• 从Alarm看Android上层UI到内核代码的流程分析


    Alarm 调用流程,alarm的流程实现了从上层应用一直到下面driver的调用流程,下面简单阐述:

    涉及代码;
    ./packages/apps/DeskClock/src/com/android/deskclock/Alarms.java
    ./frameworks/base/core/java/android/app/AlarmManager.java
    ./frameworks/base/services/java/com/android/server/AlarmManagerService.java
    ./frameworks/base/services/jni/com_android_server_AlarmManagerService.cpp
    ./kernel/kernel/drivers/rtc/alarm-dev.c
    ./kernel/kernel/include/linux/android_alarm.h
    ./kernel/kernel/drivers/rtc/alarm.c
    ./kernel/kernel/drivers/rtc/interface.c
    ./kernel/kernel/drivers/rtc/rtc-pcf8563.c


    ./packages/apps/DeskClock/src/com/android/deskclock/AlarmReceiver.java


    ./kernel/arch/arm/configs/mmp2_android_defconfig
    ./kernel/kernel/kernel/.config   


    点击Clock 应用程序,然后设置新闹钟,会调到  Alarms.java  里面的
    public static long setAlarm(Context context, Alarm alarm) {
    ....
    setNextAlert(context);
    ....
    }
    然后这里面也会调用到  
    public static void setNextAlert(final Context context) {
            if (!enableSnoozeAlert(context)) {
                Alarm alarm = calculateNextAlert(context);   //new 一个新的alarm
                if (alarm != null) {
                    enableAlert(context, alarm, alarm.time);
                } else {
                    disableAlert(context);
                }
            }
        }
    然后继续调用到
    private static void enableAlert(Context context, final Alarm alarm, final long atTimeInMillis) {
    .......
    am.set(AlarmManager.RTC_WAKEUP, atTimeInMillis, sender);   //这里是RTC_WAKEUP, 这就保证了即使系统睡眠了,都能唤醒,闹钟工作(android平台关机闹钟好像不行)
    .....
    }

    然后就调用到了AlarmManager.java 里面方法
        public void set(int type, long triggerAtTime, PendingIntent operation) {
            try {
                mService.set(type, triggerAtTime, operation);
            } catch (RemoteException ex) {
            }
        }

    然后就调用到了AlarmManagerService.java  里面方法
    public void set(int type, long triggerAtTime, PendingIntent operation) {
            setRepeating(type, triggerAtTime, 0, operation);
        }

    然后继续调用
    public void setRepeating(int type, long triggerAtTime, long interval,
                PendingIntent operation) {
    .....
    synchronized (mLock) {
                Alarm alarm = new Alarm();
                alarm.type = type;
                alarm.when = triggerAtTime;
                alarm.repeatInterval = interval;
                alarm.operation = operation;

                // Remove this alarm if already scheduled.
                removeLocked(operation);

                if (localLOGV) Slog.v(TAG, "set: " + alarm);

                int index = addAlarmLocked(alarm);
                if (index == 0) {
                    setLocked(alarm);
                }
            }
        }

    然后就调用到
    private void setLocked(Alarm alarm)
        {
        ......
        set(mDescriptor, alarm.type, alarmSeconds, alarmNanoseconds);   //mDescriptor  这里的文件是 /dev/alarm
        .....
    }

    这里就调用到jni了
    private native void set(int fd, int type, long seconds, long nanoseconds);

    这就调用到了com_android_server_AlarmManagerService.cpp 里面
    static JNINativeMethod sMethods[] = {
         /* name, signature, funcPtr */
        {"init", "()I", (void*)android_server_AlarmManagerService_init},
        {"close", "(I)V", (void*)android_server_AlarmManagerService_close},
        {"set", "(IIJJ)V", (void*)android_server_AlarmManagerService_set},
        {"waitForAlarm", "(I)I", (void*)android_server_AlarmManagerService_waitForAlarm},
        {"setKernelTimezone", "(II)I", (void*)android_server_AlarmManagerService_setKernelTimezone},
    };

    set 对应的是android_server_AlarmManagerService_set, 具体是
    static void android_server_AlarmManagerService_set(JNIEnv* env, jobject obj, jint fd, jint type, jlong seconds, jlong nanoseconds)
    {
    #if HAVE_ANDROID_OS
        struct timespec ts;
        ts.tv_sec = seconds;
        ts.tv_nsec = nanoseconds;
        
        int result = ioctl(fd, ANDROID_ALARM_SET(type), &ts);
        if (result < 0)
        {
            LOGE("Unable to set alarm to %lld.%09lld: %s\n", seconds, nanoseconds, strerror(errno));
        }
    #endif
    }

