从零开始怎么写android native service?
Posted coding码场
tags:
篇首语:本文由小常识网(cha138.com)小编为大家整理,主要介绍了从零开始怎么写android native service?相关的知识,希望对你有一定的参考价值。
从零开始怎么写android native service
Android service对于从事android开发的人都不是一个陌生的东西,很多人可能会觉得服务很简单。服务是简单,因为复杂的别人做了,所以才会觉得简单。我们先梳理一下服务的分类,首先有本地服务跟系统服务的区分,而在APP里写的服务大多就成为Java服务或者应用服务。
/****************************************************************************************************/
声明:本博内容均由http://blog.csdn.net/edsam49原创,转载请注明出处,谢谢!
/*****************************************************************************************************/
做APP的人写个应用服务相对来说是最简单的,因为extends了一个service后几个简单的接口就可以跑起来了,写完这种服务可能也只是对服务一知半解,因为值钱的service类Google的人已经帮你写好了,这是你的福气为你带来了便利,当然也可能会麻痹你:),但是做APP的人会有能解决问题是首要任务了,有时间还是对它了解更清楚点比较好,在此不再讨论这个。
做设备做系统的人,经常可能会去写系统服务,也就是framework下面的服务,systemserver里面注册的服务,写这种服务一般来说比较少,只有做设备系统的才会这样干,才有机会有完成的系统代码,可以在里面自由遨游,笔者三年前写过一个,可以看看【自己动手从零开始写一个完整的android Service】http://blog.csdn.net/edsam49/article/details/8163639
那剩下的一个是本地服务,也就是native service,这种服务我们了解的系统里面多媒体、audio system都是写成了本地服务,这样写的好处就是运行的效率更高一点,因为C/C++先天性就比JAVA的运行效率要高一点。笔者就是由于长期主要从事的都是底层开发的,我们有时有这么一种需求,又要运行效率高,又要好移植,主要是考虑推广写东西给广大客户,那么我就写一个本地服务,这样是最独立的了,效率也最高了,那一个本地服务到底怎么写呢?大多数的人写过的服务以java服务居多,真正写本地服务的不多,本地服务相对来说又是更复杂一点的。因此决定从零开始自己动手写一个本地service,下面就大概描述一下过程。
本地服务有四大块,服务接口(IService),服务代理(也就是BpService),服务stub(也就是BnService),服务实体(Service);下面笔者的实例就以demoNativeService来开启,力求简单,里面就写了两个接口;
首先定义好服务接口IdemoNativeService,IdemoNativeService服务接口的父类是IInterface,在里面主要是要声明一下接口,在DECLARE_META_INTERFACE(demoNativeService),代码如下:
class IdemoNativeService : public IInterface
public:
enum
CONNECT = IBinder::FIRST_CALL_TRANSACTION,
PRINTSTRING_CMD,
;
public:
DECLARE_META_INTERFACE(demoNativeService);
virtual status_t connect(int pid,int previewhw,int intf,int fmt,int chan) = 0;
virtual status_t printString(const char *str) = 0;
;
当然定义好了IdemoNativeService的头文件,就需要去实操了,先来搞定BpdemoNativeService,它的父类是BpInterface<IdemoNativeService>,这里面主要是涉及数据的跨进程用到的parcel,读啊,写啊,按套路来,也不难,也有AIDL工具可以使用,帮你转出来,再稍微修改一下就可以了,里面有一个很重要的remote,这个和remote就是幕后功臣啊,它保存了服务实例的对象啊,它是来之BpRefBase的一个成员,生成服务的时候,会得到赋值,定义完了以后,很重要的一个程序就是要IMPLEMENT_META_INTERFACE(demoNativeService,"android.hardware.IdemoNativeService");这个宏是非常重要的,跟前面那个DECLARE是对应的,前面声明,后面实现,当然我们带的参数跟的名字是必须一致的,这样才能正常沟通嘛!
