指纹服务是Android系统中一个较为简单的服务(相比于AMS,WMS等),也比较独立,功能上包括几点
- 指纹的录入与删除
- 指纹认证
- 指纹的安全策略(错误次数判定)
和其他的system service 一样,应用程序通过FingerprintManager实现与FingerprintService的通信,除了上面所说的功能之外,FingerprintManager提供了一些别的的接口,重要的接口都会要求系统级别的权限,并且也不是公开的api(指纹的录入,删除,重命名,重置错误计数等)
/** * Obtain the list of enrolled fingerprints templates. * @return list of current fingerprint items * * @hide */ @RequiresPermission(USE_FINGERPRINT) public List<Fingerprint> getEnrolledFingerprints(int userId) { if (mService != null) try { return mService.getEnrolledFingerprints(userId, mContext.getOpPackageName()); } catch (RemoteException e) { throw e.rethrowFromSystemServer(); } return null; } /** * @hide */ @RequiresPermission(allOf = { USE_FINGERPRINT, INTERACT_ACROSS_USERS}) public boolean hasEnrolledFingerprints(int userId) { if (mService != null) try { return mService.hasEnrolledFingerprints(userId, mContext.getOpPackageName()); } catch (RemoteException e) { throw e.rethrowFromSystemServer(); } return false; } /** * Determine if fingerprint hardware is present and functional. * * @return true if hardware is present and functional, false otherwise. */ @RequiresPermission(USE_FINGERPRINT) public boolean isHardwareDetected() { if (mService != null) { try { long deviceId = 0; /* TODO: plumb hardware id to FPMS */ return mService.isHardwareDetected(deviceId, mContext.getOpPackageName()); } catch (RemoteException e) { throw e.rethrowFromSystemServer(); } } else { Log.w(TAG, "isFingerprintHardwareDetected(): Service not connected!"); } return false; }
FingerprintService的启动过程
FingerprintService在system server中创建并初始化,当检测到手机支持指纹功能的时候就会启动这个service
... if (mPackageManager.hasSystemFeature(PackageManager.FEATURE_FINGERPRINT)) { mSystemServiceManager.startService(FingerprintService.class); } ...
FingerprintService在初始化后会建立和HAL层的通信,即连接到fingerprintd,拿到用于通信的IFingerprintDaemon对象(binder)
public void onStart() { publishBinderService(Context.FINGERPRINT_SERVICE, new FingerprintServiceWrapper()); IFingerprintDaemon daemon = getFingerprintDaemon(); listenForUserSwitches(); } public IFingerprintDaemon getFingerprintDaemon() { if (mDaemon == null) { mDaemon = IFingerprintDaemon.Stub.asInterface(ServiceManager.getService(FINGERPRINTD)); if (mDaemon != null) { try { mDaemon.asBinder().linkToDeath(this, 0); mDaemon.init(mDaemonCallback); mHalDeviceId = mDaemon.openHal(); if (mHalDeviceId != 0) { updateActiveGroup(ActivityManager.getCurrentUser(), null); } else { Slog.w(TAG, "Failed to open Fingerprint HAL!"); MetricsLogger.count(mContext, "fingerprintd_openhal_error", 1); mDaemon = null; } } catch (RemoteException e) { Slog.e(TAG, "Failed to open fingeprintd HAL", e); mDaemon = null; // try again later! } } else { Slog.w(TAG, "fingerprint service not available"); } } return mDaemon; }
本质上来说,除去安全相关的策略外,指纹的功能是依赖硬件实现的,FingerprintService也只是充当了framework java层与native层的消息传递者罢了,所以指纹的识别,录入和监听都是向fingerprintd发送命令和获取相应的结果
指纹监听认证过程
以指纹认证为例,介绍这一过程,录入和删除的过程和认证类似,不重复描述
FingerprintManager
