, postpone re-configuration.
if (mScreenState == ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED && isTagPresent()) {
Log.d(TAG, "Not updating discovery parameters, tag connected.");
mHandler.sendMessageDelayed(mHandler.obtainMessage(MSG_RESUME_POLLING),
APPLY_ROUTING_RETRY_TIMEOUT_MS);
return;
}
/// M: @ {
// configure NFC-EE routing
if (mScreenState >= ScreenStateHelper.SCREEN_STATE_ON_LOCKED &&
mEeRoutingState == ROUTE_ON_WHEN_SCREEN_ON) {
if (force || !mNfceeRouteEnabled) {
Log.d(TAG, "NFC-EE ON");
mNfceeRouteEnabled = true;
mNativeNfcManager.deselectSecureElement();
}
} else {
if (force || mNfceeRouteEnabled) {
Log.d(TAG, "NFC-EE OFF");
mNfceeRouteEnabled = false;//edited by ouyang [2015-10-16] start
if (mEeRoutingState == ROUTE_ON_WHEN_SCREEN_ON) { /// M: only deselect when using Google Wallet
mNativeNfcManager.deselectSecureElement();
}
}
}
/// }
try {
watchDog.start();
// Compute new polling parameters
NfcDiscoveryParameters newParams = computeDiscoveryParameters(mScreenState);
if (force || !newParams.equals(mCurrentDiscoveryParameters)) {
Log.d(TAG, "newParams.shouldEnableDiscovery()");
if (newParams.shouldEnableDiscovery()) {
Log.d(TAG, "mCurrentDiscoveryParameters.shouldEnableDiscovery()");
boolean shouldRestart = mCurrentDiscoveryParameters.shouldEnableDiscovery();
Log.d(TAG, "shouldRestart:"+shouldRestart);
mDeviceHost.enableDiscovery(newParams, shouldRestart);
} else {
mDeviceHost.disableDiscovery();
}
mCurrentDiscoveryParameters = newParams;
} else {
Log.d(TAG, "Discovery configuration equal, not updating.");
}
} finally {
watchDog.cancel();
}
}
}
private NfcDiscoveryParameters computeDiscoveryParameters(int screenState) {
Log.d(TAG, "computeDiscoveryParameters() screenState:"+describeScreenState(screenState));
if(screenState == ScreenStateHelper.SCREEN_STATE_ON_LOCKED)
Log.d(TAG, "!!!! SCREEN_STATE_ON_LOCKED,, mNfcUnlockManager.isLockscreenPollingEnabled():"+mNfcUnlockManager.isLockscreenPollingEnabled());
// Recompute discovery parameters based on screen state
NfcDiscoveryParameters.Builder paramsBuilder = NfcDiscoveryParameters.newBuilder();
// Polling
// if (screenState >= NFC_POLLING_MODE) {
//edited by ouyang [2015-10-19 11:13:17]
if (screenState >= getNFC_POLLING_MODE()) {
// Check if reader-mode is enabled
Log.d("oyp", "1、NFC_POLLING_MODE="+getNFC_POLLING_MODE());
修改之前的代码如下:
/*
* Copyright (C) 2014 MediaTek Inc.
* Modification based on code covered by the mentioned copyright
* and/or permission notice(s).
*/
/*
* Copyright (C) 2010 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 com.android.nfc; import android.app.ActivityManager;
import android.app.Application;
import android.app.KeyguardManager;
import android.app.PendingIntent;
import android.app.admin.DevicePolicyManager;
import android.content.BroadcastReceiver;
import android.content.ComponentName;
import android.content.ContentResolver;
import android.content.Context;
import android.content.Intent;
import android.content.IntentFilter;
import android.content.SharedPreferences;
import android.content.pm.IPackageManager;
import android.content.pm.PackageInfo;
import android.content.pm.PackageManager;
import android.content.pm.UserInfo;
import android.content.res.Resources.NotFoundException;
import android.media.AudioManager;
import android.media.SoundPool;
import android.nfc.BeamShareData;
import android.nfc.ErrorCodes;
import android.nfc.FormatException;
import android.nfc.IAppCallback;
import android.nfc.INfcAdapter;
import android.nfc.INfcAdapterExtras;
import android.nfc.INfcCardEmulation;
import android.nfc.INfcTag;
import android.nfc.INfcUnlockHandler;
import android.nfc.NdefMessage;
import android.nfc.NfcAdapter;
import android.nfc.Tag;
import android.nfc.TechListParcel;
import android.nfc.TransceiveResult;
import android.nfc.tech.Ndef;
import android.nfc.tech.TagTechnology;
import android.os.AsyncTask;
import android.os.Binder;
import android.os.Build;
import android.os.Bundle;
import android.os.Handler;
import android.os.IBinder;
import android.os.Message;
import android.os.PowerManager;
import android.os.Process;
import android.os.RemoteException;
import android.os.ServiceManager;
import android.os.UserHandle;
import android.os.UserManager;
import android.provider.Settings;
import android.util.Log; import com.android.nfc.DeviceHost.DeviceHostListener;
import com.android.nfc.DeviceHost.LlcpConnectionlessSocket;
import com.android.nfc.DeviceHost.LlcpServerSocket;
import com.android.nfc.DeviceHost.LlcpSocket;
import com.android.nfc.DeviceHost.NfcDepEndpoint;
import com.android.nfc.DeviceHost.TagEndpoint;
import com.android.nfc.cardemulation.CardEmulationManager;
import com.android.nfc.dhimpl.NativeNfcManager;
import com.android.nfc.handover.HandoverDataParser; import java.io.FileDescriptor;
import java.io.PrintWriter;
import java.util.Arrays;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.NoSuchElementException; /// M: @ {
import android.os.SystemClock;
import com.mediatek.nfc.handover.MtkNfcEntry;
import com.android.nfc.dhimpl.NativeNfcSecureElement;
import java.io.IOException;
import java.util.HashSet;
import java.util.concurrent.ExecutionException; import com.mediatek.nfc.addon.MtkNfcAddonSequence;
import com.mediatek.nfc.addon.NfcStatusNotificationUi; import com.mediatek.nfc.addon.Utility;
import android.widget.Toast;
import android.database.ContentObserver;
import android.net.Uri; import com.mediatek.nfc.gsmahandset.NfcGsmaExtraService;
import android.nfc.INfcAdapterGsmaExtras;
import android.os.SystemProperties; /// } public class NfcService implements DeviceHostListener {
static final boolean DBG = true;
static final String TAG = "NfcService"; public static final String SERVICE_NAME = "nfc"; public static final String PREF = "NfcServicePrefs"; static final String PREF_NFC_ON = "nfc_on";
static final boolean NFC_ON_DEFAULT = true;
static final String PREF_NDEF_PUSH_ON = "ndef_push_on";
static final boolean NDEF_PUSH_ON_DEFAULT = true;
static final String PREF_FIRST_BEAM = "first_beam";
static final String PREF_FIRST_BOOT = "first_boot";
static final String PREF_AIRPLANE_OVERRIDE = "airplane_override"; /// M: @ {
public static final String NFC_HCE_ON = "nfc_hce_on"; //value type: int,0 for Off, 1 for on
/// } static final int MSG_NDEF_TAG = 0;
static final int MSG_LLCP_LINK_ACTIVATION = 1;
static final int MSG_LLCP_LINK_DEACTIVATED = 2;
static final int MSG_MOCK_NDEF = 3;
static final int MSG_LLCP_LINK_FIRST_PACKET = 4;
static final int MSG_ROUTE_AID = 5;
static final int MSG_UNROUTE_AID = 6;
static final int MSG_COMMIT_ROUTING = 7;
static final int MSG_INVOKE_BEAM = 8;
static final int MSG_RF_FIELD_ACTIVATED = 9;
static final int MSG_RF_FIELD_DEACTIVATED = 10;
static final int MSG_RESUME_POLLING = 11; static final long MAX_POLLING_PAUSE_TIMEOUT = 40000; static final int TASK_ENABLE = 1;
static final int TASK_DISABLE = 2;
static final int TASK_BOOT = 3; // Polling technology masks
static final int NFC_POLL_A = 0x01;
static final int NFC_POLL_B = 0x02;
static final int NFC_POLL_F = 0x04;
static final int NFC_POLL_ISO15693 = 0x08;
static final int NFC_POLL_B_PRIME = 0x10;
static final int NFC_POLL_KOVIO = 0x20; /// M: @ {
// Copied from com.android.nfc_extras to avoid library dependency
// Must keep in sync with com.android.nfc_extras
static final int ROUTE_OFF = 1;
static final int ROUTE_ON_WHEN_SCREEN_ON = 2; // Return values from NfcEe.open() - these are 1:1 mapped
// to the thrown EE_EXCEPTION_ exceptions in nfc-extras.