class BpdemoNativeService: public BpInterface<IdemoNativeService>
public:
BpdemoNativeService(const sp<IBinder>& impl)
: BpInterface<IdemoNativeService>(impl)
virtual status_t connect(int pid,int previewhw,int intf,int fmt,int chan)
Parcel data, reply;
data.writeInterfaceToken(IdemoNativeService::getInterfaceDescriptor());
data.writeInt32(pid);
data.writeInt32(previewhw);
data.writeInt32(intf);
data.writeInt32(fmt);
data.writeInt32(chan);
remote()->transact(IdemoNativeService::CONNECT, data, &reply);
return reply.readInt32();
virtual status_t printString(const char *str)
Parcel data, reply;
data.writeInterfaceToken(IdemoNativeService::getInterfaceDescriptor());
data.writeCString(str);
remote()->transact(IdemoNativeService::PRINTSTRING_CMD, data, &reply);
return reply.readInt32();
;
IMPLEMENT_META_INTERFACE(demoNativeService, "android.hardware.IdemoNativeService");//android.hardware.IdemoNativeService ds.demonativeservice
接着需要写服务stub了,BndemoNativeService的父类是BnInterface<IdemoNativeService>,有没有发现BndemoNativeService跟BpdemoNativeService,都会基于接口类IdemoNativeService,这样沟通起来的接口就唯一了,就具备了对话的可能;
class BndemoNativeService: public BnInterface<IdemoNativeService>
public:
virtual status_t onTransact( uint32_t code,const Parcel& data,Parcel* reply,uint32_t flags = 0);
;
status_t BndemoNativeService::onTransact(uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags)
switch(code)
/*case CONNECT:
CHECK_INTERFACE(IdemoNativeService, data, reply);
int pid = data.readInt32();
int previewhw = data.readInt32();
int intf = data.readInt32();
int fmt = data.readInt32();
int chan = data.readInt32();
reply->writeInt32(connect(pid,previewhw,intf,fmt,chan));
return NO_ERROR;
break;
case PRINTSTRING_CMD:
CHECK_INTERFACE(IdemoNativeService, data, reply);
const char *str;
str = data.readCString();
reply->writeInt32(printString(str));
return NO_ERROR;
break;*/
default:
return BBinder::onTransact(code, data, reply, flags);
到这就轮到了大块头service实体demoNativeService了,demoNativeService是基于BndemoNativeService,在demoNativeService里面定义了一个instantiate()接口用于添加service到servicemanager里面去,注意demoNativeService()跟析构函数~demoNativeService()需要写成private的,免得别人可以new出对象来。在里面重写了onTransact,一旦BpdemoNativeService有风吹草动,就会联动到BndemoNativeService,因为服务实体重写了onTransact,所以实际就会先执行到demoNativeService::onTransact这里来,在这里面处理不了,可以再转给BpdemoNativeService的onTransact或者直接到BBinder的onTransact;
void demoNativeService::instantiate()
android::defaultServiceManager()->addService(
IdemoNativeService::descriptor, new demoNativeService());
demoNativeService::demoNativeService()
ALOGE("demoNativeService created");
mOpened = 1;
demoNativeService::~demoNativeService()
ALOGE("demoNativeService destroyed");
status_t demoNativeService::connect(int pid,int previewhw,int intf,int fmt,int chan)
ALOGD("demoNativeService connect:%d, %d, %d, %d, %d", pid, previewhw, intf, fmt, chan);
return 88;
status_t demoNativeService::printString(const char *str)
ALOGD("demoNativeService printString:%s", str);
return 66;
#if 1
status_t demoNativeService::onTransact(uint32_t code,
const android::Parcel &data,
android::Parcel *reply,
uint32_t flags)
ALOGD("OnTransact(%u,%u)", code, flags);
switch(code)
case CONNECT:
CHECK_INTERFACE(IdemoNativeService, data, reply);
int pid = data.readInt32();
int previewhw = data.readInt32();
int intf = data.readInt32();
int fmt = data.readInt32();
int chan = data.readInt32();
ALOGD("CONNECT: %d, %d, %d, %d, %d\\n", pid,previewhw,intf,fmt,chan);
reply->writeInt32(connect(pid,previewhw,intf,fmt,chan));
return NO_ERROR;
break;
case PRINTSTRING_CMD:
CHECK_INTERFACE(IdemoNativeService, data, reply);
const char *str;
str = data.readCString();
ALOGD("PrintString: %s\\n", str);
ALOGD("printString: %s\\n", str);
reply->writeInt32(printString(str));
return NO_ERROR;
break;
default:
return BndemoNativeService::onTransact(code, data, reply, flags);