    然后ioctl 就调用到了alarm-dev.c
    static long alarm_ioctl(struct file *file, unsigned int cmd, unsigned long arg)
    {
    ....
        case ANDROID_ALARM_SET(0):
            if (copy_from_user(&new_alarm_time, (void __user *)arg,
                sizeof(new_alarm_time))) {
                rv = -EFAULT;
                goto err1;
            }
    from_old_alarm_set:
            spin_lock_irqsave(&alarm_slock, flags);
            pr_alarm(IO, "alarm %d set %ld.%09ld\n", alarm_type,
                new_alarm_time.tv_sec, new_alarm_time.tv_nsec);
            alarm_enabled |= alarm_type_mask;
            alarm_start_range(&alarms[alarm_type],
                timespec_to_ktime(new_alarm_time),
                timespec_to_ktime(new_alarm_time));
            spin_unlock_irqrestore(&alarm_slock, flags);
            if (ANDROID_ALARM_BASE_CMD(cmd) != ANDROID_ALARM_SET_AND_WAIT(0)
                && cmd != ANDROID_ALARM_SET_AND_WAIT_OLD)
                break;
            /* fall though */
    ....

    case ANDROID_ALARM_SET_RTC:
            if (copy_from_user(&new_rtc_time, (void __user *)arg,
                sizeof(new_rtc_time))) {
                rv = -EFAULT;
                goto err1;
            }
            rv = alarm_set_rtc(new_rtc_time);
            spin_lock_irqsave(&alarm_slock, flags);
            alarm_pending |= ANDROID_ALARM_TIME_CHANGE_MASK;
            wake_up(&alarm_wait_queue);
            spin_unlock_irqrestore(&alarm_slock, flags);
            if (rv < 0)
                goto err1;
            break;
    ....
    }

    然后这边就调用到了alarm_start_range  设置闹钟,   alarm_set_rtc  设置RTC
    这两个函数在 android_alarm.h 声明,在 alarm.c 里实现
    这是android_alarm.h 里面的声明
    void alarm_start_range(struct alarm *alarm, ktime_t start, ktime_t end);
    int alarm_try_to_cancel(struct alarm *alarm);
    int alarm_cancel(struct alarm *alarm);
    ktime_t alarm_get_elapsed_realtime(void);

    /* set rtc while preserving elapsed realtime */
    int alarm_set_rtc(const struct timespec ts);

    下面看alarm.c 里面实现:
    int alarm_set_rtc(struct timespec new_time)
    {
    ....
    ret = rtc_set_time(alarm_rtc_dev, &rtc_new_rtc_time);
    ....
    }

    alarm.c  里面实现了 alarm_suspend  alarm_resume 函数
    就是如果系统没有suspend的时候,设置闹钟并不会往rtc 芯片的寄存器上写数据,因为不需要唤醒系统,所以闹钟数据时间什么的就通过上层写到设备文件/dev/alarm
    里面就可以了,AlarmThread 会不停的去轮寻下一个时间有没有闹钟,直接从设备文件 /dev/alarm 里面读取
    第二种,系统要是进入susupend的话,alarm 的alarm_suspend  就会写到下层的rtc芯片的寄存器上去, 然后即使系统suspend之后,闹钟通过rtc 也能唤醒系统



    这里就调用到了interface.c 里面   //这里面 int rtc_set_alarm(struct rtc_device *rtc, struct rtc_wkalrm *alarm) 差不多 也是跟下面一样
    int rtc_set_time(struct rtc_device *rtc, struct rtc_time *tm)
    {
    ....
        err = rtc->ops->set_time(rtc->dev.parent, tm);
    ....
    }

    然后set_time 就看到具体的是那个RTC芯片,这边我们是rtc-pcf8563.c
    static const struct rtc_class_ops pcf8563_rtc_ops = {
        .read_time    = pcf8563_rtc_read_time,
        .set_time    = pcf8563_rtc_set_time,
        .read_alarm    = pcf8563_rtc_read_alarm,
        .set_alarm    = pcf8563_rtc_set_alarm,
    };
    然后就到了
    static int pcf8563_rtc_set_time(struct device *dev, struct rtc_time *tm)
    {
        unsigned char buf[TIME_NUM];
        int ret;

        ret = data_calc(buf, tm, TIME_NUM);
        if (ret < 0)
            goto out;
        ret = i2c_smbus_write_i2c_block_data(pcf8563_info->client, PCF8563_RTC_SEC, TIME_NUM, buf);  //这边就调用i2c统一接口,往pcf8563rtc芯片寄存器里面写出数据
    out:
        return ret;
    }