static final int EE_ERROR_IO = -1;
static final int EE_ERROR_ALREADY_OPEN = -2;
static final int EE_ERROR_INIT = -3;
static final int EE_ERROR_LISTEN_MODE = -4;
static final int EE_ERROR_EXT_FIELD = -5;
static final int EE_ERROR_NFC_DISABLED = -6; // Amount of time to wait before closing the NFCEE connection
// in a disable/shutdown scenario.
static final int WAIT_FOR_NFCEE_OPERATIONS_MS = 5000;
// Polling interval for waiting on NFCEE operations
static final int WAIT_FOR_NFCEE_POLL_MS = 100;
/// } // minimum screen state that enables NFC polling
static final int NFC_POLLING_MODE = ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED; // Time to wait for NFC controller to initialize before watchdog
// goes off. This time is chosen large, because firmware download
// may be a part of initialization.
static final int INIT_WATCHDOG_MS = 90000; // Time to wait for routing to be applied before watchdog
// goes off
static final int ROUTING_WATCHDOG_MS = 10000; // Default delay used for presence checks
static final int DEFAULT_PRESENCE_CHECK_DELAY = 125; // The amount of time we wait before manually launching
// the Beam animation when called through the share menu.
static final int INVOKE_BEAM_DELAY_MS = 1000; // RF field events as defined in NFC extras
public static final String ACTION_RF_FIELD_ON_DETECTED =
"com.android.nfc_extras.action.RF_FIELD_ON_DETECTED";
public static final String ACTION_RF_FIELD_OFF_DETECTED =
"com.android.nfc_extras.action.RF_FIELD_OFF_DETECTED"; // for use with playSound()
public static final int SOUND_START = 0;
public static final int SOUND_END = 1;
public static final int SOUND_ERROR = 2; public static final String ACTION_LLCP_UP =
"com.android.nfc.action.LLCP_UP"; public static final String ACTION_LLCP_DOWN =
"com.android.nfc.action.LLCP_DOWN"; // Timeout to re-apply routing if a tag was present and we postponed it
private static final int APPLY_ROUTING_RETRY_TIMEOUT_MS = 5000; private final UserManager mUserManager; // NFC Execution Environment
// fields below are protected by this
private final ReaderModeDeathRecipient mReaderModeDeathRecipient =
new ReaderModeDeathRecipient();
private final NfcUnlockManager mNfcUnlockManager; private final NfceeAccessControl mNfceeAccessControl; List mInstalledPackages; // cached version of installed packages // fields below are used in multiple threads and protected by synchronized(this)
final HashMap mObjectMap = new HashMap();
int mScreenState;
boolean mInProvisionMode; // whether we're in setup wizard and enabled NFC provisioning
boolean mIsNdefPushEnabled;
NfcDiscoveryParameters mCurrentDiscoveryParameters =
NfcDiscoveryParameters.getNfcOffParameters(); ReaderModeParams mReaderModeParams; // mState is protected by this, however it is only modified in onCreate()
// and the default AsyncTask thread so it is read unprotected from that
// thread
int mState; // one of NfcAdapter.STATE_ON, STATE_TURNING_ON, etc
// fields below are final after onCreate()
Context mContext;
private DeviceHost mDeviceHost;
private SharedPreferences mPrefs;
private SharedPreferences.Editor mPrefsEditor;
private PowerManager.WakeLock mRoutingWakeLock; int mStartSound;
int mEndSound;
int mErrorSound;
SoundPool mSoundPool; // playback synchronized on this
P2pLinkManager mP2pLinkManager;
TagService mNfcTagService;
NfcAdapterService mNfcAdapter;
boolean mIsAirplaneSensitive;
boolean mIsAirplaneToggleable;
boolean mIsDebugBuild;
boolean mIsHceCapable;
boolean mPollingPaused; private NfcDispatcher mNfcDispatcher;
private PowerManager mPowerManager;
private KeyguardManager mKeyguard;
private HandoverDataParser mHandoverDataParser;
private ContentResolver mContentResolver;
private CardEmulationManager mCardEmulationManager; private ScreenStateHelper mScreenStateHelper;
private ForegroundUtils mForegroundUtils; private int mUserId;
private static NfcService sService; public static NfcService getInstance() {
return sService;
} @Override
public void onRemoteEndpointDiscovered(TagEndpoint tag) {
sendMessage(NfcService.MSG_NDEF_TAG, tag);
} /**
* Notifies transaction
*/
@Override
public void onHostCardEmulationActivated() {
/// M: @ {
if (mCardEmulationManager != null && mIsHceOn) {
mCardEmulationManager.onHostCardEmulationActivated();
}
/// } } @Override
public void onHostCardEmulationData(byte[] data) {
/// M: @ {
if (mCardEmulationManager != null && mIsHceOn) {
mCardEmulationManager.onHostCardEmulationData(data);
}
/// } } @Override
public void onHostCardEmulationDeactivated() {
if (mCardEmulationManager != null) {
mCardEmulationManager.onHostCardEmulationDeactivated();
}
} /**
* Notifies P2P Device detected, to activate LLCP link
*/
@Override
public void onLlcpLinkActivated(NfcDepEndpoint device) {
sendMessage(NfcService.MSG_LLCP_LINK_ACTIVATION, device);
} /**
* Notifies P2P Device detected, to activate LLCP link
*/
@Override
public void onLlcpLinkDeactivated(NfcDepEndpoint device) {
sendMessage(NfcService.MSG_LLCP_LINK_DEACTIVATED, device);
} /**
* Notifies P2P Device detected, first packet received over LLCP link
*/
@Override
public void onLlcpFirstPacketReceived(NfcDepEndpoint device) {
sendMessage(NfcService.MSG_LLCP_LINK_FIRST_PACKET, device);
} @Override
public void onRemoteFieldActivated() {
