jectpack系列之WorkManager
目录
0.WM介绍
1.实现原理
2.使用方式
3.自我思考
WorkManager介绍
背景
安卓开发应该都听过保活,不过随着安卓系统不同版本对电量的优化,对于之前的保活策略基本都不可用了,比如之前的1像素、粘性服务、服务销毁时启动、多个进程互相拉活、监听广播、设置前台服务优先级等。现在比较靠谱的方案:厂商白名单(比如我们现在的APP,微信) 或者是通过修改zygote底层实现,比如鹅厂的某APP启动了大概4个组,每组两个进程,两两互相拉起。
官方在安卓12推出的加急作业 通过 setExpedited()
来修饰workmanager
image.png
WorkManager简介
作用
1.确保重要的后台任务,一定会被执行,后台任务(上传,下载,同步数据 等)
2.内部对电量进行了优化,可以管理后台任务,通常是是可延迟的后台任务
3.WorkManager不能做保活操作
4.一个小细节,如果你设置执行时间小于15分钟,会被推迟到15分钟才会下次调度
按官方介绍:WorkManager会选择一种合适的方式来安排后台任务 - 具体取决于设备API级别和包
含的依赖项,WorkManager可能会使用 JobScheduler,Firebase JobDispatcher或
AlarmManager
1.使用方式
角色介绍:
官方文档:https://developer.android.com/about/versions/12/foreground-services?hl=zh-cn
1.Worker:需要执行的具体任务,
2.WorkRequest:可以这样理解,执行一项单一的任务,执行会有具体ID,可以通过ID取消
1.初始化
WorkManager.getInstance(this) // 各种初始化的工作
2.加入队列
.enqueue(oneTimeWorkRequest2); // 加入队列,触发后台任务工作
3.约束条件执行
我们可以执行该任务执行的时机。如下满足网络连接上,并且不在低电量状态。
// 约束条件
Constraints constraints = new Constraints.Builder()
.setRequiredNetworkType(NetworkType.CONNECTED) // 约束条件,必须是网络连接
.setRequiresBatteryNotLow(true)
.build();
// 构建Request
OneTimeWorkRequest request = new OneTimeWorkRequest.Builder(MainWorker7.class)
.setConstraints(constraints)
.build();
// 加入队列
WorkManager.getInstance(this).enqueue(request);
2.执行具体任务如下
public class MainWorker extends Worker {
public final static String TAG = MainWorker.class.getSimpleName();
private Context mContext;
private WorkerParameters workerParams;
// 有构造函数
public MainWorker(@NonNull Context context, @NonNull WorkerParameters workerParams) {
super(context, workerParams);
this.mContext = context;
this.workerParams = workerParams;
}
@SuppressLint("RestrictedApi")
@NonNull
@Override
public Result doWork() {
Log.d(TAG, "MainWorker7 doWork: 后台任务执行了 started");
//TODO
try {
Thread.sleep(8000);
} catch (InterruptedException e) {
e.printStackTrace();
return Result.failure(); //执行任务失败
}
return new Result.Success(); // 本地执行 doWork 任务时 成功 执行任务完毕
}
}
3.验证是否如官方说的 杀进程关机后重启也能执行
我们可以构造一个约束条件,只有在有网情况下执行,比如点击某个按钮,执行workmanager,在dowork中去创建一个名字叫测试的文件
我们先断开网络,点击,去查看是否生成,发现并没有生成。杀进程、关机后,恢复网络。进入APP,啥都不要做。再去查看,居然生成了文件。
你应该能想到他是怎么实现的,肯定是存储了,绝对不是存在内存的!!
源码分析
1.WorkManager.getInstance(this)
单例初始化了一个WorkManagerImpl对象,有个细节,这里我们调用不会走到if里面的逻辑,因为workmanager组件,也使用了contentprovider实现初始化
public static @NonNull WorkManagerImpl getInstance(@NonNull Context context) {
synchronized (sLock) {
WorkManagerImpl instance = getInstance();
if (instance == null) {
Context appContext = context.getApplicationContext();
if (appContext instanceof Configuration.Provider) {
initialize(
appContext,
((Configuration.Provider) appContext).getWorkManagerConfiguration());
instance = getInstance(appContext);
} else {
throw new IllegalStateException("WorkManager is not initialized properly. You "
+ "have explicitly disabled WorkManagerInitializer in your manifest, "
+ "have not manually called WorkManager#initialize at this point, and "
+ "your Application does not implement Configuration.Provider.");
}
}
return instance;
}
}
也就是在他的provider中,就会执行以下代码
public boolean onCreate() {
// Initialize WorkManager with the default configuration.
