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/*
* Copyright (C) 2007 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 android.app;
import android.annotation.IntDef;
import android.annotation.RequiresPermission;
import android.annotation.SdkConstant;
import android.annotation.SystemApi;
import android.annotation.SystemService;
import android.annotation.UnsupportedAppUsage;
import android.content.Context;
import android.content.Intent;
import android.os.Build;
import android.os.Handler;
import android.os.Parcel;
import android.os.Parcelable;
import android.os.RemoteException;
import android.os.WorkSource;
import android.text.TextUtils;
import android.util.ArrayMap;
import android.util.Log;
import android.util.proto.ProtoOutputStream;
import libcore.timezone.ZoneInfoDB;
import java.io.IOException;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
/**
* This class provides access to the system alarm services. These allow you
* to schedule your application to be run at some point in the future. When
* an alarm goes off, the {@link Intent} that had been registered for it
* is broadcast by the system, automatically starting the target application
* if it is not already running. Registered alarms are retained while the
* device is asleep (and can optionally wake the device up if they go off
* during that time), but will be cleared if it is turned off and rebooted.
*
* The Alarm Manager holds a CPU wake lock as long as the alarm receiver's
* onReceive() method is executing. This guarantees that the phone will not sleep
* until you have finished handling the broadcast. Once onReceive() returns, the
* Alarm Manager releases this wake lock. This means that the phone will in some
* cases sleep as soon as your onReceive() method completes. If your alarm receiver
* called {@link android.content.Context#startService Context.startService()}, it
* is possible that the phone will sleep before the requested service is launched.
* To prevent this, your BroadcastReceiver and Service will need to implement a
* separate wake lock policy to ensure that the phone continues running until the
* service becomes available.
*
*
Note: The Alarm Manager is intended for cases where you want to have
* your application code run at a specific time, even if your application is
* not currently running. For normal timing operations (ticks, timeouts,
* etc) it is easier and much more efficient to use
* {@link android.os.Handler}.
*
*
Note: Beginning with API 19
* ({@link android.os.Build.VERSION_CODES#KITKAT}) alarm delivery is inexact:
* the OS will shift alarms in order to minimize wakeups and battery use. There are
* new APIs to support applications which need strict delivery guarantees; see
* {@link #setWindow(int, long, long, PendingIntent)} and
* {@link #setExact(int, long, PendingIntent)}. Applications whose {@code targetSdkVersion}
* is earlier than API 19 will continue to see the previous behavior in which all
* alarms are delivered exactly when requested.
*/
@SystemService(Context.ALARM_SERVICE)
public class AlarmManager {
private static final String TAG = "AlarmManager";
/** @hide */
@IntDef(prefix = { "RTC", "ELAPSED" }, value = {
RTC_WAKEUP,
RTC,
ELAPSED_REALTIME_WAKEUP,
ELAPSED_REALTIME,
})
@Retention(RetentionPolicy.SOURCE)
public @interface AlarmType {}
/**
* Alarm time in {@link System#currentTimeMillis System.currentTimeMillis()}
* (wall clock time in UTC), which will wake up the device when
* it goes off.
*/
public static final int RTC_WAKEUP = 0;
/**
* Alarm time in {@link System#currentTimeMillis System.currentTimeMillis()}
* (wall clock time in UTC). This alarm does not wake the
* device up; if it goes off while the device is asleep, it will not be
* delivered until the next time the device wakes up.
*/
public static final int RTC = 1;
/**
* Alarm time in {@link android.os.SystemClock#elapsedRealtime
* SystemClock.elapsedRealtime()} (time since boot, including sleep),
* which will wake up the device when it goes off.
*/
public static final int ELAPSED_REALTIME_WAKEUP = 2;
/**
* Alarm time in {@link android.os.SystemClock#elapsedRealtime
* SystemClock.elapsedRealtime()} (time since boot, including sleep).
* This alarm does not wake the device up; if it goes off while the device
* is asleep, it will not be delivered until the next time the device
* wakes up.
*/
public static final int ELAPSED_REALTIME = 3;
/**
* Broadcast Action: Sent after the value returned by
* {@link #getNextAlarmClock()} has changed.
*
*
This is a protected intent that can only be sent by the system.
* It is only sent to registered receivers.
*/
@SdkConstant(SdkConstant.SdkConstantType.BROADCAST_INTENT_ACTION)
public static final String ACTION_NEXT_ALARM_CLOCK_CHANGED =
"android.app.action.NEXT_ALARM_CLOCK_CHANGED";
/** @hide */
@UnsupportedAppUsage
public static final long WINDOW_EXACT = 0;
/** @hide */
@UnsupportedAppUsage
public static final long WINDOW_HEURISTIC = -1;
/**
* Flag for alarms: this is to be a stand-alone alarm, that should not be batched with
* other alarms.
* @hide
*/
@UnsupportedAppUsage
public static final int FLAG_STANDALONE = 1<<0;
/**
* Flag for alarms: this alarm would like to wake the device even if it is idle. This
* is, for example, an alarm for an alarm clock.
* @hide
*/
@UnsupportedAppUsage
public static final int FLAG_WAKE_FROM_IDLE = 1<<1;
/**
* Flag for alarms: this alarm would like to still execute even if the device is
* idle. This won't bring the device out of idle, just allow this specific alarm to
* run. Note that this means the actual time this alarm goes off can be inconsistent
* with the time of non-allow-while-idle alarms (it could go earlier than the time
* requested by another alarm).