sendMessage(NfcService.MSG_RF_FIELD_ACTIVATED, null);
} public void onRemoteFieldDeactivated() {
sendMessage(NfcService.MSG_RF_FIELD_DEACTIVATED, null);
} final class ReaderModeParams {
public int flags;
public IAppCallback callback;
public int presenceCheckDelay;
} public NfcService(Application nfcApplication) {
mUserId = ActivityManager.getCurrentUser();
mContext = nfcApplication; mNfcTagService = new TagService();
mNfcAdapter = new NfcAdapterService();
Log.i(TAG, "Starting NFC service"); sService = this; mScreenStateHelper = new ScreenStateHelper(mContext);
mContentResolver = mContext.getContentResolver(); /// M: @{
mNativeNfcManager = new NativeNfcManager(mContext, this);
mDeviceHost = (DeviceHost) mNativeNfcManager;
/// } mNfcUnlockManager = NfcUnlockManager.getInstance(); mHandoverDataParser = new HandoverDataParser();
boolean isNfcProvisioningEnabled = false;
try {
isNfcProvisioningEnabled = mContext.getResources().getBoolean(
R.bool.enable_nfc_provisioning);
} catch (NotFoundException e) {
} if (isNfcProvisioningEnabled) {
mInProvisionMode = Settings.Secure.getInt(mContentResolver,
Settings.Global.DEVICE_PROVISIONED, 0) == 0;
} else {
mInProvisionMode = false;
} mNfcDispatcher = new NfcDispatcher(mContext, mHandoverDataParser, mInProvisionMode);
mP2pLinkManager = new P2pLinkManager(mContext, mHandoverDataParser,
mDeviceHost.getDefaultLlcpMiu(), mDeviceHost.getDefaultLlcpRwSize()); mPrefs = mContext.getSharedPreferences(PREF, Context.MODE_PRIVATE);
mPrefsEditor = mPrefs.edit(); mNfceeAccessControl = new NfceeAccessControl(mContext); mState = NfcAdapter.STATE_OFF;
mIsNdefPushEnabled = mPrefs.getBoolean(PREF_NDEF_PUSH_ON, NDEF_PUSH_ON_DEFAULT);
setBeamShareActivityState(mIsNdefPushEnabled); mIsDebugBuild = "userdebug".equals(Build.TYPE) || "eng".equals(Build.TYPE); mPowerManager = (PowerManager) mContext.getSystemService(Context.POWER_SERVICE); mRoutingWakeLock = mPowerManager.newWakeLock(
PowerManager.PARTIAL_WAKE_LOCK, "NfcService:mRoutingWakeLock"); mKeyguard = (KeyguardManager) mContext.getSystemService(Context.KEYGUARD_SERVICE);
mUserManager = (UserManager) mContext.getSystemService(Context.USER_SERVICE); mScreenState = mScreenStateHelper.checkScreenState(); /// M: @ {
if (NativeNfcManager.sIsUnsupportedChip) {
return;
}
/// }
ServiceManager.addService(SERVICE_NAME, mNfcAdapter); // Intents for all users
IntentFilter filter = new IntentFilter(Intent.ACTION_SCREEN_OFF);
filter.addAction(Intent.ACTION_SCREEN_ON);
filter.addAction(Intent.ACTION_USER_PRESENT);
filter.addAction(Intent.ACTION_USER_SWITCHED);
registerForAirplaneMode(filter);
mContext.registerReceiverAsUser(mReceiver, UserHandle.ALL, filter, null, null); IntentFilter ownerFilter = new IntentFilter(Intent.ACTION_EXTERNAL_APPLICATIONS_AVAILABLE);
ownerFilter.addAction(Intent.ACTION_EXTERNAL_APPLICATIONS_UNAVAILABLE);
mContext.registerReceiver(mOwnerReceiver, ownerFilter); ownerFilter = new IntentFilter();
ownerFilter.addAction(Intent.ACTION_PACKAGE_ADDED);
ownerFilter.addAction(Intent.ACTION_PACKAGE_REMOVED);
ownerFilter.addDataScheme("package");
mContext.registerReceiver(mOwnerReceiver, ownerFilter); IntentFilter policyFilter = new IntentFilter(DevicePolicyManager.ACTION_DEVICE_POLICY_MANAGER_STATE_CHANGED);
mContext.registerReceiverAsUser(mPolicyReceiver, UserHandle.ALL, policyFilter, null, null); updatePackageCache(); PackageManager pm = mContext.getPackageManager();
mIsHceCapable = pm.hasSystemFeature(PackageManager.FEATURE_NFC_HOST_CARD_EMULATION);
if (mIsHceCapable) {
mCardEmulationManager = new CardEmulationManager(mContext);
}
mForegroundUtils = ForegroundUtils.getInstance();
/// M: {
initAddon();
/// }
new EnableDisableTask().execute(TASK_BOOT); // do blocking boot tasks
} void initSoundPool() {
synchronized (this) {
if (mSoundPool == null) {
mSoundPool = new SoundPool(1, AudioManager.STREAM_NOTIFICATION, 0);
/// M: bug-fix for SoundPool issues @ {
Utility.SoundPoolListener soundPoolListener = new Utility.SoundPoolListener(mSoundPool);
mStartSound = mSoundPool.load(mContext, R.raw.start, 1);
mEndSound = mSoundPool.load(mContext, R.raw.end, 1);
mErrorSound = mSoundPool.load(mContext, R.raw.error, 1);
soundPoolListener.waitForSamplesReady(new int[] {mStartSound, mEndSound, mErrorSound});
/// }
}
}
} void releaseSoundPool() {
synchronized (this) {
if (mSoundPool != null) {
mSoundPool.release();
mSoundPool = null;
}
}
} void registerForAirplaneMode(IntentFilter filter) {
final String airplaneModeRadios = Settings.System.getString(mContentResolver,
Settings.Global.AIRPLANE_MODE_RADIOS);
final String toggleableRadios = Settings.System.getString(mContentResolver,
Settings.Global.AIRPLANE_MODE_TOGGLEABLE_RADIOS); mIsAirplaneSensitive = airplaneModeRadios == null ? true :
airplaneModeRadios.contains(Settings.Global.RADIO_NFC);
mIsAirplaneToggleable = toggleableRadios == null ? false :
toggleableRadios.contains(Settings.Global.RADIO_NFC); if (mIsAirplaneSensitive) {
filter.addAction(Intent.ACTION_AIRPLANE_MODE_CHANGED);
}
} void updatePackageCache() {
PackageManager pm = mContext.getPackageManager();
List packages = pm.getInstalledPackages(0, UserHandle.USER_OWNER);
synchronized (this) {
mInstalledPackages = packages;
}
} /**
* Manages tasks that involve turning on/off the NFC controller.