WorkManager.initialize(getContext(), new Configuration.Builder().build());
return true;
}
image.png
2.workmanageImpl构造方法
public WorkManagerImpl(
@NonNull Context context,
@NonNull Configuration configuration,
@NonNull TaskExecutor workTaskExecutor,
@NonNull WorkDatabase database) {
Context applicationContext = context.getApplicationContext();
Logger.setLogger(new Logger.LogcatLogger(configuration.getMinimumLoggingLevel()));
List<Scheduler> schedulers = createSchedulers(applicationContext, workTaskExecutor); //重点1
Processor processor = new Processor(
context,
configuration,
workTaskExecutor,
database,
schedulers);
internalInit(context, configuration, workTaskExecutor, database, schedulers, processor); //重点2
}
3.创建调度器
上面的重点1中创建一个调度的List集合,细节来了,Arrays,aslist这个不能增删😄,要么包装一层,要么用collections集合的方法。里面重点是创建一个贪吃的调度器
public List<Scheduler> createSchedulers(
@NonNull Context context,
@NonNull TaskExecutor taskExecutor) {
return Arrays.asList(
Schedulers.createBestAvailableBackgroundScheduler(context, this),
// Specify the task executor directly here as this happens before internalInit.
// GreedyScheduler creates ConstraintTrackers and controllers eagerly.
new GreedyScheduler(context, taskExecutor, this)); //创建一个贪吃的调度器
}
里面构建了各种调度控制器,
public WorkConstraintsTracker(
@NonNull Context context,
@NonNull TaskExecutor taskExecutor,
@Nullable WorkConstraintsCallback callback) {
Context appContext = context.getApplicationContext();
mCallback = callback;
mConstraintControllers = new ConstraintController[] {
new BatteryChargingController(appContext, taskExecutor),
new BatteryNotLowController(appContext, taskExecutor),
new StorageNotLowController(appContext, taskExecutor),
new NetworkConnectedController(appContext, taskExecutor),
new NetworkUnmeteredController(appContext, taskExecutor),
new NetworkNotRoamingController(appContext, taskExecutor),
new NetworkMeteredController(appContext, taskExecutor)
};
mLock = new Object();
}
同时,在WorkmanagerImpl的构造中还创建了Processor,然后调用internalInit方法
mWorkTaskExecutor.executeOnBackgroundThread(new ForceStopRunnable(context, this));
里面就是判断APP是否应该执行任务
public void run() {
// Migrate the database to the no-backup directory if necessary.
WorkDatabasePathHelper.migrateDatabase(mContext);
// Clean invalid jobs attributed to WorkManager, and Workers that might have been
// interrupted because the application crashed (RUNNING state).
Logger.get().debug(TAG, "Performing cleanup operations.");
try {
boolean needsScheduling = cleanUp();
if (shouldRescheduleWorkers()) {
Logger.get().debug(TAG, "Rescheduling Workers.");
mWorkManager.rescheduleEligibleWork();
// Mark the jobs as migrated.
mWorkManager.getPreferenceUtils().setNeedsReschedule(false);
} else if (isForceStopped()) {
Logger.get().debug(TAG, "Application was force-stopped, rescheduling.");
mWorkManager.rescheduleEligibleWork();
} else if (needsScheduling) {
Logger.get().debug(TAG, "Found unfinished work, scheduling it.");
Schedulers.schedule(
mWorkManager.getConfiguration(),
mWorkManager.getWorkDatabase(),
mWorkManager.getSchedulers());
}
mWorkManager.onForceStopRunnableCompleted();
} catch (SQLiteCantOpenDatabaseException
| SQLiteDatabaseCorruptException
| SQLiteAccessPermException exception) {
// ForceStopRunnable is usually the first thing that accesses a database (or an app's
// internal data directory). This means that weird PackageManager bugs are attributed
// to ForceStopRunnable, which is unfortunate. This gives the developer a better error
// message.
String message =
"The file system on the device is in a bad state. WorkManager cannot access "
+ "the app's internal data store.";
Logger.get().error(TAG, message, exception);
throw new IllegalStateException(message, exception);
}
}
4.再执行enqueue(request)方法
里面调用new WorkContinuationImpl(this, workRequests).enqueue(); 然后执行一个runnable,
public @NonNull Operation enqueue() {
// Only enqueue if not already enqueued.
if (!mEnqueued) {
// The runnable walks the hierarchy of the continuations
// and marks them enqueued using the markEnqueued() method, parent first.