*
* @hide
*/
public static final int FLAG_ALLOW_WHILE_IDLE = 1<<2;
/**
* Flag for alarms: same as {@link #FLAG_ALLOW_WHILE_IDLE}, but doesn't have restrictions
* on how frequently it can be scheduled. Only available (and automatically applied) to
* system alarms.
*
* @hide
*/
@UnsupportedAppUsage
public static final int FLAG_ALLOW_WHILE_IDLE_UNRESTRICTED = 1<<3;
/**
* Flag for alarms: this alarm marks the point where we would like to come out of idle
* mode. It may be moved by the alarm manager to match the first wake-from-idle alarm.
* Scheduling an alarm with this flag puts the alarm manager in to idle mode, where it
* avoids scheduling any further alarms until the marker alarm is executed.
* @hide
*/
@UnsupportedAppUsage
public static final int FLAG_IDLE_UNTIL = 1<<4;
@UnsupportedAppUsage
private final IAlarmManager mService;
private final Context mContext;
private final String mPackageName;
private final boolean mAlwaysExact;
private final int mTargetSdkVersion;
private final Handler mMainThreadHandler;
/**
* Direct-notification alarms: the requester must be running continuously from the
* time the alarm is set to the time it is delivered, or delivery will fail. Only
* one-shot alarms can be set using this mechanism, not repeating alarms.
*/
public interface OnAlarmListener {
/**
* Callback method that is invoked by the system when the alarm time is reached.
*/
public void onAlarm();
}
final class ListenerWrapper extends IAlarmListener.Stub implements Runnable {
final OnAlarmListener mListener;
Handler mHandler;
IAlarmCompleteListener mCompletion;
public ListenerWrapper(OnAlarmListener listener) {
mListener = listener;
}
public void setHandler(Handler h) {
mHandler = h;
}
public void cancel() {
try {
mService.remove(null, this);
} catch (RemoteException ex) {
throw ex.rethrowFromSystemServer();
}
synchronized (AlarmManager.class) {
if (sWrappers != null) {
sWrappers.remove(mListener);
}
}
}
@Override
public void doAlarm(IAlarmCompleteListener alarmManager) {
mCompletion = alarmManager;
// Remove this listener from the wrapper cache first; the server side
// already considers it gone
synchronized (AlarmManager.class) {
if (sWrappers != null) {
sWrappers.remove(mListener);
}
}
mHandler.post(this);
}
@Override
public void run() {
// Now deliver it to the app
try {
mListener.onAlarm();
} finally {
// No catch -- make sure to report completion to the system process,
// but continue to allow the exception to crash the app.
try {
mCompletion.alarmComplete(this);
} catch (Exception e) {
Log.e(TAG, "Unable to report completion to Alarm Manager!", e);
}
}
}
}
// Tracking of the OnAlarmListener -> wrapper mapping, for cancel() support.
// Access is synchronized on the AlarmManager class object.
private static ArrayMap sWrappers;
/**
* package private on purpose
*/
AlarmManager(IAlarmManager service, Context ctx) {
mService = service;
mContext = ctx;
mPackageName = ctx.getPackageName();
mTargetSdkVersion = ctx.getApplicationInfo().targetSdkVersion;
mAlwaysExact = (mTargetSdkVersion < Build.VERSION_CODES.KITKAT);
mMainThreadHandler = new Handler(ctx.getMainLooper());
}
private long legacyExactLength() {
return (mAlwaysExact ? WINDOW_EXACT : WINDOW_HEURISTIC);
}
/**
* Schedule an alarm. Note: for timing operations (ticks, timeouts,
* etc) it is easier and much more efficient to use {@link android.os.Handler}.
* If there is already an alarm scheduled for the same IntentSender, that previous
* alarm will first be canceled.
*
*
If the stated trigger time is in the past, the alarm will be triggered
* immediately. If there is already an alarm for this Intent
* scheduled (with the equality of two intents being defined by
* {@link Intent#filterEquals}), then it will be removed and replaced by
* this one.
*
*
* The alarm is an Intent broadcast that goes to a broadcast receiver that
* you registered with {@link android.content.Context#registerReceiver}
* or through the <receiver> tag in an AndroidManifest.xml file.
*
*
* Alarm intents are delivered with a data extra of type int called
* {@link Intent#EXTRA_ALARM_COUNT Intent.EXTRA_ALARM_COUNT} that indicates
* how many past alarm events have been accumulated into this intent
* broadcast. Recurring alarms that have gone undelivered because the
* phone was asleep may have a count greater than one when delivered.
*
*
*
* Note: Beginning in API 19, the trigger time passed to this method
* is treated as inexact: the alarm will not be delivered before this time, but
* may be deferred and delivered some time later. The OS will use
* this policy in order to "batch" alarms together across the entire system,
* minimizing the number of times the device needs to "wake up" and minimizing
* battery use. In general, alarms scheduled in the near future will not
* be deferred as long as alarms scheduled far in the future.
*
*
* With the new batching policy, delivery ordering guarantees are not as
* strong as they were previously. If the application sets multiple alarms,
* it is possible that these alarms' actual delivery ordering may not match
* the order of their requested delivery times. If your application has
* strong ordering requirements there are other APIs that you can use to get
* the necessary behavior; see {@link #setWindow(int, long, long, PendingIntent)}
* and {@link #setExact(int, long, PendingIntent)}.
