本篇内容主要讲解“Android NTP时间同步机制实例分析”,感兴趣的朋友不妨来看看。本文介绍的方法操作简单快捷,实用性强。下面就让小编来带大家学习“Android NTP时间同步机制实例分析”吧!
NTP是Android原生通过网络获取时间的机制,其中关键代码逻辑都在NetworkTimeUpdateService,它是Android系统服务,由SystemServer启动。
我们从它的构造方法开始分析:
public NetworkTimeUpdateService(Context context) {
mContext = context;
//NtpTrustedTime用于获取网络时间
mTime = NtpTrustedTime.getInstance(context);
mAlarmManager = mContext.getSystemService(AlarmManager.class);
mTimeDetector = mContext.getSystemService(TimeDetector.class);
mCM = mContext.getSystemService(ConnectivityManager.class);
Intent pollIntent = new Intent(ACTION_POLL, null);
//创建mPendingPollIntent,用于发送定时广播
mPendingPollIntent = PendingIntent.getBroadcast(mContext, POLL_REQUEST, pollIntent, 0);
// 请求服务器频率 86400000ms = 24h
//从配置文件LINUX/android/frameworks/base/core/res/res/values/config.xml中解析获得
mPollingIntervalMs = mContext.getResources().getInteger(
com.android.internal.R.integer.config_ntpPollingInterval);
//请求时间间隔 60000ms = 10min
mPollingIntervalShorterMs = mContext.getResources().getInteger(
com.android.internal.R.integer.config_ntpPollingIntervalShorter);
//最大尝试次数 3
mTryAgainTimesMax = mContext.getResources().getInteger(
com.android.internal.R.integer.config_ntpRetry);
mWakeLock = context.getSystemService(PowerManager.class).newWakeLock(
PowerManager.PARTIAL_WAKE_LOCK, TAG);
}
构造方法中主要是对各种变量进行初始化操作,接下来分析systemRunning方法,它是个public方法,NetworkTimeUpdateService创建时,被SystemServer调用。
/** Initialize the receivers and initiate the first NTP request */
public void systemRunning() {
//注册广播
registerForAlarms();
//初始化Handler
HandlerThread thread = new HandlerThread(TAG);
thread.start();
mHandler = new MyHandler(thread.getLooper());
//向ConnectivityManager注册网络状况监听
mNetworkTimeUpdateCallback = new NetworkTimeUpdateCallback();
mCM.registerDefaultNetworkCallback(mNetworkTimeUpdateCallback, mHandler);
//使用ContentObsrver监听Settings.Global.AUTO_TIME值的变化
mAutoTimeSettingObserver = new AutoTimeSettingObserver(mContext, mHandler,
EVENT_AUTO_TIME_ENABLED);
mAutoTimeSettingObserver.observe();
}
private void registerForAlarms() {
mContext.registerReceiver(
new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
mHandler.obtainMessage(EVENT_POLL_NETWORK_TIME).sendToTarget();
}
}, new IntentFilter(ACTION_POLL));
}
这个方法中NetworkTimeUpdateService注册了三个监听:
1.调用registerForAlarms,注册一个广播接收者,接收ACTION_POLL广播,收到后向消息队列发送一个EVENT_POLL_NETWORK_TIME的事件;
2.向ConnectivityManager注册网络状况监听;
3.监听Settings.Global.AUTO_TIME值的变化。
咱们对这三个监听以及如何触发挨个的分析。
mNetworkTimeUpdateCallback = new NetworkTimeUpdateCallback();
mCM.registerDefaultNetworkCallback(mNetworkTimeUpdateCallback, mHandler);
private class NetworkTimeUpdateCallback extends NetworkCallback {
@Override
public void onAvailable(Network network) {
Log.d(TAG, String.format("New default network %s; checking time.", network));
mDefaultNetwork = network;
// Running on mHandler so invoke directly.
onPollNetworkTime(EVENT_NETWORK_CHANGED);
}
@Override
public void onLost(Network network) {
if (network.equals(mDefaultNetwork)) mDefaultNetwork = null;
}
}
NetworkTimeUpdateCallback实现了NetworkCallback接口,当被回调onAvailable(网络切换/可用)时, 赋值mDefaultNetwork并调用onPollNetworkTime(EVENT_NETWORK_CHANGED)方法。
mAutoTimeSettingObserver = new AutoTimeSettingObserver(mContext, mHandler,
EVENT_AUTO_TIME_ENABLED);
mAutoTimeSettingObserver.observe();
/**
* Observer to watch for changes to the AUTO_TIME setting. It only triggers when the setting
* is enabled.
