Android-WorkManager源码解析

一、Request的初始化

val request: OneTimeWorkRequest = OneTimeWorkRequest.Builder(
            MainWorker::class.java).build()

其实Request的初始化,主要就是看Builder类的构造器和build()方法

1.Builder的构造器

Builder是OneTimeWorkRequest的内部类,Builder是继承自WorkRequest.Builder。这里先看OneTimeWorkRequest.Builder的构造器

public Builder(@NonNull Class<? extends ListenableWorker> workerClass) {
    super(workerClass);
    mWorkSpec.inputMergerClassName = OverwritingInputMerger.class.getName();
}

可以看到这里首先调用了super,即调用了WorkRequest.Builder的构造器实现

Builder(@NonNull Class<? extends ListenableWorker> workerClass) {
    mId = UUID.randomUUID();
    mWorkerClass = workerClass;
    mWorkSpec = new WorkSpec(mId.toString(), workerClass.getName());
    addTag(workerClass.getName());
}

在Builder的构造器中,其实主要就是保存了Worker的子类Class,动态生成一个UUID,并且通过Worker的Class的name添加一个Tag标记,这个Tag是保存在一个Set集合中。
而OneTimeWorkRequest.Builder的build()方法,其实调用的是WorkRequest.Builder的build()方法,但是在build()中调用的buildInternal()的实现是交给WorkRequest.Builder的子类实现的。这里就是在OneTimeWorkRequest.Builder中实现buildInternal()

public final @NonNull W build() {
    // 其实就是new一个Request
    W returnValue = buildInternal();
    // Create a new id and WorkSpec so this WorkRequest.Builder can be used multiple times.
    // 这里再创建一个新的id和workSpec,是为了WorkRequest.Builder能
    // 被使用多次
    mId = UUID.randomUUID();
    mWorkSpec = new WorkSpec(mWorkSpec);
    mWorkSpec.id = mId.toString();
    return returnValue;
}

OneTimeWorkRequest.Builder中buildInternal()实现

@Override
@NonNull OneTimeWorkRequest buildInternal() {
    if (mBackoffCriteriaSet
            && Build.VERSION.SDK_INT >= 23
            && mWorkSpec.constraints.requiresDeviceIdle()) {
        throw new IllegalArgumentException(
                "Cannot set backoff criteria on an idle mode job");
    }
    if (mWorkSpec.runInForeground
            && Build.VERSION.SDK_INT >= 23
            && mWorkSpec.constraints.requiresDeviceIdle()) {
        throw new IllegalArgumentException(
                "Cannot run in foreground with an idle mode constraint");
    }
    return new OneTimeWorkRequest(this);
}

在初始化Request的时候,需要满足几个条件,即设备要在空闲状态下,并且Android版本要大于等于23,也就是Android6.0以上。
其实Request的初始化,就是直接new一个Request,并且持有对应的id、workSpec、tags等信息。workSpec中保存的是Request的各种限制,包括Constraints约束条件。

        /**
         * 除了上面设置的约束外,WorkManger还提供了以下的约束作为Work执行的条件:
         *  setRequiredNetworkType:网络连接设置
         *  setRequiresBatteryNotLow:是否为低电量时运行 默认false
         *  setRequiresCharging:是否要插入设备(接入电源),默认false
         *  setRequiresDeviceIdle:设备是否为空闲,默认false
         *  setRequiresStorageNotLow:设备可用存储是否不低于临界阈值
         */

val constraints: Constraints = Constraints.Builder()
    .setRequiredNetworkType(NetworkType.CONNECTED) // 网络链接中...
    /*.setRequiresCharging(true) // 充电中..
        .setRequiresDeviceIdle(true) // 空闲时*/
    .build()

在WorkRequest.Builder中的setConstraints实现如下:

public final @NonNull B setConstraints(@NonNull Constraints constraints) {
    mWorkSpec.constraints = constraints;
    return getThis();
}