*
*
* Applications whose {@code targetSdkVersion} is before API 19 will
* continue to get the previous alarm behavior: all of their scheduled alarms
* will be treated as exact.
*
*
* @param type type of alarm.
* @param triggerAtMillis time in milliseconds that the alarm should go
* off, using the appropriate clock (depending on the alarm type).
* @param operation Action to perform when the alarm goes off;
* typically comes from {@link PendingIntent#getBroadcast
* IntentSender.getBroadcast()}.
*
* @see android.os.Handler
* @see #setExact
* @see #setRepeating
* @see #setWindow
* @see #cancel
* @see android.content.Context#sendBroadcast
* @see android.content.Context#registerReceiver
* @see android.content.Intent#filterEquals
* @see #ELAPSED_REALTIME
* @see #ELAPSED_REALTIME_WAKEUP
* @see #RTC
* @see #RTC_WAKEUP
*/
public void set(@AlarmType int type, long triggerAtMillis, PendingIntent operation) {
setImpl(type, triggerAtMillis, legacyExactLength(), 0, 0, operation, null, null,
null, null, null);
}
/**
* Direct callback version of {@link #set(int, long, PendingIntent)}. Rather than
* supplying a PendingIntent to be sent when the alarm time is reached, this variant
* supplies an {@link OnAlarmListener} instance that will be invoked at that time.
*
* The OnAlarmListener's {@link OnAlarmListener#onAlarm() onAlarm()} method will be
* invoked via the specified target Handler, or on the application's main looper
* if {@code null} is passed as the {@code targetHandler} parameter.
*
* @param type type of alarm.
* @param triggerAtMillis time in milliseconds that the alarm should go
* off, using the appropriate clock (depending on the alarm type).
* @param tag string describing the alarm, used for logging and battery-use
* attribution
* @param listener {@link OnAlarmListener} instance whose
* {@link OnAlarmListener#onAlarm() onAlarm()} method will be
* called when the alarm time is reached. A given OnAlarmListener instance can
* only be the target of a single pending alarm, just as a given PendingIntent
* can only be used with one alarm at a time.
* @param targetHandler {@link Handler} on which to execute the listener's onAlarm()
* callback, or {@code null} to run that callback on the main looper.
*/
public void set(@AlarmType int type, long triggerAtMillis, String tag, OnAlarmListener listener,
Handler targetHandler) {
setImpl(type, triggerAtMillis, legacyExactLength(), 0, 0, null, listener, tag,
targetHandler, null, null);
}
/**
* Schedule a repeating alarm. Note: for timing operations (ticks,
* timeouts, etc) it is easier and much more efficient to use
* {@link android.os.Handler}. If there is already an alarm scheduled
* for the same IntentSender, it will first be canceled.
*
*
Like {@link #set}, except you can also supply a period at which
* the alarm will automatically repeat. This alarm continues
* repeating until explicitly removed with {@link #cancel}. If the stated
* trigger time is in the past, the alarm will be triggered immediately, with an
* alarm count depending on how far in the past the trigger time is relative
* to the repeat interval.
*
*
If an alarm is delayed (by system sleep, for example, for non
* _WAKEUP alarm types), a skipped repeat will be delivered as soon as
* possible. After that, future alarms will be delivered according to the
* original schedule; they do not drift over time. For example, if you have
* set a recurring alarm for the top of every hour but the phone was asleep
* from 7:45 until 8:45, an alarm will be sent as soon as the phone awakens,
* then the next alarm will be sent at 9:00.
*
*
If your application wants to allow the delivery times to drift in
* order to guarantee that at least a certain time interval always elapses
* between alarms, then the approach to take is to use one-time alarms,
* scheduling the next one yourself when handling each alarm delivery.
*
*
* Note: as of API 19, all repeating alarms are inexact. If your
* application needs precise delivery times then it must use one-time
* exact alarms, rescheduling each time as described above. Legacy applications
* whose {@code targetSdkVersion} is earlier than API 19 will continue to have all
* of their alarms, including repeating alarms, treated as exact.
*
* @param type type of alarm.
* @param triggerAtMillis time in milliseconds that the alarm should first
* go off, using the appropriate clock (depending on the alarm type).
* @param intervalMillis interval in milliseconds between subsequent repeats
* of the alarm.
* @param operation Action to perform when the alarm goes off;
* typically comes from {@link PendingIntent#getBroadcast
* IntentSender.getBroadcast()}.
*
* @see android.os.Handler
* @see #set
* @see #setExact
* @see #setWindow
* @see #cancel
* @see android.content.Context#sendBroadcast
* @see android.content.Context#registerReceiver
* @see android.content.Intent#filterEquals
* @see #ELAPSED_REALTIME
* @see #ELAPSED_REALTIME_WAKEUP
* @see #RTC
* @see #RTC_WAKEUP
*/
public void setRepeating(@AlarmType int type, long triggerAtMillis,
long intervalMillis, PendingIntent operation) {
setImpl(type, triggerAtMillis, legacyExactLength(), intervalMillis, 0, operation,
null, null, null, null, null);
}
/**
* Schedule an alarm to be delivered within a given window of time. This method
* is similar to {@link #set(int, long, PendingIntent)}, but allows the
* application to precisely control the degree to which its delivery might be
* adjusted by the OS. This method allows an application to take advantage of the
* battery optimizations that arise from delivery batching even when it has
* modest timeliness requirements for its alarms.