*
*
All work that might turn the NFC adapter on or off must be done
* through this task, to keep the handling of mState simple.
* In other words, mState is only modified in these tasks (and we
* don't need a lock to read it in these tasks).
*
*
These tasks are all done on the same AsyncTask background
* thread, so they are serialized. Each task may temporarily transition
* mState to STATE_TURNING_OFF or STATE_TURNING_ON, but must exit in
* either STATE_ON or STATE_OFF. This way each task can be guaranteed
* of starting in either STATE_OFF or STATE_ON, without needing to hold
* NfcService.this for the entire task.
*
*
AsyncTask's are also implicitly queued. This is useful for corner
* cases like turning airplane mode on while TASK_ENABLE is in progress.
* The TASK_DISABLE triggered by airplane mode will be correctly executed
* immediately after TASK_ENABLE is complete. This seems like the most sane
* way to deal with these situations.
*
*
{@link #TASK_ENABLE} enables the NFC adapter, without changing
* preferences
*
{@link #TASK_DISABLE} disables the NFC adapter, without changing
* preferences
*
{@link #TASK_BOOT} does first boot work and may enable NFC
*/
class EnableDisableTask extends AsyncTask {
/// M: @ {
EnableDisableTask() {
MtkNfcAddonSequence.getInstance().setScenario(MtkNfcAddonSequence.DISABLE_CARD_MODE_OFF);
}
EnableDisableTask(int scenario) {
MtkNfcAddonSequence.getInstance().setScenario(scenario);
}
/// }
@Override
protected Void doInBackground(Integer... params) {
// Sanity check mState
switch (mState) {
case NfcAdapter.STATE_TURNING_OFF:
case NfcAdapter.STATE_TURNING_ON:
Log.e(TAG, "Processing EnableDisable task " + params[0] + " from bad state " +
mState);
return null;
}
/* AsyncTask sets this thread to THREAD_PRIORITY_BACKGROUND,
* override with the default. THREAD_PRIORITY_BACKGROUND causes
* us to service software I2C too slow for firmware download
* with the NXP PN544.
* TODO: move this to the DAL I2C layer in libnfc-nxp, since this
* problem only occurs on I2C platforms using PN544
*/
Process.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT);
switch (params[0].intValue()) {
case TASK_ENABLE:
enableInternal();
break;
case TASK_DISABLE:
disableInternal();
break;
case TASK_BOOT:
Log.d(TAG, "checking on firmware download");
boolean airplaneOverride = mPrefs.getBoolean(PREF_AIRPLANE_OVERRIDE, false);
if (mPrefs.getBoolean(PREF_NFC_ON, NFC_ON_DEFAULT) &&
(!mIsAirplaneSensitive || !isAirplaneModeOn() || airplaneOverride)) {
Log.d(TAG, "NFC is on. Doing normal stuff");
enableInternal();
} else {
Log.d(TAG, "NFC is off. Checking firmware version");
mDeviceHost.checkFirmware();
}
if (mPrefs.getBoolean(PREF_FIRST_BOOT, true)) {
Log.i(TAG, "First Boot");
mPrefsEditor.putBoolean(PREF_FIRST_BOOT, false);
mPrefsEditor.apply();
}
break;
}
// Restore default AsyncTask priority
Process.setThreadPriority(Process.THREAD_PRIORITY_BACKGROUND);
return null;
}
/**
* Enable NFC adapter functions.
* Does not toggle preferences.
*/
boolean enableInternal() {
if (mState == NfcAdapter.STATE_ON) {
return true;
}
/// M: @ {
// TODO:: updateState to on, move synchronized object
synchronized (NfcService.this) {
Log.i(TAG, "Enabling NFC");
updateState(NfcAdapter.STATE_TURNING_ON);
WatchDogThread watchDog = new WatchDogThread("enableInternal", INIT_WATCHDOG_MS);
watchDog.start();
try {
mRoutingWakeLock.acquire();
try {
if (!mDeviceHost.initialize()) {
Log.w(TAG, "Error enabling NFC");
updateState(NfcAdapter.STATE_OFF);
return false;
}
} finally {
mRoutingWakeLock.release();
}
} finally {
watchDog.cancel();
}
if (mIsHceCapable) {
// Generate the initial card emulation routing table
mCardEmulationManager.onNfcEnabled();
}
//synchronized (NfcService.this) {
/// }
mObjectMap.clear();
mP2pLinkManager.enableDisable(mIsNdefPushEnabled, true);
updateState(NfcAdapter.STATE_ON);
/// M: @ {
mScreenState = mScreenStateHelper.checkScreenState();
/// }
}
initSoundPool();
/* Start polling loop */
applyRouting(true);
/// M: @ {
Log.d(TAG, "showNotification()");
//start weixj at 20151013 Don't show the NFC notification
if(!SystemProperties.isJ5Version()){
NfcStatusNotificationUi.getInstance().showNotification();
}
/// }
//end
return true;
}
/**
* Disable all NFC adapter functions.
* Does not toggle preferences.
*/
boolean disableInternal() {
if (mState == NfcAdapter.STATE_OFF) {
return true;
}
Log.i(TAG, "Disabling NFC");
updateState(NfcAdapter.STATE_TURNING_OFF);
/* Sometimes mDeviceHost.deinitialize() hangs, use a watch-dog.
* Implemented with a new thread (instead of a Handler or AsyncTask),
* because the UI Thread and AsyncTask thread-pools can also get hung
* when the NFC controller stops responding */
WatchDogThread watchDog = new WatchDogThread("disableInternal", ROUTING_WATCHDOG_MS);
watchDog.start();
if (mIsHceCapable) {
mCardEmulationManager.onNfcDisabled();
}
/// M: @ {
boolean result = false;
synchronized (NfcService.this) {
mP2pLinkManager.enableDisable(false, false);
/* The NFC-EE may still be opened by another process,
* and a transceive() could still be in progress on
* another Binder thread.
* Give it a while to finish existing operations
* before we close it.
