提交 8cac15a5 编写于 作者: S shawn_he

update doc

Signed-off-by: Nshawn_he <shawn.he@huawei.com>
上级 93fedf04
...@@ -3,7 +3,11 @@ ...@@ -3,7 +3,11 @@
## Basic Concepts ## Basic Concepts
The inter-process communication (IPC) and remote procedure call (RPC) mechanisms are used to implement cross-process communication. The difference between them lies in that IPC uses the Binder driver to implement cross-process communication within a device, whereas RPC uses the DSoftBus driver to implement cross-process communication across devices. The reason why cross-process communication is needed is that each process has its own independent resources and memory space and one process is not allowed to access the resources and memory space of other processes. IPC and RPC usually use the client-server model, where the client (service requester, that is, the process that requests a service) obtains the proxy of the server (service provider, that is, the process that provides the service) and uses the proxy to read and write data to implement data communication across processes. More specifically, the client constructs a proxy object of the server. The proxy object has the same functions as the server. To access a certain API of the server, you only need to access the corresponding API in the proxy object. The proxy object sends the request to the server, and the server processes the received request and returns the processing result to the proxy object through the driver. Then, the proxy object forwards the processing result to the client. The server registers system abilities (SAs) with the system ability manager (SAMgr), which manages the SAs and provides APIs for clients. To communicate with a specific SA, the client must obtain the proxy of the SA from SAMgr. In the following sections, proxy represents the service requester, and stub represents the service provider. The inter-process communication (IPC) and remote procedure call (RPC) mechanisms are used to implement cross-process communication. The difference between them lies in that IPC uses the Binder driver to implement cross-process communication within a device, whereas RPC uses the DSoftBus driver to implement cross-process communication across devices.
The reason why cross-process communication is needed is that each process has its own independent resources and memory space and one process is not allowed to access the resources and memory space of other processes. IPC and RPC usually use the client-server model, where the client (service requester, that is, the process that requests a service) obtains the proxy of the server (service provider, that is, the process that provides the service) and uses the proxy to read and write data to implement data communication across processes. More specifically, the client constructs a proxy object of the server. The proxy object has the same functions as the server. To access a certain API of the server, you only need to access the corresponding API in the proxy object. The proxy object sends the request to the server, and the server processes the received request and returns the processing result to the proxy object through the driver. Then, the proxy object forwards the processing result to the client. The server registers system abilities (SAs) with the system ability manager (SAMgr), which manages the SAs and provides APIs for clients. To communicate with a specific SA, the client must obtain the proxy of the SA from SAMgr.
In the following sections, proxy represents the service requester, and stub represents the service provider.
![IPC&RPC communication mechanisms](figures/IPC_RPC_communication.PNG) ![IPC&RPC communication mechanisms](figures/IPC_RPC_communication.PNG)
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