*
*
* This method can also be used to achieve strict ordering guarantees among
* multiple alarms by ensuring that the windows requested for each alarm do
* not intersect.
*
*
* When precise delivery is not required, applications should use the standard
* {@link #set(int, long, PendingIntent)} method. This will give the OS the most
* flexibility to minimize wakeups and battery use. For alarms that must be delivered
* at precisely-specified times with no acceptable variation, applications can use
* {@link #setExact(int, long, PendingIntent)}.
*
* @param type type of alarm.
* @param windowStartMillis The earliest time, in milliseconds, that the alarm should
* be delivered, expressed in the appropriate clock's units (depending on the alarm
* type).
* @param windowLengthMillis The length of the requested delivery window,
* in milliseconds. The alarm will be delivered no later than this many
* milliseconds after {@code windowStartMillis}. Note that this parameter
* is a duration, not the timestamp of the end of the window.
* @param operation Action to perform when the alarm goes off;
* typically comes from {@link PendingIntent#getBroadcast
* IntentSender.getBroadcast()}.
*
* @see #set
* @see #setExact
* @see #setRepeating
* @see #cancel
* @see android.content.Context#sendBroadcast
* @see android.content.Context#registerReceiver
* @see android.content.Intent#filterEquals
* @see #ELAPSED_REALTIME
* @see #ELAPSED_REALTIME_WAKEUP
* @see #RTC
* @see #RTC_WAKEUP
*/
public void setWindow(@AlarmType int type, long windowStartMillis, long windowLengthMillis,
PendingIntent operation) {
setImpl(type, windowStartMillis, windowLengthMillis, 0, 0, operation,
null, null, null, null, null);
}
/**
* Direct callback version of {@link #setWindow(int, long, long, PendingIntent)}. Rather
* than supplying a PendingIntent to be sent when the alarm time is reached, this variant
* supplies an {@link OnAlarmListener} instance that will be invoked at that time.
*
* The OnAlarmListener {@link OnAlarmListener#onAlarm() onAlarm()} method will be
* invoked via the specified target Handler, or on the application's main looper
* if {@code null} is passed as the {@code targetHandler} parameter.
*/
public void setWindow(@AlarmType int type, long windowStartMillis, long windowLengthMillis,
String tag, OnAlarmListener listener, Handler targetHandler) {
setImpl(type, windowStartMillis, windowLengthMillis, 0, 0, null, listener, tag,
targetHandler, null, null);
}
/**
* Schedule an alarm to be delivered precisely at the stated time.
*
*
* This method is like {@link #set(int, long, PendingIntent)}, but does not permit
* the OS to adjust the delivery time. The alarm will be delivered as nearly as
* possible to the requested trigger time.
*
*
* Note: only alarms for which there is a strong demand for exact-time
* delivery (such as an alarm clock ringing at the requested time) should be
* scheduled as exact. Applications are strongly discouraged from using exact
* alarms unnecessarily as they reduce the OS's ability to minimize battery use.
*
* @param type type of alarm.
* @param triggerAtMillis time in milliseconds that the alarm should go
* off, using the appropriate clock (depending on the alarm type).
* @param operation Action to perform when the alarm goes off;
* typically comes from {@link PendingIntent#getBroadcast
* IntentSender.getBroadcast()}.
*
* @see #set
* @see #setRepeating
* @see #setWindow
* @see #cancel
* @see android.content.Context#sendBroadcast
* @see android.content.Context#registerReceiver
* @see android.content.Intent#filterEquals
* @see #ELAPSED_REALTIME
* @see #ELAPSED_REALTIME_WAKEUP
* @see #RTC
* @see #RTC_WAKEUP
*/
public void setExact(@AlarmType int type, long triggerAtMillis, PendingIntent operation) {
setImpl(type, triggerAtMillis, WINDOW_EXACT, 0, 0, operation, null, null, null,
null, null);
}
/**
* Direct callback version of {@link #setExact(int, long, PendingIntent)}. Rather
* than supplying a PendingIntent to be sent when the alarm time is reached, this variant
* supplies an {@link OnAlarmListener} instance that will be invoked at that time.
*
* The OnAlarmListener's {@link OnAlarmListener#onAlarm() onAlarm()} method will be
* invoked via the specified target Handler, or on the application's main looper
* if {@code null} is passed as the {@code targetHandler} parameter.
*/
public void setExact(@AlarmType int type, long triggerAtMillis, String tag,
OnAlarmListener listener, Handler targetHandler) {
setImpl(type, triggerAtMillis, WINDOW_EXACT, 0, 0, null, listener, tag,
targetHandler, null, null);
}
/**
* Schedule an idle-until alarm, which will keep the alarm manager idle until
* the given time.
* @hide
*/
public void setIdleUntil(@AlarmType int type, long triggerAtMillis, String tag,
OnAlarmListener listener, Handler targetHandler) {
setImpl(type, triggerAtMillis, WINDOW_EXACT, 0, FLAG_IDLE_UNTIL, null,
listener, tag, targetHandler, null, null);
}
/**
* Schedule an alarm that represents an alarm clock, which will be used to notify the user
* when it goes off. The expectation is that when this alarm triggers, the application will
* further wake up the device to tell the user about the alarm -- turning on the screen,
* playing a sound, vibrating, etc. As such, the system will typically also use the
* information supplied here to tell the user about this upcoming alarm if appropriate.
