Clients access the objects using TCP.
客户使用TCP访问对象。
That is why there is a preference for using TCP.
这就是偏好于使用TCP的原因。
We must do one more thing to redirect all the requests using TCP/IP protocol
我们必须再做一件事情,就是使用TCP/IP 协议来重定向所有请求
Similarly, many different applications can be using TCP or UDP at any one time.
相似地,许多不同的程序可以随时调用TCP或UDP。
Paralleling at the IP level shares many of the same characteristics of using TCP rather than UDP.
ip层上的并行和使用TCP而不是UD p有许多相同特征。
The client performs a unicast protocol rollover and then connects to the stream by using TCP.
客户端执行单播协议翻转,然后使用TCP连接到该流。
If you are using TCP, instead of SSL for your WebSEAL junction, skip this step and proceed to step 5.
如果您使用的是TCP而不是SSL作为您的WebSEAL连接,那么跳过该步骤,转到步骤5。
Therefore, the real-time data stream transmission is not suitable for using TCP but mostly uses UDP.
因此,TCP不适合传输实时数据流,大多采用UDP来传输。
Cisco's Web server will reply and start sending your application the necessary data using TCP sessions.
思科的网站服务器将会回复并开始向你发送你的应用程序所需的使用TCP会话的数据。
As you can tell from the structure of the IOR, this will usually entail using TCP as the transport mechanism.
您可以区别IOR的结构,通常必须使用TCP作为传送机制。
The service can be provided steadily when primary server goes wrong by using TCP connection migratory technology.
TCP连接迁移技术使网络可以在主服务器发生故障的情况下稳定地提供服务。
In comparison: When using TCP as protocol, the workplace machine would try to initiate a connection to the other machine.
比较一下:当使用TCP作为协定时,工作电脑会试著启始到另一台机器的连接。
In the previous article, I discussed a chat application using TCP sockets. In this part, I will show how to do it using UDP sockets.
在前一篇文章中,我讨论了一个使用TCP套接字聊天应用程序。在本部分中,我将展示如何使用UD P套接字。
Of course, compared to the 100 to 110 microseonds when using TCP over gigabit Ethernet, InfiniBand still provides a significant improvement.
当然,与通过千兆位以太网使用TCP时的 100 至 110微秒相比,InfiniBand已经有了很大提升。
Multi-client chat using TCP system (1) server, multiple clients can connect to the server, note that the client can also enter a nickname.
利用TCP实现多客户聊天系统 (1)服务器运行,多个客户端都能够连接到服务器,注意,客户端还可以输入昵称。
Using TCP Wrappers, or wrappers, is an easy way to protect and secure your machines based on daemon use and where the client is coming from.
通过使用TCPWrappers,或 wrappers,可以轻松地保护您的主机,在客户端接入时,守护进程能安全使用。
This is the standard client/server database configuration similar to other relational databases, allowing concurrent connections using TCP sockets.
这是类似于其他关系数据库的标准客户机/服务器数据库配置,允许出现使用TCP 套接字的并发连接。
Client processes communicate with the pseudo daemon through a UNIX-domain socket (that's a socket in the file system) rather than using TCP or UDP.
客户机进程通过unix域套接字(即文件系统中的套接字)与pseudo守护进程进行通信,而不是使用TCP或UDP进行通信。
In these networks, receivers can experience a drastic reduction in application throughput when simultaneously requesting data from many servers using TCP.
在这些网络,接收器就可以体验在应用吞吐量大幅减少,同时要求时,使用多台服务器的TCP数据。
If the clients only listen to the stream, then it is far easier to use UDP for distributing one stream to many clients than using TCP, implementation wise.
如果客户只听流,那么更容易使用UD P分发一个流比使用TCP很多客户,实现智慧。
This is fine if you've restricted access to localhost, as in the xinetd configuration shown earlier, or if you implement similar restrictions using TCP Wrappers.
如果您已限制对本地主机的访问(如前面展示的xinetd配置所示),或者您已使用TCP Wrappers实现了类似的限制,那么这不成问题。
There are three kinds of invading and attacking action in this thesis, they are the model of using HTTP, the model of using TCP, and the model of using ICMP.
本论文研究的入侵攻击类型主要有三大类,它们分别是:与HTTP协议相关的典型入侵攻击,与TCP协议相关的典型入侵攻击以及与ICMP协议相关的典型入侵攻击。
The internet sends information as discrete packets of data using a suite ofprotocols known as TCP/IP.
该网络使用TCP/IP 协议发送离散的数据包来传输信息。
In the following sections you will find more detailed information about ICMP and TCP as well as some interesting attacks using these protocols.
在以下几节中,您将找到关于ICMP和TCP的更详细的信息以及一些使用这些协议的有趣的攻击。
The server kernel sends the message to the client machines using the network protocol, such as TCP.
服务器内核使用网络协议(如 TCP)将消息发送到客户端计算机。
A client connects to the server, usually on TCP port 80, and makes a simple request using the HTTP protocol.
客户机连接服务器(通常通过TCP端口80),使用HTTP协议发出一个简单的请求。
The ESP header is located after the IP header and before the transport mode protocol (UDP or TCP) or before an encapsulated IP header when using tunneling.
ESP报头位于IP报头之后,传输模式(UDP或者TCP)之前,或者当使用隧道时是在封装的IP报头之前。
The ESP header is located after the IP header and before the transport mode protocol (UDP or TCP) or before an encapsulated IP header when using tunneling.
ESP报头位于IP报头之后,传输模式(UDP或者TCP)之前,或者当使用隧道时是在封装的IP报头之前。
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