public void authenticate(@Nullable CryptoObject crypto, @Nullable CancellationSignal cancel, int flags, @NonNull AuthenticationCallback callback, Handler handler, int userId) { if (callback == null) { throw new IllegalArgumentException("Must supply an authentication callback"); } if (cancel != null) { if (cancel.isCanceled()) { Log.w(TAG, "authentication already canceled"); return; } else { cancel.setOnCancelListener(new OnAuthenticationCancelListener(crypto)); } } if (mService != null) try { useHandler(handler); mAuthenticationCallback = callback; mCryptoObject = crypto; long sessionId = crypto != null ? crypto.getOpId() : 0; mService.authenticate(mToken, sessionId, userId, mServiceReceiver, flags, mContext.getOpPackageName()); } catch (RemoteException e) { Log.w(TAG, "Remote exception while authenticating: ", e); if (callback != null) { // Though this may not be a hardware issue, it will cause apps to give up or try // again later. callback.onAuthenticationError(FINGERPRINT_ERROR_HW_UNAVAILABLE, getErrorString(FINGERPRINT_ERROR_HW_UNAVAILABLE)); } } }
可以看到,最终仍然是向FingerprintService发送消息,但是开启指纹认证的函数传入了两个比较重要的参数,一个是CancellationSignal对象,用于取消指纹认证,另一个是指纹认证的回调对象AuthenticationCallback
public static abstract class AuthenticationCallback { public void onAuthenticationError(int errorCode, CharSequence errString) { } public void onAuthenticationHelp(int helpCode, CharSequence helpString) { } public void onAuthenticationSucceeded(AuthenticationResult result) { } public void onAuthenticationFailed() { } public void onAuthenticationAcquired(int acquireInfo) {} };
看函数名称也能知道其功能,他们分别代表了指纹认证时的回调结果(成功,失败,检测到指纹,认证异常等),参数包含了具体的信息,这些信息在FingerprintManager中都有对应的常量定义,有兴趣可以查看代码
FingerprintService
public void authenticate(final IBinder token, final long opId, final int groupId, final IFingerprintServiceReceiver receiver, final int flags, final String opPackageName) { final int callingUid = Binder.getCallingUid(); final int callingUserId = UserHandle.getCallingUserId(); final int pid = Binder.getCallingPid(); final boolean restricted = isRestricted(); mHandler.post(new Runnable() { @Override public void run() { if (!canUseFingerprint(opPackageName, true /* foregroundOnly */, callingUid, pid)) { if (DEBUG) Slog.v(TAG, "authenticate(): reject " + opPackageName); return; } MetricsLogger.histogram(mContext, "fingerprint_token", opId != 0L ? 1 : 0); // Get performance stats object for this user. HashMap<Integer, PerformanceStats> pmap = (opId == 0) ? mPerformanceMap : mCryptoPerformanceMap; PerformanceStats stats = pmap.get(mCurrentUserId); if (stats == null) { stats = new PerformanceStats(); pmap.put(mCurrentUserId, stats); } mPerformanceStats = stats; startAuthentication(token, opId, callingUserId, groupId, receiver, flags, restricted, opPackageName); } }); }
前面会有对包名,userid以及应用进程是否在在前台的检查,继续看
private void startAuthentication(IBinder token, long opId, int callingUserId, int groupId, IFingerprintServiceReceiver receiver, int flags, boolean restricted, String opPackageName) { updateActiveGroup(groupId, opPackageName); if (DEBUG) Slog.v(TAG, "startAuthentication(" + opPackageName + ")"); AuthenticationClient client = new AuthenticationClient(getContext(), mHalDeviceId, token, receiver, mCurrentUserId, groupId, opId, restricted, opPackageName) { @Override public boolean handleFailedAttempt() { mFailedAttempts++; if (mFailedAttempts == MAX_FAILED_ATTEMPTS) { mPerformanceStats.lockout++; } if (inLockoutMode()) { // Failing multiple times will continue to push out the lockout time. scheduleLockoutReset(); return true; } return false; } @Override public void