*
*
Due to the nature of this kind of alarm, similar to {@link #setExactAndAllowWhileIdle},
* these alarms will be allowed to trigger even if the system is in a low-power idle
* (a.k.a. doze) mode. The system may also do some prep-work when it sees that such an
* alarm coming up, to reduce the amount of background work that could happen if this
* causes the device to fully wake up -- this is to avoid situations such as a large number
* of devices having an alarm set at the same time in the morning, all waking up at that
* time and suddenly swamping the network with pending background work. As such, these
* types of alarms can be extremely expensive on battery use and should only be used for
* their intended purpose.
*
*
* This method is like {@link #setExact(int, long, PendingIntent)}, but implies
* {@link #RTC_WAKEUP}.
*
* @param info
* @param operation Action to perform when the alarm goes off;
* typically comes from {@link PendingIntent#getBroadcast
* IntentSender.getBroadcast()}.
*
* @see #set
* @see #setRepeating
* @see #setWindow
* @see #setExact
* @see #cancel
* @see #getNextAlarmClock()
* @see android.content.Context#sendBroadcast
* @see android.content.Context#registerReceiver
* @see android.content.Intent#filterEquals
*/
public void setAlarmClock(AlarmClockInfo info, PendingIntent operation) {
setImpl(RTC_WAKEUP, info.getTriggerTime(), WINDOW_EXACT, 0, 0, operation,
null, null, null, null, info);
}
/** @hide */
@SystemApi
@RequiresPermission(android.Manifest.permission.UPDATE_DEVICE_STATS)
public void set(@AlarmType int type, long triggerAtMillis, long windowMillis,
long intervalMillis, PendingIntent operation, WorkSource workSource) {
setImpl(type, triggerAtMillis, windowMillis, intervalMillis, 0, operation, null, null,
null, workSource, null);
}
/**
* Direct callback version of {@link #set(int, long, long, long, PendingIntent, WorkSource)}.
* Note that repeating alarms must use the PendingIntent variant, not an OnAlarmListener.
*
* The OnAlarmListener's {@link OnAlarmListener#onAlarm() onAlarm()} method will be
* invoked via the specified target Handler, or on the application's main looper
* if {@code null} is passed as the {@code targetHandler} parameter.
*
* @hide
*/
@UnsupportedAppUsage
public void set(@AlarmType int type, long triggerAtMillis, long windowMillis,
long intervalMillis, String tag, OnAlarmListener listener, Handler targetHandler,
WorkSource workSource) {
setImpl(type, triggerAtMillis, windowMillis, intervalMillis, 0, null, listener, tag,
targetHandler, workSource, null);
}
/**
* Direct callback version of {@link #set(int, long, long, long, PendingIntent, WorkSource)}.
* Note that repeating alarms must use the PendingIntent variant, not an OnAlarmListener.
*
* The OnAlarmListener's {@link OnAlarmListener#onAlarm() onAlarm()} method will be
* invoked via the specified target Handler, or on the application's main looper
* if {@code null} is passed as the {@code targetHandler} parameter.
*
* @hide
*/
@SystemApi
@RequiresPermission(android.Manifest.permission.UPDATE_DEVICE_STATS)
public void set(@AlarmType int type, long triggerAtMillis, long windowMillis,
long intervalMillis, OnAlarmListener listener, Handler targetHandler,
WorkSource workSource) {
setImpl(type, triggerAtMillis, windowMillis, intervalMillis, 0, null, listener, null,
targetHandler, workSource, null);
}
private void setImpl(@AlarmType int type, long triggerAtMillis, long windowMillis,
long intervalMillis, int flags, PendingIntent operation, final OnAlarmListener listener,
String listenerTag, Handler targetHandler, WorkSource workSource,
AlarmClockInfo alarmClock) {
if (triggerAtMillis < 0) {
/* NOTYET
if (mAlwaysExact) {
// Fatal error for KLP+ apps to use negative trigger times
throw new IllegalArgumentException("Invalid alarm trigger time "
+ triggerAtMillis);
}
*/
triggerAtMillis = 0;
}
ListenerWrapper recipientWrapper = null;
if (listener != null) {
synchronized (AlarmManager.class) {
if (sWrappers == null) {
sWrappers = new ArrayMap();
}
recipientWrapper = sWrappers.get(listener);
// no existing wrapper => build a new one
if (recipientWrapper == null) {
recipientWrapper = new ListenerWrapper(listener);
sWrappers.put(listener, recipientWrapper);
}
}
final Handler handler = (targetHandler != null) ? targetHandler : mMainThreadHandler;
recipientWrapper.setHandler(handler);
}
try {
mService.set(mPackageName, type, triggerAtMillis, windowMillis, intervalMillis, flags,
operation, recipientWrapper, listenerTag, workSource, alarmClock);
} catch (RemoteException ex) {
throw ex.rethrowFromSystemServer();
}
}
/**
* Available inexact recurrence interval recognized by
* {@link #setInexactRepeating(int, long, long, PendingIntent)}
* when running on Android prior to API 19.
