Android必知必会的四大组件--Service

2020-06-23 15:18:07 浏览数 (1)

前言

写着一篇文章的原因,主要是因为在面试中,服务这个关键词的出现频率非常高。很多时候,面试官会问你,Service中能否进行耗时操作? 我们稍后就会揭晓那么这个答案。

生命周期

由图中可以直观的看出几点。

使用方法

Service方法需要在AndroidManifest.xml中进行注册

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// 第一步:在AndroidManifest.xml中进行注册
<service android:name=".LocalService"/>

// 第二步:启动
① startService(Intent);
② bindService(Intent, ServiceConnection, Int);

// 第三步:解绑(使用方法② 启动时操作)
unBindService(ServiceConnection);

// 第四步:暂停
stopService(Intent);
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Activity和Service的通信

ActivityService的通信其实就是基于IBinder来进行实现的。但是IBinder其实是一个接口,对我们而言一般使用他的实现类Binder并通过强制转换来完成操作。

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/**
 * Service方法继承
 * onBind()是一个抽象方法。
 */
public class LocalService extends Service {
    private final IBinder binder = new ServiceBinder();

    @Nullable
    @Override
    public IBinder onBind(Intent intent) {
        return binder;
    }

    public class ServiceBinder extends Binder {
        LocalService getLocalService(){
            return LocalService.this;
        }
    }
}

以上代码,是一个用于通信的基础版本。

既然需要通信,那我们总需要知道对方是谁,如果使用的是startService(),上文已经提到他是独立于Activity的,所以势必使用的是bindService()

在上文的使用方法中已经提到了bindService()使用到的参数,IntentServiceConnectionInt

ServiceConnection

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/**
 * bindService()方法中的参数之一。
 * 用于对service进行操作
 */
ServiceConnection connection = new ServiceConnection() {
           // Activity和Service绑定时调用
            @Override
            public void onServiceConnected(ComponentName name, IBinder binder) {
                // 基于Binder拿到我们要的Service
                service = ((LocalService.ServiceBinder)binder).getLocalService();
                // 干你需要干的事情
            }
            // Activity和Service解绑时调用
            @Override
            public void onServiceDisconnected(ComponentName name) {
                service = null;
            }
        };

Int

  • BIND_AUTO_CREATE收到绑定需求,如果Service尚未创建,则立即创建。
  • BIND_DEBUG_UNBIND用于测试使用,对unbind调用不匹配的调试帮助。
  • BIND_NOT_FOREGROUND不允许此绑定将目标服务的进程提升到前台调度优先级

这是一个已经存在于Service类中的值,这里并不全部例举,一般来说都是使用BIND_AUTO_CREATE

必须要调用的unbindService(ServiceConnection)。

Q1:为什么我们一定要调用这个方法,如果我们不解绑会出现什么样的问题?

经过测试,Logcat中爆出了这样的错误Activity has leaked ServiceConnection that was originally bound here。也就是说ServiceConnection内存泄漏了。这也是为什么我们一直说需要解绑的原因。

IntentService

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public class LocalIntentService extends IntentService {
    /**
     * Creates an IntentService.  Invoked by your subclass's constructor.
     *
     * @param name Used to name the worker thread, important only for debugging.
     */
    public LocalIntentService(String name) {
        super(name);
    }

    @Override
    protected void onHandleIntent(@Nullable Intent intent) {
        
    }
}

先看一段我们的继承代码,和Service不同的地方就是,必须重写的方法是onHandleIntent(Intent intent)。那我们也和之前一样做一个源码导读好了。

IntentService源码导读

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public abstract class IntentService extends Service {
    private volatile Looper mServiceLooper;
    @UnsupportedAppUsage
    private volatile ServiceHandler mServiceHandler;
    private String mName;
    private boolean mRedelivery;
    
    private final class ServiceHandler extends Handler {
        public ServiceHandler(Looper looper) {
            super(looper);
        }

        @Override
        public void handleMessage(Message msg) {
            onHandleIntent((Intent)msg.obj);
            stopSelf(msg.arg1);
        }
    }
}

其实从整个代码的变量我们已经可以做一个猜测了。Looper Handler Service的组成成分。那它的处理过程势必依赖于一个Handler的通信机制。另外看到了ServiceHandler中的stopSelf()方法,我们也就清楚了一个问题为什么我们不需要去控制IntentService的暂停。