*/
Long startTime = SystemClock.elapsedRealtime();
do {
synchronized (NfcService.this) {
if (mOpenEe == null)
break;
}
try {
Thread.sleep(WAIT_FOR_NFCEE_POLL_MS);
} catch (InterruptedException e) {
// Ignore
}
} while (SystemClock.elapsedRealtime() - startTime < WAIT_FOR_NFCEE_OPERATIONS_MS);
synchronized (NfcService.this) {
if (mOpenEe != null) {
try {
_nfcEeClose(-1, mOpenEe.binder);
} catch (IOException e) { }
}
}
// Stop watchdog if tag present
// A convenient way to stop the watchdog properly consists of
// disconnecting the tag. The polling loop shall be stopped before
// to avoid the tag being discovered again.
maybeDisconnectTarget();
mNfcDispatcher.setForegroundDispatch(null, null, null);
result = mDeviceHost.deinitialize();
if (DBG) Log.d(TAG, "mDeviceHost.deinitialize() = " + result);
//mNfcPollingEnabled = false;/// MTK: potential bug fix
}
/// }
watchDog.cancel();
synchronized (NfcService.this) {
mCurrentDiscoveryParameters = NfcDiscoveryParameters.getNfcOffParameters();
updateState(NfcAdapter.STATE_OFF);
}
/// M: @ {
//releaseSoundPool();
Log.d(TAG, "hideNotification()");
NfcStatusNotificationUi.getInstance().hideNotification();
/// }
return result;
}
void updateState(int newState) {
synchronized (NfcService.this) {
if (newState == mState) {
return;
}
mState = newState;
Intent intent = new Intent(NfcAdapter.ACTION_ADAPTER_STATE_CHANGED);
intent.setFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY_BEFORE_BOOT);
intent.putExtra(NfcAdapter.EXTRA_ADAPTER_STATE, mState);
mContext.sendBroadcastAsUser(intent, UserHandle.CURRENT);
}
}
}
void saveNfcOnSetting(boolean on) {
synchronized (NfcService.this) {
mPrefsEditor.putBoolean(PREF_NFC_ON, on);
mPrefsEditor.apply();
}
}
public void playSound(int sound) {
synchronized (this) {
if (mSoundPool == null) {
Log.w(TAG, "Not playing sound when NFC is disabled");
return;
}
switch (sound) {
case SOUND_START:
mSoundPool.play(mStartSound, 1.0f, 1.0f, 0, 0, 1.0f);
break;
case SOUND_END:
mSoundPool.play(mEndSound, 1.0f, 1.0f, 0, 0, 1.0f);
break;
case SOUND_ERROR:
mSoundPool.play(mErrorSound, 1.0f, 1.0f, 0, 0, 1.0f);
break;
}
}
}
synchronized int getUserId() {
return mUserId;
}
void setBeamShareActivityState(boolean enabled) {
UserManager um = (UserManager) mContext.getSystemService(Context.USER_SERVICE);
// Propagate the state change to all user profiles related to the current
// user. Note that the list returned by getUserProfiles contains the
// current user.
List luh = um.getUserProfiles();
for (UserHandle uh : luh){
enforceBeamShareActivityPolicy(mContext, uh, enabled);
}
}
void enforceBeamShareActivityPolicy(Context context, UserHandle uh,
boolean isGlobalEnabled){
UserManager um = (UserManager) context.getSystemService(Context.USER_SERVICE);
IPackageManager mIpm = IPackageManager.Stub.asInterface(ServiceManager.getService("package"));
boolean isActiveForUser =
(!um.hasUserRestriction(UserManager.DISALLOW_OUTGOING_BEAM, uh)) &&
isGlobalEnabled;
if (DBG){
Log.d(TAG, "Enforcing a policy change on user: " + uh +
", isActiveForUser = " + isActiveForUser);
}
try {
mIpm.setComponentEnabledSetting(new ComponentName(
BeamShareActivity.class.getPackageName$(),
BeamShareActivity.class.getName()),
isActiveForUser ?
PackageManager.COMPONENT_ENABLED_STATE_ENABLED :
PackageManager.COMPONENT_ENABLED_STATE_DISABLED,
PackageManager.DONT_KILL_APP,
uh.getIdentifier());
} catch (RemoteException e) {
Log.w(TAG, "Unable to change Beam status for user " + uh);
}
}
final class NfcAdapterService extends INfcAdapter.Stub {
@Override
public boolean enable() throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
saveNfcOnSetting(true);
if (mIsAirplaneSensitive && isAirplaneModeOn()) {
if (!mIsAirplaneToggleable) {
Log.i(TAG, "denying enable() request (airplane mode)");
return false;
}
// Make sure the override survives a reboot
mPrefsEditor.putBoolean(PREF_AIRPLANE_OVERRIDE, true);
mPrefsEditor.apply();
}
new EnableDisableTask().execute(TASK_ENABLE);
return true;
}
@Override
public boolean disable(boolean saveState) throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
if (saveState) {
saveNfcOnSetting(false);
}
new EnableDisableTask().execute(TASK_DISABLE);
return true;
}
@Override
public void pausePolling(int timeoutInMs) {
NfcPermissions.enforceAdminPermissions(mContext);
if (timeoutInMs <= 0 || timeoutInMs > MAX_POLLING_PAUSE_TIMEOUT) {
Log.e(TAG, "Refusing to pause polling for " + timeoutInMs + "ms.");
return;
}
synchronized (NfcService.this) {
mPollingPaused = true;
mDeviceHost.disableDiscovery();
mHandler.sendMessageDelayed(
mHandler.obtainMessage(MSG_RESUME_POLLING), timeoutInMs);
}
}
@Override
public void resumePolling() {
NfcPermissions.enforceAdminPermissions(mContext);
synchronized (NfcService.this) {
if (!mPollingPaused) {
return;
}
mHandler.removeMessages(MSG_RESUME_POLLING);
mPollingPaused = false;
new ApplyRoutingTask().execute();
}
}
@Override
public boolean isNdefPushEnabled() throws RemoteException {
synchronized (NfcService.this) {
return mState == NfcAdapter.STATE_ON && mIsNdefPushEnabled;
}
}
@Override
public boolean enableNdefPush() throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
synchronized (NfcService.this) {
if (mIsNdefPushEnabled) {
return true;
}
Log.i(TAG, "enabling NDEF Push");
mPrefsEditor.putBoolean(PREF_NDEF_PUSH_ON, true);
mPrefsEditor.apply();
mIsNdefPushEnabled = true;
setBeamShareActivityState(true);
if (isNfcEnabled()) {
mP2pLinkManager.enableDisable(true, true);
}
}
return true;
}
@Override
public boolean disableNdefPush() throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
synchronized (NfcService.this) {
if (!mIsNdefPushEnabled) {
return true;
}
Log.i(TAG, "disabling NDEF Push");
mPrefsEditor.putBoolean(PREF_NDEF_PUSH_ON, false);
mPrefsEditor.apply();
mIsNdefPushEnabled = false;
setBeamShareActivityState(false);
if (isNfcEnabled()) {
mP2pLinkManager.enableDisable(false, true);
}
}
return true;
}
@Override
public void setForegroundDispatch(PendingIntent intent,
IntentFilter[] filters, TechListParcel techListsParcel) {
NfcPermissions.enforceUserPermissions(mContext);
// Short-cut the disable path
if (intent == null && filters == null && techListsParcel == null) {
mNfcDispatcher.setForegroundDispatch(null, null, null);
return;
}
// Validate the IntentFilters
if (filters != null) {
if (filters.length == 0) {
filters = null;
} else {
for (IntentFilter filter : filters) {
if (filter == null) {
throw new IllegalArgumentException("null IntentFilter");
}
}
}
}
// Validate the tech lists
String[][] techLists = null;
if (techListsParcel != null) {
techLists = techListsParcel.getTechLists();
}
mNfcDispatcher.setForegroundDispatch(intent, filters, techLists);
}
@Override
public void setAppCallback(IAppCallback callback) {
NfcPermissions.enforceUserPermissions(mContext);
// don't allow Beam for managed profiles, or devices with a device owner or policy owner
UserInfo userInfo = mUserManager.getUserInfo(UserHandle.getCallingUserId());
if(!mUserManager.hasUserRestriction(
UserManager.DISALLOW_OUTGOING_BEAM, userInfo.getUserHandle())) {
mP2pLinkManager.setNdefCallback(callback, Binder.getCallingUid());
} else if (DBG) {
Log.d(TAG, "Disabling default Beam behavior");
}
}
@Override
public void verifyNfcPermission() {
NfcPermissions.enforceUserPermissions(mContext);
}
@Override
public void invokeBeam() {
NfcPermissions.enforceUserPermissions(mContext);
if (mForegroundUtils.isInForeground(Binder.getCallingUid())) {
mP2pLinkManager.onManualBeamInvoke(null);
} else {
Log.e(TAG, "Calling activity not in foreground.");
}
}
@Override
public void invokeBeamInternal(BeamShareData shareData) {
NfcPermissions.enforceAdminPermissions(mContext);
Message msg = Message.obtain();
msg.what = MSG_INVOKE_BEAM;
msg.obj = shareData;
// We have to send this message delayed for two reasons:
// 1) This is an IPC call from BeamShareActivity, which is
// running when the user has invoked Beam through the
// share menu. As soon as BeamShareActivity closes, the UI
// will need some time to rebuild the original Activity.