二、WorkManager执行Request

WorkManager.getInstance(this).enqueue(request)

1.WorkManager.getInstance(@NonNull Context context)

    public static @NonNull WorkManager getInstance(@NonNull Context context) {
        return WorkManagerImpl.getInstance(context);
    }

WorkManagerImpl.getInstance()中的实现如下:

    @RestrictTo(RestrictTo.Scope.LIBRARY_GROUP)
    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;
        }
    }

    @Deprecated
    @RestrictTo(RestrictTo.Scope.LIBRARY_GROUP)
    public static @Nullable WorkManagerImpl getInstance() {
        synchronized (sLock) {
            if (sDelegatedInstance != null) {
                return sDelegatedInstance;
            }

            return sDefaultInstance;
        }
    }

虽然WorkManager调用getInstance会初始化WorkManagerImpl对象,但是其实这里并不是第一次初始化调用,实际的第一次初始化调用,是由WorkManagerInitializer这个ContentProvider中的onCreate方法进行的。
在使用Work的时候,编译打包的时候,会在apk的AndroidManifest.xml中会添加一个<provider>内容,如下所示:

        <provider
            android:name="androidx.work.impl.WorkManagerInitializer"
            android:exported="false"
            android:multiprocess="true"
            android:authorities="com.nene.workmanagerdemo.workmanager-init"
            android:directBootAware="false" />

android:exported:代表组件能否被其他应用程序组件调用或者交互,false表示不能。
android:multiprocess:如果应该是多进程,这里传true,则每个应用程序进程都会为其提供一个provider对象;如果是false,则应用程序进程共享一个provider对象。
android:directBootAware:为true,表示加密感知。
在apk的AndroidManifest.xml中添加WorkManagerInitializer这个ContentProvider的注册,就是用于WorkManagerImpl的第一次初始化。
WorkManagerInitializer的onCreate方法实现如下:

    @Override
    public boolean onCreate() {
        // Initialize WorkManager with the default configuration.
        WorkManager.initialize(getContext(), new Configuration.Builder().build());
        return true;
    }

WorkManager.initialize()

    public static void initialize(@NonNull Context context, @NonNull Configuration configuration) {
        WorkManagerImpl.initialize(context, configuration);
    }

WorkManagerImpl.initialize()

    @RestrictTo(RestrictTo.Scope.LIBRARY_GROUP)
    public static void initialize(@NonNull Context context, @NonNull Configuration configuration) {
        synchronized (sLock) {
            if (sDelegatedInstance != null && sDefaultInstance != null) {
                throw new IllegalStateException("WorkManager is already initialized.  Did you "
                        + "try to initialize it manually without disabling "
                        + "WorkManagerInitializer? See "
                        + "WorkManager#initialize(Context, Configuration) or the class level "
                        + "Javadoc for more information.");
            }

            if (sDelegatedInstance == null) {
                context = context.getApplicationContext();
                if (sDefaultInstance == null) {
                    sDefaultInstance = new WorkManagerImpl(
                            context,
                            configuration,
                            new WorkManagerTaskExecutor(configuration.getTaskExecutor()));
                }
                sDelegatedInstance = sDefaultInstance;
            }
        }
    }

可以看到,WorkManagerImpl.initialize()方法就是初始化了WorkManagerImpl的sDelegatedInstance 对象,而WorkManager.getInstance()调用WorkManagerImpl.getInstance()方法,返回的就是sDelegatedInstance对象,所以在程序中调用WorkManager.getInstance()方法的时候,并不会去new一个新的对象,而是直接返回了由ContentProvider进行初始化的对象。

2.WorkManager.enqueue(request)

WorkManager.enqueue实现如下:

    public final Operation enqueue(@NonNull WorkRequest workRequest) {
        return enqueue(Collections.singletonList(workRequest));
    }