*/
public static final long INTERVAL_FIFTEEN_MINUTES = 15 * 60 * 1000;
/**
* Available inexact recurrence interval recognized by
* {@link #setInexactRepeating(int, long, long, PendingIntent)}
* when running on Android prior to API 19.
*/
public static final long INTERVAL_HALF_HOUR = 2*INTERVAL_FIFTEEN_MINUTES;
/**
* Available inexact recurrence interval recognized by
* {@link #setInexactRepeating(int, long, long, PendingIntent)}
* when running on Android prior to API 19.
*/
public static final long INTERVAL_HOUR = 2*INTERVAL_HALF_HOUR;
/**
* Available inexact recurrence interval recognized by
* {@link #setInexactRepeating(int, long, long, PendingIntent)}
* when running on Android prior to API 19.
*/
public static final long INTERVAL_HALF_DAY = 12*INTERVAL_HOUR;
/**
* Available inexact recurrence interval recognized by
* {@link #setInexactRepeating(int, long, long, PendingIntent)}
* when running on Android prior to API 19.
*/
public static final long INTERVAL_DAY = 2*INTERVAL_HALF_DAY;
/**
* Schedule a repeating alarm that has inexact trigger time requirements;
* for example, an alarm that repeats every hour, but not necessarily at
* the top of every hour. These alarms are more power-efficient than
* the strict recurrences traditionally supplied by {@link #setRepeating}, since the
* system can adjust alarms' delivery times to cause them to fire simultaneously,
* avoiding waking the device from sleep more than necessary.
*
* Your alarm's first trigger will not be before the requested time,
* but it might not occur for almost a full interval after that time. In
* addition, while the overall period of the repeating alarm will be as
* requested, the time between any two successive firings of the alarm
* may vary. If your application demands very low jitter, use
* one-shot alarms with an appropriate window instead; see {@link
* #setWindow(int, long, long, PendingIntent)} and
* {@link #setExact(int, long, PendingIntent)}.
*
*
* As of API 19, all repeating alarms are inexact. Because this method has
* been available since API 3, your application can safely call it and be
* assured that it will get similar behavior on both current and older versions
* of Android.
*
* @param type type of alarm.
* @param triggerAtMillis time in milliseconds that the alarm should first
* go off, using the appropriate clock (depending on the alarm type). This
* is inexact: the alarm will not fire before this time, but there may be a
* delay of almost an entire alarm interval before the first invocation of
* the alarm.
* @param intervalMillis interval in milliseconds between subsequent repeats
* of the alarm. Prior to API 19, if this is one of INTERVAL_FIFTEEN_MINUTES,
* INTERVAL_HALF_HOUR, INTERVAL_HOUR, INTERVAL_HALF_DAY, or INTERVAL_DAY
* then the alarm will be phase-aligned with other alarms to reduce the
* number of wakeups. Otherwise, the alarm will be set as though the
* application had called {@link #setRepeating}. As of API 19, all repeating
* alarms will be inexact and subject to batching with other alarms regardless
* of their stated repeat interval.
* @param operation Action to perform when the alarm goes off;
* typically comes from {@link PendingIntent#getBroadcast
* IntentSender.getBroadcast()}.
*
* @see android.os.Handler
* @see #set
* @see #cancel
* @see android.content.Context#sendBroadcast
* @see android.content.Context#registerReceiver
* @see android.content.Intent#filterEquals
* @see #ELAPSED_REALTIME
* @see #ELAPSED_REALTIME_WAKEUP
* @see #RTC
* @see #RTC_WAKEUP
* @see #INTERVAL_FIFTEEN_MINUTES
* @see #INTERVAL_HALF_HOUR
* @see #INTERVAL_HOUR
* @see #INTERVAL_HALF_DAY
* @see #INTERVAL_DAY
*/
public void setInexactRepeating(@AlarmType int type, long triggerAtMillis,
long intervalMillis, PendingIntent operation) {
setImpl(type, triggerAtMillis, WINDOW_HEURISTIC, intervalMillis, 0, operation, null,
null, null, null, null);
}
/**
* Like {@link #set(int, long, PendingIntent)}, but this alarm will be allowed to execute
* even when the system is in low-power idle (a.k.a. doze) modes. This type of alarm must
* only be used for situations where it is actually required that the alarm go off while
* in idle -- a reasonable example would be for a calendar notification that should make a
* sound so the user is aware of it. When the alarm is dispatched, the app will also be
* added to the system's temporary whitelist for approximately 10 seconds to allow that
* application to acquire further wake locks in which to complete its work.
*
* These alarms can significantly impact the power use
* of the device when idle (and thus cause significant battery blame to the app scheduling
* them), so they should be used with care. To reduce abuse, there are restrictions on how
* frequently these alarms will go off for a particular application.
* Under normal system operation, it will not dispatch these
* alarms more than about every minute (at which point every such pending alarm is
* dispatched); when in low-power idle modes this duration may be significantly longer,
* such as 15 minutes.
*
* Unlike other alarms, the system is free to reschedule this type of alarm to happen
* out of order with any other alarms, even those from the same app. This will clearly happen
* when the device is idle (since this alarm can go off while idle, when any other alarms
* from the app will be held until later), but may also happen even when not idle.
*
* Regardless of the app's target SDK version, this call always allows batching of the
* alarm.
*
* @param type type of alarm.
* @param triggerAtMillis time in milliseconds that the alarm should go
* off, using the appropriate clock (depending on the alarm type).