// Waiting here for a while gives a better chance of the UI
// having been rebuilt, which means the screenshot that the
// Beam animation is using will be more accurate.
// 2) Similarly, because the Activity that launched BeamShareActivity
// with an ACTION_SEND intent is now in paused state, the NDEF
// callbacks that it has registered may no longer be valid.
// Allowing the original Activity to resume will make sure we
// it has a chance to re-register the NDEF message / callback,
// so we share the right data.
//
// Note that this is somewhat of a hack because the delay may not actually
// be long enough for 2) on very slow devices, but there's no better
// way to do this right now without additional framework changes.
mHandler.sendMessageDelayed(msg, INVOKE_BEAM_DELAY_MS);
}
@Override
public INfcTag getNfcTagInterface() throws RemoteException {
return mNfcTagService;
}
@Override
public INfcCardEmulation getNfcCardEmulationInterface() {
if (mIsHceCapable) {
return mCardEmulationManager.getNfcCardEmulationInterface();
} else {
return null;
}
}
@Override
public int getState() throws RemoteException {
synchronized (NfcService.this) {
return mState;
}
}
@Override
protected void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
NfcService.this.dump(fd, pw, args);
}
@Override
public void dispatch(Tag tag) throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
mNfcDispatcher.dispatchTag(tag);
}
@Override
public void setP2pModes(int initiatorModes, int targetModes) throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
mDeviceHost.setP2pInitiatorModes(initiatorModes);
mDeviceHost.setP2pTargetModes(targetModes);
applyRouting(true);
}
@Override
public void setReaderMode(IBinder binder, IAppCallback callback, int flags, Bundle extras)
throws RemoteException {
Log.e(TAG, "================================");
Log.e(TAG, "==== setReaderMode flags:"+flags);
synchronized (NfcService.this) {
if (flags != 0) {
try {
mReaderModeParams = new ReaderModeParams();
mReaderModeParams.callback = callback;
mReaderModeParams.flags = flags;
mReaderModeParams.presenceCheckDelay = extras != null
? (extras.getInt(NfcAdapter.EXTRA_READER_PRESENCE_CHECK_DELAY,
DEFAULT_PRESENCE_CHECK_DELAY))
: DEFAULT_PRESENCE_CHECK_DELAY;
binder.linkToDeath(mReaderModeDeathRecipient, 0);
} catch (RemoteException e) {
Log.e(TAG, "Remote binder has already died.");
return;
}
} else {
try {
mReaderModeParams = null;
binder.unlinkToDeath(mReaderModeDeathRecipient, 0);
} catch (NoSuchElementException e) {
Log.e(TAG, "Reader mode Binder was never registered.");
}
}
applyRouting(false);
}
}
@Override
public INfcAdapterExtras getNfcAdapterExtrasInterface(String pkg) throws RemoteException {
NfcService.this.enforceNfceeAdminPerm(pkg);
return mExtrasService;
}
/// M: GSMA@ {
@Override
public INfcAdapterGsmaExtras getNfcAdapterGsmaExtrasInterface() throws RemoteException {
//NfcService.this.enforceNfceeAdminPerm(pkg);
return NfcGsmaExtraService.getInstance();
}
/// }
@Override
public void addNfcUnlockHandler(INfcUnlockHandler unlockHandler, int[] techList) {
NfcPermissions.enforceAdminPermissions(mContext);
int lockscreenPollMask = computeLockscreenPollMask(techList);
synchronized (NfcService.this) {
mNfcUnlockManager.addUnlockHandler(unlockHandler, lockscreenPollMask);
}
applyRouting(false);
}
@Override
public void removeNfcUnlockHandler(INfcUnlockHandler token) throws RemoteException {
synchronized (NfcService.this) {
mNfcUnlockManager.removeUnlockHandler(token.asBinder());
}
applyRouting(false);
}
private int computeLockscreenPollMask(int[] techList) {
Map techCodeToMask = new HashMap();
techCodeToMask.put(TagTechnology.NFC_A, NfcService.NFC_POLL_A);
techCodeToMask.put(TagTechnology.NFC_B, NfcService.NFC_POLL_B);
techCodeToMask.put(TagTechnology.NFC_V, NfcService.NFC_POLL_ISO15693);
techCodeToMask.put(TagTechnology.NFC_F, NfcService.NFC_POLL_F);
techCodeToMask.put(TagTechnology.NFC_BARCODE, NfcService.NFC_POLL_KOVIO);
int mask = 0;
for (int i = 0; i < techList.length; i++) {
if (techCodeToMask.containsKey(techList[i])) {
mask |= techCodeToMask.get(techList[i]).intValue();
}
}
return mask;
}
/// M: @ {
public int getModeFlag(int mode) throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
return MtkNfcAddonSequence.getInstance().getModeFlag(mode, NfcService.this);
}
public void setModeFlag(int mode, int flag) throws RemoteException {
NfcPermissions.enforceAdminPermissions(mContext);
MtkNfcAddonSequence.getInstance().setModeFlag(isNfcEnabled(), mode, flag, NfcService.this);
}
/// }
}
final class ReaderModeDeathRecipient implements IBinder.DeathRecipient {
@Override
public void binderDied() {
synchronized (NfcService.this) {
Log.e(TAG, "binderDied() mReaderModeParams:"+mReaderModeParams);
if (mReaderModeParams != null) {
mReaderModeParams = null;
applyRouting(false);
}
}
}
}
final class TagService extends INfcTag.Stub {
@Override
public int close(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "close(.) nativeHandle:"+nativeHandle);
TagEndpoint tag = null;
if (!isNfcEnabled()) {
return ErrorCodes.ERROR_NOT_INITIALIZED;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag != null) {
/* Remove the device from the hmap */
unregisterObject(nativeHandle);
tag.disconnect();
return ErrorCodes.SUCCESS;
}
/* Restart polling loop for notification */
applyRouting(true);
return ErrorCodes.ERROR_DISCONNECT;
}
@Override
public int connect(int nativeHandle, int technology) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
TagEndpoint tag = null;
Log.d(TAG, "connect(..) nativeHandle:"+nativeHandle+" technology:"+technology);
if (!isNfcEnabled()) {
return ErrorCodes.ERROR_NOT_INITIALIZED;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag == null) {
return ErrorCodes.ERROR_DISCONNECT;
}
if (!tag.isPresent()) {
return ErrorCodes.ERROR_DISCONNECT;
}
// Note that on most tags, all technologies are behind a single
// handle. This means that the connect at the lower levels
// will do nothing, as the tag is already connected to that handle.