接下来从生命周期的角度来看看这个IntentService,因为Binder机制上是一致的,所以分析主线就是onCreate() --> onStartCommand() --> onDestroy()

onCreate()

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public void onCreate() {
        // TODO: It would be nice to have an option to hold a partial wakelock
        // during processing, and to have a static startService(Context, Intent)
        // method that would launch the service & hand off a wakelock.

        super.onCreate();
        HandlerThread thread = new HandlerThread("IntentService["   mName   "]");
        thread.start();

        mServiceLooper = thread.getLooper();
        mServiceHandler = new ServiceHandler(mServiceLooper);
    }
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创建了一个HandlerThread,去初始化了LooperHandler,也就说明服务在内部处理。

onStartCommand()

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public int onStartCommand(@Nullable Intent intent, int flags, int startId) {
        onStart(intent, startId); // 1 -->
        return mRedelivery ? START_REDELIVER_INTENT : START_NOT_STICKY; // 2 -->
    }

这里出现了两个部分:(1)onStart()方法(2)mRedelivery变量,下面将着重介绍。

onStart()

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public void onStart(@Nullable Intent intent, int startId) {
        Message msg = mServiceHandler.obtainMessage();
        msg.arg1 = startId;
        msg.obj = intent;
        mServiceHandler.sendMessage(msg);
    }
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其他都是和Handler一致的,整体流程也就是Message的数据装载,再通过Handler进行一个发送。

mRedelivery

这个变量是干什么的?

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/**
     * Constant to return from {@link #onStartCommand}: if this service's
     * process is killed while it is started (after returning from
     * {@link #onStartCommand}), and there are no new start intents to
     * deliver to it, then take the service out of the started state and
     * don't recreate until a future explicit call to
     * {@link Context#startService Context.startService(Intent)}.  The
     * service will not receive a {@link #onStartCommand(Intent, int, int)}
     * call with a null Intent because it will not be restarted if there
     * are no pending Intents to deliver.
     *
     * <p>This mode makes sense for things that want to do some work as a
     * result of being started, but can be stopped when under memory pressure
     * and will explicit start themselves again later to do more work.  An
     * example of such a service would be one that polls for data from
     * a server: it could schedule an alarm to poll every N minutes by having
     * the alarm start its service.  When its {@link #onStartCommand} is
     * called from the alarm, it schedules a new alarm for N minutes later,
     * and spawns a thread to do its networking.  If its process is killed
     * while doing that check, the service will not be restarted until the
     * alarm goes off.
     */
    public static final int START_NOT_STICKY = 2;

    /**
     * Constant to return from {@link #onStartCommand}: if this service's
     * process is killed while it is started (after returning from
     * {@link #onStartCommand}), then it will be scheduled for a restart
     * and the last delivered Intent re-delivered to it again via
     * {@link #onStartCommand}.  This Intent will remain scheduled for
     * redelivery until the service calls {@link #stopSelf(int)} with the
     * start ID provided to {@link #onStartCommand}.  The
     * service will not receive a {@link #onStartCommand(Intent, int, int)}
     * call with a null Intent because it will only be restarted if
     * it is not finished processing all Intents sent to it (and any such
     * pending events will be delivered at the point of restart).
     */
    public static final int START_REDELIVER_INTENT = 3;
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一大段冗长的英文很烦,更何况我也就低分飘过6级的水平呢,哈哈哈哈!!

就不折磨你们了,直接做出一个解释吧。

  • START_NOT_STICKY:默认模式,这是一个容许被杀的模式,随时允许被叫停
  • START_REDELIVER_INTENT:告诉系统在崩溃后重新启动服务,并重新传递在崩溃时存在的意图。

好了,以上基本就是整个IntentService的介绍了,使用方法上来说应该也是比较简单了。

Thread和Service的区别

总结

  1. 在ANR机制中,Service的响应时长不能超过20s,其实也可以比较直观的看出,Service其实并不能进行所谓耗时操作。但是如果加上了Thread进行异步处理,那么其实他还是可以进行耗时操作的。(具体看你怎么进行回答,主要还是一个知识点,Service运行在主线程)
  2. Service存在的原因是Activity是一个频繁会被创建、销毁的组件,虽然我们同样可以通过Thread进行异步操作,但是当Activity实例被销毁时,相应的捆绑在Activity生命周期内的Thread实例我们也没有能力再去寻找了,且如果耗时过长可能会引发内存泄漏。

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