为客户机和服务器段编写类型映射。
客户机和服务器都遵从统一的接口。
查看客户机和服务器间的通信。
运行Axis客户机和服务器。
客户机和服务器之间消耗的带宽更少。
此时,客户机和服务器有了一条安全通道。
运行总线客户机和服务器
为客户机和服务器引入了一个动态编程模型。
Introduces a dynamic programming model for both server and client.
头文件包含在客户机和服务器源代码文件中。
The header file is included in the client and server source files.
客户机和服务器之间的简单交互如图1所示。
The simple interaction between client and server is shown in Figure 1.
接下来,看看在客户机和服务器上的实现方式。
让我们看一下客户机和服务器之间的消息交换。
Let's look at a message exchange between a client and a server.
客户机和服务器可以查询共享内存区域的位置。
The client and server can query the location of the shared memory resource
客户机和服务器之间不存在登录过程特定的通信。
There is no login process specific communication between client and server.
这样,客户机和服务器之间的连接就建立起来了。
After this, the connection between client and server is established.
添加ids客户机和服务器机器的主机主体。
换句话说,客户机和服务器之间的任何人都可以看见它。
In other words: It's visible to anyone between the client machine and the server.
这些类型映射被存储在客户机和服务器上的映射注册表中。
These type mappings are stored in a mapping registry on the client and server.
您可以在同一台机器上设置客户机和服务器软件。
You can set up both the client and server software on one machine.
图1说明客户机和服务器通过网络完成RPC调用的方式。
Figure1 illustrates the way a client and server completes an RPC call over the network.
简单起见,假定客户机和服务器位于同一机器上。
For simplicity, let's assume that your client and server are located on the same machine.
客户机和服务器之间的频繁通信受到了控制,性能得到了提高。
The chatty communications between the client and the server went away and performance improved.
在本文的示例中,将演示客户机和服务器可以采用的不同方法。
You'll see how these alternatives for both client and server work in this article's examples.
该逻辑可以包含在客户机上或在客户机和服务器间传播。
This logic can be contained on the client or spread across the client and the server.
与此相反,WSRP使用分布式范例将客户机和服务器的表示分开。
By contrast, WSRP splits presentation between the client and the server in a distributed paradigm.
客户机和服务器间的标准交换语法基于某些OMG详细说明的需求。
The standard exchange syntax between the client and the server is based on certain requirements detailed by the OMG.
它支持不同消息类型的订阅,并能够从客户机和服务器过程进行访问。
It supports subscription to different message types and can be accessed both from client and server processes.
应该检查客户机和服务器上的信任存储库,删除任何不需要的签署者。
You should review the trust stores on the clients and servers and remove any signers which are not needed.
我们在此处将遵循该约定,为每个客户机和服务器创建两个密钥存储。
We'll follow that convention here by creating two key stores for each of the clients and the server.
该方法的优点是不需要在客户机和服务器机器之间进行传输。
This approach has the virtue of not requiring transfers between the client and server machines.
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