if (tag.connect(technology)) {
return ErrorCodes.SUCCESS;
} else {
return ErrorCodes.ERROR_DISCONNECT;
}
}
@Override
public int reconnect(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "reconnect(..) nativeHandle:"+nativeHandle);
TagEndpoint tag = null;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return ErrorCodes.ERROR_NOT_INITIALIZED;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag != null) {
if (tag.reconnect()) {
return ErrorCodes.SUCCESS;
} else {
return ErrorCodes.ERROR_DISCONNECT;
}
}
return ErrorCodes.ERROR_DISCONNECT;
}
@Override
public int[] getTechList(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
// Check if NFC is enabled
if (!isNfcEnabled()) {
return null;
}
/* find the tag in the hmap */
TagEndpoint tag = (TagEndpoint) findObject(nativeHandle);
if (tag != null) {
return tag.getTechList();
}
return null;
}
@Override
public boolean isPresent(int nativeHandle) throws RemoteException {
TagEndpoint tag = null;
Log.d(TAG, "isPresent(..) nativeHandle:"+nativeHandle);
// Check if NFC is enabled
if (!isNfcEnabled()) {
return false;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag == null) {
return false;
}
return tag.isPresent();
}
@Override
public boolean isNdef(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "isNdef(.) nativeHandle:"+nativeHandle);
TagEndpoint tag = null;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return false;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
int[] ndefInfo = new int[2];
if (tag == null) {
return false;
}
return tag.checkNdef(ndefInfo);
}
@Override
public TransceiveResult transceive(int nativeHandle, byte[] data, boolean raw)
throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "transceive(..) nativeHandle:"+nativeHandle);
TagEndpoint tag = null;
byte[] response;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return null;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag != null) {
// Check if length is within limits
if (data.length > getMaxTransceiveLength(tag.getConnectedTechnology())) {
return new TransceiveResult(TransceiveResult.RESULT_EXCEEDED_LENGTH, null);
}
int[] targetLost = new int[1];
response = tag.transceive(data, raw, targetLost);
int result;
if (response != null) {
result = TransceiveResult.RESULT_SUCCESS;
} else if (targetLost[0] == 1) {
result = TransceiveResult.RESULT_TAGLOST;
} else {
result = TransceiveResult.RESULT_FAILURE;
}
return new TransceiveResult(result, response);
}
return null;
}
@Override
public NdefMessage ndefRead(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
TagEndpoint tag;
Log.d(TAG, "ndefRead(..) nativeHandle:"+nativeHandle);
// Check if NFC is enabled
if (!isNfcEnabled()) {
return null;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag != null) {
byte[] buf = tag.readNdef();
if (buf == null) {
return null;
}
/* Create an NdefMessage */
try {
return new NdefMessage(buf);
} catch (FormatException e) {
return null;
}
}
return null;
}
@Override
public int ndefWrite(int nativeHandle, NdefMessage msg) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
TagEndpoint tag;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return ErrorCodes.ERROR_NOT_INITIALIZED;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag == null) {
return ErrorCodes.ERROR_IO;
}
if (msg == null) return ErrorCodes.ERROR_INVALID_PARAM;
if (tag.writeNdef(msg.toByteArray())) {
return ErrorCodes.SUCCESS;
} else {
return ErrorCodes.ERROR_IO;
}
}
@Override
public boolean ndefIsWritable(int nativeHandle) throws RemoteException {
throw new UnsupportedOperationException();
}
@Override
public int ndefMakeReadOnly(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
TagEndpoint tag;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return ErrorCodes.ERROR_NOT_INITIALIZED;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag == null) {
return ErrorCodes.ERROR_IO;
}
if (tag.makeReadOnly()) {
return ErrorCodes.SUCCESS;
} else {
return ErrorCodes.ERROR_IO;
}
}
@Override
public int formatNdef(int nativeHandle, byte[] key) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "formatNdef(.) nativeHandle:"+nativeHandle);
TagEndpoint tag;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return ErrorCodes.ERROR_NOT_INITIALIZED;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag == null) {
return ErrorCodes.ERROR_IO;
}
if (tag.formatNdef(key)) {
return ErrorCodes.SUCCESS;
} else {
return ErrorCodes.ERROR_IO;
}
}
@Override
public Tag rediscover(int nativeHandle) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "rediscover(.) nativeHandle:"+nativeHandle);
TagEndpoint tag = null;
// Check if NFC is enabled
if (!isNfcEnabled()) {
return null;
}
/* find the tag in the hmap */
tag = (TagEndpoint) findObject(nativeHandle);
if (tag != null) {
// For now the prime usecase for rediscover() is to be able
// to access the NDEF technology after formatting without
// having to remove the tag from the field, or similar
// to have access to NdefFormatable in case low-level commands
// were used to remove NDEF. So instead of doing a full stack
// rediscover (which is poorly supported at the moment anyway),
// we simply remove these two technologies and detect them
// again.
tag.removeTechnology(TagTechnology.NDEF);
tag.removeTechnology(TagTechnology.NDEF_FORMATABLE);
tag.findAndReadNdef();
// Build a new Tag object to return
Tag newTag = new Tag(tag.getUid(), tag.getTechList(),
tag.getTechExtras(), tag.getHandle(), this);
return newTag;
}
return null;
}
@Override
public int setTimeout(int tech, int timeout) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
Log.d(TAG, "setTimeout(..) tech:"+tech+" timeout:"+timeout);
boolean success = mDeviceHost.setTimeout(tech, timeout);
if (success) {
return ErrorCodes.SUCCESS;
} else {
return ErrorCodes.ERROR_INVALID_PARAM;
}
}
@Override
public int getTimeout(int tech) throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
return mDeviceHost.getTimeout(tech);
}
@Override
public void resetTimeouts() throws RemoteException {
NfcPermissions.enforceUserPermissions(mContext);
mDeviceHost.resetTimeouts();
}
@Override
public boolean canMakeReadOnly(int ndefType) throws RemoteException {
return mDeviceHost.canMakeReadOnly(ndefType);
}
@Override
public int getMaxTransceiveLength(int tech) throws RemoteException {
return mDeviceHost.getMaxTransceiveLength(tech);
}
@Override
public boolean getExtendedLengthApdusSupported() throws RemoteException {
return mDeviceHost.getExtendedLengthApdusSupported();
}
}
boolean isNfcEnabledOrShuttingDown() {
synchronized (this) {
return (mState == NfcAdapter.STATE_ON || mState == NfcAdapter.STATE_TURNING_OFF);
}
}
boolean isNfcEnabled() {
synchronized (this) {
return mState == NfcAdapter.STATE_ON;
}
}
class WatchDogThread extends Thread {
final Object mCancelWaiter = new Object();
final int mTimeout;
boolean mCanceled = false;
public WatchDogThread(String threadName, int timeout) {
super(threadName);
mTimeout = timeout;
}
@Override
public void run() {
try {
synchronized (mCancelWaiter) {
mCancelWaiter.wait(mTimeout);
if (mCanceled) {
return;
}
}
} catch (InterruptedException e) {
// Should not happen; fall-through to abort.