    到此,闹钟时间就已经写到rtc 芯片的寄存器里面,第二个参数就是寄存器的名字,后面的buf就是要写入的时间,rtc芯片是额外供电的,所以系统suspend之后,系统kernel都关了,但是rtc里面还有电,寄存器里面数据还是有的(掉电就会丢失数据),所以闹钟到了,通过硬件中断机制就可以唤醒系统。

    上面那个rtc下面有几十个rtc芯片驱动代码,没有结构基本一样,都有基本操作函数,注册函数,都是对各自芯片上特有的寄存器操作,为什么调用的是pcf8563rtc呢?这个要看你系统用的是那个芯片,这个可以通过./kernel/kernel/kernel/.config  查看,这边的pcf8563rtc  是当前系统正在使用的芯片型号  
    # CONFIG_RTC_DRV_ISL1208 is not set
    # CONFIG_RTC_DRV_X1205 is not set
    CONFIG_RTC_DRV_PCF8563=y
    # CONFIG_RTC_DRV_PCF8583 is not set
    # CONFIG_RTC_DRV_M41T80 is not set



    下面是系统唤醒之后,闹钟怎么工作的流程,简单阐述
    系统没有suspend的话直接走下面流程,如果suspend的话会被RTC唤醒,然后还是走下面的流程

     private class AlarmThread extends Thread
        {
            public AlarmThread()
            {
                super("AlarmManager");
            }
            
            public void run()
            {
            while (true)
                {
            int result = waitForAlarm(mDescriptor); //这里调用jni调用static jint android_server_AlarmManagerService_waitForAlarm,主要还是对 /dev/alarm  操作
            ....
            Alarm alarm = it.next();
                            try {
                                if (localLOGV) Slog.v(TAG, "sending alarm " + alarm);
                                alarm.operation.send(mContext, 0,
                                        mBackgroundIntent.putExtra(
                                                Intent.EXTRA_ALARM_COUNT, alarm.count),
                                        mResultReceiver, mHandler);
            ....
            }

        }
          }


    static jint android_server_AlarmManagerService_waitForAlarm(JNIEnv* env, jobject obj, jint fd)
    {
    #if HAVE_ANDROID_OS
        int result = 0;
        
        do
        {
            result = ioctl(fd, ANDROID_ALARM_WAIT);
        } while (result < 0 && errno == EINTR);
        
        if (result < 0)
        {
            LOGE("Unable to wait on alarm: %s\n", strerror(errno));
            return 0;
        }
        
        return result;
    #endif
    }

    AlarmManagerService  里面有个AlarmThread  会一直轮询 /dev/alarm文件,如果打开失败就直接返回,成功就会做一些动作,比如查找时间最近的
    alarm,比如睡眠被闹钟唤醒的时候,这边就发一个intent出去,然后在AlarmReceiver.java里面弹出里面会收到就会调用下面的
            context.startActivity(alarmAlert);

    然后弹出alarm  这个界面
            Class c = AlarmAlert.class;
    其中public class AlarmAlert extends AlarmAlertFullScreen  所以系统睡眠之后被alarm唤醒弹出的alarm就是这边start的
    public class AlarmReceiver extends BroadcastReceiver {

        /** If the alarm is older than STALE_WINDOW, ignore.  It
            is probably the result of a time or timezone change */
        private final static int STALE_WINDOW = 30 * 60 * 1000;

        @Override
        public void onReceive(Context context, Intent intent) {
        .........
            Intent alarmAlert = new Intent(context, c);
            alarmAlert.putExtra(Alarms.ALARM_INTENT_EXTRA, alarm);
            alarmAlert.setFlags(Intent.FLAG_ACTIVITY_NEW_TASK
                    | Intent.FLAG_ACTIVITY_NO_USER_ACTION);
            context.startActivity(alarmAlert);
        ........
    }

    到这里alarm 就显示出来了

  • 相关阅读:
    XAF中实现Combox属性编辑(官方)
    XAF 支持多数据库
    XAF 如何使用复合主键和复合外键
    如何禁止双击ListView记录显示DetailView?
    XAF中主从列表模式下获取当前主对象实例
    使用一个非持久字段PersistentAlias
    XAF 如何将文件存储在文件系统中而不是数据库中
    XAF中如何制作弹出窗体选择数据到ListView列表
    XAF 如何用其他线程更新对象
    XPO中 聚合函数的使用(Count,Max,Sum,Min)
  • 原文地址:https://www.cnblogs.com/Hwangroid/p/2209681.html
Copyright © 2020-2023  润新知