EnqueueRunnable runnable = new EnqueueRunnable(this);
mWorkManagerImpl.getWorkTaskExecutor().executeOnBackgroundThread(runnable);
mOperation = runnable.getOperation();
} else {
Logger.get().warning(TAG,
String.format("Already enqueued work ids (%s)", TextUtils.join(", ", mIds)));
}
return mOperation;
}
5.异步任务执行
里面有两个比较重要的逻辑。首先是处理了数据库相关的,这里就是存储的位置。
public EnqueueRunnable(@NonNull WorkContinuationImpl workContinuation) {
mWorkContinuation = workContinuation;
mOperation = new OperationImpl();
}
@Override
public void run() {
try {
if (mWorkContinuation.hasCycles()) {
throw new IllegalStateException(
String.format("WorkContinuation has cycles (%s)", mWorkContinuation));
}
boolean needsScheduling = addToDatabase();
if (needsScheduling) {
// Enable RescheduleReceiver, only when there are Worker's that need scheduling.
final Context context =
mWorkContinuation.getWorkManagerImpl().getApplicationContext();
PackageManagerHelper.setComponentEnabled(context, RescheduleReceiver.class, true);
scheduleWorkInBackground();
}
mOperation.setState(Operation.SUCCESS);
} catch (Throwable exception) {
mOperation.setState(new Operation.State.FAILURE(exception));
}
}
可以看到还是比较严谨,开启事物处理数据库逻辑。
public boolean addToDatabase() {
WorkManagerImpl workManagerImpl = mWorkContinuation.getWorkManagerImpl();
WorkDatabase workDatabase = workManagerImpl.getWorkDatabase();
workDatabase.beginTransaction();
try {
boolean needsScheduling = processContinuation(mWorkContinuation);
workDatabase.setTransactionSuccessful();
return needsScheduling;
} finally {
workDatabase.endTransaction();
}
}
6.会执行调度的方法,schedule
public static void schedule(
@NonNull Configuration configuration,
@NonNull WorkDatabase workDatabase,
List<Scheduler> schedulers) {
if (schedulers == null || schedulers.size() == 0) {
return;
}
WorkSpecDao workSpecDao = workDatabase.workSpecDao();
List<WorkSpec> eligibleWorkSpecs;
workDatabase.beginTransaction();
try {
eligibleWorkSpecs = workSpecDao.getEligibleWorkForScheduling(
configuration.getMaxSchedulerLimit());
if (eligibleWorkSpecs != null && eligibleWorkSpecs.size() > 0) {
long now = System.currentTimeMillis();
// Mark all the WorkSpecs as scheduled.
// Calls to Scheduler#schedule() could potentially result in more schedules
// on a separate thread. Therefore, this needs to be done first.
for (WorkSpec workSpec : eligibleWorkSpecs) {
workSpecDao.markWorkSpecScheduled(workSpec.id, now);
}
}
workDatabase.setTransactionSuccessful();
} finally {
workDatabase.endTransaction();
}
if (eligibleWorkSpecs != null && eligibleWorkSpecs.size() > 0) {
WorkSpec[] eligibleWorkSpecsArray = eligibleWorkSpecs.toArray(new WorkSpec[0]);
// Delegate to the underlying scheduler.
for (Scheduler scheduler : schedulers) {
scheduler.schedule(eligibleWorkSpecsArray);
}
}
}
里面同样是开启事物从数据库中取
7.贪吃调度器的调度
里面就处理了约束相关逻辑
8. mWorkManagerImpl.startWork(workSpec.id);
无约束的直接启动 mWorkManagerImpl.startWork(workSpec.id);,
public boolean startWork(
@NonNull String id,
@Nullable WorkerParameters.RuntimeExtras runtimeExtras) {
WorkerWrapper workWrapper;
synchronized (mLock) {
// Work may get triggered multiple times if they have passing constraints
// and new work with those constraints are added.
if (mEnqueuedWorkMap.containsKey(id)) {
Logger.get().debug(
TAG,
String.format("Work %s is already enqueued for processing", id));
return false;
}
workWrapper =
new WorkerWrapper.Builder(
mAppContext,
mConfiguration,
mWorkTaskExecutor,
this,
mWorkDatabase,
id)
.withSchedulers(mSchedulers)
.withRuntimeExtras(runtimeExtras)
.build();
ListenableFuture<Boolean> future = workWrapper.getFuture();
future.addListener(
new FutureListener(this, id, future),
mWorkTaskExecutor.getMainThreadExecutor());
mEnqueuedWorkMap.put(id, workWrapper);
}
mWorkTaskExecutor.getBackgroundExecutor().execute(workWrapper);
Logger.get().debug(TAG, String.format("%s: processing %s", getClass().getSimpleName(), id));
return true;
}
最后调到我们自己的doWork方法
@Override
public final @NonNull ListenableFuture<Result> startWork() {
mFuture = SettableFuture.create();
getBackgroundExecutor().execute(new Runnable() {
@Override
public void run() {
try {
Result result = doWork();
mFuture.set(result);
} catch (Throwable throwable) {
mFuture.setException(throwable);
}
}
});
return mFuture;
}
有条件约束的逻辑
代码太多,就不贴了,大概说下流程,比如网络限制的,是通过连网的广播,开启SystemAlarmService,切换action,然后还是调用没有约束的逻辑执行。