* @param operation Action to perform when the alarm goes off;
* typically comes from {@link PendingIntent#getBroadcast
* IntentSender.getBroadcast()}.
*
* @see #set(int, long, PendingIntent)
* @see #setExactAndAllowWhileIdle
* @see #cancel
* @see android.content.Context#sendBroadcast
* @see android.content.Context#registerReceiver
* @see android.content.Intent#filterEquals
* @see #ELAPSED_REALTIME
* @see #ELAPSED_REALTIME_WAKEUP
* @see #RTC
* @see #RTC_WAKEUP
*/
public void setAndAllowWhileIdle(@AlarmType int type, long triggerAtMillis,
PendingIntent operation) {
setImpl(type, triggerAtMillis, WINDOW_HEURISTIC, 0, FLAG_ALLOW_WHILE_IDLE,
operation, null, null, null, null, null);
}
/**
* Like {@link #setExact(int, long, PendingIntent)}, but this alarm will be allowed to execute
* even when the system is in low-power idle modes. If you don't need exact scheduling of
* the alarm but still need to execute while idle, consider using
* {@link #setAndAllowWhileIdle}. This type of alarm must only
* be used for situations where it is actually required that the alarm go off while in
* idle -- a reasonable example would be for a calendar notification that should make a
* sound so the user is aware of it. When the alarm is dispatched, the app will also be
* added to the system's temporary whitelist for approximately 10 seconds to allow that
* application to acquire further wake locks in which to complete its work.
*
* These alarms can significantly impact the power use
* of the device when idle (and thus cause significant battery blame to the app scheduling
* them), so they should be used with care. To reduce abuse, there are restrictions on how
* frequently these alarms will go off for a particular application.
* Under normal system operation, it will not dispatch these
* alarms more than about every minute (at which point every such pending alarm is
* dispatched); when in low-power idle modes this duration may be significantly longer,
* such as 15 minutes.
*
* Unlike other alarms, the system is free to reschedule this type of alarm to happen
* out of order with any other alarms, even those from the same app. This will clearly happen
* when the device is idle (since this alarm can go off while idle, when any other alarms
* from the app will be held until later), but may also happen even when not idle.
* Note that the OS will allow itself more flexibility for scheduling these alarms than
* regular exact alarms, since the application has opted into this behavior. When the
* device is idle it may take even more liberties with scheduling in order to optimize
* for battery life.
*
* @param type type of alarm.
* @param triggerAtMillis time in milliseconds that the alarm should go
* off, using the appropriate clock (depending on the alarm type).
* @param operation Action to perform when the alarm goes off;
* typically comes from {@link PendingIntent#getBroadcast
* IntentSender.getBroadcast()}.
*
* @see #set
* @see #setRepeating
* @see #setWindow
* @see #cancel
* @see android.content.Context#sendBroadcast
* @see android.content.Context#registerReceiver
* @see android.content.Intent#filterEquals
* @see #ELAPSED_REALTIME
* @see #ELAPSED_REALTIME_WAKEUP
* @see #RTC
* @see #RTC_WAKEUP
*/
public void setExactAndAllowWhileIdle(@AlarmType int type, long triggerAtMillis,
PendingIntent operation) {
setImpl(type, triggerAtMillis, WINDOW_EXACT, 0, FLAG_ALLOW_WHILE_IDLE, operation,
null, null, null, null, null);
}
/**
* Remove any alarms with a matching {@link Intent}.
* Any alarm, of any type, whose Intent matches this one (as defined by
* {@link Intent#filterEquals}), will be canceled.
*
* @param operation IntentSender which matches a previously added
* IntentSender. This parameter must not be {@code null}.
*
* @see #set
*/
public void cancel(PendingIntent operation) {
if (operation == null) {
final String msg = "cancel() called with a null PendingIntent";
if (mTargetSdkVersion >= Build.VERSION_CODES.N) {
throw new NullPointerException(msg);
} else {
Log.e(TAG, msg);
return;
}
}
try {
mService.remove(operation, null);
} catch (RemoteException ex) {
throw ex.rethrowFromSystemServer();
}
}
/**
* Remove any alarm scheduled to be delivered to the given {@link OnAlarmListener}.
*
* @param listener OnAlarmListener instance that is the target of a currently-set alarm.
*/
public void cancel(OnAlarmListener listener) {
if (listener == null) {
throw new NullPointerException("cancel() called with a null OnAlarmListener");
}
ListenerWrapper wrapper = null;
synchronized (AlarmManager.class) {
if (sWrappers != null) {
wrapper = sWrappers.get(listener);
}
}
if (wrapper == null) {
Log.w(TAG, "Unrecognized alarm listener " + listener);
return;
}
wrapper.cancel();
}
/**
* Set the system wall clock time.
* Requires the permission android.permission.SET_TIME.
*
* @param millis time in milliseconds since the Epoch
*/
@RequiresPermission(android.Manifest.permission.SET_TIME)
public void setTime(long millis) {
try {
mService.setTime(millis);
} catch (RemoteException ex) {
throw ex.rethrowFromSystemServer();
}
}
/**
* Sets the system's persistent default time zone. This is the time zone for all apps, even
* after a reboot. Use {@link java.util.TimeZone#setDefault} if you just want to change the
* time zone within your app, and even then prefer to pass an explicit
* {@link java.util.TimeZone} to APIs that require it rather than changing the time zone for
* all threads.