其内部调用的是enqueue的重载方法,但是在WorkManager中enqueu的重载方法是一个抽象方法,其实现是在WorkManagerImpl中。

    public Operation enqueue(
            @NonNull List<? extends WorkRequest> workRequests) {

        // This error is not being propagated as part of the Operation, as we want the
        // app to crash during development. Having no workRequests is always a developer error.
        if (workRequests.isEmpty()) {
            throw new IllegalArgumentException(
                    "enqueue needs at least one WorkRequest.");
        }
        return new WorkContinuationImpl(this, workRequests).enqueue();
    }

在这里,是创建了一个WorkContinuationImpl对象,并且调用其enqueue()方法。
WorkContinuationImpl的构造函数实现如下:

    WorkContinuationImpl(
            @NonNull WorkManagerImpl workManagerImpl,
            @NonNull List<? extends WorkRequest> work) {
        this(
                workManagerImpl,
                null,
                ExistingWorkPolicy.KEEP,
                work,
                null);
    }

    WorkContinuationImpl(@NonNull WorkManagerImpl workManagerImpl,
            String name,
            ExistingWorkPolicy existingWorkPolicy,
            @NonNull List<? extends WorkRequest> work,
            @Nullable List<WorkContinuationImpl> parents) {
        mWorkManagerImpl = workManagerImpl;
        mName = name;
        mExistingWorkPolicy = existingWorkPolicy;
        mWork = work;
        mParents = parents;
        mIds = new ArrayList<>(mWork.size());
        mAllIds = new ArrayList<>();
        if (parents != null) {
            for (WorkContinuationImpl parent : parents) {
                mAllIds.addAll(parent.mAllIds);
            }
        }
        for (int i = 0; i < work.size(); i++) {
            String id = work.get(i).getStringId();
            mIds.add(id);
            mAllIds.add(id);
        }
    }

在这里,如果是多任务的情况下,会通过调用WorkManagerImpl的beginWith(request)方法创建一个WorkContinuationImpl对象,然后通过调用该WorkContinuationImpl对象的then方法,将当前的WorkContinuationImpl对象作为parent,每次then的时候都会创建一个新的WorkContinuationImpl对象,并且都会将之前的WorkContinuationImpl对象保存的work的id加入到新的WorkContinuationImpl对象中的List<String> mAllIds中。

WorkManager.getInstance(this).beginWith(request).then(request).then(request).enqueue()

在WorkContinuationImpl对象中保存了对应的WorkRequest集合,如果是多任务的时候,则会每个WorkContinuationImpl对象都会有一个其parent保存父WorkContinuationImpl对象,层层向上。而最后一个WorkContinuationImpl对象会保存其所有的父级的workRequest的id值。

接着看WorkContinuationImpl的enqueue()方法

    @Override
    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;
    }

该方法的内部,其实就是通过一个线程池执行一个Runnable任务,然后获取到这个Runnable中得到的Operation对象并返回。

接着看EnqueueRunable的run()方法

    @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));
        }
    }

这里的addToDatabase()方法,其实就是将所有WorkContinuationImpl对象中的WorkRequest集合中的WorkSpec和tag、name等信息保存在数据库中,这里的数据库是采用Room数据库。而在保存数据库的时候,优先保存WorkContinuationImpl中的parents中的request信息,并且是采用递归调用的方式进行保存。

    @VisibleForTesting
    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();
        }
    }
    private static boolean processContinuation(@NonNull WorkContinuationImpl workContinuation) {
        boolean needsScheduling = false;
        List<WorkContinuationImpl> parents = workContinuation.getParents();
        if (parents != null) {
            for (WorkContinuationImpl parent : parents) {
                // When chaining off a completed continuation we need to pay
                // attention to parents that may have been marked as enqueued before.
                if (!parent.isEnqueued()) {
                    // 递归
                    needsScheduling |= processContinuation(parent);
                } else {
                    Logger.get().warning(TAG, String.format("Already enqueued work ids (%s).",
                            TextUtils.join(", ", parent.getIds())));
                }
            }
        }
        // TODO: 最终都是调用enqueueContinuation进行数据库的insert操作
        needsScheduling |= enqueueContinuation(workContinuation);
        return needsScheduling;
    }