resetFailedAttempts() { FingerprintService.this.resetFailedAttempts(); } @Override public void notifyUserActivity() { FingerprintService.this.userActivity(); } @Override public IFingerprintDaemon getFingerprintDaemon() { return FingerprintService.this.getFingerprintDaemon(); } }; if (inLockoutMode()) { Slog.v(TAG, "In lockout mode; disallowing authentication"); // Don't bother starting the client. Just send the error message. if (!client.onError(FingerprintManager.FINGERPRINT_ERROR_LOCKOUT)) { Slog.w(TAG, "Cannot send timeout message to client"); } return; } startClient(client, true /* initiatedByClient */); }
AuthenticationClient继承自ClientMonitor,用于处理指纹认证相关的功能事务,ClientMonitor的其他子类如RemovalMonior,EnrollMonitor也是如此,ClientMonitor会直接与fingerprintd通信,其核心是调用其start()或stop()方法,
对于AuthenticationClient而言
private void startClient(ClientMonitor newClient, boolean initiatedByClient) { ClientMonitor currentClient = mCurrentClient; if (currentClient != null) { if (DEBUG) Slog.v(TAG, "request stop current client " + currentClient.getOwnerString()); currentClient.stop(initiatedByClient); mPendingClient = newClient; mHandler.removeCallbacks(mResetClientState); mHandler.postDelayed(mResetClientState, CANCEL_TIMEOUT_LIMIT); } else if (newClient != null) { mCurrentClient = newClient; if (DEBUG) Slog.v(TAG, "starting client " + newClient.getClass().getSuperclass().getSimpleName() + "(" + newClient.getOwnerString() + ")" + ", initiatedByClient = " + initiatedByClient + ")"); newClient.start(); } } public int start() { IFingerprintDaemon daemon = getFingerprintDaemon(); if (daemon == null) { Slog.w(TAG, "start authentication: no fingeprintd!"); return ERROR_ESRCH; } try { final int result = daemon.authenticate(mOpId, getGroupId()); if (result != 0) { Slog.w(TAG, "startAuthentication failed, result=" + result); MetricsLogger.histogram(getContext(), "fingeprintd_auth_start_error", result); onError(FingerprintManager.FINGERPRINT_ERROR_HW_UNAVAILABLE); return result; } if (DEBUG) Slog.w(TAG, "client " + getOwnerString() + " is authenticating..."); } catch (RemoteException e) { Slog.e(TAG, "startAuthentication failed", e); return ERROR_ESRCH; } return 0; // success }
向底层发送认证命令后就只需要等待认证结果就可以了,前面我们说到在初始化的时候会建立与fingerprintd的通信,其核心是下面这行代码
mDaemon.init(mDaemonCallback);
mDaemonCallback是一个binder对象,接受来自底层的结果,然后通过FingerprintService和FingerManager一层层把结果发送到应用程序中去。
8.0的一些变化
8.0上的fingerprintd变化很大,甚至都不叫fingerprintd了,当然这是native层的东西,这里不讨论,对于FingerprintService而言,一个显著的变化是安全策略的调整
- 8.0之前,指纹只能错误5次,达到5次时会禁止指纹认证,同时开启30秒倒计时,等待结束后重置错误计数,继续认证
- 8.0之后,依然是每错误5次就会倒计时30秒,然而30秒结束后错误计数并不会被清空,8.0上加入了最大20次的限制,累计错误20次之后就无法使用指纹认证功能了,只能用密码的方式才能重置错误计数
private static final int MAX_FAILED_ATTEMPTS_LOCKOUT_TIMED = 5; private static final int MAX_FAILED_ATTEMPTS_LOCKOUT_PERMANENT = 20; private int getLockoutMode() { if (mFailedAttempts >= MAX_FAILED_ATTEMPTS_LOCKOUT_PERMANENT) { return AuthenticationClient.LOCKOUT_PERMANENT; } else if (mFailedAttempts > 0 && mTimedLockoutCleared == false && (mFailedAttempts % MAX_FAILED_ATTEMPTS_LOCKOUT_TIMED == 0)) { return AuthenticationClient.LOCKOUT_TIMED; } return AuthenticationClient.LOCKOUT_NONE; }
总结
以上所述是小编给大家介绍的Android7.0指纹服务FingerprintService实例介绍,希望对大家有所帮助,如果大家有任何疑问请给我留言,小编会及时回复大家的。在此也非常感谢大家对我们网站的支持!
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