Log.w(TAG, "Watchdog thread interruped.");
interrupt();
}
Log.e(TAG, "Watchdog triggered, aborting.");
mDeviceHost.doAbort();
}
public synchronized void cancel() {
synchronized (mCancelWaiter) {
mCanceled = true;
mCancelWaiter.notify();
}
}
}
static byte[] hexStringToBytes(String s) {
if (s == null || s.length() == 0) return null;
int len = s.length();
if (len % 2 != 0) {
s = '0' + s;
len++;
}
byte[] data = new byte[len / 2];
for (int i = 0; i < len; i += 2) {
data[i / 2] = (byte) ((Character.digit(s.charAt(i), 16) << 4)
+ Character.digit(s.charAt(i + 1), 16));
}
return data;
}
/**
* Read mScreenState and apply NFC-C polling and NFC-EE routing
*/
void applyRouting(boolean force) {
synchronized (this) {
/// M: @ {
if (!isNfcEnabledOrShuttingDown() || mOpenEe != null) {
return;
}
/// }
WatchDogThread watchDog = new WatchDogThread("applyRouting", ROUTING_WATCHDOG_MS);
if (mInProvisionMode) {
mInProvisionMode = Settings.Secure.getInt(mContentResolver,
Settings.Global.DEVICE_PROVISIONED, 0) == 0;
if (!mInProvisionMode) {
// Notify dispatcher it's fine to dispatch to any package now
// and allow handover transfers.
mNfcDispatcher.disableProvisioningMode();
}
}
// Special case: if we're transitioning to unlocked state while
// still talking to a tag, postpone re-configuration.
if (mScreenState == ScreenStateHelper.SCREEN_STATE_ON_UNLOCKED && isTagPresent()) {
Log.d(TAG, "Not updating discovery parameters, tag connected.");
mHandler.sendMessageDelayed(mHandler.obtainMessage(MSG_RESUME_POLLING),
APPLY_ROUTING_RETRY_TIMEOUT_MS);
return;
}
/// M: @ {
// configure NFC-EE routing
if (mScreenState >= ScreenStateHelper.SCREEN_STATE_ON_LOCKED &&
mEeRoutingState == ROUTE_ON_WHEN_SCREEN_ON) {
if (force || !mNfceeRouteEnabled) {
Log.d(TAG, "NFC-EE ON");
mNfceeRouteEnabled = true;
mNativeNfcManager.deselectSecureElement();
}
} else {
if (force || mNfceeRouteEnabled) {
Log.d(TAG, "NFC-EE OFF");
mNfceeRouteEnabled = false;
if (mEeRoutingState == ROUTE_ON_WHEN_SCREEN_ON) { /// M: only deselect when using Google Wallet
mNativeNfcManager.deselectSecureElement();
}
}
}
/// }
try {
watchDog.start();
// Compute new polling parameters
NfcDiscoveryParameters newParams = computeDiscoveryParameters(mScreenState);
if (force || !newParams.equals(mCurrentDiscoveryParameters)) {
Log.d(TAG, "newParams.shouldEnableDiscovery()");
if (newParams.shouldEnableDiscovery()) {
Log.d(TAG, "mCurrentDiscoveryParameters.shouldEnableDiscovery()");
boolean shouldRestart = mCurrentDiscoveryParameters.shouldEnableDiscovery();
Log.d(TAG, "shouldRestart:"+shouldRestart);
mDeviceHost.enableDiscovery(newParams, shouldRestart);
} else {
mDeviceHost.disableDiscovery();
}
mCurrentDiscoveryParameters = newParams;
} else {
Log.d(TAG, "Discovery configuration equal, not updating.");
}
} finally {
watchDog.cancel();
}
}
}
private NfcDiscoveryParameters computeDiscoveryParameters(int screenState) {
Log.d(TAG, "computeDiscoveryParameters() screenState:"+describeScreenState(screenState));
if(screenState == ScreenStateHelper.SCREEN_STATE_ON_LOCKED)
Log.d(TAG, "!!!! SCREEN_STATE_ON_LOCKED,, mNfcUnlockManager.isLockscreenPollingEnabled():"+mNfcUnlockManager.isLockscreenPollingEnabled());
// Recompute discovery parameters based on screen state
NfcDiscoveryParameters.Builder paramsBuilder = NfcDiscoveryParameters.newBuilder();
// Polling
if (screenState >= NFC_POLLING_MODE) {
// Check if reader-mode is enabled
if (mReaderModeParams != null) {
int techMask = 0;
if ((mReaderModeParams.flags & NfcAdapter.FLAG_READER_NFC_A) != 0)
techMask |= NFC_POLL_A;
if ((mReaderModeParams.flags & NfcAdapter.FLAG_READER_NFC_B) != 0)
techMask |= NFC_POLL_B;
if ((mReaderModeParams.flags & NfcAdapter.FLAG_READER_NFC_F) != 0)
techMask |= NFC_POLL_F;
if ((mReaderModeParams.flags & NfcAdapter.FLAG_READER_NFC_V) != 0)
techMask |= NFC_POLL_ISO15693;
if ((mReaderModeParams.flags & NfcAdapter.FLAG_READER_NFC_BARCODE) != 0)
techMask |= NFC_POLL_KOVIO;
Log.d(TAG, " mReaderModeParams != null paramsBuilder.setTechMask:"+techMask);
paramsBuilder.setTechMask(techMask);
paramsBuilder.setEnableReaderMode(true);
} else {
Log.d(TAG, " mReaderModeParams == null paramsBuilder.setTechMask:"+NfcDiscoveryParameters.NFC_POLL_DEFAULT +" NFC_POLL_DEFAULT");
paramsBuilder.setTechMask(NfcDiscoveryParameters.NFC_POLL_DEFAULT);
paramsBuilder.setEnableP2p(mIsNdefPushEnabled);
}
} else if (screenState == ScreenStateHelper.SCREEN_STAT
====================================================================================
作者:欧阳鹏 欢迎转载,与人分享是进步的源泉!
转载请保留原文地址:http://blog.csdn.net/ouyang_peng
====================================================================================