*
* On android M and above, it is an error to pass in a non-Olson timezone to this
* function. Note that this is a bad idea on all Android releases because POSIX and
* the {@code TimeZone} class have opposite interpretations of {@code '+'} and {@code '-'}
* in the same non-Olson ID.
*
* @param timeZone one of the Olson ids from the list returned by
* {@link java.util.TimeZone#getAvailableIDs}
*/
@RequiresPermission(android.Manifest.permission.SET_TIME_ZONE)
public void setTimeZone(String timeZone) {
if (TextUtils.isEmpty(timeZone)) {
return;
}
// Reject this timezone if it isn't an Olson zone we recognize.
if (mTargetSdkVersion >= Build.VERSION_CODES.M) {
boolean hasTimeZone = false;
try {
hasTimeZone = ZoneInfoDB.getInstance().hasTimeZone(timeZone);
} catch (IOException ignored) {
}
if (!hasTimeZone) {
throw new IllegalArgumentException("Timezone: " + timeZone + " is not an Olson ID");
}
}
try {
mService.setTimeZone(timeZone);
} catch (RemoteException ex) {
throw ex.rethrowFromSystemServer();
}
}
/** @hide */
public long getNextWakeFromIdleTime() {
try {
return mService.getNextWakeFromIdleTime();
} catch (RemoteException ex) {
throw ex.rethrowFromSystemServer();
}
}
/**
* Gets information about the next alarm clock currently scheduled.
*
* The alarm clocks considered are those scheduled by any application
* using the {@link #setAlarmClock} method.
*
* @return An {@link AlarmClockInfo} object describing the next upcoming alarm
* clock event that will occur. If there are no alarm clock events currently
* scheduled, this method will return {@code null}.
*
* @see #setAlarmClock
* @see AlarmClockInfo
* @see #ACTION_NEXT_ALARM_CLOCK_CHANGED
*/
public AlarmClockInfo getNextAlarmClock() {
return getNextAlarmClock(mContext.getUserId());
}
/**
* Gets information about the next alarm clock currently scheduled.
*
* The alarm clocks considered are those scheduled by any application
* using the {@link #setAlarmClock} method within the given user.
*
* @return An {@link AlarmClockInfo} object describing the next upcoming alarm
* clock event that will occur within the given user. If there are no alarm clock
* events currently scheduled in that user, this method will return {@code null}.
*
* @see #setAlarmClock
* @see AlarmClockInfo
* @see #ACTION_NEXT_ALARM_CLOCK_CHANGED
*
* @hide
*/
public AlarmClockInfo getNextAlarmClock(int userId) {
try {
return mService.getNextAlarmClock(userId);
} catch (RemoteException ex) {
throw ex.rethrowFromSystemServer();
}
}
/**
* An immutable description of a scheduled "alarm clock" event.
*
* @see AlarmManager#setAlarmClock
* @see AlarmManager#getNextAlarmClock
*/
public static final class AlarmClockInfo implements Parcelable {
private final long mTriggerTime;
private final PendingIntent mShowIntent;
/**
* Creates a new alarm clock description.
*
* @param triggerTime time at which the underlying alarm is triggered in wall time
* milliseconds since the epoch
* @param showIntent an intent that can be used to show or edit details of
* the alarm clock.
*/
public AlarmClockInfo(long triggerTime, PendingIntent showIntent) {
mTriggerTime = triggerTime;
mShowIntent = showIntent;
}
/**
* Use the {@link #CREATOR}
* @hide
*/
AlarmClockInfo(Parcel in) {
mTriggerTime = in.readLong();
mShowIntent = in.readParcelable(PendingIntent.class.getClassLoader());
}
/**
* Returns the time at which the alarm is going to trigger.
*
* This value is UTC wall clock time in milliseconds, as returned by
* {@link System#currentTimeMillis()} for example.
*/
public long getTriggerTime() {
return mTriggerTime;
}
/**
* Returns an intent that can be used to show or edit details of the alarm clock in
* the application that scheduled it.
*
*
Beware that any application can retrieve and send this intent,
* potentially with additional fields filled in. See
* {@link PendingIntent#send(android.content.Context, int, android.content.Intent)
* PendingIntent.send()} and {@link android.content.Intent#fillIn Intent.fillIn()}
* for details.
*/
public PendingIntent getShowIntent() {
return mShowIntent;
}
@Override
public int describeContents() {
return 0;
}
@Override
public void writeToParcel(Parcel dest, int flags) {
dest.writeLong(mTriggerTime);
dest.writeParcelable(mShowIntent, flags);
}
public static final @android.annotation.NonNull Creator CREATOR = new Creator() {
@Override
public AlarmClockInfo createFromParcel(Parcel in) {
return new AlarmClockInfo(in);
}
@Override
public AlarmClockInfo[] newArray(int size) {
return new AlarmClockInfo[size];
}
};
/** @hide */
public void writeToProto(ProtoOutputStream proto, long fieldId) {
final long token = proto.start(fieldId);
proto.write(AlarmClockInfoProto.TRIGGER_TIME_MS, mTriggerTime);
if (mShowIntent != null) {
mShowIntent.writeToProto(proto, AlarmClockInfoProto.SHOW_INTENT);
}
proto.end(token);
}
}
}