# 远端状态订阅开发实例 IPC/RPC提供对远端Stub对象状态的订阅机制, 在远端Stub对象消亡时,可触发消亡通知告诉本地Proxy对象。这种状态通知订阅需要调用特定接口完成,当不再需要订阅时也需要调用特定接口取消。使用这种订阅机制的用户,需要实现消亡通知接口DeathRecipient并实现onRemoteDied方法清理资源。该方法会在远端Stub对象所在进程消亡或所在设备离开组网时被回调。值得注意的是,调用这些接口有一定的顺序。首先,需要Proxy订阅Stub消亡通知,若在订阅期间Stub状态正常,则在不再需要时取消订阅;若在订阅期间Stub所在进程退出或者所在设备退出组网,则会自动触发Proxy自定义的后续操作。 ## 使用场景 这种订阅机制适用于本地Proxy对象需要感知远端Stub对象所在进程消亡,或所在设备离开组网的场景。当Proxy感知到Stub端消亡后,可适当清理本地资源。此外,RPC目前不提供匿名Stub对象的消亡通知,即只有向SAMgr注册过的服务才能被订阅消亡通知,IPC则支持匿名对象的消亡通知。 ## Native侧接口 | 接口名 | 返回值类型 | 功能描述 | | -------- | -------- | -------- | | AddDeathRecipient(const sptr\ &recipient); | bool | 订阅远端Stub对象状态。 | | RemoveDeathRecipient(const sptr\ &recipient); | bool | 取消订阅远端Stub对象状态。 | | OnRemoteDied(const wptr\ &object); | void | 当远端Stub对象死亡时回调。 | ### 参考代码 ```C++ #include "iremote_broker.h" #include "iremote_stub.h" //定义消息码 enum { TRANS_ID_PING_ABILITY = 5, TRANS_ID_REVERSED_MONITOR }; const std::string DESCRIPTOR = "test.ITestAbility"; class ITestService : public IRemoteBroker { public: // DECLARE_INTERFACE_DESCRIPTOR是必需的,入参需使用std::u16string; DECLARE_INTERFACE_DESCRIPTOR(to_utf16(DESCRIPTOR)); virtual int TestPingAbility(const std::u16string &dummy) = 0; // 定义业务函数 }; class TestServiceProxy : public IRemoteProxy { public: explicit TestAbilityProxy(const sptr &impl); virtual int TestPingAbility(const std::u16string &dummy) override; int TestAnonymousStub(); private: static inline BrokerDelegator delegator_; // 方便后续使用iface_cast宏 }; TestServiceProxy::TestServiceProxy(const sptr &impl) : IRemoteProxy(impl) { } int TestServiceProxy::TestPingAbility(const std::u16string &dummy){ MessageOption option; MessageParcel dataParcel, replyParcel; dataParcel.WriteString16(dummy); int error = PeerHolder::Remote()->SendRequest(TRANS_ID_PING_ABILITY, dataParcel, replyParcel, option); int result = (error == ERR_NONE) ? replyParcel.ReadInt32() : -1; return result; } ``` ```c++ #include "iremote_object.h" class TestDeathRecipient : public IRemoteObject::DeathRecipient { public: virtual void OnRemoteDied(const wptr& remoteObject); } void TestDeathRecipient::OnRemoteDied(const wptr& remoteObject) { } ``` ```c++ sptr object = new IPCObjectProxy(1, to_utf16(DESCRIPTOR)); sptr deathRecipient (new TestDeathRecipient());// 构造一个消亡通知对象 bool result = object->AddDeathRecipient(deathRecipient); // 注册消亡通知 result = object->RemoveDeathRecipient(deathRecipient); // 移除消亡通知 ``` ## JS侧接口 | 接口名 | 返回值类型 | 功能描述 | | -------------------- | ---------- | ------------------------------------------------------------ | | addDeathRecippient | boolean | 注册用于接收远程对象消亡通知的回调,增加proxy对象上的消亡通知。 | | removeDeathRecipient | boolean | 注销用于接收远程对象消亡通知的回调。 | | onRemoteDied | void | 在成功添加死亡通知订阅后,当远端对象死亡时,将自动调用本方法。 | ### 参考代码 ```ts import FA from "@ohos.ability.featureAbility"; let proxy; let connect = { onConnect: function(elementName, remoteProxy) { console.log("RpcClient: js onConnect called."); proxy = remoteProxy; }, onDisconnect: function(elementName) { console.log("RpcClient: onDisconnect"); }, onFailed: function() { console.log("RpcClient: onFailed"); } }; let want = { "bundleName": "com.ohos.server", "abilityName": "com.ohos.server.EntryAbility", }; FA.connectAbility(want, connect); class MyDeathRecipient { onRemoteDied() { console.log("server died"); } } let deathRecipient = new MyDeathRecipient(); proxy.addDeathRecippient(deathRecipient, 0); proxy.removeDeathRecipient(deathRecipient, 0); ``` ## Stub感知Proxy消亡(匿名Stub的使用) 正向的消亡通知是Proxy感知Stub的状态,若想达到反向的死消亡通知,即Stub感知Proxy的状态,可以巧妙的利用正向消亡通知。如两个进程A(原Stub所在进程)和B(原Proxy所在进程),进程B在获取到进程A的Proxy对象后,在B进程新建一个匿名Stub对象(匿名指未向SAMgr注册),可称之为回调Stub,再通过SendRequest接口将回调Stub传给进程A的原Stub。这样一来,进程A便获取到了进程B的回调Proxy。当进程B消亡或B所在设备离开组网时,回调Stub会消亡,回调Proxy会感知,进而通知给原Stub,便实现了反向消亡通知。 注意: > 反向死亡通知仅限设备内跨进程通信使用,不可用于跨设备。 > 当匿名Stub对象没有被任何一个Proxy指向的时候,内核会自动回收。 ### 参考代码 ```c++ //Proxy int TestAbilityProxy::TestAnonymousStub() { MessageOption option; MessageParcel dataParcel, replyParcel; dataParcel.UpdateDataVersion(Remote()); dataParcel.WriteRemoteObject(new TestAbilityStub()); int error = Remote()->SendRequest(TRANS_ID_REVERSED_MONITOR,dataParcel, replyParcel, option); int result = (error == ERR_NONE) ? replyParcel.ReadInt32() : -1; return result; } //Stub int TestAbilityStub::OnRemoteRequest(uint32_t code, MessageParcel &data, MessageParcel &reply, MessageOption &option) { switch (code) { case TRANS_ID_REVERSED_MONITOR: { sptr obj = data.ReadRemoteObject(); if (obj == nullptr) { reply.WriteInt32(ERR_NULL_OBJECT); return ERR_NULL_OBJECT; } bool result = obj->AddDeathRecipient(new TestDeathRecipient()); result ? reply.WriteInt32(ERR_NONE) : reply.WriteInt32(-1); break; } default: break; } return ERR_NONE; } ```