*/
private static class AutoTimeSettingObserver extends ContentObserver {
private final Context mContext;
private final int mMsg;
private final Handler mHandler;
AutoTimeSettingObserver(Context context, Handler handler, int msg) {...}
void observe() {
ContentResolver resolver = mContext.getContentResolver();
resolver.registerContentObserver(Settings.Global.getUriFor(Settings.Global.AUTO_TIME),
false, this);
}
@Override
public void onChange(boolean selfChange) {
if (isAutomaticTimeEnabled()) {
mHandler.obtainMessage(mMsg).sendToTarget();
}
}
/**
* Checks if the user prefers to automatically set the time.
*/
private boolean isAutomaticTimeEnabled() {
ContentResolver resolver = mContext.getContentResolver();
return Settings.Global.getInt(resolver, Settings.Global.AUTO_TIME, 0) != 0;
}
}
监听Settings.Global.AUTO_TIME的变化,当值改变且AUTO_TIME != 0 时,向消息队列发送一个类型为EVENT_AUTO_TIME_ENABLED的消息。
看到这有三个东西我们还没确认,何时发送ACTION_POLL广播、onPollNetworkTime方法实现、Handler的实现。为了更有条理我打乱一下顺序,先介绍Handler和onPollNetworkTime。
/** Handler to do the network accesses on */
private class MyHandler extends Handler {
MyHandler(Looper l) {
super(l);
}
@Override
public void handleMessage(Message msg) {
switch (msg.what) {
case EVENT_AUTO_TIME_ENABLED:
case EVENT_POLL_NETWORK_TIME:
case EVENT_NETWORK_CHANGED:
onPollNetworkTime(msg.what);
break;
}
}
}
三种类型的消息最终都会调用onPollNetworkTime,只有参数不一样。
private void onPollNetworkTime(int event) {
// If we don't have any default network, don't bother.
if (mDefaultNetwork == null) return;
mWakeLock.acquire();
try {
onPollNetworkTimeUnderWakeLock(event);
} finally {
mWakeLock.release();
}
}
当前无网络情况直接返回,并使用PowerManager.WakeLock(屏幕恒亮)调用onPollNetworkTimeUnderWakeLock(event)。
private void onPollNetworkTimeUnderWakeLock(int event) {
// 使用NtpTrustedTime获取网络时间
NtpTrustedTime.TimeResult cachedNtpResult = mTime.getCachedTimeResult();
//cachedNtpResult.getAgeMillis()是上次请求ntp服务器的时间
//如果大于等于1天,则强制刷新时间
if (cachedNtpResult == null || cachedNtpResult.getAgeMillis() >= mPollingIntervalMs) {
if (DBG) Log.d(TAG, "Stale NTP fix; forcing refresh");
//该方法是个阻塞方法
mTime.forceRefresh();
cachedNtpResult = mTime.getCachedTimeResult();
}
//cachedNtpResult.getAgeMillis() < 1天
if (cachedNtpResult != null && cachedNtpResult.getAgeMillis() < mPollingIntervalMs) {
//设置定时广播,1天后触发
resetAlarm(mPollingIntervalMs);
// Suggest the time to the time detector. It may choose use it to set the system clock.
// 设置系统时间
TimestampedValue<Long> timeSignal = new TimestampedValue<>(
cachedNtpResult.getElapsedRealtimeMillis(), cachedNtpResult.getTimeMillis());
NetworkTimeSuggestion timeSuggestion = new NetworkTimeSuggestion(timeSignal);
timeSuggestion.addDebugInfo("Origin: NetworkTimeUpdateService. event=" + event);
mTimeDetector.suggestNetworkTime(timeSuggestion);
} else {
mTryAgainCounter++;
if (mTryAgainTimesMax < 0 || mTryAgainCounter <= mTryAgainTimesMax) {
//设置定时广播,10分钟后触发
resetAlarm(mPollingIntervalShorterMs);
} else {
//设置定时广播,1天后触发
mTryAgainCounter = 0;
resetAlarm(mPollingIntervalMs);
}
}
}
注意到上面调用了resetAlarm(),该方法即是定时发送ACTION_POLL广播。
private void resetAlarm(long interval) {
mAlarmManager.cancel(mPendingPollIntent);
long now = SystemClock.elapsedRealtime();
long next = now + interval;
mAlarmManager.set(AlarmManager.ELAPSED_REALTIME, next, mPendingPollIntent);
}
总结一下onPollNetworkTimeUnderWakeLock做的事情:
到此,相信大家对“Android NTP时间同步机制实例分析”有了更深的了解,不妨来实际操作一番吧!这里是亿速云网站,更多相关内容可以进入相关频道进行查询,关注我们,继续学习!
亿速云「云服务器」,即开即用、新一代英特尔至强铂金CPU、三副本存储NVMe SSD云盘,价格低至29元/月。点击查看>>
免责声明:本站发布的内容(图片、视频和文字)以原创、转载和分享为主,文章观点不代表本网站立场,如果涉及侵权请联系站长邮箱:is@yisu.com进行举报,并提供相关证据,一经查实,将立刻删除涉嫌侵权内容。