return NO_ERROR;
#endif
写完了服务,那我们就再写一个可执行文件来生成一下,里面startThreadPool生成线程池,然后再调用joinThreadPool来监听变化;
sp<ProcessState> proc(ProcessState::self());
sp<IServiceManager> sm = defaultServiceManager();
// ALOGI("ServiceManager: %p", sm.get());
demoNativeService::instantiate();
ProcessState::self()->startThreadPool();
IPCThreadState::self()->joinThreadPool();
写到这,可以说服务已经可以跑起来了,那我们怎么验证呢,最快的办法还是写一个可执行文件去测一下它的接口,看通没通就知道了;
int ret= -1;
int pid = IPCThreadState::self()->getCallingPid();
ALOGI("demoNativeService client is now starting, pid=%d", pid);
android::sp<android::IServiceManager> sm = android::defaultServiceManager();
android::sp<android::IBinder> binder;
android::sp<IdemoNativeService> shw;
do
binder = sm->getService(android::String16("ds.demonativeservice"));
if (binder != 0)
break;
ALOGW("IdemoNativeService not published, waiting...");
usleep(500000);
while(true);
ALOGI("IdemoNativeService client is now trying");
shw = android::interface_cast<IdemoNativeService>(binder);
ret = shw->printString("Good man desheng");
ALOGI("demoNativeService client printString, ret=%d", ret);
ret = shw->connect(pid,1, 2, 3, 4);
ALOGI("demoNativeService client connect, ret=%d", ret);
下面就是笔者测试的打印,如下:
# dem
demoNativeServiceclient demoNativeServiceserver
# demoNativeServiceserver &
[2] 2332
# --------- beginning of /dev/log/main
02-19 17:10:57.890 E/HelloWorldService( 2332): demoNativeService created
#
# dem
demoNativeServiceclient demoNativeServiceserver
# demoNativeServiceclient
02-19 17:11:02.520 I/demoNativeService/Service( 2334): demoNativeService client is now starting, pid=2334
02-19 17:11:02.520 I/demoNativeService/Service( 2334): IdemoNativeService client is now trying
02-19 17:11:02.520 D/HelloWorldService( 2332): OnTransact(2,16)
02-19 17:11:02.520 D/HelloWorldService( 2332): PrintString: Good man desheng
02-19 17:11:02.520 D/HelloWorldService( 2332): printString: Good man desheng
02-19 17:11:02.520 D/HelloWorldService( 2332): demoNativeService printString:Good man desheng
02-19 17:11:02.520 I/demoNativeService/Service( 2334): demoNativeService client printString, ret=66
02-19 17:11:02.520 D/HelloWorldService( 2332): OnTransact(1,16)
02-19 17:11:02.520 D/HelloWorldService( 2332): CONNECT: 2334, 1, 2, 3, 4
02-19 17:11:02.520 D/HelloWorldService( 2332): demoNativeService connect:2334, 1, 2, 3, 4
02-19 17:11:02.520 I/demoNativeService/Service( 2334): demoNativeService client connect, ret=88
02-19 17:11:02.520 I/demoNativeService/Service( 2334): Hello client is now exiting
#
# 02-19 17:11:07.540 D/InitAlarmsService( 2259): Clearing and rescheduling alarms.
# service list
Found 78 services:
0 ds.demonativeservice: [android.hardware.IdemoNativeService]
1 phone: [com.android.internal.telephony.ITelephony]
2 iphonesubinfo: [com.android.internal.telephony.IPhoneSubInfo]
3 simphonebook: [com.android.internal.telephony.IIccPhoneBook]
4 isms: [com.android.internal.telephony.ISms]
5 jeavoxmiddleware: [android.jeavox.IMiddleWareService]
写到这,如果要给应用调用的话,还需要写Client,JNI,JNI及以上在此不再讨论了,我们就简易来看看client怎么处理吧,其实有点类似上面那个可执行文件的写法,这里可能就是有一个对象的概念,可以保持,大概如下:
demoNativeServiceClient::demoNativeServiceClient()
sp<IServiceManager> sm = defaultServiceManager();
sp<IBinder> binder = sm->getService(String16("ds.demonativeservice"));
mdemoNativeService = interface_cast<IdemoNativeService>(binder);
demoNativeServiceClient::~demoNativeServiceClient()
mdemoNativeService = NULL;
int32_t demoNativeServiceClient::connect(int previewhw,int intf,int fmt,int chan)
return mdemoNativeService->connect(getCallingPid(),previewhw,intf,fmt,chan);
int32_t demoNativeServiceClient::printString(const char *str)
return mdemoNativeService->printString(str);
罗哩罗嗦写了这么多,请大家拍砖,轻拍一下:)
开发者涨薪指南 48位大咖的思考法则、工作方式、逻辑体系以上是关于从零开始怎么写android native service?的主要内容,如果未能解决你的问题,请参考以下文章
深入浅出React Native 3: 从零开始写一个Hello World