插入成功,则进行WorkRequest的后台调度工作。
即调用EnqueueRunable的scheduleWorkInBackground()方法

    @VisibleForTesting
    public void scheduleWorkInBackground() {
        WorkManagerImpl workManager = mWorkContinuation.getWorkManagerImpl();
        Schedulers.schedule(
                workManager.getConfiguration(),
                workManager.getWorkDatabase(),
                workManager.getSchedulers());
    }

workManager.getSchedulers()其实就是获取调度器对象的,而这里在初始化调度器的时候,就会创建一个GreedyScheduler。

接着看GreedyScheduler的schedule方法

    @Override
    public void schedule(@NonNull WorkSpec... workSpecs) {
        if (mIsMainProcess == null) {
            // The default process name is the package name.
            mIsMainProcess = TextUtils.equals(mContext.getPackageName(), getProcessName());
        }

        if (!mIsMainProcess) {
            Logger.get().info(TAG, "Ignoring schedule request in non-main process");
            return;
        }

        registerExecutionListenerIfNeeded();

        // Keep track of the list of new WorkSpecs whose constraints need to be tracked.
        // Add them to the known list of constrained WorkSpecs and call replace() on
        // WorkConstraintsTracker. That way we only need to synchronize on the part where we
        // are updating mConstrainedWorkSpecs.
        List<WorkSpec> constrainedWorkSpecs = new ArrayList<>();
        List<String> constrainedWorkSpecIds = new ArrayList<>();
        for (WorkSpec workSpec : workSpecs) {
            if (workSpec.state == WorkInfo.State.ENQUEUED
                    && !workSpec.isPeriodic()
                    && workSpec.initialDelay == 0L
                    && !workSpec.isBackedOff()) {
                if (workSpec.hasConstraints()) {
                    if (SDK_INT >= 23 && workSpec.constraints.requiresDeviceIdle()) {
                        // Ignore requests that have an idle mode constraint.
                        Logger.get().debug(TAG,
                                String.format("Ignoring WorkSpec %s, Requires device idle.",
                                        workSpec));
                    } else if (SDK_INT >= 24 && workSpec.constraints.hasContentUriTriggers()) {
                        // Ignore requests that have content uri triggers.
                        Logger.get().debug(TAG,
                                String.format("Ignoring WorkSpec %s, Requires ContentUri triggers.",
                                        workSpec));
                    } else {
                        constrainedWorkSpecs.add(workSpec);
                        constrainedWorkSpecIds.add(workSpec.id);
                    }
                } else {
                    Logger.get().debug(TAG, String.format("Starting work for %s", workSpec.id));
                    mWorkManagerImpl.startWork(workSpec.id);
                }
            }
        }

        // onExecuted() which is called on the main thread also modifies the list of mConstrained
        // WorkSpecs. Therefore we need to lock here.
        synchronized (mLock) {
            if (!constrainedWorkSpecs.isEmpty()) {
                Logger.get().debug(TAG, String.format("Starting tracking for [%s]",
                        TextUtils.join(",", constrainedWorkSpecIds)));
                mConstrainedWorkSpecs.addAll(constrainedWorkSpecs);
                mWorkConstraintsTracker.replace(mConstrainedWorkSpecs);
            }
        }
    }

3.总结

(1)WorkManager的初始化,是通过字节码插桩的方式,修改apk的AndroidManifest.xml文件,然后向AndroidManifest.xml文件中添加对应的ContentProvider和Receiver,用来提供WorkManager的初始化和接收对应的系统服务广播,处理系统级事件
(2)WorkManager的request任务的保存,是保存Room数据库中
(3)WorkManager中执行request任务的时候,是通过线程池执行Runnable任务,而request都是封装在对应的Runnable中

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